CN210610748U - Three-dimensional breeding device of toad - Google Patents

Abstract

A three-dimensional toad breeding device belongs to the technical field of artificial toad breeding facilities. Comprises a toad breeding box frame, wherein the height direction of the toad breeding box frame is provided with a toad breeding box placing space, and the toad breeding box placing space positioned at the lowest part is a water circulation mechanism cavity; the water circulation mechanism is arranged in the water circulation mechanism cavity; the toad breeding box is arranged in the placement space of the toad breeding box, a toad escape prevention mesh enclosure is arranged at the upper opening position of the toad breeding box, an overflow pipe matching hole and a sewage discharge pipe matching hole are arranged on one side wall of the toad breeding box, an overflow main pipe matching joint is arranged at the position corresponding to the overflow pipe matching hole, the overflow main pipe extends downwards to the water circulation mechanism, a sewage discharge pipe is arranged at the position corresponding to the sewage discharge pipe matching hole, and a sewage discharge valve is arranged on the sewage discharge pipe; the feeding vibration mechanism is arranged on the cavity bottom wall of the toad breeding box cavity; the water supply pipe of the toad breeding box is connected with the water circulation mechanism. The high-density three-dimensional cultivation effect is good, and the utilization rate of indoor cultivation space is improved; improve the survival rate of the cultivation and reduce the cultivation cost.

Description

Three-dimensional breeding device of toad

Technical Field

The utility model belongs to the technical field of the artifical facility of breeding of toad, concretely relates to three-dimensional breeding device of toad.

Background

Chinese toads (Bufo gargarizans) are local native varieties, and the number of local rural toads is very large in the seventies of the last century, thereby playing an important role in the link of biodiversity. The toad can also provide good medicines for treating diseases for human, and the toad venom, the toad skin and the dried toad are all good traditional Chinese medicine raw materials, and experimental research and clinical treatment prove that the effect of treating malignant tumors such as lung cancer, skin cancer, cervical cancer, leukemia and the like by adopting the compound preparation of the toad venom, the toad skin and the dried toad is obvious. Due to the change of living environment, pollution, excessive catching of people and the like, toad resources are increasingly exhausted, the wild quantity is sharply reduced, three animals with protection in many areas in China are formed, and therefore, the artificial toad breeding is valued by people.

At present, artificial toad breeding is mainly performed in ponds or fields, and the breeding in the environment has the problems of more enemy organisms, low breeding survival rate, difficult capture and the like, so that the enthusiasm of the artificial toad breeding is influenced to a certain extent. The cultivation in a basin-shaped container (also called a 'disk-shaped container') has the advantages of being free from the influence of biological enemies, high in survival rate, easy to capture and the like, but is easily disturbed by indoor cultivation space. For example, chinese patent CN206565117U recommends "a new feeding device for toad cultivation", which can show the technical effect described in paragraph 0013 of the specification, but is in the category of plane cultivation, and therefore is not good for showing the maximum effect of space utilization, and the technical solution to be described below is generated in this context.

Disclosure of Invention

The utility model aims to provide a help embodying good three-dimensional breed effect of high density and can improve the utilization ratio to the indoor aquaculture space, be favorable to showing to improve and breed the survival rate and be of value to avoiding the harmful biology of enemy infringement and can reduce the cost of farming, have be convenient for catch, get the crisp and slough the clothing and can ensure the three-dimensional breeding device of toad of the artificial breeding economic benefits of ideal.

