CN210076346U - Immersive isolation box for large-scale snail breeding - Google Patents

Abstract

The utility model discloses an immersive large-scale spiral shell is bred and is kept apart box, including box body, fixed rotating shaft, end cover and magnetic force handle, end cover and box body pass through threaded connection, fixed rotating shaft fix the box body on the fish bowl inner wall, allow to keep apart the box and can only rotate and can not carry out the translation, magnetic force handle not with other part direct contact, separate the fish bowl lateral wall through magnetic attraction and inhale with other parts and be in the same place, only be used for keeping apart the rotation of box and fix. The utility model discloses can realize raising large-scale spiral shell of vwatching at grass jar bottom, both increase the sight, can prevent again that pasture and water from being gnawed, simultaneously because cylinder bottom discharge is big, the water velocity is fast, is favorable to vwatching the faecal decomposition of spiral shell.

Description

Immersive isolation box for large-scale snail breeding

Technical Field

The utility model relates to an ornamental snail breeding device, concretely relates to immersion type large-scale snail breeding isolation box.

Background

In recent years, with the rapid development of economy and the improvement of living standard of people, the proportion of aquarium tanks for ornamental fish tanks in families is more and more, and especially the aquatic plant tanks are more and more favored by people. The grass jar is one kind of ornamental fish jar, and has aquatic mud or haydite as bottom bed, aquatic grass planted on the bed, small fishes and shrimps as main creatures, and small snails with silt removing, algae eliminating, bed bottom activating and ornamental value. The grass jar is a complete ecosystem, and is just as compared with a tropical rain forest moved to a home, fishes and shrimps can normally and originally live and breed in the jar, and the grass jar is full of green all the year round and has more appreciation than a common fish tank. With the increasing popularity of breeding equipment, breeding technology and variety sources, more and more people try to breed large ornamental snails such as golden snails in grass pots, the origin is in Argentina, the ornamental snails can be bought in China basically, the color of the shell is golden, and the golden snail is like gold, so the ornamental snails are called as golden snails. For another example, purple venus snail also belongs to the large snail. The large-scale snail has strong ornamental value and can bite a large amount of water plants due to the very large size, and for example, the golden snail is called as a grass cylinder mower. Generally, the aquatic plant tank and the large ornamental snail are both cultured in separate tanks, and a small number of attempts to culture the large snail in the grass tank are often unsuccessful or regularly feed a large amount of vegetables to the large snail to prevent the aquatic plant from being gnawed.

At present, the method of relatively using is to place the ornamental snail close to the water surface by an isolation box, so that the ornamental snail is isolated from the aquatic weeds and is independently raised. Although the large snails feed vegetables or aquatic weeds, the produced excrement is almost all the product of a large amount of plant fibers, which is very favorable for decomposing nitrobacteria dissolved in circulating water in the grass tank, the isolation box can only be placed at the upper part of the fish tank close to the water surface, the water flow is weak, and the excrement produced by the large snails is large in amount, so that the large snails are difficult to completely decompose. In addition, the isolation box placed close to the water surface is not favorable for viewing.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the defects of the prior art, providing an isolation box which has simple structure, high reliability and low cost and can realize the immersion isolation and cultivation of large ornamental snails.

The utility model discloses a following technical scheme realizes:

the utility model provides an immersive large-scale spiral shell is bred and keeps apart box, includes box body, fixed pivot, end cover and magnetic force handle, end cover and box body pass through threaded connection, fixed pivot fix the box body on the fish bowl inner wall, allow to keep apart the box and can only rotate and can not carry out the translation, magnetic force handle not with other part direct contact, separate the fish bowl lateral wall through magnetic attraction and inhale with other parts and be in the same place, only be used for keeping apart the rotation and the fixed of box.

Furthermore, the box body is of an integrated structure and comprises a channel opening and a cylinder body.

Furthermore, the passage opening is of a cylindrical structure, the whole body is connected with the end part of the cylinder body to form an integrated structure, and the side surface of the cylinder is of an external thread structure and is used for being in threaded engagement connection with the end cover.

Furthermore, the barrel body be rectangular shape, the lateral wall and bottom are covered with the discharge orifice, the discharge orifice is used for the smooth of grass jar mesocycle water to pass through.

Furthermore, a large through hole penetrating through the two side walls is formed in the side wall of the cylinder body close to the bottom of the cylinder body, and the fixed rotating shaft penetrates through the large through hole.

Further, the end cover include internal thread hole, shell, feed and eat mouthful, gasbag and magnetic stripe, the whole of all structures formula as an organic whole except the magnetic stripe, the magnetic stripe need be fixed on the inner wall of shell.

