TWM482264U - Embedded automatic incubating feeder - Google Patents

Description

Built-in automatic hatchery feeder

This creation is about a technique for incubating feeders, especially one that can be easily installed and can automatically hatch brine shrimps. It can also automatically separate the larvae, egg shells and dead eggs of the brine shrimp without artificial harvesting. Shrimp and a built-in automatic hatching feeder that separates the larvae, egg shells, and dead eggs of the brine shrimp to enhance overall utility and convenience.

Because of its easy storage, simple hatching method, small larvae size and nutritional value, it is in line with the needs of various fry, rich in protein and fatty acids, and it is not easy to cause water quality deterioration. Therefore, it is good for fish, shrimp and other seedlings. Because of the bait, the breeders will self-incubate the brine shrimp as feed to breed freshwater fish fry and other organisms.

At present, there are many kinds of brine shrimp incubators on the market, but in the current aquarium market incubators only provide hatching function, but can not automatically harvest brine shrimp larvae and automatically separate soft shells or dead eggs, so it needs to be manually harvested and separated. The larvae, egg shells and dead eggs of the brine shrimps prevent the fry from eating egg shells and dead eggs, resulting in many inconveniences caused by the inconvenience of use.

Therefore, how to create a kind of automatic hatching and separation of brine shrimp At the same time, the insects can automatically separate the egg shell and the dead eggs, which makes the use more convenient, and the overall structure is simple, which can also improve the practicality and sales volume, which will be the active disclosure of this creation.

The purpose of this creation is to provide a built-in automatic hatching feeder, which mainly has an opaque circular tubular body to increase the smoothness of water entering, so that the brine shrimp eggs can be evenly stirred, and the card can be prevented from being stuck in the dead angle. There is a transparent long hole near the bottom to increase the chance of the larvae of the brine shrimp. An opening and an upper and a lower cover are arranged on the upper and lower sides. After the upper and lower covers are turned away, the empty shell which remains in the product after hatching can be easily removed, thereby increasing the convenience of cleaning, thereby improving the overall utility. Convenience.

To achieve the above objectives, the present invention provides a built-in automatic hatching feeder for hatching brine shrimp, comprising: a round tubular body, an upper cover and a lower cover. The circular tubular system is composed of an opaque material, and each of the upper and lower portions is provided with an opening. The inside of the circular tubular body has an accommodating space, and a transparent block is disposed near the front side of the circular tubular body, and the transparent block is provided. An elongated perforation is arranged thereon, and an opaque baffle is arranged behind the transparent block, and the area of the opaque baffle is smaller than the area of the transparent block; the upper cover cover covers the opening above the circular tubular body And a vent hole is arranged on the upper cover. The lower cover is fixed at the opening below the circular tubular body.

In a preferred embodiment, the rear side of the circular tubular body is provided with a plurality of suction cups. The round tubular system is based on the structure of PET polyethylene terephthalate or high temperature resistance. The structure of the corrosion-resistant material. The upper cover and the lower cover are formed by opaque colors, and the opening above the circular tubular body is larger than the lower opening, so that the upper cover is larger than the lower cover. The transparent block is a long strip of transparent blocks.

1‧‧‧ Built-in automatic hatching feeder

11‧‧‧ Round tubular body

110‧‧‧ openings

111‧‧‧ accommodating space

112‧‧‧Transparent blocks

113‧‧‧Long perforation

114‧‧‧Opacity baffle

12‧‧‧Upper cover

121‧‧‧ venting holes

13‧‧‧Under the cover

14‧‧‧Sucker

1 is an exploded perspective view of a preferred embodiment of the built-in automatic hatching feeder.

2 is a perspective assembled view of a preferred embodiment of the built-in automatic hatching feeder.

Fig. 3 is a perspective view of the back side of a preferred embodiment of the built-in automatic hatching feeder.

The embodiments of the present invention are described below by way of specific embodiments, and those skilled in the art can readily appreciate other advantages and effects of the present invention from the disclosure herein.

The embodiments of the present invention are described below with reference to the drawings. It should be noted that the following drawings are simplified schematic diagrams, and only the basic concept of the creation is illustrated in a schematic manner, and only the structure related to the creation is illustrated in the drawings. Rather than drawing according to the number, shape and size of the components in actual implementation, the types, quantities and proportions of the components in actual implementation are not limited to the illustrations, and can be changed according to the actual design requirements.

Please refer to FIG. 1 and FIG. 2 , which are a perspective exploded view and a stereoscopic appearance of a preferred embodiment of the built-in automatic hatching feeder. As shown in the figure, the built-in automatic hatching feeder 1 application of the present invention is applied. Hatching brine shrimp, containing a round tube The body 11, an upper cover 12 and a lower cover 13. The circular tubular body 11 is made of a material that is opaque, and has an opening 110 at the upper and lower sides. The inside of the circular tubular body 11 has an accommodating space 111. A transparent block 112 is disposed near the front side of the circular tubular body 11. An transparent perforation 113 is disposed on the transparent block 112, and an opaque baffle 114 is disposed behind the transparent block 112. The area of the opaque baffle 114 is smaller than the area of the transparent block 112. The upper cover 12 is covered by the opening 110 above the circular tubular body 11, and the upper cover 12 is provided with a venting hole 121 to facilitate the smooth discharge of air remaining in the product after the water enters. The lower cover 13 is fixed at the opening 110 below the circular tubular body 11.