The task of the utility model is accomplished in this way, a toad three-dimensional breeding device, which comprises a toad breeding box frame, wherein the toad breeding box placing space is formed in the height direction of the toad breeding box frame from bottom to top in an interval state, and the toad breeding box placing space at the lowest part is formed into a water circulation mechanism cavity; the water circulation mechanism is arranged in the water circulation mechanism cavity; the toad breeding box is arranged in the placement space of the toad breeding box, a toad escape prevention mesh cover is arranged at the upper opening position of the toad breeding box, one of the four side walls of the toad breeding box is provided with an overflow pipe matching hole and a drain pipe matching hole which are communicated with the toad breeding box cavity of the toad breeding box, a position corresponding to the overflow pipe matching hole is provided with an overflow main pipe matching joint, the overflow main pipe matching joint is connected with an overflow main pipe, the overflow main pipe extends downwards to the water circulation mechanism, a drain pipe is arranged at the position corresponding to the drain pipe matching hole, and a drain valve is arranged on the drain pipe; the feeding vibration mechanism is arranged on the cavity bottom wall of the toad breeding box cavity; and a water supply pipe of the toad breeding box, which is connected with the water circulation mechanism and is provided with a water supply tap for supplying water into the toad breeding box at a position corresponding to the upper opening of the toad breeding box.

In a specific embodiment of the present invention, the toad cultivation box frame comprises a left front column, a right front column, a left rear column and a right rear column, a front column cross beam is connected between the left front column and the right front column from bottom to top in a spaced state, a rear column cross beam is connected between the left rear column and the right rear column from bottom to top in a spaced state, the rear column cross beam corresponds to the front column cross beam, and the spaces between the upper and lower adjacent front column cross beams and the upper and lower adjacent rear column cross beams jointly form the shelving space of the toad cultivation box; the left upright post cross beam is connected between the upper part, the middle part and the lower part of the front left upright post and the rear left upright post respectively, and the right upright post cross beam is connected between the upper part, the middle part and the lower part of the front right upright post and the rear right upright post respectively; the front end of the toad breeding box arranged in the toad breeding box placing space is supported on the front cross beam of the upright post, the rear end of the toad breeding box is supported on the rear cross beam of the upright post, and when two toad breeding boxes are arranged in the toad breeding box placing space corresponding to one toad breeding box in a left-right corresponding state, the number of the water supply pipes of the toad breeding boxes is two, and the two water supply pipes are respectively fixed with the front left upright post and the front right upright post.

In another specific embodiment of the present invention, a left column diagonal brace is disposed between the left front column and the left rear column, and a right column diagonal brace is disposed between the right front column and the right rear column.

In another specific embodiment of the present invention, the water circulation mechanism comprises a water circulation tank and a water circulation pump equipped with a motor, the water circulation tank is disposed in the water circulation mechanism cavity, a left water circulation tank cavity partition and a right water circulation tank cavity partition are disposed in the water circulation tank cavity of the water circulation tank, a space between the left water circulation tank cavity partition and the right water circulation tank cavity partition is a water storage cavity, a space between the left water circulation tank cavity partition and the left tank wall of the water circulation tank is a left water filter cavity, a space between the right water circulation tank cavity partition and the right tank wall of the water circulation tank is a right water filter cavity, the left water filter cavity is communicated with the water storage cavity through a left partition diversion hole provided in the left water circulation tank cavity partition, the right water filter cavity is also communicated with the water storage cavity through a right diversion hole provided in the right partition plate provided in the water circulation tank cavity partition, and a left water filtering device is arranged in the left water filtering cavity, a right water filtering device is arranged in the right water filtering cavity, a water inlet of a water circulating pump of the water circulating pump is communicated with the water storage cavity, and a water supply pipe of the toad culture box is connected with a water outlet of the water circulating pump.

In another specific embodiment of the present invention, the structure of the left water filter device is the same as the structure of the right water filter device.

In yet another specific embodiment of the present invention, the left water filtering device comprises a left activated carbon block and a left filtering sponge block, the left activated carbon block is disposed in the left water filtering cavity, and the left filtering sponge is laid on the upper part of the left activated carbon block; the right water filtering device comprises a right activated carbon block and a right filtering sponge block, the right activated carbon block is arranged in the right water filtering cavity, and the right filtering sponge is laid on the upper part of the right activated carbon block.

