CN112177330B - Building template arranging method - Google Patents

Abstract

The invention belongs to the technical field of aluminum alloy template manufacturing, and discloses a building template arranging method, which comprises the following steps: s1, making installation drawings, and splitting the installation drawings into installation drawings according to the encoding general diagram; and S2, arranging the stair template according to the arrangement mounting drawing, wherein the stair template adopts a semi-arrangement mode. Compared with the prior art, the invention adopts a swinging mode, the parts are swung on the ground, the alignment property is checked on the ground after each part is swung, and the problems of design, processing and assembly are checked, rectified and improved. And after the problem is rectified, the problem is coded and packaged according to the placing position. The invention has the beneficial effects that: the aluminum template is not required to be actually preassembled, and the parts such as walls, buildings, beams, stairs and windows can be placed on the ground, so that the workload of carrying and assembling and disassembling is reduced, 50% of labor is reduced, the problems of design, processing and assembling of the template can be verified on the ground, the template can be rectified and reformed in time in a factory, and the quality of the aluminum template sent to a construction site is ensured.

Description

Building template arranging method

Technical Field

The invention belongs to the technical field of aluminum alloy template manufacturing, and particularly relates to a building template arranging method.

Background

In the aluminum alloy template industry for construction, aluminum templates are manufactured in factories and then sent to construction sites from the factories. In order to ensure the correctness of the template, the aluminum template needs to be checked before being sent to a construction site, whether the aluminum template has errors in design, processing and accessory installation is verified, and the aluminum template is numbered on each template after being verified to be correct, so that the position of the template can be quickly found when the aluminum template is installed in the construction site.

In the related art, the method for inspecting the aluminum template is a traditional in-plant preassembly method. Namely, all the aluminum templates are spliced into the shape of a house in a factory, and then are numbered, dismantled and packaged after verification to be sent to a construction site for use.

The related technology has the defects that the method is large in workload, long in time consumption and large in occupied space. Taking an item with an area of 1800 square as an example, a matched team stock preparation group comprises 6 persons, a pre-assembly group comprises 12 persons, a code assembly group comprises 4 persons respectively, a module disassembly group comprises 16 persons, the pre-assembly period is 6 days, and the period and labor of each process are as follows: paying off and transporting the prepared material for 1 day, using 6 workers, coding for 1.5 days, using 6 workers, assembling for 4 days, using 16 workers, pre-assembling for 4 days, using 48 workers, removing the mould, packaging and cleaning the yard for 1 day, using 16 workers, and accumulating 92 workers, wherein the pre-assembling ratio is maximum and reaches 52%.

Therefore, there is a need to provide a new method for placing building templates to solve the above-mentioned technical problems.

Disclosure of Invention

A building template arranging method comprises the following steps:

s1, making installation drawing

Splitting the swinging installation drawing according to the coding general drawing in each house type;

s2, staircase dress

Put the dress to stair template according to foretell pendulum dress installation picture, stair template adopts the mode of half pendulum dress, stair template includes: the wall formwork comprises a vertical wall formwork, a beam bottom formwork, beam side formworks, a rest platform formwork, a stair bottom plate formwork, a step formwork and side plate formworks, wherein the vertical wall formwork and the beam bottom formwork are provided with holes according to the arrangement installation drawing, the number of the beam side formworks is two, and the two sets of the beam side formworks are respectively arranged at two side parts under the beam bottom formwork and connected with the rest platform; and unfolding the stair bottom plate template, the step template and the side plate template according to the swinging installation drawing, placing the stair bottom plate template, the step template and the side plate template on the ground, and perforating according to the requirement of the swinging installation drawing.

