CN112846576A - Steel gate relief mounting control method - Google Patents

Abstract

The invention provides a steel gate relief mounting control method, and particularly relates to the technical field of reliefs. The steel gate relief mounting control method comprises the following steps: preparing a plurality of embossment blocks for splicing into a target embossment; pre-assembling all the embossment blocks on a special platform to be used as target embossments so as to determine the installation sequence of the embossment blocks on the steel gate and the relative installation position of each embossment block on the steel gate; marking all the embossment blocks with numbers in sequence according to the installation sequence; and sequentially mounting all the embossment blocks on the steel gate according to the relative mounting positions and the numbers and splicing the embossment blocks into the target embossment. The installation sequence and the relative installation position of the embossment blocks on the steel gate are determined in a pre-splicing mode, the installation efficiency of the target embossment on the steel gate is improved, and the installation difficulty is reduced.

Description

Steel gate relief mounting control method

Technical Field

The invention relates to the technical field of embossment, in particular to a steel gate embossment mounting control method.

Background

At present, the demand of society for relief sculpture is getting bigger and bigger, especially the demand for large-scale bas-relief sculpture is getting bigger and bigger, and it is often used for architectural decoration, garden landscape, etc. The traditional stone carving technology is mainly used for small stone carving, is convenient to carve and transport, has low requirements on manufacturing and installation, and belongs to the field of placed artworks.

The large-scale bas-relief has higher manufacturability, and provides higher requirements for links such as manufacturing, transportation, installation and the like, the relief works are installed on the steel gate in order to meet the requirements of engineering appearance and engineering background culture in many projects, and the gate relief works have high installation difficulty and low efficiency due to large size and special use environment.

Disclosure of Invention

The invention solves the problems of high installation difficulty and low efficiency of the existing gate relief works due to large size and special use environment.

In order to solve the above problems, the present invention provides a method for controlling installation of a relief of a steel gate, comprising:

preparing a plurality of embossment blocks for splicing into a target embossment;

pre-assembling all the embossment blocks on a special platform to form the target embossment so as to determine the installation sequence of the embossment blocks on the steel gate and the relative installation position of each embossment block on the steel gate;

marking all the relief blocks with numbers in sequence according to the installation sequence;

and sequentially mounting all the embossment blocks on the steel gate according to the relative mounting positions and the serial numbers and splicing the embossment blocks into the target embossment.

Further, before the preparing the plurality of embossment blocks for splicing into the target embossment, the method further comprises:

and determining the number of the embossment blocks and the shape of each embossment block according to the design drawing of the target embossment and the size of the target embossment.

Further, before all the embossment blocks are sequentially installed on the steel gate according to the relative installation positions and the serial numbers and spliced into the target embossment, the method further comprises the following steps:

and determining an installation section on the steel gate, and cleaning the installation section, wherein the installation section is the position of the target embossment on the steel gate.

Further, after the installation section is determined on the steel gate and is cleaned, the method further comprises the following steps:

and drawing lines in the installation intervals according to the relative installation positions to obtain a plurality of installation block intervals, so that each embossment block corresponds to one installation block interval.

Furthermore, after drawing a line in the installation section according to the relative installation position to obtain a plurality of installation block sections so that each embossment block corresponds to one installation block section, the method further comprises the following steps:

and respectively welding corner connectors in part or all of the mounting block areas, wherein the corner connectors are suitable for hanging the corresponding relief blocks.

Further, the sequentially mounting all the embossment blocks on the steel gate according to the relative mounting positions and the numbers and splicing the embossment blocks into the target embossment comprises:

when an outer relief block with part or all of the contour edge of the target relief is installed, fixing the part or all of the contour edge of the outer relief block and the steel gate in a spot welding manner;

when the ring inner embossment blocks without partial or all contour edges of the target embossment are installed, the splicing edges of the ring inner embossment blocks and the splicing edges of the adjacent embossment blocks after welding are fixed in a spot welding mode.

Further, after all the embossment blocks are sequentially installed on the steel gate according to the relative installation positions and the numbers and spliced into the target embossment, the method further comprises the following steps:

adding welding spots on the contour edge of the target relief, wherein the distance between adjacent welding spots which are positioned on the contour edge of the target relief and are lower than a set height is a first set distance, the distance between adjacent welding spots which are positioned on the contour edge of the target relief and are higher than the set height is a second set distance, or/and adding welding spots on the splicing edges of adjacent relief blocks, wherein the distance between adjacent welding spots which are positioned on the splicing edges of adjacent relief blocks and are lower than the set height is the first set distance, and the distance between adjacent welding spots which are positioned on the splicing edges of adjacent relief blocks and are higher than the set height is the second set height;

adding one welding spot at the corner of the outline edge of the target embossment, or/and adding one welding spot at the corner of the splicing edge of the adjacent embossment blocks;

polishing and flattening the welding spots;

wherein the set height is below the water line, and the first set pitch is less than the second set pitch.

