KR102060799B1 - Automatic heat addition, agitation and supply resin Vat - Google Patents

Abstract

The present invention relates to an automatic heat addition agitation and supply vat and, more specifically, to an automatic heat addition agitation and supply vat, which automatically supplies a liquid resin for 3D printing through a dispenser in a storage unit of the vat, can agitates the supplied liquid resin by having an agitator provided on a side of the vat, and maintains the liquid resin at the preset temperature through a heat supply device provided on the side of the vat, thereby maintaining the homeostasis of the liquid resin supplied to a 3D printer. Therefore, the automatic heat addition agitation and supply vat can solve a problem which requires a separate post-processing and re-output by uniformly maintaining processing accuracy, surface roughness, and the like of the output through the 3D printer.

Description

Automatic heat addition, agitation and supply resin Vat}

The present invention relates to a heat-added automatic stirring supply bat, and more particularly, a 3D which can automatically supply a liquid resin supplied to a vat (hereinafter, a bat) of a 3D printer and heat and stir to maintain a liquid resin homeostasis. Printer resin heat addition relates to an automatic stirring feed batt.

3D printers produce media by stacking media at desired locations. The type of 3D printer is divided according to the type of medium and its curing method. FDM type 3D printer that melts the thermoplastic medium in the nozzle and cures it at the desired position, SLS type 3D printer and liquid resin that melts and solidifies and layer the powder plastic, metal, and glass mass with laser. An example is an SLA or DLP type 3D printer in which photocuring is performed by projecting a laser or light onto the contained bat. Among these, the 3D printer of the DLP method is disclosed in Korean Patent Publication No. 2018-0016867 ("Three-dimensional printer of the photocurable resin lamination method" 2018.02.20.). It is important for the media forming the output of such a 3D printer to maintain homeostasis between 3D printings. In the case of a solid medium, it is relatively easy to maintain homeostasis while generating the output, whereas the 3D printing method using the liquid medium is used to separate the components of the resin in the liquid state or to change the temperature. This unevenness often results in additional post-processing or reprinting of the 3D printed output. Also, in the case of 3D printing through a liquid resin, the liquid resin is often a mixture composed of several components. The liquid resin composed of such a mixture shows a phenomenon in which a part of the mixture is separated and settled during the period of inactivity. Furthermore, the liquid resin may change the state of the output depending on the temperature. For example, when printing 3D printing, the hardening proceeds at a position where the user does not want to receive the resin, and the output is attached to the stage moving up and down. It becomes impossible. Therefore, to mix the liquid resin before 3D printing, there is a method of mixing with a rod and maintaining the preset temperature, but the toxic liquid resin can be accidentally contacted by the user, and the 3D printer is mixed manually. Problems such as reduced productivity of printouts occur.

1. Korean Patent Publication No. 2018-0016867 ("Three-dimensional printer of photocuring resin lamination method" 2018.02.20.)

Heat addition automatic stirring supply bat of the present invention was devised to solve the above problems, it is possible to automatically supply the resin to the 3D printer including a bat that accommodates the liquid resin, and to automatically stir the supplied resin, The present invention relates to a heat-added automatic stirring feed batt that can maintain a resin at a predetermined temperature to maintain the homeostasis of a liquid resin used for 3D printing.

In order to solve the above problems, the heat-added automatic stirring supply bat of the present invention is a heat-added automatic stirring supply bat of the 3D printer including a bat that accommodates the liquid resin, the resin storage unit and the batting liquid resin is stored A resin supply unit including a dispenser capable of automatically supplying a liquid resin to a furnace; A stirring device connected to the dispenser to supply and stir the liquid resin to the batt; And a heat supply device for continuously supplying heat to the liquid resin supplied by the dispenser to maintain a predetermined temperature, wherein the stirring device includes: a stirring member for stirring the liquid resin disposed on the side wall of the bat and accommodated; A stirring member disposed on the side of the bat and the stirring guide to limit the moving range of the stirring member in the form of covering the side wall of the bat, the stirring guide is preferably characterized in that a plurality of through holes are formed Do.