The utility model discloses a more and a concrete embodiment, feed and eat vibration mechanism include a vibration edible platform seat circle, a vibration edible platform and a vibrator, vibration edible platform seat circle directly constitute in on the chamber diapire in case chamber is bred to the toad, this vibration edible platform seat circle constitutes has vibration edible platform seat circle chamber, and the vibration edible platform has a bait chamber, and the upper portion and the vibration edible platform seat circle of vibration edible platform cooperate, and the lower part of vibration edible platform is visited the vibration edible platform and is eaten the seat circle intracavity, and the vibrator is fixed and is located the vibration edible platform seat circle intracavity equally in the lower part of vibration edible platform.

In yet another specific embodiment of the present invention, a pair of pin shaft seats are formed on the outer wall of the seat ring of the vibrating table, and a hinge lug extends from the outer wall of the upper portion of the vibrating table, is interposed between the pair of pin shaft seats and is hinged to the pair of pin shaft seats by a hinge lug pin.

In a still more specific embodiment of the present invention, the upper portion of the vibrating table is formed with a vibrating table seat ring engaging cavity on a downward side and around the periphery of the vibrating table, the vibrating table seat ring engaging cavity engaging with the upper edge of the vibrating table seat ring.

In yet another specific embodiment of the present invention, the vibrating table seat ring is provided with a sealing ring in the matching cavity.

One of the technical effects of the technical proposal provided by the utility model is that the toad breeding box shelf space is formed at intervals from bottom to top in the height direction of the toad breeding box shelf, and the toad breeding box is arranged in the toad breeding box shelf space, thereby showing good high-density three-dimensional breeding effect and improving the utilization rate of indoor breeding space; secondly, because the water circulation mechanism and the feeding vibration mechanism which can simulate the natural environment are arranged, the cultivation survival rate is improved obviously, and the cultivation cost is reduced because the cultivation is not influenced by harmful organisms; thirdly, as the crisp and the slough can be captured in time according to needs, the ideal economic benefit of artificial breeding can be ensured.

Drawings

Fig. 1 is a structural diagram of an embodiment of the present invention.

Fig. 2 is a schematic view of the toad breeding box shown in fig. 1, which is arranged in the bottom wall of the toad breeding box cavity.

Fig. 3 is a cross-sectional view of fig. 2.

Detailed Description

In order to make the technical essence and advantages of the present invention more clear, the applicant below describes in detail the embodiments, but the description of the embodiments is not a limitation of the present invention, and any equivalent changes made according to the inventive concept, which are only formal and not essential, should be considered as the technical scope of the present invention.

In the following description, all the concepts related to the directions or orientations of up, down, left, right, front and rear are exemplified by the position state of fig. 1, and thus, it should not be understood as a particular limitation to the technical solution provided by the present invention.

Referring to fig. 1, there is shown a toad cultivation box frame 1, in which toad cultivation box accommodation spaces 11 are formed at intervals from bottom to top in the height direction of the toad cultivation box frame 1, wherein the toad cultivation box accommodation space 11 located at the lowermost part is formed as a water circulation mechanism chamber 111; a water circulation mechanism 2 is shown, the water circulation mechanism 2 being disposed within the aforementioned water circulation mechanism chamber 111; a toad breeding box 3 is shown, the toad breeding box 3 is arranged in the toad breeding box placing space 11, and a toad escape-proof mesh enclosure 31 is arranged at the upper opening position of the toad breeding box 3, an overflow pipe matching hole 32 and a drain pipe matching hole 33 which are communicated with a toad breeding box cavity 34 of the toad breeding box 3 are arranged on one of the four side walls of the toad breeding box 3, an overflow main pipe matching joint 321 is arranged at the position corresponding to the overflow pipe matching hole 32, the overflow main pipe matching joint 321 is connected with an overflow main pipe 3211, the overflow main pipe 3211 extends downwards to the water circulation mechanism 2, a drain pipe 331 is arranged at the position corresponding to the drain pipe matching hole 33, and a drain valve 3311 is arranged on the drain pipe 331; a feeding vibration mechanism 4 is shown, the feeding vibration mechanism 4 is arranged on the cavity bottom wall 341 of the toad breeding box cavity 34; a water supply pipe 5 for the toad cultivation box is shown, the water supply pipe 5 for the toad cultivation box being connected to the aforementioned water circulation mechanism 2 and being provided with a water supply tap 51 for supplying water into the toad cultivation box 3 at a position corresponding to the upper opening of the toad cultivation box 3.

