CN111450337A

CN111450337A - Breast pump shield 3D prints appearance extraction element

Info

Publication number: CN111450337A
Application number: CN202010286513.9A
Authority: CN
Inventors: 刘霞; 丁娟; 邹凤宇; 王丽娟; 李黎
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-04-13
Filing date: 2020-04-13
Publication date: 2020-07-28

Abstract

The invention relates to the field of medical models, in particular to a 3D printing shape extraction device for a breast pumping shield, which comprises a printing computer, wherein a 3D printer is arranged on one side of the printing computer, a data receiver is arranged on the other side of the printing computer, a printing connecting line is arranged between one side of the printing computer and the 3D printer, a computer connecting line is arranged between the other side of the printing computer and the data receiver, a data transmitter is arranged on the outer side of the data receiver, the data transmitter and the data receiver are electrically connected through the data connecting line, the breast pumping shield 3D printing shape extraction device is sleeved on the side wall of the data transmitter, and the data transmitter is arranged in the middle of the 3D printing shape extraction device for the breast pumping shield. The 3D printing shape extraction device with the inductor and the breast shield is fast in expansion, convenient to wear and convenient to operate, can be adjusted according to the chest sizes of different breast feeding mothers, and has wide market demands.

Description

Breast pump shield 3D prints appearance extraction element

Technical Field

The invention relates to the field of medical models, in particular to a 3D printing shape extraction device for a breast shield.

Background

3D printing, which is a kind of rapid prototyping technology, also called additive manufacturing, is a technology for constructing an object by using an adhesive material such as powdered metal or plastic and the like and by using a digital model file as a basis and by using a layer-by-layer printing mode, and 3D printing is usually realized by using a digital technology material printer. The method is often used for manufacturing models in the fields of industrial molds, medical molds and the like, and is gradually used for directly manufacturing some products, and parts printed by the technology are already available.

The breast shield is an important appliance of the breast pump and plays an important role for a nursing mother, generally speaking, the breast shields on the market are all universal and have no size, but the chest of a user has a size, when the breast pump is used, the comfort and the milk quantity maintenance are the size of the chest which is suitable for the size of the breast shield, and particularly for the nursing mother, in the case of frequent use of the breast pump, each short discomfort can be accumulated into a troubling problem; many mothers are unaware of the potential for an improper size when, after using a breast pump for a period of time, there is a rapid decrease in milk volume, nipple pain, areola edema, etc. Generally, a suitable bra size is one in which the breastshield cup is attached to the breast and, without sucking, there is a visible gap of about 0.5-1mm between the nipple and the cup channel. The comfort level is good when sucking milk, the nipple can move freely in the pipeline, and the milk flows out smoothly. Generally, most breast pump manufacturers inquire the chest size of a breast feeding mother when selling a breast pump, and produce and manufacture cups according to obtained data, but the obtained data value is not very accurate, and the wearing comfort and the milk quantity of the breast feeding mother are affected. As far as present, no device has been on the market which is specifically designed for a breast shield.

Therefore, the 3D printing shape extraction device with the inductor is fast in expansion and contraction, convenient to wear and operate and capable of being adjusted according to the chest sizes of different breast feeding mothers, and has wide market demands.

Disclosure of Invention

Aiming at the defects in the prior art, the invention provides the 3D printing shape extraction device with the inductor, which is fast in expansion, convenient to wear and operate and capable of being adjusted according to the sizes of the breasts of different lactation mothers, and aims to overcome the defects in the prior art.

The technical scheme adopted by the invention is as follows: the utility model provides a breast-pumping guard shield 3D prints appearance extraction element, is provided with the 3D printer including printing the computer, the one side that is located printing the computer, the opposite side that is located printing the computer is provided with data receiver, one side and the 3D printer of printing the computer between be provided with the printing connecting wire, be provided with the computer connecting wire between the opposite side of printing the computer and the data receiver, data receiver's the outside be provided with data transmitter, through data connecting wire electric connection between data transmitter and the data receiver, the cover is equipped with breast-pumping guard shield 3D and prints appearance extraction element on data transmitter's the lateral wall, data transmitter installs the middle part at breast-pumping guard shield 3D and prints appearance extraction element.