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In addition, the stirring member is preferably formed of a member made of a magnet, characterized in that for stirring the liquid resin by the electromagnet inserted into the side of the bat.

In addition, the stirring member is preferably characterized in that different magnetic poles are included in one member, the electromagnet is arranged to have a different polarity at every predetermined interval.

In addition, the stirring member is preferably characterized in that formed in a spherical shape.

In addition, the stirring member is preferably formed by one or a plurality of propellers, characterized in that for stirring the liquid resin by the motor inserted into the side of the bat.

In addition, the stirring member is formed of a belt having a plurality of pins is preferably agitated the liquid resin by a motor inserted into the side of the bat.

In addition, the belt is preferably characterized in that the motor and the pinion rack is coupled to operate.

In addition, the heat supply device is preferably inserted into the side of the bat.

In addition, the accommodation unit is preferably formed with a stirring device therein.

Heat addition automatic stirring supply bat of the present invention according to the above configuration can automatically supply the liquid resin to the bat, by adding heat through the heater to the liquid resin supplied to the bat can be maintained at the preset temperature, and It is possible to maintain homeostasis by continuously stirring the liquid resin supplied through the stirring module. Therefore, when the output is generated through the 3D printer, the productivity can be improved and the processing precision, surface roughness, and the like of the output can be kept constant by simplifying the work process.

1 is a perspective view of a heat addition automatic stirring feed bat of the present invention.
Figure 2 is an exploded perspective view of a working example 1 of the heat addition automatic stirring feed bat of the present invention.
Figure 3 is an exploded perspective view of a working example 2 of the heat addition automatic stirring feed bat of the present invention.
Figure 4 is an exploded perspective view of a working example 3 of the heat addition automatic stirring feed bat of the present invention.
Figure 5 is a cross-sectional view of the working example 1 of the heat addition automatic stirring feed batting of the present invention.
Figure 6 is a cross-sectional view of the working example 2 of the heat addition automatic stirring feed batt of the present invention.
7 is a cross-sectional view of the working example 3 of the heat addition automatic stirring feed batt of the present invention.
8 is a flow diagram of a liquid resin according to an embodiment of a heat addition automatic stirring feed bat of the present invention.

Hereinafter, the technical spirit of the present invention will be described in more detail with reference to the accompanying drawings.

The accompanying drawings are only examples to illustrate the technical idea of the present invention in more detail, and thus the technical idea of the present invention is not limited to the forms of the accompanying drawings.

Overall configuration of the heat-added automatic stirring feed batt (1000)

As shown in FIG. 1, the heat-added automatic stirring feed batt 1000 of the present invention maintains the homeostasis of the resin accommodated in the 3D printer, in particular, the bat of the 3D printer, which includes a battable using a liquid resin. The effect of making the processing accuracy and surface roughness of the output constant can be obtained. The heat addition automatic stirring supply bat 1000 includes a resin supply unit 100, a stirring device 200 and a heat supply device (300). Each component is described in detail as follows.

The resin supply unit 100 serves to receive and supply the resin supplied to the heat addition automatic stirring supply bat 1000. The resin supply unit 100 includes a resin storage unit 110 in which the liquid resin is stored and a dispenser 120 which can automatically supply the battery into the bat in which the liquid resin is accommodated. Each component of the resin supply unit 100 will be described in the detailed description of FIG. 8 illustrating the flow of the liquid resin according to the implementation of the heat addition automatic stirring supply bat 1000.

The stirring device 200 serves to continuously agitate the liquid resin supplied from the resin supply unit 100 and the liquid resin contained in the bat. The stirring device 200 includes a stirring member (210, 220, 230) and the stirring guide 240. Each component is described in detail as follows.

The stirring member 210 is disposed on the side of the bat to directly contact the liquid resin accommodated in the bat and serves to stir the liquid resin. The stirring members 210, 220 and 230 may be fixed to the side walls of the bat, or may not be fixed, because the stirring members 210, 220 and 230 may cause the flow of the liquid resin.

