阅读说明：本技术 一种3d打印方法及3d打印机 (3D printing method and 3D printer ) 是由 陆江波 虎成 周子翔 杜银学 高蕾 于 2019-08-26 设计创作，主要内容包括：本发明涉及一种3D打印方法及3D打印机。3D打印机采用所述3D打印方法打印。所述的3D打印方法包括下述步骤：第一步：加载3D模型打印信息,完成粘结剂首次喷射；第二步：开始计时并判断粘结剂在有效时间内是否开始铺粉,如果是,则继续打印,如果否,则重复喷射粘结剂若干次；第三步：多次重复执行上述第二步,且每次重新计时判断粘结剂是否在有效时间内开始铺粉；第四步：判断粘结剂重复喷射的次数至最大次数时铺粉是否开始,如果是,则停止计时继续打印,如果否,则判断打印设备故障停止打印。使用该3D打印方法打印的3D打印机能够有效避免因供粉时间过长而导致模型分层,降低废品率,提高生产质量。(The invention relates to a 3D printing method and a 3D printer. And the 3D printer adopts the 3D printing method to print. The 3D printing method comprises the following steps: the first step is as follows: loading 3D model printing information and finishing the first spraying of the binder; the second step is that: starting timing and judging whether the binder begins to spread powder within the effective time, if so, continuing printing, and if not, repeatedly spraying the binder for a plurality of times; the third step: repeatedly executing the second step for many times, and timing again each time to judge whether the adhesive starts to spread powder within the effective time; the fourth step: and judging whether powder spreading starts when the number of times of repeated spraying of the binder reaches the maximum number, if so, stopping timing to continue printing, and if not, judging that the printing equipment fails and stops printing. The 3D printer printed by the 3D printing method can effectively avoid model layering caused by overlong powder supply time, reduce the rejection rate and improve the production quality.)

1. A3D printing method is characterized in that the 3D printing method comprises the following steps:

The first step is as follows: loading 3D model printing information and finishing the first spraying of the binder;

The second step is that: starting timing and judging whether the binder begins to spread powder within the effective time, if so, continuing printing, and if not, repeatedly spraying the binder for a plurality of times;

The third step: repeatedly executing the second step for many times, and timing again each time to judge whether the adhesive starts to spread powder within the effective time;

The fourth step: and judging whether powder spreading starts when the number of times of repeated spraying of the binder reaches the maximum number, if so, stopping timing to continue printing, and if not, judging that the printing equipment fails and stops printing.

2. The 3D printing method according to claim 1, wherein loading 3D model printing information comprises loading a total number of layers printed, an effective time of the adhesive, and a maximum number of repeated ejections of the adhesive.

3. The 3D printing method according to claim 2, wherein each time the powder spreading is completed, whether the current number of printing layers is less than the total number of printing layers is judged, if so, the printing is continued, and if not, the printing is stopped.

4. The 3D printing method according to claim 2, wherein the maximum number of consecutive shots of the binder is set to 2 to 5 times according to the processing time of the powder material.

5. The 3D printing method according to claim 1, wherein before each powder spreading, whether the powder spreading device has a powder spreading condition is judged, if yes, the powder spreading is continued, and if not, the powder spreading is stopped.

6. 3D printer characterized in that it prints with the 3D printing method according to any one of claims 1 to 5.

Technical Field

the invention relates to the technical field of 3D printing, in particular to a 3D printing method and a 3D printer.

Background

Nozzle formula powder shaping among the 3D printing technique prints (3DP) technique, and print work specifically is: the spray head operates according to the two-dimensional data of the model section under the control of a software system, and selectively sprays adhesive at corresponding positions to finally form a layer. After each layer is bonded, the forming cylinder descends by a distance equal to the thickness of the layer, the powder supply cylinder ascends by a certain height, excess powder is pushed out, the powder is pushed to the forming cylinder by the powder paving roller, and the powder is paved and compacted. And circulating the steps until the bonding of the whole printed product is completed.

However, in this process, the powder supply cannot be kept up to the end due to mechanical and material reasons, and the powder spreading roller is always in a powder adding state, so that printing is temporarily in a stagnation printing state. Because of the time-limited nature of the adhesive, prolonged exposure to air can lose its adhesive effectiveness. Each layer cannot be printed without waiting too long, which could result in delamination of the printed model.