Preferably, the building template arranging method further comprises the following steps:

s3, wall decoration and coding

Put the dress to the wall form according to foretell pendulum dress installation drawing, the wall form adopts the mode of full pendulum dress, the wall form includes: the corner aluminum, the internal corner C groove, the node side wall plate, the wall plate and the K plate; the joint side wall plate and the wall plate are unfolded and placed on the ground according to the swinging installation diagram to realize swinging installation, the K plate and the corresponding wall plate are unfolded and placed on the ground according to the swinging installation diagram to realize swinging installation together, the K plate and the corresponding wall plate are required to be arranged according to the sequence of wall numbers during swinging installation, a single blocking wall is swung open along a straight line during swinging installation, the angle aluminum is unfolded and placed on the ground according to the swinging installation diagram, and the angle aluminum is correspondingly swung and installed in place; after the wall template is arranged, checking and verifying, verifying without errors, and simultaneously performing coding and angle aluminum connection operation, wherein the angle aluminum connection operation refers to the connection of angle aluminum and the bottom of a wallboard.

Preferably, the building template arranging method further comprises the following steps:

s4, floor arranging and coding

The floor template is arranged according to the arrangement mounting drawing, the floor template is arranged in a full arrangement mode, a passageway space needs to be reserved during floor template arranging, the hanging die is opened and fixed on the floor according to the mounting drawing, after arranging is completed, checking and verifying are carried out, encoding is carried out after verification is carried out, packaging is carried out after encoding, and the template which needs to be opened and provided with the C groove is left during packaging and is not packaged.

Preferably, the building template arranging method further comprises the following steps:

s5, beam swing and coding

The beam template is arranged according to the arrangement mounting diagram, the beam template adopts a full arrangement mode, an outer beam is provided with a hole along with a C groove of a floor, a C groove is arranged on a lower hanging beam, an inner beam is provided with a hole according to a preassembly operation mode, and the lower hanging beam is connected into a whole by a pin sheet according to the arrangement mounting diagram, so that the installation in a construction site is facilitated; and packaging after encoding.

Preferably, the building template arranging method further comprises the following steps:

s6, node arranging and coding

The nodes are arranged according to the arrangement mounting diagram, the nodes are arranged in a full arrangement mode, holes are formed in the upper side plate along with a C groove in the floor, holes are formed in an anti-floating arrangement mode, the nodes are arranged in a modular arrangement mode, and numbering is carried out in a pre-installation simulation mode; after the placing is finished, checking and verifying the codes without errors; and packaging after encoding.

Preferably, the pendulum installation diagram includes: wall installation drawing, beam installation drawing, floor installation drawing, node distribution drawing, stair drawing and hanging pattern drawing; the coding general diagram is a drawing drawn according to a designed installation diagram and a coding rule;

wherein: the wall installation map includes: the wall part template graph and the wall part back ridge graph; the wall installation map includes: the system comprises a wall coding graph, a node side plate partition graph and anti-ridge wall height information, wherein the node side plate partition graph is a graph of a small short wall at a node side plate part, and the height between the small short wall and a main wall is marked in the node side plate partition graph;

wherein: the beam mounting diagram comprises a wall beam coding diagram; the outer beam with lines, the node or the inner side plate of the flat window in the beam mounting diagram; the node or the side plate at the inner side of the flat window comprises hole position information;

wherein: the floor installation drawing comprises a beam and a room code drawing, and the room code drawing comprises hole position information;

wherein: the node distribution diagram comprises a room coding diagram and comprises upper side hole site information;

wherein: the stair graph comprises room, wall and beam coding graphs;

wherein: the hanging pattern comprises a room coding pattern.

Preferably, in step S4, the C-slot and the corresponding template are pinned before packaging to avoid confusion.

Preferably, the code is a number for identification filled in the template by paint; the rule of the coding is as follows: and coding the positions in turn clockwise from the lower left corner of the template arranged in a swinging way.

Preferably, in step S1, if there is a part other than the house type, the house type code pattern needs to be separately created.