In the present embodiment and as shown in fig. 1, the aforementioned overflow pipe attaching hole 32 and drain attaching hole 33 are opened in a lower portion of the rear side wall (i.e., the rear tank wall) of the toad breeding tank 3, but it is entirely possible to open the overflow pipe attaching hole 32 and drain attaching hole 33 on the front side wall, left side wall or right side wall of the toad breeding tank 3.

Continuing to refer to fig. 1, the toad cultivation box frame 1 consists of a front left upright post 12, a front right upright post 13, a rear left upright post 14 and a rear right upright post 15, an upright post front cross beam 16a is connected between the front left upright post 12 and the front right upright post 13 from bottom to top in a spaced state, an upright post rear cross beam 16b is connected between the rear left upright post 14 and the rear right upright post 15 from bottom to top in a spaced state, the upright post rear cross beam 16b corresponds to the upright post front cross beam 16a, and spaces between the upper and lower two adjacent upright post front cross beams 16a and the upper and lower two adjacent upright post rear cross beams 16b jointly form the toad cultivation box placement space 11; a left column cross beam 16c is respectively connected between the upper part, the middle part and the lower part of the front left column 12 and the rear left column 14, and a right column cross beam 16d is respectively connected between the upper part, the middle part and the lower part of the front right column 13 and the rear right column 15; the front end of the toad breeding box 3 arranged in the toad breeding box placing space 11 is supported on the upright front beam 16a, and the rear end is supported on the upright rear beam 16 b.

In this embodiment, two toad cultivation boxes 3 are provided in the accommodation space 11 corresponding to one of the toad cultivation boxes in a left-right correspondence state, so that two water supply pipes 5 of the toad cultivation boxes are provided and are fixed to the front left column 12 and the front right column 13, respectively, that is, one water supply pipe 5 of the toad cultivation box is fixed to each of the front left column 12 and the front right column 13 in a state of being in close contact with the front left column 12 and the front right column 13.

Preferably, a left upright brace 16e is arranged between the front left upright 12 and the rear left upright 14, and a right upright brace 16f is arranged between the front right upright 13 and the rear right upright 15, so that the left upright brace 16e and the right upright brace 16f can improve the overall stability of the toad breeding box frame 1.

Continuing to refer to fig. 1, the aforesaid water circulation mechanism 2 includes a water circulation tank 21 and a water circulation pump 22 equipped with a motor, the water circulation tank 21 is disposed in the aforesaid water circulation mechanism chamber 111, a left water circulation tank chamber partition 211 and a right water circulation tank chamber partition 212 are disposed in the water circulation tank chamber of the aforesaid water circulation tank 21, a space between the left water circulation tank chamber partition 211 and the right water circulation tank chamber partition 212 constitutes a water storage chamber 213, a space between the left water circulation tank chamber partition 211 and the left tank wall of the water circulation tank 21 constitutes a left water filtration chamber 214, a space between the right water circulation tank chamber partition 212 and the right tank wall of the water circulation tank 21 constitutes a right water filtration chamber 215, the aforesaid left water filtration chamber 214 communicates with the water storage chamber 213 through a left partition flow guide hole 2111 formed in the left water circulation tank chamber partition 211, the aforesaid right water filtration chamber 215 communicates with the water storage chamber 213 through a right partition flow guide hole (not shown in the figure) formed in the right partition 212, and a left water filtering device 2141 is arranged in the left water filtering cavity 214, a right water filtering device 2151 is arranged in the right water filtering cavity 215, a water circulating pump water inlet 221 of the water circulating pump 22 is communicated with the water storage cavity 213, and the water supply pipe 5 of the toad culture box is connected with a water circulating pump water outlet 222 of the water circulating pump 22.