Furthermore, the cross section appearance and the size of the end cover are kept consistent with the cylinder body, and the continuity of the integral appearance after the end cover is connected with the box body is ensured.

Furthermore, the center of the end cover is provided with the cylindrical internal thread hole, and the thread specification and the opening depth are consistent with those of the channel opening, so that the two can be smoothly meshed.

Further, the gasbag be by shell, internal thread hole and feed and eat the mouth and enclose the step jointly and form, inside is full of sealed air, be used for giving the utility model discloses an isolation box provides buoyancy.

Furthermore, the width of the magnetic strip is consistent with that of the side edge of the shell, the magnetic strip surrounds and is fixed on the inner wall of the shell and used for being mutually attracted by the magnetic handle, and the fish tank glass cannot be scratched because the magnetic strip is not in direct contact with the fish tank.

Furthermore, the feeding port is a cylindrical through hole and is used for pressing and reducing the volume of foods such as vegetables, aquatic plants and the like on the premise of not unscrewing the end cover, and then the foods are put into the box body through the hole for the ornamental snacks.

Further, the opening diameter of the feeding opening needs to ensure the convenience of feeding vegetables and aquatic plants while preventing the ornamental snails from escaping.

Further, the feeding opening is fixed between the outer shell and the internal thread hole to improve the rigidity of the outer shell and the internal thread hole.

Furthermore, the fixed rotating shaft comprises a sucker, a screw rod and a nut, the screw rod is fixed on the sucker, and the nut is in threaded connection with the screw rod.

Furthermore, the sucking disc be classical sucking disc structure, during the use, paste on the fish bowl inner wall after through squeezing out its inside air and water, then through direct water pressure and indirect atmospheric pressure firmly fix the sucking disc on the fish bowl inner wall.

Further, the screw rod is full thread structure, and the diameter will be guaranteed to pass the through-hole that needs pass on the box body that figure 4 shows, and length needs to be guaranteed to pass the box body to leave certain margin in order to guarantee the utility model discloses a free rotation.

Furthermore, the thread specification of the nut needs to be guaranteed to be consistent with that of the screw, and the nut height needs to guarantee thread meshing firmness.

Furthermore, the magnetic handle comprises a handle body, a handle through hole and a handle magnetic block.

Furthermore, the handle through hole is arranged on the side surface of the magnetic handle body and is a through hole, so that the magnetic handle can be conveniently hung at a certain position to prevent loss when not used.

Furthermore, the handle magnetic block is sealed at the near surface position close to one end in the handle body and is used for being attracted with the magnetic strip in the end cover to drive the whole isolation box to rotate and fix the isolation box at a certain rotating angle.

Compared with the prior art, the utility model discloses following beneficial effect has:

the utility model discloses can realize raising large-scale ornamental snail in grass jar bottom, both increase the sight, can prevent again that pasture and water from being gnawed, simultaneously because bottom of the vat discharge is fast with the water velocity, be favorable to vwatching the faecal decomposition of snail.

The utility model discloses do not need the external energy, rotate and fix with the help of the magnetic force handle, make with the help of the buoyancy of air feed and eat mouthful from the bottom to the surface of water and come.

The utility model discloses simple structure, reliability height, low in cost, convenient operation have very big popularization prospect and social demand consequently.

Drawings

Fig. 1 is a schematic structural diagram of an immersion type large-scale snail cultivation isolation box.

Fig. 2 is a schematic orientation diagram of an immersion type large-scale snail cultivation isolation box in a feeding state and a cultivation state respectively.

Fig. 3 is a schematic structural view of the cartridge.

Fig. 4 is a partial enlarged view of the bottom of the cartridge body.

Fig. 5 is a schematic structural view of the end cap.

Fig. 6 is a cross-sectional view of the end cap.

Fig. 7 is a schematic structural view of the fixed rotary shaft.

Fig. 8 is a schematic structural view of a magnetic handle.

Illustration of the drawings: 1. a box body; 2. an end cap; 3. fixing the rotating shaft; 4. a magnetic handle; 5. a fish tank (not belonging to the field of the utility model); 1-1. a passage port; 1-2 barrel bodies; 2-1, an internal thread hole; 2-2. a housing; 2-3, magnetic strip; 2-4, feeding the food; 2-5. air bag; 3-1. a sucker; 3-2. screw; 3-3, a nut; 4-1, a handle body; 4-2, a handle through hole; 4-3. a handle magnet.

Detailed Description

The invention is described in further detail below with reference to the drawings and the detailed description.

