CN112270360A - Coding method and mounting method of aluminum-plastic part - Google Patents

Abstract

A coding method of an aluminum-plastic accessory comprises the following steps: compiling different model codes according to different models and different sizes of accessories; compiling different installation size codes according to different installation sizes; compiling different installation orientation codes according to different installation orientations; setting all assembly relations among the accessories to establish different assembly models; and compiling the model code, the installation size code and the installation orientation code according to the assembly model to form an installation code. Also relates to an installation method of the aluminum-plastic fitting. The coding method of the aluminum-plastic fitting comprises the steps of defining different types of fittings, editing corresponding codes according to the installation size and the installation direction of the fittings, and arranging a plurality of fittings and the codes in a permutation and combination mode to form installation codes. And the installation of the plurality of aluminum-plastic accessories is realized according to the installation codes, so that the installation of the aluminum-plastic accessories can be realized without drawing files, and the installation efficiency is improved.

Description

Coding method and mounting method of aluminum-plastic part

Technical Field

The application relates to the technical field of aluminum formwork production and installation, in particular to a coding method and an installation method of an aluminum-plastic accessory.

Background

With the rapid popularization of aluminum templates in China, more and more buildings choose to use aluminum molds for construction. At present, in the installation process of aluminum-plastic accessories such as grooves and tongues, grooves and drip lines in the industry, the accessories can be installed only by attaching to a drawing file. And because the aluminium-plastic accessory complexity is higher, the drawing volume is big and complicated to need higher reading level, thereby lead to the problem that the efficiency is low when the operation workman installs the aluminium-plastic accessory.

Disclosure of Invention

In view of the above, there is a need for a coding method and an installation method for aluminum-plastic parts, which can improve the efficiency of operators, to solve the above problems.

The embodiment of the application provides a coding method of an aluminum-plastic accessory, which comprises the following steps: compiling different model codes according to different models and different sizes of accessories; compiling different installation size codes according to different installation sizes; compiling different installation orientation codes according to different installation orientations; setting all assembly relations among the accessories to establish different assembly models; and compiling the model code, the installation size code and the installation orientation code according to the assembly model to form an installation code. The method comprises the steps of compiling accessories of different models and sizes into different model codes, and compiling corresponding installation size codes and installation position codes according to the installation sizes and installation positions of the accessories. And establishing a combined model of a plurality of accessories according to the model codes, the installation size codes and the installation orientation codes, and forming installation codes according to the combined model. And the installation of the plurality of aluminum-plastic accessories is realized according to the installation codes, so that the installation of the aluminum-plastic accessories can be realized without drawing files, and the installation efficiency is improved.

In at least one embodiment of the present application, the step of "programming different model codes according to different models and different sizes of accessories" includes the steps of: compiling different model codes according to different types of accessories; and compiling the accessories of the same type into different model codes according to different external dimensions. The different accessories are distinguished by defining the accessories of the same type and different sizes and different types as different model codes.

In at least one embodiment of the present application, the model number code, the installation size code, and the installation orientation code are combined by a number and one of a letter and a symbol. By combining letters, symbols and numbers into the installation code, the type of the installation accessories can be determined through the letters or symbols, the sizes of the accessories can be determined through the numbers, and therefore specific information of each accessory can be known from the installation code so as to facilitate installation.

In at least one embodiment of the present application, the step of "programming the model code, the mounting dimension code, and the mounting orientation code to form a mounting code according to the assembly model" includes: combining the model number code, the installation size code, and the installation orientation code of the same accessory into a set; arranging and combining a plurality of the sets to form the installation code. Determining the type, installation size and installation orientation of a specific single accessory by combining a plurality of codes into a set; and arranging and combining a plurality of sets, determining the type, the installation size and the installation orientation of each required accessory, and assembling the required template piece according to the plurality of accessories and the installation size and the installation orientation of the accessories.

In at least one embodiment of the present application, the set is composed of one of the model number codes, a plurality of the mounting size codes, and a plurality of the orientation codes. And determining the installation size and the installation orientation of the single accessory by combining one model code and a plurality of installation size codes and a plurality of orientation codes into a set.