Disclosure of Invention

Based on this, it is necessary to provide a 3D printing method and a 3D printer which can effectively avoid model layering caused by too long powder supply time, reduce rejection rate, improve production quality and reduce cost, aiming at the problem that the printing model layering is caused by too long printing dead time due to the fact that powder supply cannot be followed up in the printing process of a 3D printing system.

A3D printing method, the 3D printing method comprising the steps of: the first step is as follows: loading 3D model printing information and finishing the first spraying of the binder; the second step is that: starting timing and judging whether the binder begins to spread powder within the effective time, if so, continuing printing, and if not, repeatedly spraying the binder for a plurality of times; the third step: repeatedly executing the second step for many times, and timing again each time to judge whether the adhesive starts to spread powder within the effective time; the fourth step: and judging whether powder spreading starts when the number of times of repeated spraying of the binder reaches the maximum number, if so, stopping timing to continue printing, and if not, judging that the printing equipment fails and stops printing.

In one embodiment, loading the 3D model printing information includes loading a total number of print layers, an adhesive active time, and a maximum number of adhesive repeat shots.

In one embodiment, each time the powder spreading is finished, whether the current printing layer number is smaller than the total printing layer number is judged, if yes, the printing is continued, and if not, the printing is stopped.

In one embodiment, the maximum number of consecutive injections of the binder is set to 2 to 5 times, depending on the processing time of the dusting material.

In one embodiment, before each powder spreading, whether the powder spreading device has the powder spreading condition is judged, if yes, the powder spreading is continued, and if not, the powder spreading is stopped.

A3D printer is printed by adopting the 3D printing method of any one of the embodiments.

the 3D printer adopts the 3D printing method to print, and through presetting related 3D printing information, the printer judges whether the effective bonding time of the bonding agent is overtime or not in the powder laying dead time, if the effective bonding time exceeds the time limit, the bonding agent is sprayed once or for a plurality of times again, so that the bonding agent is always in an effective state, the powder laying operation is avoided being influenced, and meanwhile, when the spraying times of the bonding agent reaches the preset maximum value, the printing equipment stops spraying and finishes printing after being failed. Therefore, the model layering caused by overlong powder supply time can be effectively avoided, the rejection rate is reduced, the production quality is improved, and the cost is reduced.

Drawings

Fig. 1 is a schematic flow chart of a 3D printing method in an embodiment.

Detailed Description

To facilitate an understanding of the invention, the invention will now be described more fully with reference to the accompanying drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "disposed on" another element, it can be directly on the other element or intervening elements may also be present. 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. As used herein, the terms "vertical," "horizontal," "left," "right," "top," "bottom," "top," and the like are for illustrative purposes only and do not represent the only embodiments.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

In one embodiment, a 3D printing method is characterized in that the 3D printing method includes the following steps:

The first step is as follows: loading 3D model printing information and finishing the first spraying of the binder;

The second step is that: starting timing and judging whether the binder begins to spread powder within the effective time, if so, continuing printing, and if not, repeatedly spraying the binder for a plurality of times;

The third step: repeatedly executing the second step for many times, and timing again each time to judge whether the adhesive starts to spread powder within the effective time;

The fourth step: and judging whether powder spreading starts when the number of times of repeated spraying of the binder reaches the maximum number, if so, stopping timing to continue printing, and if not, judging that the printing equipment fails and stops printing.

According to the 3D printing method, the printer judges whether the effective bonding time of the bonding agent is overtime or not in the powder laying dead time by presetting the relevant 3D printing information, if the time efficiency is exceeded and the powder is not laid, the bonding agent is sprayed once or for a plurality of times again, so that the bonding agent is always in an effective state, the powder laying operation is prevented from being influenced, and meanwhile, when the spraying frequency of the bonding agent reaches the preset maximum value, the spraying is stopped and the printing is finished due to the fact that the printing equipment is in fault. Therefore, the model layering caused by overlong powder supply time can be effectively avoided, the rejection rate is reduced, the production quality is improved, and the cost is reduced.

In an embodiment, a 3D printer prints by using the 3D printing method in the above embodiment. The 3D printer can avoid the problem of model layering caused by overlong dead time in the printing process when the product is printed, and cannot influence the structure of a formed product.

the 3D printing method is described below with reference to specific embodiments to further understand the inventive concept of the 3D printing method. Referring to fig. 1, the 3D printing method includes the following steps:

First step S110: and loading 3D model printing information to finish the first spraying of the binder.