As shown in fig. 1 to 8, an immersion type large-scale snail breeding isolation box comprises a box body (1), a fixed rotating shaft (3), an end cover (2) and a magnetic handle (4), wherein the end cover (2) is in threaded connection with the box body (1), the box body (1) is fixed on a fish tank through the fixed rotating shaft (3) and can only rotate but not translate, and the magnetic handle (4) is not in direct contact with other components and is only used for rotating and fixing the box body (1).

Further, as shown in fig. 3, the box body (1) is an integrated structure and comprises a channel opening (1-1) and a cylinder body (1-2).

Furthermore, the channel opening (1-1) is of a cylindrical structure, the whole body is connected with the end part of the cylinder body (1-2) to form an integrated structure, and the side surface of the cylinder is of an external thread structure and is used for being in threaded engagement connection with the end cover (2).

Furthermore, the cylinder body (1-2) is strip-shaped, overflowing holes are distributed on the side wall and the bottom of the cylinder body, and the overflowing holes are used for smoothly passing circulating water in the fish tank (5).

Further, as shown in fig. 4, a large through hole penetrating through both side walls is formed on the side wall of the cylinder body (1-2) near the bottom for the fixed rotating shaft (3) to pass through.

Further, as shown in fig. 5 and 6, the end cap (2) comprises an internal thread hole (2-1), a shell (2-2), a feeding port (2-4), an air bag (2-5) and a magnetic strip (2-3), all structures except the magnetic strip (2-3) are an integral whole, and the magnetic strip (2-3) needs to be fixed on the inner wall of the shell (2-2).

Furthermore, the cross section appearance and the size of the end cover (2) are kept consistent with those of the cylinder body (1-2), and the continuity of the integral appearance after the end cover is connected with the box body (1) is ensured.

Furthermore, the center of the end cover (2) is provided with the cylindrical internal threaded hole (2-1), and the thread specification and the opening depth are consistent with those of the channel opening (1-1), so that the two can be smoothly meshed.

Furthermore, the gasbag (2-5) is formed by the shell (2-2), the internal thread hole (2-1) and the feeding port (2-4) which are jointly enclosed, and the inside of the gasbag is filled with sealed air and used for providing buoyancy for the isolation box of the utility model.

Furthermore, the width of the magnetic strip (2-3) is consistent with that of the side edge of the shell (2-2), the magnetic strip is encircled and fixed on the inner wall of the shell (2-2) and is used for being mutually attracted with the magnetic handle (4) through magnetic force, and the fish tank glass cannot be scratched because the magnetic strip (2-3) is not in direct contact with the fish tank.

Furthermore, the feeding port (2-4) is a cylindrical through hole and is used for putting food such as vegetables, aquatic plants and the like into the box body (1) through the hole after compressing and reducing the volume on the premise of not unscrewing the end cover (2) so as to be eaten by ornamental snacks.

Further, the opening diameter of the feeding ports (2-4) needs to ensure the convenience of feeding vegetables and aquatic weeds while preventing the ornamental snails from escaping.

Further, the feeding opening (2-4) is fixed between the outer shell (2-2) and the internal thread hole (2-1) to improve the rigidity of the two.

Further, as shown in fig. 7, the fixed rotating shaft (3) includes a suction cup (3-1), a screw rod (3-2) and a nut (3-3), the screw rod (3-2) is fixed on the suction cup (3-1), and the nut (3-3) is in threaded connection with the screw rod (3-2).

Furthermore, the sucker (3-1) is of a classic sucker (3-1) structure, when the fish tank is used, air and water in the fish tank are squeezed out and then attached to the inner wall of the fish tank, and then the sucker (3-1) is firmly fixed on the inner wall of the fish tank through direct water pressure and indirect atmospheric pressure.

Further, screw rod (3-2) are full thread structure, and the diameter will be guaranteed to pass the through-hole that needs to pass on the box body (1) that figure 4 shows, and length needs to be guaranteed to pass box body (1) to leave certain margin in order to guarantee the utility model discloses a free rotation.

Furthermore, the thread specification of the nut (3-3) needs to be ensured to be consistent with that of the screw rod (3-2), and the nut height needs to be ensured to ensure the firmness of thread engagement.

Further, as shown in fig. 8, the magnetic handle (4) comprises a handle body (4-1), a handle through hole (4-2) and a handle magnet (4-3).

Furthermore, the handle through hole (4-2) is formed in the side face of the magnetic handle (4) body and is a through hole, so that the magnetic handle (4) can be conveniently hung at a certain position to prevent loss when not used.