Breast milk guard shield 3D print appearance extraction element include that 3D prints the collection model, be located the 3D and print the response deconcentrator that gathers the model middle part, 3D print the collection model and include model guard shield shell, the inside of model guard shield shell is provided with model guard shield inner shell, be provided with flexible piece recess between model guard shield shell and model guard shield inner shell, flexible piece recess endotheca is equipped with flexible piece, the one end of flexible piece establish in the inside of flexible piece recess, the other end setting of flexible piece is in the outside of flexible piece recess, the setting be provided with the inductor on the lateral wall of the outside flexible piece of flexible piece recess, the setting is provided with flexible piece connecting wire on the lateral wall of the inside flexible piece of flexible piece recess.

The 3D printing collection model adopts a hemispherical hollow structure, one end side wall of the induction deconcentrator is arranged between the model shield outer shell and the model shield inner shell on the 3D printing collection model, and the other end side wall of the induction deconcentrator is connected with the data transmitter.

The quantity of flexible piece recess be a plurality of, the length of every flexible piece recess is not more than the length of distance between model guard shield shell and the model guard shield inner shell, the quantity of flexible piece unanimous with the quantity of flexible piece recess, the width of flexible piece is not more than the width of flexible piece recess, the length of flexible piece is not less than the length of flexible piece recess, the quantity of inductor unanimous with the quantity of flexible piece, and a plurality of inductor all is located same one side.

The number of the telescopic block connecting wires is consistent with that of the telescopic blocks, one end of each of the plurality of telescopic block connecting wires is electrically connected with the plurality of telescopic blocks, and the other end of each of the plurality of telescopic block connecting wires is electrically connected with the induction deconcentrator.

The height of the data transmitter is consistent with that of the induction deconcentrator, and the data transmitter is typically connected with the induction deconcentrator through a connecting wire.

A breast shield 3D printed profile extraction device as described above, using the method as follows: firstly, when the 3D printing acquisition model is used, a power switch is turned on, an operator moves the 3D printing acquisition model to the breast of a lactation mother, the breast of the lactation mother is in contact with an inner shell of a model shield in the 3D printing acquisition model, and the breast of the lactation mother is in contact with an inductor; then, the inductor is matched with the telescopic block, the inductor receives information and the movement of the telescopic block in the groove of the telescopic block according to the extrusion of the breast of a lactation mother, the inductor transmits the received information to the induction deconcentrator through a telescopic block connecting wire arranged on the telescopic block, and the received information is transmitted to the data transmitter through the induction deconcentrator; then, the data transmitter sends the received information to the data receiver through the data connecting line, the data receiver sends the received information to the printing computer through the computer connecting line, the received information is summarized through the information received by the printing computer and is sent to the 3D printer through the printing connecting line, and the 3D printer starts to print the breast pumping shield mold through the received information; and finally, after the breast shield mold is printed, closing a power switch to finish use.

The invention has the beneficial effects that: firstly, the product is provided with a printing computer, a 3D printer is arranged on one side of the printing computer, a data receiver is arranged on the other side of the printing computer, a printing connecting line is arranged between one side of the printing computer and the 3D printer, a computer connecting line is arranged between the other side of the printing computer and the data receiver, a data transmitter is arranged on the outer side of the data receiver, the data transmitter and the data receiver are electrically connected through the data connecting line, a milk sucking shield 3D printing appearance extracting device is sleeved on the side wall of the data transmitter, and the data transmitter is arranged in the middle of the milk sucking shield 3D printing appearance extracting device, so that the milk sucking shield can be better convenient for a lactation mother to use and is also convenient for an operator to operate; secondly, the product adopts a hollow hemispherical structure, so that a lactation mother can conveniently wear the product; thirdly, the chest size of the breast feeding mother can be better adjusted according to different breast feeding mothers by arranging the telescopic block and the telescopic block groove; in addition, the product is provided with the inductor on the telescopic block, so that information can be better acquired, and the acquired information is sent to a printing computer through the mutual matching of the data transmitter and the data receiver; finally, the product starts to print the breast shield by printing information on the computer.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is an overall sectional structure diagram of the present invention.

Fig. 3 is an enlarged schematic view of the structure at a of the present invention.

Fig. 4 is a schematic diagram of the structure of the operation information of the present invention.