The stirring guide 240 is provided in a form covering the side wall of the bat and the stirring member 210, the stirring member (210, 220, 230) is not fixed to the stirring member (210, 220) , 230 may serve as a moving passage for moving, and when the stirring members 210, 220, 230 are fixed, the stirring guide 240 is a liquid stirred by the stirring members 210, 220, 230. Can act as a flow path for resin. Therefore, the shape of the stirring guide 240 may also vary according to the shape and operation of the stirring member (210, 220, 230). Meanwhile, the stirring guide 240 has a plurality of through holes 241 communicating with the bat, and the liquid resin is automatically supplied from the dispenser 120 by the stirring members 210, 220, and 230. It flows and serves as a flow path for discharging and collecting the liquid resin from the bat. In addition, the stirring guide 240 may be used for the purpose of distinguishing the printing area and the non-printing area in which a 3D printer of the DLP type is directly touched by a stage attached to the output and moves up and down. Direct operating relationships are addressed in the detailed description of FIGS. 5, 6 and 7, respectively, according to the working embodiment.

The heat supply device 300 may continuously heat the liquid resin supplied by the dispenser 120 to maintain the liquid resin at a predetermined temperature. Therefore, of course, the heat supply device 300 such as a thermometer, a heat insulating material, a timer, a display module may include a component capable of heating the liquid resin. Detailed descriptions of the seventeenth grade device 300 will be given in the detailed description of FIGS. 5, 6, and 7.

As shown in FIG. 2, the heat-added automatic stirring supply bat 1000 of the present invention may have the working example 1 capable of stirring the liquid resin supplied by the stirring member 210 formed of a magnet. In the case of the first embodiment, the electromagnet 211 is inserted into the side wall of the bat in which the liquid resin is accommodated so as to move the stirring member 210. In addition to the above-described method, there is no limitation to the configuration and manner in which the stirring member 210 can be moved by the electromagnet 211 inserted into the side of the bat. In addition, of course it may have a separate track or guide for limiting the movement path of the stirring member (210). When the stirring member 210 moves through the passage formed by the stirring guide 240 according to the first embodiment, the flow of the supplied liquid resin is made, and a flow path is formed by the stirring guide 240. The liquid resin is discharged and introduced into the through hole 241 formed in the stirring guide 240 and operates in a manner that the liquid resin is stirred. Further, the stirring member 210 and the stirring guide 240 may be detachable to facilitate the cleaning of the bat to which the liquid resin is supplied.

As shown in FIG. 3, the heat-added automatic stirring supply bat 1000 of the present invention is a working example 2 in which the stirring member 220 is formed of a propeller including a plurality of blades to stir the liquid resin supplied thereto. Can have In the case of the second embodiment, the motor 221 is inserted into the side wall of the bat in which the liquid resin is accommodated, so that the stirring member 220 may be rotated. Therefore, the propeller of the stirring member 220 is preferably manufactured in consideration of the angle of the blade so as to easily generate the stirring and flow of the liquid resin, and to facilitate the cleaning of the bat, such as the liquid resin is supplied Stirring member 220 is preferably in the form of removable. When the stirring member 220 is rotated according to the working example 2, a flow of the liquid resin is supplied, and a flow path is formed by the stirring guide 240 to form a through hole formed in the stirring guide 240. 241 is discharged and introduced, and the liquid resin is stirred in such a way as to operate. Further, the stirring member 210 and the stirring guide 240 may be detachable to facilitate the cleaning of the bat to which the liquid resin is supplied. Furthermore, the stirring member 220 may be formed of an impeller and disposed on the flow passage formed by the stirring guide 240 to stir the liquid resin.