Further, after preparing a plurality of blocks for splicing into a target relief, the method further includes: installing a bracket on the inner side of each embossment block;

after the partial or all contour edges of the outer embossment blocks are fixed with the steel gate in a spot welding mode, the method further comprises the following steps: welding a square steel pipe to the support on the inner side of the outer embossment block, and welding one end, far away from the support, of the square steel pipe to the steel gate;

make the concatenation limit of interior relief piece of circle and the adjacent after welding the concatenation limit of relief piece carries out after the spot welding is fixed, still includes: and welding the square steel pipe to the support on the inner side of the ring inner relief block, and welding one end, far away from the support, of the square steel pipe to the steel gate.

Further, after all the embossment blocks are sequentially installed on the steel gate according to the relative installation positions and the numbers and spliced into the target embossment, the method further comprises the following steps:

and injecting a foaming agent into the target embossment through a preset hole at the top of at least one uppermost embossment block on the steel gate.

Further, after all the embossment blocks are sequentially installed on the steel gate according to the relative installation positions and the numbers and spliced into the target embossment, the method further comprises the following steps:

and polishing the surface of the target embossment by using polishing equipment to enable the target embossment to expose the natural color of the material.

Compared with the prior art, the steel gate relief mounting control method provided by the invention has the following technical effects:

through preparing the polylith and being used for the concatenation to be the relief (sculpture) piece of target relief, it is fixed through installing relief (sculpture) piece in proper order, with this reduction installation difficulty, the installation effectiveness is improved, and through assembling these relief (sculpture) pieces in advance on special platform in advance, and then confirm the installation order of relief (sculpture) piece on the steel gate and the relative mounted position of every relief (sculpture) piece on the steel gate, and mark the serial number to whole relief (sculpture) pieces in proper order according to the installation order, install relief (sculpture) piece on the steel gate in proper order according to relative mounted position and serial number then, further improve the installation effectiveness.

Drawings

FIG. 1 is a schematic flow chart of a steel gate relief installation control method according to an embodiment of the present invention;

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

In the description of the present invention, it is to be understood that the terms "upper", "lower", and the like, indicate orientations or positional relationships based on those shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.

Referring to fig. 1, an embodiment of the present invention provides a method for controlling installation of a relief of a steel gate, including:

preparing a plurality of embossment blocks for splicing into a target embossment;

pre-assembling all the embossment blocks on a special platform to be used as target embossments so as to determine the installation sequence of the embossment blocks on the steel gate and the relative installation position of each embossment block on the steel gate;

marking all the embossment blocks with numbers in sequence according to the installation sequence;

and sequentially mounting all the embossment blocks on the steel gate according to the relative mounting positions and the numbers and splicing the embossment blocks into the target embossment.

It can be understood that the target embossment is the embossment which needs to be installed on the steel gate, and because the steel gate is in a large environment and has a large size, if the whole integrated embossment is installed on the steel gate as the target embossment, not only is the production difficulty high and the time consumption long, but also the transportation difficulty is caused because the whole embossment is large and has a large weight, the small-range movement is also difficult after the steel gate is transported to a construction site, and the fixation on the gate is also a difficult problem. Therefore, according to the installation control method for the steel gate embossment provided by the embodiment, the plurality of embossment blocks used for splicing the target embossment are prepared, the embossment blocks are sequentially and fixedly installed, so that the installation difficulty is reduced, the installation efficiency is improved, the embossment blocks are pre-assembled on the special platform in advance, the installation sequence of the embossment blocks on the steel gate and the relative installation position of each embossment block on the steel gate are further determined, all embossment blocks are sequentially marked with numbers according to the installation sequence, and the embossment blocks are sequentially installed on the steel gate according to the relative installation positions and the numbers, so that the installation efficiency is further improved.

It can be understood that the number can be written on the outer side or the inner side of the embossment block, or a label with the number is pasted on the outer side or the inner side of the embossment block, so that the number can be removed after the target embossment is assembled on the steel gate conveniently, the appearance is not influenced, and of course, the number can not be removed finally if the number is marked on the inner side of the embossment block.