Detailed Description

As shown in fig. 1, 2, 3 and 4, a 3D printing shape extracting device for a breast shield comprises a printing computer 2, a 3D printer 1 is arranged on one side of the printing computer 2, a data receiver 3 is arranged on the other side of the printing computer 2, a printing connecting line 4 is arranged between one side of the printing computer 2 and the 3D printer 1, a computer connecting line 5 is arranged between the other side of the printing computer 2 and the data receiver 3, a data transmitter 7 is arranged on the outer side of the data receiver 3, the data transmitter 7 is electrically connected with the data receiver 3 through a data connecting line 6, the breast shield 3D printing shape extracting device is sleeved on the side wall of the data transmitter 7, and the data transmitter 7 is installed in the middle of the breast shield 3D printing shape extracting device.

Breast milk guard 3D print appearance extraction element print collection model 15 including 3D, be located 3D and print the response deconcentrator 8 of gathering the middle part of model 15, 3D print collection model 15 including model guard shell 9, the inside of model guard shell 9 is provided with model guard inner shell 10, be provided with flexible piece recess 13 between model guard shell 9 and model guard inner shell 10, flexible piece recess 13 internalization cover is equipped with flexible piece 11, the one end of flexible piece 11 establish in the inside of flexible piece recess 13, the other end setting of flexible piece 11 is in the outside of flexible piece recess 13, the setting be provided with inductor 12 on the lateral wall of the outside flexible piece 11 of flexible piece recess 13, the setting is provided with flexible piece connecting wire 14 on the lateral wall of the inside flexible piece 11 of flexible piece recess 13.

3D print collection model 15 adopt hemisphere hollow structure, the one end lateral wall of response deconcentrator 8 is installed between model guard shell 9 and the model guard inner shell 10 on 3D prints collection model 15, the other end lateral wall of response deconcentrator 8 is connected with data transmitter 7.

The quantity of flexible piece recess 13 be a plurality of, the length of every flexible piece recess 13 is not more than the length of distance between model guard shell 9 and the model guard inner shell 10, the quantity of flexible piece 11 consistent with the quantity of flexible piece recess 13, the width of flexible piece 11 is not more than the width of flexible piece recess 13, the length of flexible piece 11 is not less than the length of flexible piece recess 13, the quantity of inductor 12 consistent with the quantity of flexible piece 11, and a plurality of inductor 12 all is located same one side.

The number of the telescopic block connecting wires 14 is consistent with the number of the telescopic blocks 11, one end of each of the telescopic block connecting wires 14 is electrically connected with the corresponding telescopic block 11, and the other end of each of the telescopic block connecting wires 14 is electrically connected with the corresponding induction deconcentrator 8.

The height of the data transmitter 7 is consistent with that of the induction deconcentrator 8, and the data transmitter 7 is typically connected with the induction deconcentrator 8 through a connecting wire.

The use method of the product is as follows: as shown in fig. 1, 2, 3 and 4, a breast shield 3D printed profile extraction device as described above is used as follows: firstly, when the 3D printing acquisition model is used, a power switch is turned on, an operator moves the 3D printing acquisition model 15 to the breast of a lactation mother, so that the breast of the lactation mother is in contact with the model shield inner shell 10 positioned in the 3D printing acquisition model 15, and the breast of the lactation mother is in contact with the inductor 12; then, through the mutual cooperation of the inductor 12 and the telescopic block 11, according to the extrusion of the breast of a lactation mother, the inductor 12 receives information and the movement condition of the telescopic block 11 in the telescopic block groove 13, the inductor 12 transmits the received information to the induction deconcentrator 8 through a telescopic block connecting wire 14 arranged on the telescopic block 11, and then the received information is transmitted to the data transmitter 7 through the induction deconcentrator 8; then, the data transmitter 7 transmits the received information to the data receiver 3 through the data connecting line 6, the data receiver 3 transmits the received information to the printing computer 2 through the computer connecting line 5, the received information is summarized through the information received by the printing computer 2 and is transmitted to the 3D printer 1 through the printing connecting line 4, and the 3D printer 1 starts to print the breast shield mold through the received information; and finally, after the breast shield mold is printed, closing a power switch to finish use.

The 3D printing shape extraction device with the inductor, which is fast in extension, convenient to wear and operate, and capable of being adjusted according to the chest sizes of different breast feeding mothers has wide market demands.