In at least one embodiment of the present application, the set consists of one of the model numbers. And taking a single model code as a set to serve as the beginning of the installation code, and taking the accessory corresponding to the model code as the carrier of other accessories so as to assemble a plurality of accessories into a specific module piece.

In at least one embodiment of the present application, the step of "arranging and combining a plurality of said sets to form said installation code" comprises the steps of: sequentially ordering the plurality of sets according to the installation order; integrating the sorted set to form the installation code. And sequentially arranging a plurality of sets in an optimal installation sequence, and integrating the arranged sets into an installation code. And the specific installation of the template part can be realized according to the installation code so as to improve the working efficiency.

The installation method of the aluminum-plastic part coded according to the coding method of the aluminum-plastic part comprises the following steps: acquiring installation codes comprising model codes, installation size codes and installation orientation codes, wherein the model codes represent models of accessories, the installation size codes represent installation sizes among the accessories, and the installation orientation codes represent relative installation orientations among the accessories; selecting accessories corresponding to the model codes according to the model codes; and assembling the selected accessories according to the installation size codes and the installation orientation codes. By referring to the installation codes, the components are collected and sequentially assembled according to the sequence and the coding positions of the components recorded in the installation codes, so that the assembly of the template components is completed, the efficiency is high, and the error problem caused by the view is avoided.

In at least one embodiment of the present application, the step of assembling the selected plurality of accessories according to the installation size code and the installation orientation code comprises: sequentially arranging the accessories according to the installation code sequence; and assembling the accessory to the appointed part of the upper accessory according to the installation reference, the installation size and the installation direction. By arranging the installation reference and arranging the accessories in sequence according to the installation sequence and the installation size according to the installation reference, the template parts are assembled, and the installation efficiency is improved.

In at least one embodiment of the present application, the mounting reference is one of a face, an edge, or a point. The installation efficiency and accuracy of the accessories are further improved by setting the installation datum to be one of a surface, an edge or a point which can be referenced by a plurality of the accessories and determining the installation position of the accessories according to the installation datum and the installation dimension of the accessories so as to position each accessory.

The coding method of the aluminum-plastic accessory comprises the steps of compiling accessories of different types and sizes into different type codes, and editing the corresponding installation size codes and installation direction codes according to the installation size and the installation direction of the accessories. And establishing a combined model of a plurality of accessories according to the model codes, the installation size codes and the installation orientation codes, and forming installation codes according to the combined model. And the installation of the plurality of aluminum-plastic accessories is realized according to the installation codes, so that the installation of the aluminum-plastic accessories can be realized without drawing files, and the installation efficiency is improved.

Drawings

Fig. 1 is a flow chart of an encoding method of an aluminum plastic accessory in an embodiment.

FIG. 2 is a block diagram of a process for installing an aluminum-plastic fitting according to another embodiment.

Fig. 3 is a schematic view of the aluminum-plastic fitting shown in fig. 1 and 2 installed according to the coding method and the installation method thereof.

Description of the main elements

Assembly body 100

Formwork member 10

Impression groove 20

Drip line 30

Fixing sheet 40

First reference plane M

Second reference plane N

Detailed Description

The embodiments of the present application will be described in conjunction with the drawings in the embodiments of the present application, and it is to be understood that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments.

It will be understood that when an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. When an element is referred to as being "on" another element, it can be directly on the other element or intervening elements may also be present. The terms "top," "bottom," "upper," "lower," "left," "right," "front," "rear," and the like as used herein are for illustrative purposes only.

The embodiment of the application provides a coding method of an aluminum-plastic accessory, which comprises the following steps: compiling different model codes according to different models and different sizes of accessories; compiling different installation size codes according to different installation sizes; compiling different installation orientation codes according to different installation orientations; setting all assembly relations among the accessories to establish different assembly models; and compiling the model code, the installation size code and the installation orientation code according to the assembly model to form an installation code.

The coding method of the aluminum-plastic accessory comprises the steps of compiling accessories of different types and sizes into different type codes, and editing the corresponding installation size codes and installation direction codes according to the installation size and the installation direction of the accessories. And establishing a combined model of a plurality of accessories according to the model codes, the installation size codes and the installation orientation codes, and forming installation codes according to the combined model. And the installation of the plurality of aluminum-plastic accessories is realized according to the installation codes, so that the installation of the aluminum-plastic accessories can be realized without drawing files, and the installation efficiency is improved.