As described above, since two toad cultivation boxes 3 corresponding to each other left and right are placed in each toad cultivation box accommodation space 11, there are two overflow header pipes 3211 mentioned above, the lower end of the left overflow header pipe 3211 corresponds to the upper side of the left water filtering device 2141, and the lower end of the right overflow header pipe 3211 corresponds to the upper side of the right water filtering device 2151, and the structure of the left water filtering device 2141 is the same as that of the right water filtering device 2151.

The left water filtering device 2141 comprises a left activated carbon block 21411 and a left filtering sponge block 21412, the left activated carbon block 21411 is arranged in the left water filtering cavity 214, and the left filtering sponge 21412 is laid on the upper part of the left activated carbon block 21411; the right water filter device 2151 comprises a right activated carbon block 21511 and a right filter sponge block 21512, the right activated carbon block 21511 is arranged in the right water filter cavity 215, and the right filter sponge 21512 is laid on the upper part of the right activated carbon block 21511.

When the water circulating pump 22 works, water in the water storage cavity 213 is pumped by the water circulating pump water inlet 221 of the water circulating pump 22 and is led out from the water circulating pump water outlet 222, and is led to the two toad cultivation box water supply pipes 5 through the three-way interface 2221 between the water circulating pump water outlet 222 and the toad cultivation box water supply pipes 5 at the same time, and is led into the toad cultivation box cavity 341 of the toad cultivation box 34 by the water supply tap 51 in an open state. When the water level in the toad cultivation box chamber 341 reaches the level of the overflow pipe fitting hole 32, the water is guided to the overflow main pipe 3211 through the overflow pipe fitting hole 32 via the overflow pipe fitting 321. For the overflow header pipe 3211 on the left side, water is introduced to the left water filtering device 2141, and is sequentially filtered by the left filtering sponge 21412 and the left activated carbon block 21411, and the filtered water, that is, the water in the left water filtering cavity 214 is introduced into the water storage cavity 213 through the left partition diversion hole 2111. For an overflow main pipe 3211 on the right side, the water is led to the right water filtering device 2151, is sequentially filtered by the right filtering sponge 21512 and the right activated carbon block 21511, and the filtered water, i.e., the water in the right water filtering cavity 215, is led into the water storage cavity 213 through the right partition diversion hole, and circulates in this way.

Referring to fig. 2 and 3 in conjunction with fig. 1, the feeding vibration mechanism 4 comprises a vibration feeding table retainer 41, a vibration feeding table 42 and a vibrator 43, the vibration feeding table retainer 41 is directly formed on the bottom wall 341 of the toad cultivation box cavity 34, the vibration feeding table retainer 41 is formed with a vibration feeding table retainer cavity 411, the vibration feeding table 42 is provided with a bait cavity 423, the upper part of the vibration feeding table 42 is matched with the vibration feeding table retainer 41, the lower part of the vibration feeding table 42 is inserted into the vibration feeding table retainer cavity 411, and the vibrator 43 is fixed on the lower part of the vibration feeding table 42 and is also positioned in the vibration feeding table retainer cavity 411.

A pair of pin shaft seats 412 are formed on the outer wall of the vibrating table base 41, and an articulated lug 421 extends on the upper outer wall of the vibrating table 42, the articulated lug 421 is inserted between the pair of pin shaft seats 412, and the articulated lug 421 is articulated with the pair of pin shaft seats 412 by an articulated lug pin 4211. In fig. 2, a pin seat hole 4121 formed in the pair of pin seat 412 and a hinge lug hole 4212 formed in the hinge lug 421 are shown, and the aforementioned hinge lug pin 4211 passes through the pin seat hole 4121 and the hinge lug hole 4212.

A vibrating table base ring-fitting cavity 422 is formed on a downward-facing side of the upper portion of the vibrating table 42 and around the vibrating table 42, and the vibrating table base ring-fitting cavity 422 is fitted to the upper edge of the vibrating table base ring 41.

Preferably, a sealing ring 4221 is disposed in the vibrating bowl rim engagement chamber 422.