Compared with the prior art, the invention adopts a swinging mode, the parts are swung on the ground, the alignment property is checked on the ground after each part is swung, and the problems of design, processing and assembly are checked, rectified and improved. And after the problem is rectified, the problem is coded and packaged according to the placing position. The invention has the beneficial effects that: the aluminum template is not required to be actually preassembled, and the parts such as walls, buildings, beams, stairs and windows can be placed on the ground, so that the workload of carrying and assembling and disassembling is reduced, 50% of labor is reduced, the problems of design, processing and assembling of the template can be verified on the ground, the template can be rectified and reformed in time in a factory, and the quality of the aluminum template sent to a construction site is ensured.

Detailed Description

The present invention will be further described below by way of examples.

A building template arranging method comprises the following steps:

s1, making installation drawing

Splitting the swinging installation drawing according to the coding general drawing in each house type;

s2, staircase dress

Put the dress to stair template according to foretell pendulum dress installation picture, stair template adopts the mode of half pendulum dress, stair template includes: the wall formwork comprises a vertical wall formwork, a beam bottom formwork, beam side formworks, a rest platform formwork, a stair bottom plate formwork, a step formwork and side plate formworks, wherein the vertical wall formwork and the beam bottom formwork are provided with holes according to the arrangement installation drawing, the number of the beam side formworks is two, and the two sets of the beam side formworks are respectively arranged at two side parts under the beam bottom formwork and connected with the rest platform; and unfolding the stair bottom plate template, the step template and the side plate template according to the swinging installation drawing, placing the stair bottom plate template, the step template and the side plate template on the ground, and perforating according to the requirement of the swinging installation drawing.

In this embodiment, the stair template is in a half-swinging mode. It should be noted that: the semi-swinging means: the inspection of partial stair templates adopts a preassembly mode, namely, the three-dimensional assembly is carried out according to a designed structure; the inspection of partial stair templates adopts a swinging mode, namely swinging on the ground, inspecting the alignment property on the ground after each part is swung, and inspecting and rectifying the problems of design, processing and assembly.

The main reason for adopting the mode is that the stair template is relatively complex, and the adoption of the preassembly mode is beneficial to finding the problem of the template; problems can be found by adopting a swinging mode, the effect of the problems is lower than that of a pre-installation mode, but the efficiency is obviously improved. The stair template is checked in a semi-swinging mode, on one hand, the problems of design, processing, assembly and the like of all templates can be basically checked, and the stair template can be normally used after being sent to a construction site; on the other hand, the construction period can be shortened, and the effect is improved. The arrangement sequence of the stair templates disclosed in the embodiment is beneficial to finding problems and coding and shortening the construction period.

Further, as another embodiment of the present invention, the building template arranging method further includes the steps of:

s3, wall decoration and coding

Put the dress to the wall form according to foretell pendulum dress installation drawing, the wall form adopts the mode of full pendulum dress, the wall form includes: the corner aluminum, the internal corner C groove, the node side wall plate, the wall plate and the K plate; the joint side wall plate and the wall plate are unfolded and placed on the ground according to the swinging installation diagram to realize swinging installation, the K plate and the corresponding wall plate are unfolded and placed on the ground according to the swinging installation diagram to realize swinging installation together, the K plate and the corresponding wall plate are required to be arranged according to the sequence of wall numbers during swinging installation, a single blocking wall is swung open along a straight line during swinging installation, the angle aluminum is unfolded and placed on the ground according to the swinging installation diagram, and the angle aluminum is correspondingly swung and installed in place; after the wall template is arranged, checking and verifying, verifying without errors, and simultaneously performing coding and angle aluminum connection operation, wherein the angle aluminum connection operation refers to the connection of angle aluminum and the bottom of a wallboard.

In this embodiment, a method for arranging a wall is further disclosed, where the wall form is arranged in a full-arrangement manner, and what needs to be described is that: the full-swinging means that the templates forming the wall are swung on the ground in different positions, the alignment property is checked on the ground after each position is swung, and the problems of design, processing and assembly are checked and corrected. And after the problem is rectified, the problem is coded and packaged according to the placing position. The arrangement sequence of the wall templates disclosed in the embodiment is beneficial to finding problems and coding and shortening the construction period.