Some embodiments of the present application will be described in detail below with reference to the accompanying drawings. The embodiments described below and the features of the embodiments can be combined with each other without conflict.

Referring to fig. 1, an embodiment of the present application provides a method for encoding an aluminum-plastic accessory, including the following steps:

s10: compiling different model codes according to different models and different sizes of accessories;

s20: compiling different installation size codes according to different installation sizes;

s30: compiling different installation orientation codes according to different installation orientations;

s40: setting all assembly relations among the accessories to establish different assembly models;

s50: and compiling the model code, the installation size code and the installation orientation code according to the assembly model to form an installation code.

Referring to fig. 3, in order to distinguish and arrange different kinds of accessories, a plurality of the accessories are defined as different symbols. In one embodiment, the template member 10 is defined as a, the indent 20 is defined as B, the fixing piece 40 is defined as C, and the drip line 30 is defined as D. It is to be understood that the definition symbol of each of the accessories is not limited thereto, and as in other embodiments, the die plate member 10 is defined as PB, the pressure groove 20 is defined as YBT, the fixing piece 40 is defined as gdp, and the drip line 30 is defined as YDSX.

Step S10 is followed by the step of: compiling different model codes according to different types of accessories; and compiling the accessories of the same category into different model codes according to different overall dimensions. In one embodiment, in order to define the accessories of the same category and different sizes, the size information of the accessories is added to the type information. Such as the die plate member 10 as PB20X1200, the impression 20 as YBT1200, the fixing sheet 40 as G DP80, the drip line 30 as YDSX1200, etc. It will be appreciated that the manner in which the accessory and its dimensions are defined is not limited to this, as in other embodiments, the dimensional information of the accessory may also be added before the type information.

In one embodiment, the number is a combination of a number and one of a letter and a symbol. It is obvious that the present invention is not limited thereto, and any reference numerals may be used to clearly indicate the kinds and sizes of the components.

In steps S20 and S30, in order to clearly show the mounting position of the component, the corresponding code is edited according to the mounting size and mounting orientation of the component. In an embodiment, the encoding is AXB. Where a denotes the distance of the accessory from a reference position and B denotes the distance of the accessory from another reference position. In one embodiment, the code is 80X 20-down, 80 being the distance of the fitting to the right from the left boundary of the assembly 100, 20 being the distance of the fitting down from the upper boundary of the assembly 100, -down being the straight side of the fitting down. The reference position is determined by the characteristics of the fitting.

Step S50 includes the steps of: combining the model number code, the installation size code, and the installation orientation code of the same accessory into a set; arranging and combining a plurality of the sets to form the installation code. In order to clearly show various types of installation information of the accessories, the numbers and codes of the accessories are integrated into a set. In one embodiment, said set comprises one said code and one said number, such as: (0X 0-lower + YBT1200), (horizontal 0X20+ YDSX1200), etc. It is clear that it is not restricted thereto, as in other embodiments, in order to fit other said fittings to a reference fitting, said set of fittings may also consist of a number, such as: PB200X 1200.

The mount code is formed by arranging and combining a plurality of sets, and the set serving as a reference is placed at the beginning of the base, for example, PB200X1200+ (0X 0-lower part)

+ YBT1200) + (horizontal 0X20+ YDSX1200) + (80/500X80+ G DP 80).

Referring to fig. 2, another embodiment of the present application further provides an installation method of an aluminum-plastic fitting, including the following steps:

s60: acquiring installation codes comprising model codes, installation size codes and installation orientation codes, wherein the model codes represent models of accessories, the installation size codes represent installation sizes among the accessories, and the installation orientation codes represent relative installation orientations among the accessories;

s70: and selecting the accessory corresponding to the model code according to the model code.

S80: assembling the selected plurality of accessories according to the installation size codes and the installation orientation codes.

In one embodiment, step S80 includes the steps of: sequentially arranging the accessories according to the installation code sequence; and assembling the accessory to the appointed part of the upper accessory according to the installation reference, the installation size and the installation direction. The mounting reference is one of a plane, an edge, or a point.