It can be understood that, the inside of the embossment block refers to the side close to the steel gate in the target embossment state, the target embossment can be understood as a basin-shaped structure and is reversely buckled and installed on the steel gate, of course, the specific shape of the target embossment is determined according to actual needs, which can be a person, an animal, a plant and the like, a space is formed between the target embossment and the steel gate, the use of embossment materials is greatly reduced, the cost is reduced, the preparation difficulty is reduced, the weight is reduced and the like, therefore, the target embossment is preferably of a hollow structure, the embodiment is the target embossment assembled into the hollow structure, and therefore, a part of embossment block may not contact with the steel gate when being assembled.

It is understood that the relative mounting position of each block refers to the positional relationship between each block and other blocks in the target relief state.

It can be understood that, the whole embossment blocks are pre-assembled on the special platform to be the target embossment in the process, the embossment blocks and the special platform are not fixed, the special platform can be set to a certain degree, the available platform can comprise a platform body and a plurality of telescopic rod pieces distributed on the platform body in an array mode, the telescopic rod pieces can stretch to a certain length and maintain the length, the telescopic rods in corresponding positions can be controlled to rise to support the corresponding embossment blocks, and the 'embossment blocks and the special platform are not fixed'. Meanwhile, in the pre-assembly process, organization acceptance personnel evaluate the ornamental effect and the manufacturing quality of the pre-assembled whole target relief and carry out factory acceptance, and the pre-assembled whole target relief is properly rectified and qualified.

Optionally, before preparing the plurality of embossment blocks for splicing into the target embossment, the method further comprises:

the number of the embossment blocks and the shape of each embossment block are determined according to the design drawing of the target embossment and the size of the target embossment.

Here, before the relief blocks are prepared, how many blocks it is divided into, and the shape of each block may be determined according to the design drawing of the target relief and the size of the target relief.

Optionally, before all the embossment blocks are sequentially installed on the steel gate according to the relative installation positions and the numbers and spliced into the target embossment, the method further includes:

and determining an installation section on the steel gate, and cleaning the installation section, wherein the installation section is the position of the target embossment on the steel gate.

Here, the mounting section is cleaned to make the mounting section flat and burr-free and to remove impurities such as rust on the mounting section.

Here, the contour of the mounting section may be the outer contour of the target embossment, so that when the embossment block is mounted, it is ensured that the outer embossment block having contact with the steel gate is mounted, and the position can be accurately aligned.

Optionally, after determining an installation area on the steel gate and cleaning the installation area, the method further includes:

and drawing lines in the installation intervals according to the relative installation positions to obtain a plurality of installation block intervals, so that each embossment block corresponds to one installation block interval.

Here, according to the installation block section, when each embossment block is installed, the vicinity of the position to be installed can be quickly found, and since the embossment block is a three-dimensional structural member, the shape of the installation block section is not the same as that of the corresponding embossment block, but the relative installation position can be quickly found for the embossment block.

Optionally, after drawing a line in the installation section according to the relative installation position to obtain a plurality of installation block sections so that each embossment block corresponds to one installation block section, the method further includes:

and respectively welding corner connectors in the partial or all mounting block areas, wherein the corner connectors are suitable for hanging the corresponding relief blocks.

Here, because the relief block is a three-dimensional structure, partial relief block can be hung on the corner brace on the corresponding mounting block interval first, provide a support for the relief block, be convenient for make the fine setting of the position of this relief block, when welding, also more laborsaving.

Referring to fig. 1, optionally, sequentially mounting all the embossment blocks on the steel gate according to the relative mounting positions and numbers and splicing into the target embossment, including:

when the outer relief block with the partial or all contour edges of the target relief is installed, the partial or all contour edges of the outer relief block and the steel gate are fixed in a spot welding mode;

when the ring internal embossment blocks without partial or all contour edges of the target embossment are installed, the splicing edges of the ring internal embossment blocks and the splicing edges of the adjacent embossment blocks after welding are fixed in a spot welding mode.

Here, the contour edge of the target relief means that when the whole of the target relief is mounted on a dedicated platform or a steel gate, the target relief has a contour edge of the outermost circle, the contour edge is the contour edge of the target relief, the relief blocks with partial or all contour edges of the target relief are marked as outer relief blocks, the relief blocks without partial or all contour edges of the target relief are marked as inner relief blocks, wherein when the target relief is taken as a whole, after the target relief is installed with a steel gate or a special platform or other planes, there is a closed overall contour edge, and after the target relief is "broken" into a plurality of relief blocks, the overall contour edge is correspondingly "broken" into a plurality of sections, some of the relief blocks have partial or full contour edges of the target relief, thus, here, the outer embossing block can be welded to the steel shutter by means of the profile edge during installation.