Further, the pendulum installation diagram includes: wall installation drawing, beam installation drawing, floor installation drawing, node distribution drawing, stair drawing and hanging pattern drawing; the coding general diagram is a drawing drawn according to a designed installation diagram and a coding rule;

wherein: the wall installation map includes: the wall part template graph and the wall part back ridge graph; the wall installation map includes: the system comprises a wall coding graph, a node side plate partition graph and anti-ridge wall height information, wherein the node side plate partition graph is a graph of a small short wall at a node side plate part, and the height between the small short wall and a main wall is marked in the node side plate partition graph;

wherein: the beam mounting diagram comprises a wall beam coding diagram; the outer beam with lines, the node or the inner side plate of the flat window in the beam mounting diagram; the node or the side plate at the inner side of the flat window comprises hole position information;

wherein: the floor installation drawing comprises a beam and a room code drawing, and the room code drawing comprises hole position information;

wherein: the node distribution diagram comprises a room coding diagram and comprises upper side hole site information;

wherein: the stair graph comprises room, wall and beam coding graphs;

wherein: the hanging pattern comprises a room coding pattern.

Preferably, in step S4, the C-slot and the corresponding template are pinned together before packaging, so as to avoid confusion.

Preferably, the code is a number for identification filled in the template by paint; the rule of the coding is as follows: and coding the positions in turn clockwise from the lower left corner of the template arranged in a swinging way.

Further, in step S1, if there is a part other than the house type, the house type code pattern needs to be separately produced.

In the above embodiment, the drawings included in the mounting drawing and the design of the contents of the drawings are used to provide reference for the mounting of each part, which is beneficial to guiding the operator to complete the mounting quickly and is beneficial to the inspection of the template problem.

Further, as another embodiment of the present invention, the building template arranging method further includes the steps of:

s4, floor arranging and coding

The floor template is arranged according to the arrangement mounting drawing, the floor template is arranged in a full arrangement mode, a passageway space needs to be reserved during floor template arranging, the hanging die is opened and fixed on the floor according to the mounting drawing, after arranging is completed, checking and verifying are carried out, encoding is carried out after verification is carried out, packaging is carried out after encoding, and the template which needs to be opened and provided with the C groove is left during packaging and is not packaged. The open C-slot template is not packed for matching with other templates for inspection.

In this embodiment, a method for placing a floor formwork is further disclosed, where the floor formwork is placed in a full-placing manner, and what needs to be described is that: the full-swinging means that the templates forming the floor are swung on the ground in different parts, the alignment property is checked on the ground after each part is swung, and the problems of design, processing and assembly are checked, rectified and modified. And after the problem is rectified, the problem is coded and packaged according to the placing position. The arrangement sequence of the floor formwork disclosed in the embodiment is beneficial to finding problems and coding and shortening the construction period.

Further, as another embodiment of the present invention, the building template arranging method further includes the steps of:

s5, beam swing and coding

The beam template is installed in a full-swinging mode, an outer beam is perforated along with a C groove of a floor, the C groove is formed in the lower hanging beam, an inner beam is perforated in a pre-installation operation mode, and the lower hanging beam is connected into a whole by using pin pieces according to the installation drawing, so that the beam template is convenient to install in a construction site; and packaging after encoding.

In this embodiment, a method for placing a beam template is further disclosed, where the beam template is placed in a full-placing manner, and what needs to be described is that: the full swinging is that the template forming the beam is swung on the ground in different parts, and after each part is swung, the alignment property is checked on the ground, and the problems of design, processing and assembly are checked and corrected. And after the problem is rectified, the problem is coded and packaged according to the placing position. The beam template arrangement sequence disclosed in the embodiment is beneficial to finding problems and coding and shortening the construction period.