The bait 6 fed to the toad is thrown into the bait chamber 423, the vibrating table 42 is vibrated by the vibrator 43, and the bait 6 in the bait chamber 423 jumps up and down, so that the toad can swallow the bait well considering live food such as insects. During the period of feeding the toads, the aforementioned circulating water mechanism 2 is temporarily stopped, i.e. the water circulating pump 22 is temporarily stopped, the water supply tap 51 is temporarily stopped supplying water to the toad cultivation tank 3, and the water level line 7 is also shown in fig. 3.

During actual culture, the weight of Bufo siccus is controlled at 80-100/m²(ii) a The weight of the juvenile toad bufonid toad is controlled to be 300-500 pieces/m²(ii) a The weight of the toad is controlled to be 100-²。

To sum up, the technical solution provided by the present invention remedies the defects in the prior art, successfully completes the invention task, and faithfully embodies the technical effects mentioned in the above technical effect column by the applicant.

Claims (10)

1. A toad three-dimensional breeding device is characterized by comprising a toad breeding box frame (1), wherein a toad breeding box placing space (11) is formed in the height direction of the toad breeding box frame (1) at intervals from bottom to top, and the toad breeding box placing space (11) positioned at the lowest part is formed into a water circulation mechanism cavity (111); the water circulation mechanism (2), the water circulation mechanism (2) is arranged in the water circulation mechanism cavity (111); a toad breeding box (3), the toad breeding box (3) is arranged in the space (11) for placing the toad breeding box, and a toad escape-proof mesh enclosure (31) is arranged at the upper opening position of the toad breeding box (3), one of the four side walls of the toad breeding box (3) is provided with an overflow pipe matching hole (32) and a drainage pipe matching hole (33) which are communicated with a toad breeding box cavity (34) of the toad breeding box (3), an overflow main pipe fitting (321) is provided at a position corresponding to the overflow pipe fitting hole (32), the overflow main pipe joint (321) is connected with an overflow main pipe (3211), and the overflow main pipe (3211) extends downwards to the water circulation mechanism (2), a drain pipe (331) is arranged at the position corresponding to the drain pipe matching hole (33), and a drain valve (3311) is arranged on the drain pipe (331); the feeding vibration mechanism (4), the feeding vibration mechanism (4) is arranged on the bottom wall (341) of the toad breeding box cavity (34); and a water supply pipe (5) for the toad cultivation box, wherein the water supply pipe (5) for the toad cultivation box is connected to the water circulation mechanism (2), and a water supply tap (51) for supplying water into the toad cultivation box (3) is arranged at a position corresponding to the upper opening of the toad cultivation box (3).

2. The toad stereoscopic cultivation device according to claim 1, wherein the toad cultivation box frame (1) is composed of a front left upright (12), a front right upright (13), a rear left upright (14) and a rear right upright (15), an upright front cross beam (16a) is connected between the front left upright (12) and the front right upright (13) from bottom to top in a spaced state, an upright rear cross beam (16b) is connected between the rear left upright (14) and the rear right upright (15) from bottom to top in a spaced state, the upright rear cross beam (16b) corresponds to the upright front cross beam (16a), and spaces between the upper and lower adjacent upright front cross beams (16a) and the upper and lower adjacent upright rear cross beams (16b) jointly constitute the toad cultivation box placing space (11); a left upright post cross beam (16c) is respectively connected between the upper part, the middle part and the lower part of the front left upright post (12) and the rear left upright post (14), and an upright post right cross beam (16d) is respectively connected between the upper part, the middle part and the lower part of the front right upright post (13) and the rear right upright post (15); the front end of the toad breeding box (3) arranged in the toad breeding box placing space (11) is supported on the upright post front beam (16a), and the rear end is supported on the upright post rear beam (16b), wherein when two toad breeding boxes (3) are arranged in a state of corresponding to each other left and right in the toad breeding box placing space (11), the number of the water supply pipes (5) of the toad breeding boxes is two, and the two water supply pipes are respectively fixed with the front left upright post (12) and the front right upright post (13).

3. The three-dimensional toad breeding device according to claim 2, wherein a left column diagonal brace (16e) is arranged between the front left column (12) and the rear left column (14), and a right column diagonal brace (16f) is arranged between the front right column (13) and the rear right column (15).