In one embodiment, loading the 3D model printing information includes loading a total number of print layers, an adhesive active time, and a maximum number of adhesive repeat shots. The total number of printing layers of the corresponding product, the effective time of the used adhesive and the maximum number of repeated spraying of the adhesive are preset in the printing control software in advance, so that whether the printing equipment breaks down or not can be judged conveniently in the printing process, and the maximum limit of repeated spraying of the adhesive can be known conveniently, so that the printing molding product is prevented from being influenced.

Specifically, each time the powder spreading is finished, whether the current printing layer number is smaller than the total printing layer number is judged, if yes, the printing is continued, and if not, the printing is stopped. Because the three-dimensional slicing software is adopted to carry out layering processing on the pre-printed product when the 3D printer is used for printing operation, and then the printer completes product printing in a layer-by-layer printing additive stacking mode, whether the printing operation is completed or not can be determined by judging whether the accumulated printing layer number value reaches the preset total printing layer number.

further, before each powder paving, whether the powder paving device has the powder paving condition is judged, if yes, the powder paving is continued, and if not, the powder paving is stopped. That is to say, need examine the operating mode of shop's powder device when spreading the powder after spraying the binder to avoid influencing the normal printing of product owing to shop's powder device trouble.

second step S120: starting timing and judging whether the binder begins to spread powder within the effective time, if so, continuing printing, and if not, repeatedly spraying the binder for a plurality of times;

The method comprises the following steps that firstly, a timer is used for timing after the binder is sprayed for the first time, and if the powder paving device normally paves powder in the available time of the binder, the printing operation is continuously executed; during the effective time that the binder can be used, if the powder applicator is not dusting, the binder fails or sets requiring a second spray of binder.

And repeated spraying of the adhesive may be required one or more times to ensure that the adhesive is effective. In order to avoid the influence on the quality of the final formed product caused by repeatedly spraying the binder, the maximum number of times of repeatedly spraying the binder is limited, and in one embodiment, the maximum number of times of continuously spraying the binder is set to be 2-5 times according to the processing time of the powder laying material. For example, the powder paving material comprises ceramsite sand, artificial sand, silica sand, gypsum and the like, the powder processing time is influenced by factors such as difference, the corresponding repeated spraying times of the binder can be changed, and the repeated spraying times of the binder is not more than 3.

Third step S130: repeatedly executing the second step for many times, and timing again each time to judge whether the adhesive starts to spread powder within the effective time;

in the process of waiting for the powder spreading of the powder spreading device, the binder is continuously sprayed for multiple times to ensure that the binder is always in a usable state, so that the phenomenon that when the powder spreading device starts normal powder spreading operation, printed products are delayed or the printed products are layered due to unavailable binder failure is avoided. After the binder is sprayed each time, the effective time of the binder is recorded again, and whether the powder is normally spread in the time period is judged repeatedly.

the fourth step S140: and judging whether powder spreading starts when the number of times of repeated spraying of the binder reaches the maximum number, if so, stopping timing to continue printing, and if not, judging that the printing equipment fails and stops printing.

When the maximum spraying frequency is reached, the powder spreading device still does not act, which means that the printing equipment has a fault and cannot perform normal printing, timing is stopped, the printing operation is finished, and the printing equipment is stopped to check.

According to the 3D printing method, the printer judges whether the effective bonding time of the bonding agent is overtime or not in the powder laying dead time by presetting the relevant 3D printing information, if the time efficiency is exceeded and the powder is not laid, the bonding agent is sprayed once or for a plurality of times again, so that the bonding agent is always in an effective state, the powder laying operation is prevented from being influenced, and meanwhile, when the spraying frequency of the bonding agent reaches the preset maximum value, the spraying is stopped and the printing is finished due to the fact that the printing equipment is in fault. Therefore, the model layering caused by overlong powder supply time can be effectively avoided, the rejection rate is reduced, the production quality is improved, and the cost is reduced.

In one embodiment, a 3D printer prints by using the 3D printing method in any one of the above embodiments. By adopting the printing method in the embodiment, the 3D printer can avoid the problem of model layering caused by overlong dead time in the printing process when printing the product, and the structure of the formed product cannot be influenced.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.