Furthermore, handle magnetic path (4-3) sealed close on in handle body (4-1) near surface department of one end for with end cover (2) in magnetic stripe (2-3) attract mutually, drive the utility model discloses keep apart the whole rotation of box, and fix on a certain turned angle.

Furthermore, the matching of the magnetic pole directions of the handle magnetic block (4-3) in the magnetic handle (4) needs to be ensured, that is, the outward magnetic pole of the handle magnetic block (4-3) is opposite to the magnetic pole of the magnetic strip (2-3) in the end cover (2), and the magnetic forces of the handle magnetic block and the magnetic strip are ensured to be attracted but not repelled.

The working principle and the using method of the utility model are as follows:

the utility model discloses a fixed and the process of taking one's place of isolation box as follows:

firstly, fix the sucking disc of fixed rotating shaft on the position that the fish bowl inner wall closes on the jar bottom, then wear the box body on the screw rod of fixed rotating shaft through the through-hole that corresponds on the barrel, then firmly twist the nut at the tip of screw rod, prevent that the box body from droing.

And then, opening the end cover, putting the ornamental screw into the box body, and screwing the end cover again to prevent the ornamental screw from escaping.

And finally, sucking the magnetic strip in the end cover at the outer side of the fish tank through the tank wall by adopting a magnetic handle, so that the magnetic handle is connected with other parts of the isolation box through magnetic force, slowly moving the magnetic handle, slowly rotating the isolation box from the vertical position shown in the left side diagram in the figure 2 to the horizontal position shown in the right side diagram in the figure 2, and fixing the isolation box at the position through the magnetic handle after the position is determined.

When feeding, need to keep apart box end cover section and move to the surface of water to convenient operation, specific process is as follows:

when the fish tank needs to be fed, the magnetic handle is taken away from the side wall of the fish tank, the side of the end cover of the isolation box is changed into a free end, at the moment, because a large amount of air exists in the end cover, the free end of the isolation box floats upwards due to buoyancy generated by the end cover, the other end of the isolation box is restrained by the fixed rotating shaft and can only rotate, and therefore the isolation box can slowly rotate around the fixed rotating shaft until the end cover floats out of the water. At the moment, the vegetables or the redundant aquatic weeds in the fish tank which are pressed by force are put into the isolation box through the feeding port on the end cover. After the operation is finished, the positioning operation is executed again, and the isolation box is fixed at the bottom of the fish tank again.

Because the utility model discloses a near the mode that the isolation box was immersed completely is fixed in the cylinder bottom, and here discharge and water velocity are great, and there is a large amount of nitrobacteria in the fish bowl circulating water, consequently vwatchs the excrement and urine of spiral shell and will be decomposed fast, the quality of water in the non-staining fish bowl. In addition, the fish tank is positioned at the lower part of the fish tank, so that the viewing of the spiral is facilitated.

The above examples of the present invention are merely preferred embodiments of the present invention, and are not limitations of the present invention.

Claims (5)

1. The utility model provides an immersive large-scale spiral shell is bred and keeps apart box which characterized in that: the fish tank comprises a tank body (1), an end cover (2), a fixed rotating shaft (3) and a magnetic handle (4), wherein the end cover (2) is in threaded connection with the tank body (1), the tank body (1) is fixed on the fish tank through the fixed rotating shaft (3) and can only rotate but not translate, and the magnetic handle (4) is not in direct contact with other parts and only used for rotating and fixing the tank body (1).

2. The immersion type large-scale snail breeding isolation box according to claim 1, which is characterized in that: the box body (1) is of an integrated structure and comprises a channel opening (1-1) and a cylinder body (1-2).

3. The immersion type large-scale snail breeding isolation box according to claim 1, which is characterized in that: the end cover (2) comprises an internal thread hole (2-1), a shell (2-2), a feeding port (2-4), an air bag (2-5) and a magnetic strip (2-3), all structures except the magnetic strip (2-3) are integrated into a whole, and the magnetic strip (2-3) needs to be fixed on the inner wall of the shell (2-2).

4. The immersion type large-scale snail breeding isolation box according to claim 1, which is characterized in that: the fixed rotating shaft (3) comprises a sucker (3-1), a screw rod (3-2) and a nut (3-3), the screw rod (3-2) is fixed on the sucker (3-1), and the nut (3-3) is in threaded connection with the screw rod (3-2).

5. The immersion type large-scale snail breeding isolation box according to claim 1, which is characterized in that: the magnetic handle (4) comprises a handle body (4-1), a handle through hole (4-2) and a handle magnetic block (4-3).

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