TWM574322U - Cladding structure of blowing instrument - Google Patents

Abstract

The present invention relates to a drape structure of a wind instrument. The main structure comprises a tube body. The material in the tube body is polylactic acid (PLA) or photosensitive resin, and the tube body is made by three-dimensional printing and light curing. The pipe body is provided with at least one air inlet hole, at least one adjusting hole, and at least one sound hole, wherein the air inlet hole and the sound hole are located at two sides of the pipe body. With the above structure, the tube body can be manufactured by three-dimensional printing (3D printing), and the gas is blown from the position of the air inlet hole, and the adjustment hole is selectively pressed to adjust the sound emitted from the sound hole. It is a quick and easy way to create a wind instrument that is similar to a natural material.

Description

Blowing instrument

The present invention provides a drape structure for a blowpipe instrument, and more particularly, a drape structure for a blowpipe instrument that is easy to manufacture and has a good timbre.

According to music, music is a common spiritual food for human beings. Some studies have pointed out that listening to music can have many advantages, such as relaxing the body and mind, stimulating the brain to enhance creativity, and helping to sleep, but music and noise are often only one line apart. How to make the sound of the instrument or the singing of everyone can be more and more pleasing, instead of becoming noise and hurting others, it is also pursued by every musician.

Since most people can sing songs and tones that are natural and change because of their physical condition at the time, many people who like music are more inclined to learn to use music to play music, and to play music with instruments. In addition to the player's technique affecting the sound that is emitted, the instrument itself has a considerable impact.

For example, wind instruments, such as flutes, cymbals, etc., use blown gas into the tube to emit music, but such instruments are very particular about the material and manufacturing method of the instrument itself, such as metal, plastic, or Musical instruments made of natural materials (such as bamboo) have different sounds, but most of them need to be made of a blowpipe instrument with better sound. The manufacturing method will be quite troublesome, so how can it be quickly produced to blow out A good tone wind blower is a problem that needs to be solved.

Therefore, how to solve the above problems and deficiencies in the past, that is, the applicants of the new type and the relevant manufacturers engaged in this industry are eager to study the direction of improvement.

Therefore, in view of the above-mentioned deficiencies, the creators of this new model collect relevant information, and through multi-party evaluation and consideration, and through years of experience accumulated in this industry, through continuous trial and modification, they have designed such three-dimensional printing. The method is to quickly and easily create a new patent for the drape structure of a blowpipe instrument with a better tone.

The main purpose of the novel is to use a three-dimensional printing method, and with the material of polylactic acid (PLA) or photosensitive resin to quickly and easily produce a blow instrument with better sound, polylactic acid (PLA) is a decomposable material, so It can also increase the effect of environmental protection.

In order to achieve the above object, the main structure of the present invention comprises: a tube body, at least one air inlet hole disposed on the tube body, at least one adjusting hole disposed on the tube body, and at least one sound hole disposed on the tube body The material of the tube body is polylactic acid (PLA) or photosensitive resin, and the tube system is made by three-dimensional printing. If the material of the tube body is photosensitive resin, it is also required to be co-made by photo-curing.

With the above structure, the user can manufacture the tube body by means of three-dimensional printing, and the material of the tube body can be one of polylactic acid (PLA) or photosensitive resin, and the photosensitive resin needs to be irradiated by ultraviolet light. Curing, when the material is photosensitive resin, in addition to the three-dimensional printing, it is also necessary to cooperate with light curing to make the tube. When the tube is made, the gas can be blown in through the air inlet to let the gas out. The sound hole is punched out to make a sound, and the selective cover is used to adjust the hole, thereby adjusting the sound emitted from the sound hole. The sound produced by the three-dimensional printing method will be close to the sound. The sound produced by natural materials (such as bamboo), but its manufacturing method is quite simple and fast, so it can quickly and easily produce the advantages of a better blowpipe instrument, and it is impossible to manufacture each of the natural wind instruments. The same tone, and the three-dimensional printing method ensures that the manufactured wind instruments are the same, so the tone control can be similar, so the stability of production can be improved.

With the above technology, it is possible to break through the troublesome problems of the conventional blow pipe manufacturing method, and achieve the practical progress of the above advantages.

1, 1a, 1b, 1c, 1d, 1e‧‧‧ body

11, 11d, 11e‧‧‧ intake holes

111, 111d, 111e‧‧‧ recess

112d, 112e‧‧‧ oblique face

12, 12d, 12e‧‧‧ adjustment holes

13‧‧‧ sound hole

14‧‧‧Polylactic acid (PLA)

15a‧‧‧Photosensitive resin

16b‧‧‧First pipe fittings

161b‧‧‧First Connection

17b‧‧‧Second pipe fittings

171b‧‧‧Second connection

18c‧‧‧metal powder layer

19c‧‧·The Ministry of Graphic Affairs

2, 2a, 2b‧‧‧3D printing machine

3a‧‧‧Light curing mechanism

The first figure is a perspective view of the first preferred embodiment of the present invention.