In the preferred embodiment, the circular tubular body 11 is constructed of a structure of PET polyethylene terephthalate or a structure resistant to high temperature and corrosion resistant materials. The upper cover 12 and the lower cover 13 are also formed of opaque colors, just to identify the upper cover 12 and the lower cover 13, and the upper cover 12 and the lower cover 13 are opaque and other brighter colors than the circular tubular body 11. The transparent block 112 occupies about one third of the circular tubular body 11. Although the opaque baffle 114 is disposed behind the transparent block 112, the opaque baffle 114 is smaller than the transparent block 112, so the opaque block The plate 114 does not completely obscure the transparent block 112.

In actual use, since the brine shrimp must be hatched under the condition of salinity, if the seawater tank only needs to put the brine shrimp eggs into the accommodation space 111 of the circular tubular body 11, the built-in automatic hatching The feeder 1 is directly fixed in the aquarium. After the hatching of the brine shrimp, it will swim out by itself and be fed by the fry. If it is a fresh water tank, the round tubular body 11 can be placed in a hatching cup filled with sea water. After the transformation, it will swim out on its own, and achieve the effect of separating the egg shell, the dead egg and the larvae of the brine shrimp.

Specifically, the upper cover 12 is first opened, and the brine shrimp eggs can be placed in the accommodating space 111 of the round tubular body 11. Due to the characteristics of the brine shrimp eggs, the shrimp eggs do not sink. Moreover, since the circular tubular body 11 is cylindrical or curved, it can increase the smoothness of the water entering, so that the brine shrimp eggs can be evenly stirred, and the card can be prevented from being stuck in the dead angle. After the hatching of the brine shrimp eggs, the phototaxis of the brine shrimp larvae is used to swim toward the transparent block 112 below the circular tubular body 11 and swim out of the circular tubular body 11 through the elongated perforations 113, and The arrangement of the opaque baffle 114 can prevent the reverse flow of the brine shrimp eggs. Egg shells or dead eggs produced after hatching can be directly sunk, and they will gather at the lower cover 13 to automatically separate the larvae, egg shells and dead eggs of the brine shrimp, and prevent the fry from eating the egg shells. Death caused by dead eggs to improve overall practicality and convenience.

Referring to FIG. 3 again, it is a three-dimensional assembled view of a preferred embodiment of the built-in automatic hatching feeder. As shown in the figure, the back surface of the built-in automatic hatching feeder 1 of the present invention is provided with a plurality of suction cups 14 through which the circular tubular body 11 can be directly adsorbed and fixed in water or adsorbed to other waters. On the device, it helps to use this creation quickly and conveniently. In addition, when cleaning the inside, only the upper cover 12 and the lower cover 13 need to be opened, the egg shell and the dead eggs can be removed, and the round tubular body 11, the upper cover 12 and the lower cover can be quickly and conveniently cleaned to improve the cleaning. Convenience. Furthermore, the overall structure is simple, which can reduce manufacturing costs, reduce sales costs, and increase market sales.

Compared with the prior art, the built-in automatic hatching feeder of the present invention is mainly composed of an opaque circular tubular body, with an upper cover and a lower cover, a transparent block of a circular tubular body and a long perforated design. After attracting hatching, the larvae of the brine shrimp will automatically swim out of the round tubular body, and at the same time, let the egg shell and dead eggs can sink the bottom of the body, and then automatically separate the larvae, egg shells and dead eggs of the brine shrimp. There is no need to use manual separation to improve the convenience of use. Moreover, as long as the upper cover and the lower cover are opened, the egg shell and the dead egg can be quickly removed, and the round tubular body can be quickly washed to improve the convenience in cleaning. Moreover, the overall structure is simple, which can reduce the cost of sales and increase the market sales rate.

While the foregoing description and drawings have disclosed the preferred embodiments of the present invention, it is to be understood that various modifications, various modifications and substitutions may be used in the preferred embodiments of the present invention without departing from the scope of the appended claims. The spirit and scope of this creative principle. It will be appreciated by those skilled in the art that the present invention can be modified in many forms, structures, arrangements, ratios, materials, components and components. Therefore, the embodiments disclosed herein are to be considered as illustrative of the present invention and are not intended to limit the present invention. The scope of this creation is defined by the scope of the appended patent application and covers its legal equivalents and is not limited to the foregoing description.

1‧‧‧ Built-in automatic hatching feeder

11‧‧‧ Round tubular body

112‧‧‧Transparent blocks

113‧‧‧Long perforation

114‧‧‧Opacity baffle

12‧‧‧Upper cover

121‧‧‧ venting holes

13‧‧‧Under the cover

Claims (7)

The utility model relates to a built-in automatic hatching feeder for hatching brine shrimp, comprising: a round tubular body, which is composed of an opaque material, and an opening is arranged above and below, and the circular tubular body has an accommodating space therein. A transparent block is disposed on the front side of the front side of the circular tubular body, and the transparent block is provided with an elongated perforation, and an opaque baffle is disposed behind the transparent block, the opaque baffle The area is smaller than the area of the transparent block; an upper cover covers the opening above the circular tubular body, and the upper cover is provided with a venting opening; and the lower cover is fixed to the opening below the circular tubular body At the office. The built-in automatic hatching feeder according to claim 1, wherein the rear side of the circular tubular body is provided with a plurality of suction cups. The built-in automatic hatching feeder according to claim 1, wherein the round tubular system is constructed of a structure of PET polyethylene terephthalate. The built-in automatic hatching feeder according to claim 1, wherein the round tubular system is constructed of a structure resistant to high temperature and corrosion. The built-in automatic hatching feeder according to claim 1, wherein the upper cover and the lower cover are formed by opaque colors. The built-in automatic hatching feeder of claim 1, wherein the opening above the circular tubular body is larger than the lower opening, such that the upper cover is larger than the lower cover. The built-in automatic hatchery feeder according to claim 1, wherein the transparent block is a long transparent block.