Further, as another embodiment of the present invention, the building template arranging method further includes the steps of:

s6, node arranging and coding

The nodes are arranged according to the arrangement mounting diagram, the nodes are arranged in a full arrangement mode, holes are formed in the upper side plate along with a C groove in the floor, holes are formed in an anti-floating arrangement mode, the nodes are arranged in a modular arrangement mode, and numbering is carried out in a pre-installation simulation mode; after the placing is finished, checking and verifying the codes without errors; and packaging after encoding.

In this embodiment, a method for placing a node template is further disclosed, where the node template is placed in a full-placing manner, and it is described that: the full-swinging mode is that the templates forming the nodes are swung on the ground in different positions, the alignment performance is checked on the ground after each position is swung, and the problems of design, processing and assembly are checked, rectified and improved. And after the problem is rectified, the problem is coded and packaged according to the placing position. The arrangement sequence of the node templates disclosed in the embodiment is beneficial to finding problems and coding and shortening the construction period.

It should be noted that:

(1) in the present application, the term "anti-floating" in the "anti-floating mode" in step S6 means that the upper cover plate of the node is moved upward during the concrete pouring process, and therefore, a hole needs to be formed in the upper cover plate to connect the upper cover plate and the lower cover plate for anti-floating.

(2) In the present application, the "modular swing" in step S6 refers to a manner of connecting the small form plates into a whole and then swinging the small form plates.

(3) In the invention, the line refers to a specific shape of a building, and is a modeling piece, aiming at increasing the aesthetic degree of the building, and the line needs to be connected with a small low wall.

(4) In the invention, if the lifting wallboard exists in the wall template, the wallboard needs to be marked by paint, the installation position of the wallboard interferes with other structures, and the wallboard needs to be lifted and moved, and the wallboard is called as the lifting wallboard. The elevation height needs to be marked with paint.

(5) The names of the templates referred to in the present specification are consistent with the names in the industry. For example, the outer beam in the application is explained as an outer beam template in the technical field of building aluminum templates.

Compared with the prior art, the invention adopts a swinging mode, the parts are swung on the ground, the alignment property is checked on the ground after each part is swung, and the problems of design, processing and assembly are checked, rectified and improved. And after the problem is rectified, the problem is coded and packaged according to the placing position. The invention has the beneficial effects that: the aluminum template is not required to be actually preassembled, and the parts such as walls, buildings, beams, stairs and windows can be placed on the ground, so that the workload of carrying and assembling and disassembling is reduced, 50% of labor is reduced, the problems of design, processing and assembling of the template can be verified on the ground, the template can be rectified and reformed in time in a factory, and the quality of the aluminum template sent to a construction site is ensured.

While the foregoing is directed to embodiments of the present invention, it will be understood by those skilled in the art that various changes may be made without departing from the spirit and scope of the invention.

Claims (9)

1. The building template arranging method is characterized by comprising the following steps:

s1, making installation drawing

Splitting the swinging installation drawing according to the coding general drawing in each house type;

s2, staircase dress

Put the dress to stair template according to foretell pendulum dress installation picture, stair template adopts the mode of half pendulum dress, stair template includes: the wall formwork comprises a vertical wall formwork, a beam bottom formwork, beam side formworks, a rest platform formwork, a stair bottom plate formwork, a step formwork and side plate formworks, wherein the vertical wall formwork and the beam bottom formwork are provided with holes according to the arrangement installation drawing, the number of the beam side formworks is two, and the two sets of the beam side formworks are respectively arranged at two side parts under the beam bottom formwork and connected with the rest platform; and unfolding the stair bottom plate template, the step template and the side plate template according to the swinging installation drawing, placing the stair bottom plate template, the step template and the side plate template on the ground, and perforating according to the requirement of the swinging installation drawing.

