CN109445725A - One kind being based on modular method for manufacturing parts and device - Google Patents

Abstract

The invention belongs to Parts manufacturing technology fields, disclose a kind of based on modular method for manufacturing parts, comprising: step S1 defines base unit, makes it have the intercommunity feature of part, generates base unit file and stores；Multiple base unit self-defined combinations are at least one material for having base shape, generate corresponding material file and store for future use by step S2；Step S3 selects required multiple materials to be spliced into complete target part, generates target part file and stores；The target part file is sliced by step S4, is generated instruction code, and implement increasing material manufacturing according to the instruction code, is obtained the product of target part.The invention also discloses one kind to be based on modular part production apparatus, including at least one user terminal and at least one 3D printer.Present invention reduces design thresholds, to improve the creativity of whole crowd, reinforce social innovation atmosphere.

Description

One kind being based on modular method for manufacturing parts and device

Technical field

The present invention relates to Parts manufacturing technology fields, are based on modular method for manufacturing parts and dress more particularly, to one kind It sets.

Background technique

In material increasing field, following three step is generally by the process that automation equipment manufactures part: 1, original Part model design；2, original part model design data is converted into machine code, i.e. sectioning；3, equipment is according to machine generation Code operating manufacture part.In general, original part model design then needs to be completed by expert engineer, available material exists Compared with big limitation.

As development in science and technology and society's science and technology are universal, there are many similar scientific and technological fans, wound visitor, science and technology-oriented educator, It is raw etc. all interested in creativity and innovation, but most of this kind of crowds professional deficiency in special Element Design, thus influence from Main creation process can reduce the achievement and environment that individual autonomy is created from society on the whole.

Summary of the invention

It is an object of the invention to overcome above-mentioned technical deficiency, propose a kind of based on modular method for manufacturing parts and dress It sets, solves the high technical problem of the design threshold of participant in the prior art.

To reach above-mentioned technical purpose, technical solution of the present invention provides one kind and is based on modular method for manufacturing parts, Include:

Step S1 defines base unit, makes it have the intercommunity feature of part, generates base unit file and stores；

Multiple base unit self-defined combinations are at least one material for having base shape by step S2, are generated Corresponding material file simultaneously stores for future use；

Step S3 selects required multiple materials to be spliced into complete target part, generates target part file simultaneously Storage；

The target part file is sliced by step S4, generates instruction code, and implement to increase according to the instruction code Material manufacture, obtains the product of target part.

Technical solution of the present invention also provides a kind of based on modular part production apparatus, comprising:

At least one user terminal, each user terminal are used to multiple base unit self-defined combinations be to have base At least one material of plinth shape generates corresponding material file and stores for future use, and selects required multiple material splicings At complete target part, generates target part file and store, the target part file is sliced, generate instruction generation Code simultaneously transmits it out；And

At least one 3D printer, each 3D printer are used to receive the instruction code that the user terminal is sent, and root Implement increasing material manufacturing according to the instruction code and obtains the product of target part.

Technical solution of the present invention also provides a kind of based on modular part production apparatus, comprising:

At least one user terminal, each user terminal are used to multiple base unit self-defined combinations be to have base At least one material of plinth shape generates corresponding material file and stores for future use, and selects required multiple material splicings At complete target part, generates target part file and sent after storing；

Cloud Server is used to receive the target part file and stores, the target part file is sliced, It generates instruction code and transmits it out；And

At least one 3D printer, each 3D printer are used to receive the instruction code that the Cloud Server is sent, and root Implement increasing material manufacturing according to the instruction code and obtains the product of target part.

Technical solution of the present invention also provides a kind of based on modular part production apparatus, comprising:

At least one user terminal, each user terminal are used to multiple base unit self-defined combinations be to have base At least one material of plinth shape generates corresponding material file and stores for future use, and selects required multiple material splicings At complete target part, generates target part file and sent after storing；

At least one 3D printer, each 3D printer is for receiving the target part file, by the target part File is sliced, and generates instruction code, and implement increasing material manufacturing according to the instruction code and obtain the product of target part；And

Cloud Server connects the user terminal and the 3D printer, is used for transfer described instruction code.

Compared with prior art, the beneficial effect comprise that

1, ordinary user can design and manufacture part using increases material manufacturing technology；

2, the modelling threshold in education of science and technology industry is reduced, more people can participate；

3, unnecessary components manufacture waste is reduced；

4, discretization, small-scaleization, flexibility height are manufactured；

5, user can be allowed quickly to manufacture and design some parts with unified standard, so as to fast construction needs Works or structure.

Detailed description of the invention

Fig. 1 is method flow block diagram of the invention；

Fig. 2 is the functional block diagram of the device of the invention embodiment 1；

Fig. 3 is the functional block diagram of the device of the invention embodiment 2.