Here, the joining side of the emboss block is a side for joining with an adjacent emboss block, and the joining side is located inside the closed outline side after all embosses are joined to the target embosses.

Optionally, after all the embossment blocks are sequentially installed on the steel gate according to the relative installation positions and the numbers and spliced into the target embossment, the method further includes:

adding welding spots on the contour edge of the target embossment, enabling the distance between adjacent welding spots which are positioned on the contour edge of the target embossment and are lower than the set height to be a first set distance, and enabling the distance between adjacent welding spots which are positioned on the contour edge of the target embossment and are higher than the set height to be a second set distance, or/and adding welding spots on the splicing edges of adjacent embossment blocks, enabling the distance between adjacent welding spots which are positioned on the splicing edges of the adjacent embossment blocks and are lower than the set height to be the first set distance, and enabling the distance between adjacent welding spots which are positioned on the splicing edges of the adjacent embossment blocks and are higher than the set height to be the second set height;

adding a welding spot at the corner of the outline edge of the target embossment, or/and adding a welding spot at the corner of the splicing edge of the adjacent embossment blocks;

polishing and flattening the welding spots;

wherein the set height is below the water line, and the first set distance is less than the second set distance.

After the initial welding and fixing, a plurality of welding spots are added on the outline edge for increasing the structural strength between the outer embossment blocks and the steel gate, and the welding spots are also added at the splicing edge between the adjacent embossment blocks for reinforcing the strength of the splicing between the adjacent embossment blocks.

Here, since the target relief is attached to the steel gate, the target relief is in contact with water for a long time, the pitch of the pads is set to be smaller depending on the water level line at which the steel gate is located, if the pads are at a set height or lower, the pitch of the pads at the set height or lower is set to be smaller, and if the pads are at a set height or higher, the pitch of the pads at the set height or higher is set to be relatively larger, thereby preventing corrosion by water. Since the water line is not fixed, it has a certain fluctuation, and therefore, the set height is set at a height lower than the water line, so that even if the water line rises, the set height can still be below the water line, for example, the conventional water line is 0m, the set height is-2.67 m, and if the water line rises by 2m, the set height is still-0.67 m below the rising water line.

Optionally, after preparing a plurality of blocks for stitching into the target relief, the method further includes: installing a bracket on the inner side of each embossment block;

after fixing the partial or all contour edges of the outer embossment blocks and the steel gate in a spot welding mode, the method further comprises the following steps: welding a square steel pipe on the support on the inner side of the outer embossment block, and welding one end of the square steel pipe, which is far away from the support, with the steel gate;

after the concatenation limit of the sculpture piece in making the circle and the concatenation limit of the adjacent sculpture piece after having welded carry out spot welding fixed, still include: the support at the inner side of the ring inner relief block is welded with a square steel pipe, and one end, far away from the support, of the square steel pipe is welded with the steel gate.

Here, the structural strength inside the target embossment is imposed by the bracket and the square steel pipe, and stronger water pressure and impact force of water can be borne.

Referring to fig. 1, optionally, after all the embossment blocks are sequentially installed on the steel gate according to the relative installation positions and numbers and spliced into the target embossment, the method further includes:

and injecting a foaming agent into the target embossment through a preset hole at the top of at least one embossment block at the top of the steel gate.

Here, the foaming agent is injected into the target relief to fill the inside of the target relief, thereby further enhancing the sealing property and structural strength thereof. The foaming agent adopts FOMA model, meets the German DIN4102 standard, does not contain Freon, has the expansion rate of 88 percent, and the overflowed foaming agent is cleaned up.

Optionally, the preformed hole can be provided with a plurality of, and a plurality of preformed holes all are located the top of the relief (sculpture) piece of the top, and a plurality of preformed holes are at same height, can accelerate the packing of foaming agent.

Optionally, after all the embossment blocks are sequentially installed on the steel gate according to the relative installation positions and the numbers and spliced into the target embossment, the method further includes:

and polishing the surface of the target embossment by using polishing equipment to enable the target embossment to expose the natural color of the material.

Here, since the target emboss is mounted on the steel gate, and thus is in contact with water for a long time, the material of the emboss block is preferably copper material.

Although the present invention is disclosed above, the present invention is not limited thereto. Various changes and modifications may be effected therein by one skilled in the art without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (10)

1. A steel gate relief mounting control method is characterized by comprising the following steps:

preparing a plurality of embossment blocks for splicing into a target embossment;

pre-assembling all the embossment blocks on a special platform to form the target embossment so as to determine the installation sequence of the embossment blocks on the steel gate and the relative installation position of each embossment block on the steel gate;

marking all the relief blocks with numbers in sequence according to the installation sequence;

and sequentially mounting all the embossment blocks on the steel gate according to the relative mounting positions and the serial numbers and splicing the embossment blocks into the target embossment.