The second drawing is a schematic view of the manufacture of the first preferred embodiment of the present invention.

The third figure is a schematic view of the blowing of the first preferred embodiment of the present invention.

The fourth drawing is a schematic view of the manufacture of the second preferred embodiment of the present invention.

Figure 5 is a perspective perspective view of a third preferred embodiment of the present invention.

The sixth drawing is an exploded view of the third preferred embodiment of the present invention.

The seventh drawing is a schematic view (1) of the manufacturing of the third preferred embodiment of the present invention.

The eighth drawing is a schematic view (2) of the manufacturing of the third preferred embodiment of the present invention.

The ninth drawing is a connection diagram of the third preferred embodiment of the present invention.

Figure 10 is a perspective perspective view of a fourth preferred embodiment of the present invention.

The eleventh diagram is a hierarchical diagram of the fourth preferred embodiment of the present invention.

Figure 12 is a perspective view of a fifth preferred embodiment of the present invention.

Figure 13 is another perspective view of the fifth preferred embodiment of the present invention.

Figure 14 is a perspective view of a sixth preferred embodiment of the present invention.

The fifteenth diagram is another perspective view of the sixth preferred embodiment of the present invention.

In order to achieve the above objects and effects, the technical means and structure adopted by the present invention are described in detail in the preferred embodiment of the present invention, and the features and functions thereof are as follows.

Please refer to the first figure, which is a perspective view of the first preferred embodiment of the present invention. It can be clearly seen from the figure that the novel system includes: a tube body 1, an air inlet hole 11, and a plurality of adjustment holes 12 And a sound hole 13, the air inlet hole 11 is formed at one end of the pipe body 1, and the sound hole 13 is located at the other end of the pipe body 1, and the adjustment hole 12 is disposed on the pipe body 1, and the pipe body 1 is It is made by three-dimensional printing (3D printing), and the material of the tube body 1 is polylactic acid (PLA) 14, and the tube body 1 can be any type of wind pipe musical instrument. In this embodiment, the ruler is taken as an example, A recess 111 is provided at one side of the air inlet opening 11, but it is not limited thereto, and may be the other type of blow musical instrument.

With the above description, the structure of the present technology can be understood, and according to the corresponding cooperation of the structure, the three-dimensional printing (3D printing) can be used to quickly and conveniently manufacture the blow musical instrument with better sound, and the details The explanation will be explained below.

Please refer to the first to third figures at the same time, which is a perspective view from the perspective of the first preferred embodiment of the present invention. When the above components are assembled, it can be clearly seen from the figure that the user It is necessary to set the structure and size in the three-dimensional printing machine 2, and then use the three-dimensional printing machine 2 to build the pipe body 1 by stacking, which can not only improve the manufacturing speed but also improve the manufacturing speed. It can be manufactured to ensure the quality of production, and since the material of the tube 1 is polylactic acid (PLA) 14, it can also improve environmental benefits because polylactic acid (PLA) 14 is a new type of biodegradation. The material is made from starch raw materials extracted from renewable plant resources (such as corn), so even if it is discarded, it will not damage the environment and have an environmentally friendly effect.

After the tube body 1 is made, the user can align the air inlet hole 11 away from the other side of the concave portion 111 with the mouth of the human body to blow in the gas, and selectively press the adjustment hole 12 to make the sound hole 13 Different sounds are played to play different pieces of music. Since the pipe body 1 manufactured by this method has higher precision, the sound produced is quite close to the sound produced by natural materials (such as bamboo), but The manufacturing efficiency and convenience are greatly different, so that it is possible to manufacture a blowtor instrument with better sound quality through a quick and convenient manufacturing method.

Please refer to the fourth embodiment at the same time, which is a schematic diagram of the manufacturing of the second preferred embodiment of the present invention. It can be clearly seen from the figure that the embodiment is similar to the above embodiment, and in this embodiment, the tube The material of the body 1a is the photosensitive resin 15a. Since the photosensitive resin 15a is required to be irradiated with ultraviolet light, it can be hardened. Therefore, when the tube 1a of the present embodiment is manufactured via the three-dimensional printing machine 2a, it is required to be in the three-dimensional printing machine 2a. Adding a photocuring mechanism 3a capable of emitting ultraviolet light, thereby curing the photosensitive resin 15a, since the manufacturing method can have higher precision and resolution, and the sound color emitted by the tube body 1a is mainly through the gas passing through the tube. Since the body 1a internally rubs the sound emitted, the internal sound accuracy and resolution can be improved again, and the sound produced by the pipe body 1a can be optimized again.

Please refer to the fifth to ninth drawings at the same time, which is a perspective view to a connection diagram of the third preferred embodiment of the present invention. It can be clearly seen from the figure that the embodiment is similar to the above embodiment. In this embodiment, the tubular body 1b includes a first tubular member 16b and a second tubular member 17b connected to the first tubular member 16b. The first tubular member 16b has a first connecting portion 161b and a second tubular member 17b. There is a second connecting portion 171b, and the first pipe member 16b and the second pipe member 17b can be connected to each other via the first connecting portion 161b and the second connecting portion 171b.