Specific embodiment

In order to make the objectives, technical solutions, and advantages of the present invention clearer, with reference to the accompanying drawings and embodiments, right The present invention is further elaborated.It should be appreciated that the specific embodiments described herein are merely illustrative of the present invention, and It is not used in the restriction present invention.

The present invention provides one kind to be based on modular method for manufacturing parts, as shown in Figure 1, comprising:

Step S1 defines base unit, makes it have the intercommunity feature of part, generates base unit file and stores；

Multiple base unit self-defined combinations are at least one material for having base shape by step S2, are generated Corresponding material file simultaneously stores for future use；

Step S3 selects required multiple materials to be spliced into complete target part, generates target part file simultaneously Storage；

The target part file is sliced by step S4, generates instruction code, and implement to increase according to the instruction code Material manufacture, obtains the product of target part.

The base unit, the minimum common feature with comprising modules part, i.e., the smallest Component units can be with It is interpreted as similar happy high building block, happy high minimum unit is exactly the block of a protrusion, and the combination of these blocks can form respectively The high final part of pleasure of kind shape.

Preferably, the intercommunity feature includes hole or the slot of unified specification, and with the hole or slot Corresponding matching Bolt or key.Intercommunity is mainly manifested in standardized hole, slot, detent, the design such as bolt, such as structure of a base unit Square includes a gauge orifice, then this square, which is carried out duplication and splicing again, can become the square collection of multiple hole locations It closes, becomes new part.

Preferably, the specification in the hole includes diameter, depth and gradient, the specification of the bolt and the hole pair It answers；The specification of the slot includes that opening, depth and gradient, the specification of the key are corresponding with the slot.

Include the following steps preferably, defining base unit described in step S1, sets the intercommunity feature, it will Each base unit is at least combined with an intercommunity feature, generates a base unit defined.Such as list First square and Kong Zuhe, matching standard latch structure can form the assembling structure of a pairing, insert so that this be had The square of pin and square with holes respectively save as a base unit.

The base unit is present in software, and user can drag in software base unit and complete in Virtual Space Splicing.The splicing of base unit is general by the way of the extension accumulation of physical space, such as minimum unit is 10mm × 10mm A characteristic block of × 10mm, every 10mm replicates one in X direction, five is replicated, material is thus formed one by five units The part block of composition, i.e., intermediate material, generates target part model after merging material, then through software auto slice, is dealt into and beats Printing apparatus prints the physical product of target part.As it can be seen that as long as user pulls base unit from software when in use Free splicing is carried out, that is, is combined into the final part of needs, this operation is not necessarily to professional knowledge, greatly reduces design gate Sill.

It is based on modular method for manufacturing parts for cooperation realization is above-mentioned, technical solution of the present invention also provides one kind and is based on Modular part production apparatus.

Embodiment 1: one kind being based on modular part production apparatus, as shown in Fig. 2, include at least one user terminal, And at least one 3D printer.

Each user terminal is used to multiple base unit self-defined combinations be at least one for having base shape Material generates corresponding material file and stores for future use, and required multiple materials is selected to be spliced into complete target part, It generates target part file and stores, the target part file is sliced, generate instruction code and transmit it out.

Each 3D printer is used to receive the instruction code that the user terminal is sent, and implements to increase according to the instruction code Material manufactures to obtain the product of target part.

When work, user drags base unit free splicing in the Virtual Space of user terminal and obtains target part mould Type, and implement slice in user terminal, finally 3D printer is sent by slice result (i.e. instruction code).

Preferably, further including the Cloud Server for connecting the user terminal and the 3D printer, it to be used for transfer Described instruction code, and user is remotely accessed and controls printer apparatus.The calculating pressure being sliced at this time is shared Each user terminal is given, Cloud Server does not handle slice task, and calculated load is low, and will not influence other users uses body It tests.

Preferably, the Cloud Server is also used to receive the material file that any user terminal generates, And store the material file；And the request according to any material file of downloading that any user terminal proposes, to The corresponding user terminal sends corresponding material file.User not only can download existing material file from Cloud Server, Self-designed material file can be uploaded to Cloud Server, shared with other users.In this way, intermediate material not only can by with Family can also be provided by manufacturer or other users, design fan or expert engineer etc. from edlin, enrich and set Meter selection space, greatly improves design experience.

Embodiment 2: one kind being based on modular part production apparatus, as shown in figure 3, include at least one user terminal, Cloud Server and at least one 3D printer.

Each user terminal is used to multiple base unit self-defined combinations be at least one for having base shape Material generates corresponding material file and stores for future use, and required multiple materials is selected to be spliced into complete target part, It generates target part file and is sent after storing.

The target part file is sliced, life by Cloud Server for receiving the target part file and storing At instruction code and transmit it out.

Each 3D printer is used to receive the instruction code that the Cloud Server is sent, and implements to increase according to the instruction code Material manufactures to obtain the product of target part.