2. The steel gate embossment mounting control method according to claim 1, wherein before preparing the plurality of embossment blocks for splicing into the target embossment, the method further comprises:

and determining the number of the embossment blocks and the shape of each embossment block according to the design drawing of the target embossment and the size of the target embossment.

3. The steel gate relief installation control method according to claim 1, wherein before the step of sequentially installing all the relief blocks on the steel gate according to the relative installation positions and the numbers and splicing the relief blocks into the target relief, the method further comprises the following steps:

and determining an installation section on the steel gate, and cleaning the installation section, wherein the installation section is the position of the target embossment on the steel gate.

4. The method of controlling the installation of a relief of a steel gate according to claim 3, wherein the step of determining an installation area on the steel gate and cleaning the installation area further comprises:

and drawing lines in the installation intervals according to the relative installation positions to obtain a plurality of installation block intervals, so that each embossment block corresponds to one installation block interval.

5. The method of controlling installation of a relief of a steel gate according to claim 3, wherein said drawing a line within said installation section according to said relative installation position to obtain a plurality of installation block sections such that each of said relief blocks corresponds to one of said installation block sections, further comprises:

and respectively welding corner connectors in part or all of the mounting block areas, wherein the corner connectors are suitable for hanging the corresponding relief blocks.

6. The steel gate relief installation control method according to claim 1, wherein the sequentially installing all the relief blocks on the steel gate according to the relative installation positions and the numbers and splicing the relief blocks into the target relief comprises:

when an outer relief block with part or all of the contour edge of the target relief is installed, fixing the part or all of the contour edge of the outer relief block and the steel gate in a spot welding manner;

when the ring inner embossment blocks without partial or all contour edges of the target embossment are installed, the splicing edges of the ring inner embossment blocks and the splicing edges of the adjacent embossment blocks after welding are fixed in a spot welding mode.

7. The steel gate relief installation control method according to claim 6, wherein after the all relief blocks are sequentially installed on the steel gate according to the relative installation positions and the numbers and spliced into the target relief, the method further comprises:

adding welding spots on the contour edge of the target relief, wherein the distance between adjacent welding spots which are positioned on the contour edge of the target relief and are lower than a set height is a first set distance, the distance between adjacent welding spots which are positioned on the contour edge of the target relief and are higher than the set height is a second set distance, or/and adding welding spots on the splicing edges of adjacent relief blocks, wherein the distance between adjacent welding spots which are positioned on the splicing edges of adjacent relief blocks and are lower than the set height is the first set distance, and the distance between adjacent welding spots which are positioned on the splicing edges of adjacent relief blocks and are higher than the set height is the second set height;

adding one welding spot at the corner of the outline edge of the target embossment, or/and adding one welding spot at the corner of the splicing edge of the adjacent embossment blocks;

polishing and flattening the welding spots;

wherein the set height is below the water line, and the first set pitch is less than the second set pitch.

8. The steel gate embossment mounting control method according to claim 6, wherein after the preparing the plurality of embossment blocks for splicing into the target embossment, the method further comprises: installing a bracket on the inner side of each embossment block;

after the partial or all contour edges of the outer embossment blocks are fixed with the steel gate in a spot welding mode, the method further comprises the following steps: welding a square steel pipe to the support on the inner side of the outer embossment block, and welding one end, far away from the support, of the square steel pipe to the steel gate;

make the concatenation limit of interior relief piece of circle and the adjacent after welding the concatenation limit of relief piece carries out after the spot welding is fixed, still includes: and welding the square steel pipe to the support on the inner side of the ring inner relief block, and welding one end, far away from the support, of the square steel pipe to the steel gate.

9. The steel gate relief installation control method according to any one of claims 1 to 8, further comprising, after sequentially installing all the relief blocks on the steel gate according to the relative installation positions and the numbers and splicing the blocks into the target relief:

and injecting a foaming agent into the target embossment through a preset hole at the top of at least one uppermost embossment block on the steel gate.

10. The steel gate relief installation control method according to any one of claims 1 to 8, further comprising, after sequentially installing all the relief blocks on the steel gate according to the relative installation positions and the numbers and splicing the blocks into the target relief:

and polishing the surface of the target embossment by using polishing equipment to enable the target embossment to expose the natural color of the material.

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