Referring to fig. 3, the assembly 100 includes a form member 10, a pressing groove 20, a drip line 30, and a fixing sheet 40. The assembly body 100 has a first reference plane M and a second reference plane N, and the installation code of the assembly body 100 is: PB200X1200+ (0X 0-lower + YBT1200) + (horizontal 0X20+ YDSX1200) + (80/500X80+ G DP 80). Wherein PB200X1200 is interpreted as a type PB template member 10, and the length and width of the template member 10 are 1200mm and 200 mm; (0X 0-lower + YBT1200) is interpreted as a ballast 20 of type YBT, the mounted position of said ballast 20 is at a distance of 0mm from both said first reference plane M and said second reference plane N, and the straight edge of said ballast 20 is downward; (horizontal 0X20+ YDSX1200) is interpreted as a circular water drop 30 of type YDSX, the water drop 30 is installed at a distance of 0mm from the first reference plane M and at a distance of 20mm from the second reference plane N, and the water drop 30 is horizontally laid on the template pressing groove 20;

(80/500X80+ G DP80) is interpreted as a fixing tab 40 of the type G DP, said fixing tab 40 having two, two said fixing tabs 40 at a distance of 80mm and 500mm, respectively, from said first reference plane and at a distance of 80mm from said second reference plane N.

The coding method and the mounting method of the aluminum-plastic fitting define different types of fittings, edit corresponding codes according to the mounting size and the mounting direction of the fittings, and arrange a plurality of fittings and the codes in an arrangement and combination mode to form mounting codes. And the installation of the plurality of aluminum-plastic accessories is realized according to the installation codes, so that the installation of the aluminum-plastic accessories can be realized without drawing files, and the installation efficiency is improved.

In addition, those skilled in the art should realize that the above embodiments are illustrative only and not limiting to the present application, and that suitable changes and modifications to the above embodiments are within the scope of the disclosure of the present application as long as they are within the true spirit and scope of the present application.

Claims (10)

1. The coding method of the aluminum-plastic accessory is characterized by comprising the following steps:

compiling different model codes according to different models and different sizes of accessories;

compiling different installation size codes according to different installation sizes;

compiling different installation orientation codes according to different installation orientations;

setting all assembly relations among the accessories to establish different assembly models; and

and compiling the model code, the installation size code and the installation orientation code according to the assembly model to form an installation code.

2. The method for coding aluminum-plastic parts according to claim 1, wherein the step of programming different model codes according to different models and sizes of parts comprises the steps of:

compiling different model codes according to different types of accessories; and

and compiling the accessories of the same category into different model codes according to different overall dimensions.

3. The method for coding an aluminum-plastic fitting according to claim 1, wherein the model code, the installation size code and the installation orientation code are combined by a number and one of a letter and a symbol.

4. The method for coding an aluminum-plastic fitting according to claim 1, wherein the step of programming the model code, the installation dimension code and the installation orientation code to form an installation code according to the assembly model comprises:

combining the model number code, the installation size code, and the installation orientation code of the same accessory into a set;

arranging and combining a plurality of the sets to form the installation code.

5. The method of claim 4, wherein the set comprises one of the model number code, a plurality of the mounting dimension codes, and a plurality of the orientation codes.

6. The method of claim 4 wherein said set consists of one of said model codes.

7. The method of coding an aluminum-plastic part according to claim 4, wherein the step of "arranging and combining a plurality of said sets to form said installation code" comprises the steps of:

sequentially ordering the plurality of sets according to the installation order;

integrating the sorted set to form the installation code.

8. The mounting method of the aluminum-plastic accessory is characterized by comprising the following steps:

acquiring installation codes comprising model codes, installation size codes and installation orientation codes, wherein the model codes represent models of accessories, the installation size codes represent installation sizes among the accessories, and the installation orientation codes represent relative installation orientations among the accessories;

selecting accessories corresponding to the model codes according to the model codes; and

assembling the selected plurality of accessories according to the installation size codes and the installation orientation codes.

9. The method of claim 8, wherein the step of assembling the selected plurality of parts according to the installation size code and the installation orientation code comprises:

sequentially arranging the accessories according to the installation code sequence;

and assembling the accessory to the appointed part of the upper accessory according to the installation reference, the installation size and the installation direction.

10. The method of claim 9, wherein the mounting reference is one of a surface, an edge or a point.

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