When work, user drags base unit free splicing in the Virtual Space of user terminal and obtains target part mould Model is passed to Cloud Server by type, is sliced by Cloud Server, then sends choosing for slice result (i.e. instruction code) Fixed 3D printer.The calculating pressure of Cloud Server is larger at this time, and the data processing pressure of user terminal is mitigated.

Embodiment 3: one kind is based on modular part production apparatus, including at least one user terminal, Cloud Server and At least one 3D printer.

Each user terminal is used to multiple base unit self-defined combinations be at least one for having base shape Material generates corresponding material file and stores for future use, and required multiple materials is selected to be spliced into complete target part, It generates target part file and is sent after storing.

The target part file is sliced, generates for receiving the target part file by each 3D printer Instruction code, and increasing material manufacturing is implemented according to the instruction code and obtains the product of target part.

Cloud Server connects the user terminal and the 3D printer, is used for transfer described instruction code.

When work, user drags base unit free splicing in the Virtual Space of user terminal and obtains target part mould Type, i.e. generation target part file, target part file are sent to selected 3D printer, are beaten by 3D by Cloud Server transfer Print machine is sliced to obtain slice result (i.e. instruction code), and 3D printer reruns the instruction code.At this time slice calculate by 3D printer undertakes, and the data processing pressure of user terminal is mitigated, and the operation pressure of Cloud Server is also small.

The invention enables the common crowds without part Specialty Design ability can still complete " to design " to " manufacture " The process of part reinforces social innovation atmosphere to improve the creativity of whole crowd.

The above described specific embodiments of the present invention are not intended to limit the scope of the present invention..Any basis Any other various changes and modifications that technical concept of the invention is made should be included in the guarantor of the claims in the present invention It protects in range.

Claims (9)

1. one kind is based on modular method for manufacturing parts, characterized by comprising:

Step S1 defines base unit, makes it have the intercommunity feature of part, generates base unit file and stores；

Multiple base unit self-defined combinations are at least one material for having base shape by step S2, are generated and are corresponded to Material file and store for future use；

Step S3 selects required multiple materials to be spliced into complete target part, generates target part file and stores；

The target part file is sliced by step S4, generates instruction code, and is implemented to increase material system according to the instruction code It makes, obtains the product of target part.

2. according to the method described in claim 1, it is characterized by: the intercommunity feature includes hole or the slot of unified specification, And bolt or key with the hole or slot Corresponding matching.

3. described according to the method described in claim 2, it is characterized by: the specification in the hole includes diameter, depth and gradient The specification of bolt is corresponding with the hole；The specification of the slot includes opening, depth and gradient, the specification of the key and the slot pair It answers.

4. according to the method in claim 2 or 3, it is characterised in that: it includes as follows for defining base unit described in step S1 Step sets the intercommunity feature, and each base unit is at least combined with an intercommunity feature, generates One base unit defined.

5. one kind is based on modular part production apparatus, characterized by comprising:

At least one user terminal, each user terminal are used to multiple base unit self-defined combinations be to have basic shape At least one material of shape generates corresponding material file and stores for future use, and required multiple materials is selected to be spliced into Whole target part generates target part file and stores, the target part file is sliced, generates instruction code simultaneously It transmits it out；And

At least one 3D printer, each 3D printer are used to receive the instruction code that the user terminal is sent, and according to this Instruction code implements increasing material manufacturing and obtains the product of target part.

6. device according to claim 5, it is characterised in that: further include connecting the user terminal and the 3D printer Cloud Server, be used for transfer described instruction code.

7. device according to claim 6, it is characterised in that: it is whole that the Cloud Server is also used to receive any user The material file generated is held, and stores the material file；And it is any according to the downloading that any user terminal proposes The request of the material file sends corresponding material file to the correspondence user terminal.

8. one kind is based on modular part production apparatus, characterized by comprising:

At least one user terminal, each user terminal are used to multiple base unit self-defined combinations be to have basic shape At least one material of shape generates corresponding material file and stores for future use, and required multiple materials is selected to be spliced into Whole target part generates target part file and sends after storing；

Cloud Server is used to receive the target part file and stores, the target part file is sliced, and generates Instruction code simultaneously transmits it out；And

At least one 3D printer, each 3D printer are used to receive the instruction code that the Cloud Server is sent, and according to this Instruction code implements increasing material manufacturing and obtains the product of target part.

9. one kind is based on modular part production apparatus, characterized by comprising:

At least one user terminal, each user terminal are used to multiple base unit self-defined combinations be to have basic shape At least one material of shape generates corresponding material file and stores for future use, and required multiple materials is selected to be spliced into Whole target part generates target part file and sends after storing；

At least one 3D printer, each 3D printer is for receiving the target part file, by the target part file It is sliced, generates instruction code, and increasing material manufacturing is implemented according to the instruction code and obtains the product of target part；And

Cloud Server connects the user terminal and the 3D printer, is used for transfer described instruction code.