As shown in FIG. 4, the heat-added automatic stirring supply bat 1000 of the present invention is an operating embodiment in which the stirring member 230 is formed of a belt in which a plurality of pins 231 are formed to stir the liquid resin supplied. May have three. In the case of the third embodiment, the motor 222 is inserted into the side walls of the bat in which the liquid resin is accommodated, so that the stirring member 230 may be moved. When the stirring member 230 is moved according to the third embodiment, the pin 231 causes the flow of the liquid resin to be supplied, and a flow path is formed by the stirring guide 240 to form the stirring guide 240. Liquid resin is discharged and introduced into the through-hole 241 formed in the and operates in a manner that the liquid resin is stirred. Therefore, the shape and angle of the pin 231 is preferably manufactured in consideration of the stirring of the liquid resin. Furthermore, the stirring member 230 and the stirring guide 240 may be detachable to facilitate the cleaning of the bat to which the liquid resin is supplied. More detailed descriptions of the motor 222 and the stirring member 230 will be given in the detailed description of FIG. 7.

As shown in FIG. 5, Embodiment 1 of the heat addition automatic stirring supply batter 1000 of the present invention has the following cross-sectional view. Referring to the bar shown in FIG. 2 above, the stirring member 210 is formed to include different magnetic poles, that is, both the north pole and the south pole, and an electromagnet 211 inserted into the side wall of the bat in which the liquid resin is accommodated. Is preferably arranged to have different polarities at regular intervals. Therefore, when one pole of the stirring member 210 and the electromagnet inserted into the bat side wall have the same polarity, repulsive force is generated, and the other pole of the stirring member 220 and the electromagnet inserted into the bat side wall are different from each other. With polarity it is desirable to operate in such a way that attraction is generated and moved. Furthermore, the liquid resin supplied to the dispenser 120 by the heat supply device 300 and the liquid resin contained in the bat may be heated to maintain a predetermined temperature while the stirring member 210 is operated. Thus, the liquid resin supplied and accommodated in the bat can maintain homeostasis. Furthermore, when the bat is polygonal, the stirring member 210 and the stirring guide 240 may be disposed at each side, and thus the stirring member 210 may have a modified embodiment in which linear movement is performed at each polygonal side. In this case, the stirring guide 240 is connected to each other to form a moving trajectory of the stirring member 210, the connection portion of the stirring guide 240 inclination corresponding to the movement path to facilitate the movement of the stirring member 210 It is desirable to tilt as much as possible.

As shown in FIG. 6, Embodiment 2 of the heat addition automatic stirring supply bat 1000 of the present invention has the following cross-sectional view. Referring to the bar shown in FIG. 3 above, the stirring member 220 may be formed of a propeller including a plurality of blades to stir the liquid resin supplied. Furthermore, the liquid resin supplied to the dispenser 120 by the heat supply device 300 and the liquid resin contained in the bat may be heated to maintain a predetermined temperature while the stirring member 220 is operated. Thus, the liquid resin supplied and accommodated in the bat can maintain homeostasis. Furthermore, when the bat is polygonal, the stirring member 220 and the stirring guide 240 may be disposed at each side, so that the stirring member 210 may be disposed at each side of the polygon.

As shown in FIG. 7 (a), Embodiment 3 of the heat addition automatic stirring supply bat 1000 of the present invention has the following cross section. Referring to the bar shown in FIG. 4 above, the stirring member 230 may stir the liquid resin supplied and formed into a belt including a plurality of pins 231. Furthermore, the liquid resin supplied to the dispenser 120 by the heat supply device 300 and the liquid resin contained in the bat may be heated to maintain a predetermined temperature while the stirring member 230 is operated. Thus, the liquid resin supplied and accommodated in the bat can maintain homeostasis. Furthermore, when the stirring member 230 is described in more detail, the stirring member 230 is preferably connected to and operated by a pinion rack structure and a motor inserted up and down on the side walls of the bat. The motor and the stirring member 230 is preferably a pinion rack structure, as shown in Figure 7 (b) is the motor and the stirring member 230 is coupled to operate. A sealing member may be additionally included in the coupling of the motor inserted into the side of the bat and the stirring member 230 so that the liquid resin is not leaked to the outside of the bat.