4. The three-dimensional toad cultivation device according to claim 1, wherein the water circulation mechanism (2) comprises a water circulation tank (21) and a water circulation pump (22) equipped with a motor, the water circulation tank (21) is disposed in the water circulation mechanism chamber (111), a left water circulation tank chamber partition (211) and a right water circulation tank chamber partition (212) are disposed in the water circulation tank chamber of the water circulation tank (21), a space between the left water circulation tank chamber partition (211) and the right water circulation tank chamber partition (212) is a water storage chamber (213), a space between the left water circulation tank chamber partition (211) and the left tank wall of the water circulation tank (21) is a left water filtration chamber (214), a space between the right water circulation tank chamber partition (212) and the right tank wall of the water circulation tank (21) is a right water filtration chamber (215), the left water filtration chamber (214) is a water guide hole (2111) and a water guide hole (2111) formed in the left water circulation tank chamber partition (211), and the water circulation pump (22) equipped with a motor are disposed in the water circulation tank chamber (21), and the space between the left water The water storage tank is characterized in that the cavities (213) are communicated, the right water filter cavity (215) is also communicated with the water storage cavity (213) through a right partition plate diversion hole formed in a right partition plate (212) of the water circulation tank cavity, a left water filter device (2141) is arranged in the left water filter cavity (214), a right water filter device (2151) is arranged in the right water filter cavity (215), a water circulation pump water inlet (221) of a water circulation pump (22) is communicated with the water storage cavity (213), and a water supply pipe (5) of the toad cultivation tank is connected with a water circulation pump water outlet (222) of the water circulation pump (22).

5. The stereoscopic toad breeding device according to claim 4, wherein the structure of the left water filtering device (2141) is the same as the structure of the right water filtering device (2151).

6. The three-dimensional toad breeding device according to claim 5, wherein the left water filtering device (2141) comprises a left activated carbon block (21411) and a left filtering sponge block (21412), the left activated carbon block (21411) is arranged in the left water filtering cavity (214), the left filtering sponge (21412) is laid on the upper part of the left activated carbon block (21411); the right water filtering device (2151) comprises a right activated carbon block (21511) and a right filtering sponge block (21512), the right activated carbon block (21511) is arranged in the right water filtering cavity (215), and the right filtering sponge (21512) is laid on the upper part of the right activated carbon block (21511).

7. The three-dimensional toad breeding device according to claim 1, wherein the feeding vibration mechanism (4) comprises a vibration feeding table seat ring (41), a vibration feeding table (42) and a vibrator (43), the vibration feeding table seat ring (41) is directly formed on the bottom wall (341) of the toad breeding box cavity (34), the vibration feeding table seat ring (41) is formed with a vibration feeding table seat ring cavity (411), the vibration feeding table (42) is provided with a bait cavity (423), the upper part of the vibration feeding table (42) is matched with the vibration feeding table seat ring (41), the lower part of the vibration feeding table (42) extends into the vibration feeding table seat ring cavity (411), and the vibrator (43) is fixed at the lower part of the vibration feeding table (42) and is also positioned in the vibration feeding table seat ring cavity (411).

8. The device for three-dimensional cultivation of toads according to claim 7, characterized in that a pair of pin shaft seats (412) is formed on the outer wall of the vibration table housing ring (41), a hinge ear (421) extends on the outer wall of the upper part of the vibration table (42), the hinge ear (421) is inserted between the pair of pin shaft seats (412) and the hinge ear (421) is hinged with the pair of pin shaft seats (412) by a hinge ear pin shaft (4211).

9. The device for three-dimensional cultivation of toads according to claim 7, characterized in that a vibrating feeding table ring matching cavity (422) is formed at the side of the upper part of the vibrating feeding table (42) facing downwards and around the periphery of the vibrating feeding table (42), and the vibrating feeding table ring matching cavity (422) is matched with the upper edge of the vibrating feeding table seat ring (41).

10. The device for three-dimensional cultivation of toads according to claim 7, wherein the vibrating table seat ring matching cavity (422) is internally provided with a sealing ring (4221).

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