2. The building template placement method according to claim 1, further comprising the steps of:

s3, wall decoration and coding

Put the dress to the wall form according to foretell pendulum dress installation drawing, the wall form adopts the mode of full pendulum dress, the wall form includes: angle aluminum, an internal corner C groove, a node side wall plate, a wall plate and a K plate; the joint side wall plate and the wall plate are unfolded and placed on the ground according to the swinging installation diagram to realize swinging installation, the K plate and the corresponding wall plate are unfolded and placed on the ground according to the swinging installation diagram to realize swinging installation together, the K plate and the corresponding wall plate are required to be arranged according to the sequence of wall numbers during swinging installation, a single blocking wall is swung open along a straight line during swinging installation, the angle aluminum is unfolded and placed on the ground according to the swinging installation diagram, and the angle aluminum is correspondingly swung and installed in place; after the wall template is arranged, checking and verifying, verifying without errors, and simultaneously performing coding and angle aluminum connection operation, wherein the angle aluminum connection operation refers to the connection of angle aluminum and the bottom of a wallboard.

3. The building template placement method according to claim 2, further comprising the steps of:

s4, floor arranging and coding

The floor template is arranged according to the arrangement mounting drawing, the floor template is arranged in a full arrangement mode, a passageway space needs to be reserved during floor template arranging, the hanging die is opened and fixed on the floor according to the mounting drawing, after arranging is completed, checking and verifying are carried out, encoding is carried out after verification is carried out, packaging is carried out after encoding, and the template which needs to be opened and provided with the C groove is left during packaging and is not packaged.

4. The building template placement method according to claim 3, further comprising the steps of:

s5, beam swing and coding

The beam template is arranged according to the arrangement mounting diagram, the beam template adopts a full arrangement mode, an outer beam is provided with a hole along with a C groove of a floor, a C groove is arranged on a lower hanging beam, an inner beam is provided with a hole according to a preassembly operation mode, and the lower hanging beam is connected into a whole by a pin sheet according to the arrangement mounting diagram, so that the installation in a construction site is facilitated; and packaging after encoding.

5. The building template placement method according to claim 4, further comprising the steps of:

s6, node arranging and coding

The nodes are arranged according to the arrangement mounting diagram, the nodes are arranged in a full arrangement mode, holes are formed in the upper side plate along with a C groove in the floor, holes are formed in an anti-floating arrangement mode, the nodes are arranged in a modular arrangement mode, and numbering is carried out in a pre-installation simulation mode; after the placing is finished, checking and verifying the codes without errors; and packaging after encoding.

6. The method of any of claims 1 to 5, wherein the form work layout comprises: wall installation drawings, beam installation drawings, floor installation drawings, node distribution diagrams, stair drawings and hanging pattern drawings; the coding general diagram is a drawing drawn according to a designed installation diagram and a coding rule;

wherein: the wall installation map includes: the wall part template graph and the wall part back ridge graph; the wall installation map includes: the system comprises a wall coding graph, a node side plate partition graph and anti-ridge wall height information, wherein the node side plate partition graph is a graph of a small short wall at a node side plate part, and the height between the small short wall and a main wall is marked in the node side plate partition graph;

wherein: the beam mounting diagram comprises a wall beam coding diagram; the outer beam with lines, the node or the inner side plate of the flat window in the beam mounting diagram; the node or the side plate at the inner side of the flat window comprises hole position information;

wherein: the floor installation drawing comprises a beam and a room code drawing, and the room code drawing comprises hole position information;

wherein: the node distribution diagram comprises a room coding diagram and comprises upper side hole site information;

wherein: the stair graph comprises room, wall and beam coding graphs;

wherein: the hanging pattern comprises a room coding pattern.

7. The method of claim 3, wherein in step S4, the C-shaped slot and the corresponding form are pinned together before packaging to avoid confusion.

8. The method for putting out building templates as claimed in any one of claims 1 to 5, wherein the code is a number for identification filled in the template by painting; the rule of the coding is as follows: and coding the positions in turn clockwise from the lower left corner of the template arranged in a swinging way.

9. The method of claim 7, wherein in step S1, if there is a part other than the house type, the house type code pattern is required to be made separately.