As shown in FIG. 8, the liquid resin supplied to the bat containing the liquid resin 10 according to the implementation of the heat addition automatic stirring supply batter 1000 of the present invention is the same as the flowchart shown in FIG. 8. Although not shown in FIG. 8, the liquid resin 10 is pre-stored in the resin storage unit 110 before 3D printing the output of the 3D printer. In this case, in order to prevent component separation of the liquid resin 10 in the resin storage unit 110, stirring may be performed in the same manner as the stirring members 210, 220, and 230 shown in FIGS. 5 to 7. After that, the dispenser 120 moves to the bat in which the liquid resin is accommodated. Since the dispenser 120 needs only to move the liquid resin stored in the resin storage unit 110 to the bat, it is preferable that the dispenser 120 can be configured in various forms such as a pressure difference, a pump, and a spray. After that, the liquid resin supplied to the batt is introduced into the stirring guide 240. The liquid resin supplied to the stirring guide 240 flows and stirs by the stirring members 210, 220, and 230, and maintains the liquid resin at a predetermined temperature through the heat supply device 300. Therefore, the liquid resin is supplied to the inside printing area of the bat through the through hole 241 formed on the stirring guide 240. The liquid resin of the printing area is sucked again to maintain the homeostasis of the liquid resin. In addition, it may have an embodiment in which a separate heating unit is added to heat the liquid resin on the dispenser 120.

As the present invention allows for various changes and numerous embodiments, particular embodiments will be illustrated in the drawings and described in detail. However, this is not intended to limit the present invention to specific embodiments, it should be understood to include all modifications, equivalents, and substitutes included in the spirit and scope of the present invention.

When a component is referred to as being "connected" or "connected" to another component, it may be directly connected to or connected to that other component, but it may be understood that other components may be present in between. Should be.

Unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art.

Terms such as those defined in the commonly used dictionaries should be construed as having meanings consistent with the meanings in the context of the related art, and are not construed in ideal or excessively formal meanings unless expressly defined in this application. Do not.

The present invention is not limited to the above-described embodiments, and the scope of application is not limited, and various modifications can be made without departing from the gist of the present invention as claimed in the claims.

1000: Heat addition automatic stirring feed bat
100: resin supply unit 110: resin storage unit
120: dispenser 200: stirring device
210, 220, 230: stirring member 211: electromagnet
221, 222: motor 231: pin
232: pinion 233: rack
240: stirring guide 241: through hole
300: heat supply device

Claims (10)

In the heat addition automatic stirring supply batting of the 3D printer including a bat containing a liquid resin,
A resin supply unit including a resin storage unit storing a liquid resin and a dispenser capable of automatically supplying the liquid resin to the batt;
A stirring device connected to the dispenser to supply and stir the liquid resin to the batt; And
And a heat supply device for continuously supplying heat to the liquid resin supplied by the dispenser to maintain the preset temperature.
The stirring device is a stirring guide for limiting the movement range of the stirring member in the form of a stirring member and a stirring member disposed on the side of the bat and the liquid member is disposed on the side wall of the bat and the batting; To include, wherein the stirring guide is a heat addition automatic stirring supply bat, characterized in that a plurality of through-holes are formed.
delete The method of claim 1,
The stirring member is formed of a member made of a magnet, the heat addition automatic stirring supply bat, characterized in that for stirring the liquid resin by the electromagnet inserted into the side of the bat.
The method of claim 3, wherein
The stirring member has a different magnetic pole is included in one member, the electromagnet is heat added automatic stirring supply bat, characterized in that arranged to have a different polarity at regular intervals.
The method of claim 3, wherein
The stirring member is heat added automatic stirring supply, characterized in that formed in a spherical shape.
The method of claim 1,
The stirring member is formed by one or a plurality of propellers to stir the liquid resin by a motor inserted into the side of the bat, characterized in that the heat added automatic stirring supply bat.
The method of claim 1,
The stirring member is formed of a belt having a plurality of pins, the heat added automatic stirring supply bat, characterized in that for stirring the liquid resin by a motor inserted into the side of the bat.
The method of claim 7, wherein
And said belt is operated in combination with said motor and pinion rack.
The method of claim 1,
And the heat supply device is inserted into the side of the bat.
The method of claim 1,
The resin storage unit heat addition automatic stirring supply bat including a stirring device formed therein.

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