Claims

1. The utility model provides a breast shield 3D prints appearance extraction element, includes printing computer (2), is located one side of printing computer (2) and is provided with 3D printer (1), and the opposite side that is located printing computer (2) is provided with data receiver (3), its characterized in that: the utility model discloses a milk sucking machine, including printing computer (2), data receiver (3), data transmitter (7), data receiver (3) and data transmitter (7), the one side of printing computer (2) and 3D printer (1) between be provided with printing connecting wire (4), be provided with between opposite side and the data receiver (3) of printing computer (2) computer connecting wire (5), the outside of data receiver (3) be provided with data transmitter (7), through data connecting wire (6) electric connection between data transmitter (7) and the data receiver (3), the cover is equipped with milk sucking shield 3D on the lateral wall of data transmitter (7) and prints appearance extraction element, data transmitter (7) are installed in milk sucking shield.

2. The breastshield 3D printed profile extraction device of claim 1, wherein: the 3D printing shape extraction device of the breast shield comprises a 3D printing acquisition model (15) and an induction deconcentrator (8) positioned in the middle of the 3D printing acquisition model (15), the 3D printing acquisition model (15) comprises a model shield outer shell (9), a model shield inner shell (10) is arranged in the model shield outer shell (9), a telescopic block groove (13) is arranged between the model shield outer shell (9) and the model shield inner shell (10), a telescopic block (11) is movably sleeved in the telescopic block groove (13), one end of the telescopic block (11) is arranged inside the telescopic block groove (13), the other end of the telescopic block (11) is arranged outside the telescopic block groove (13), the telescopic block is characterized in that an inductor (12) is arranged on the side wall of the telescopic block (11) outside the telescopic block groove (13), and a telescopic block connecting wire (14) is arranged on the side wall of the telescopic block (11) inside the telescopic block groove (13).

3. The breastshield 3D printed profile extraction device of claim 2, wherein: the 3D printing collection model (15) adopts a hemispherical hollow structure, one end side wall of the induction deconcentrator (8) is arranged between a model shield outer shell (9) and a model shield inner shell (10) on the 3D printing collection model (15), and the other end side wall of the induction deconcentrator (8) is connected with the data transmitter (7).

4. The breastshield 3D printed profile extraction device of claim 2, wherein: the quantity of flexible piece recess (13) be a plurality of, the length of every flexible piece recess (13) is not more than the length of distance between model guard shell (9) and model guard inner shell (10), the quantity of flexible piece (11) be consistent with the quantity of flexible piece recess (13), the width of flexible piece (11) is not more than the width of flexible piece recess (13), the length of flexible piece (11) is not less than the length of flexible piece recess (13), the quantity of inductor (12) be consistent with the quantity of flexible piece (11), and a plurality of inductor (12) all are located same one side.

5. The breastshield 3D printed profile extraction device of claim 2, wherein: the number of the telescopic block connecting wires (14) is consistent with that of the telescopic blocks (11), one ends of the plurality of telescopic block connecting wires (14) are electrically connected with the plurality of telescopic blocks (11) respectively, and the other ends of the plurality of telescopic block connecting wires (14) are electrically connected with the induction deconcentrator (8).

6. The breastshield 3D printed profile extraction device of claim 3, wherein: the height of the data transmitter (7) is consistent with that of the induction deconcentrator (8), and the data transmitter (7) is typically connected with the induction deconcentrator (8) through a connecting wire.

7. A breast shield 3D printed profile extraction device according to claim 2, using the following: firstly, when the 3D printing acquisition model is used, a power switch is turned on, an operator moves the 3D printing acquisition model (15) to the breast of a lactation mother, so that the breast of the lactation mother is in contact with the model shield inner shell (10) positioned in the 3D printing acquisition model (15), and the breast of the lactation mother is in contact with the inductor (12); then, through the mutual matching of the inductor (12) and the telescopic block (11), according to the extrusion of the breast of a lactation mother, the inductor (12) receives information and the movement of the telescopic block (11) in the telescopic block groove (13), the inductor (12) transmits the received information to the induction deconcentrator (8) through a telescopic block connecting line (14) arranged on the telescopic block (11), and then the received information is transmitted to the data transmitter (7) through the induction deconcentrator (8); then, the data transmitter (7) transmits the received information to the data receiver (3) through the data connecting line (6), the data receiver (3) transmits the received information to the printing computer (2) through the computer connecting line (5), the received information is summarized through the information received by the printing computer (2) and is transmitted to the 3D printer (1) through the printing connecting line (4), and the 3D printer (1) starts to print the breast shield mold through the received information; and finally, after the breast shield mold is printed, closing a power switch to finish use.