Since the size of some three-dimensional printing machine 2b is limited, and the complete pipe body 1b cannot be directly printed, the first pipe member 16b and the second pipe member 17b can be separately printed, and then through the first connecting portion 161b. And the second connecting portion 171b combines the first pipe member 16b and the second pipe member 17b to form the pipe body 1b, so that it can be separately produced to improve the convenience of production.

Please refer to the tenth and eleventh drawings at the same time, which is a perspective view and a hierarchical diagram of the fourth preferred embodiment of the present invention. It can be clearly seen from the figure that the embodiment and the above embodiment are In the present embodiment, the user can add metal powder to the tube body 1c, and when solidified, a metal powder layer 18c is formed on the tube body 1c, thereby allowing the tube body 1c to have a metallic luster, which allows the whole The shape of the body is brighter and more beautiful, but it is not limited.

Or, a graphic portion 19c is added to the tubular body 1c to indicate the product name, the manufacturer's name, or the pattern and text that the user desires to print, and there is no limitation.

Please also refer to the twelfth and thirteenth drawings, which are perspective views and another perspective view of the fifth preferred embodiment of the present invention. It can be clearly seen from the figure that the embodiment and the above embodiment In the present embodiment, the number of the adjustment holes 12d on the pipe body 1d is the first seven and the latter, and the other side of the recess 111d is further formed with a slope portion 112d, so that the shape of the air inlet hole 11d is outward. The shape of the inner V, by which it can be said that the shape of the south can also be produced.

Please also refer to the fourteenth and fifteenth drawings, which are perspective views and another perspective view of the sixth preferred embodiment of the present invention. It can be clearly seen from the figure that the embodiment and the above embodiment In this embodiment, the number of the adjusting holes 12e on the pipe body 1e is the first seven and seven, and the length of the pipe body 1e is relatively constant, and the other side of the concave portion 111e is also formed with a slope portion 112e. The shape of the air hole 11e exhibits the shape of the V inside the outer U, thereby indicating that the north ridge can also be manufactured.

However, the above description is only the preferred embodiment of the present invention, and thus does not limit the scope of the patent of the present invention. Therefore, all the simple modifications and equivalent structural changes that are made by using the present specification and the drawings are the same. It is included in the scope of this new patent and is given to Chen Ming.

Therefore, the key to improving the conventional structure of the blowpipe instrument of the present invention is that the tube body 1 is manufactured by three-dimensional printing, and is combined with polylactic acid (PLA) 14 and photosensitive resin 15a to achieve rapid Manufacture and at the same time have the advantage of a better tone.

In summary, the drape structure of the blowpipe instrument of the present invention can achieve its efficacy and purpose when used, so the novel is a new type of application with excellent practicability, which is in accordance with the requirements of the new patent application. To apply, I hope that the trial committee will grant this new type as soon as possible to protect the applicant's hard work. If there is any doubt in the trial committee, please do not hesitate to give a letter, and the applicant will try his best to cooperate with it.

Claims (12)

A drape structure for a wind instrument, comprising: a tube body formed by three-dimensional printing, and the material of the tube body is polylactic acid (PLA); at least one air inlet hole, the air inlet hole is disposed at One side of the tube body; at least one adjusting hole disposed on the tube body; and at least one sound hole disposed at a side of the tube body facing away from the air inlet hole. The dredging structure of the wind instrument according to claim 1, wherein a recess is provided at one side of the air inlet. The dredging structure of the wind instrument as described in claim 1, wherein the tube body is provided with at least one graphic portion. The dredging instrument of the wind instrument of claim 1, wherein the tube body defines at least one metal powder layer. The dredging structure of the wind instrument of claim 1, wherein the tube body comprises a first tube member and a second tube member connected to the first tube member. The dredging instrument of the wind instrument of claim 5, wherein the first tube member has at least one first connecting portion, and the second tube member has at least one pair of the first connecting portion Two connections. A drape structure for a blowpipe instrument, comprising: a tube body formed by photo-curing through three-dimensional printing, and the material of the tube body is a photosensitive resin; at least one air inlet hole, the air inlet hole is disposed at One side of the tube body; at least one adjusting hole disposed on the tube body; and at least one sound hole disposed at a side of the tube body facing away from the air inlet hole. The dredging instrument of the wind instrument of claim 7, wherein a recess is provided at one side of the air inlet. The dredging structure of the wind instrument as described in claim 7, wherein the tube body is provided with at least one graphic portion. The dredging instrument of the wind instrument of claim 7, wherein the tube body defines at least one metal powder layer. The wind blower covering structure according to claim 7, wherein the pipe body comprises a first pipe member and a second pipe member connected to the first pipe member. The blister structure of the wind instrument of claim 11, wherein the first tube member has at least one first connecting portion, and the second tube member has at least one pair of the first connecting portion Two connections.