CN214071112U - Zoo symbiotic breeding structure - Google Patents

Abstract

The utility model discloses a zoo intergrowth breed structure, include: the square purse net is divided into a first area and a second area which are sequentially arranged along the main wind direction through a partition fence; a herbivore shed is arranged in the first area; pine trees are planted in the second area close to the edge of the purse net along the main wind direction, and cattle back aigrette nests are arranged on the pine trees; grass is planted in the middle of the second area, and an excrement conveying pipe with the extending direction the same as the main wind direction is arranged on the bottom surface of the second area close to the edge and is obliquely arranged at an angle of 5-10 degrees; the hermetia illucens breeding shed is arranged at the downstream of the second area, is arranged along the main wind direction, and is internally provided with a plurality of strip-shaped breeding grooves in parallel, and the breeding grooves are grooves with openings at the upper parts; the excrement conveying pipe is communicated with the herbivore shed at the high position and communicated with the hermetia illucens breeding shed at the low position. The utility model has the advantages of reasonable design, reduced management cost and floor area of zoo, ecological cycle, and environmental protection.

Description

Zoo symbiotic breeding structure

Technical Field

The utility model relates to an animal park regional design field. More specifically, the utility model relates to a zoo intergrowth breed structure.

Background

Zoos are the preferred choice for people to play at leisure. Zoos have a wide variety of animals, each having their own habitat and leisure. However, the types of zoo animals are various, and if each animal is separately raised by drawing a region, the area of land occupied by the zoo is large, and meanwhile, the labor cost and the management cost of the zoo are increased.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to solve at least above-mentioned problem to a zoo intergrowth breed structure is provided, its reasonable in design can reduce the administrative cost and the area in zoo, ecological cycle, green again.

To achieve these objects and other advantages in accordance with the purpose of the invention, there is provided a zoo symbiotic feeding structure comprising:

the fence comprises a square fence, wherein a partition fence is arranged in the fence, two ends of the partition fence along the length direction of the partition fence are fixedly connected with the fence respectively, the area in the fence is divided into a first area and a second area, the first area and the second area are arranged along the annual wind direction, and the second area is positioned at the downstream of the first area;

wherein the first area is internally provided with a herbivore shed which is a cuboid surrounded by concrete walls, and has a length of 20-30m, a width of 5-10m and a height of 3-10 m; the herbivore colony house is provided with a sliding door, and the sliding door is positioned on a leeward wall of the herbivore colony house;

rows of pine trees are planted in the second area close to the edge of the purse net along the main wind direction, cattle back aigrette nests are arranged on the pine trees, the spacing distance between the pine trees is 2-5m, the area width of the second area is 20-30m, and the length of the second area is 20-40 m; the middle part of the second area is a moving area of the herbivore, grass is planted in the moving area, an excrement conveying pipe with the extending direction the same as the main wind direction is arranged at the position, close to the edge, of the bottom surface of the second area, the diameter of the section of the excrement conveying pipe is 0.3-0.5m, the excrement conveying pipe is arranged in an inclined mode, and the angle is 5-10 degrees;

the hermetia illucens breeding shed is arranged at the downstream of the main wind direction of the second area, the hermetia illucens breeding shed is arranged along the main wind direction, a plurality of strip-shaped breeding grooves are arranged in the hermetia illucens breeding shed side by side along the main wind direction, the breeding grooves are grooves with openings at the upper parts, the length of each breeding groove is 8-12m, the width of each breeding groove is 3-5m, and the depth of each breeding groove is 0.2-0.4 m;

the high position of the excrement conveying pipe is communicated with the herbivore shed, and the low position of the excrement conveying pipe is communicated with the hermetia illucens breeding shed.

Preferably, a plurality of grooves of breeding all communicate with a dashpot, the dashpot is located a plurality of grooves of breeding and is close to a side in second district, the dashpot is top open-ended rectangular groove, and its tank bottom slope is 5 ~ 10, the low department of dashpot with breed the groove intercommunication, the eminence of dashpot with excrement and urine transmission pipe transmission direction end intercommunication.

Preferably, a movable baffle is arranged at the communication position of each culture groove and the buffer groove.

Preferably, a square fence with an opening at the upper end is arranged in the middle area of the active area, an ornamental fish pond is arranged in the square fence, the ornamental fish pond is perpendicular to the main wind direction, the top of the ornamental fish pond is flush with the bottom surface of the second area, the length of the ornamental fish pond is 5-8m, the width of the ornamental fish pond is 5-8m, and the depth of the ornamental fish pond is 3-5 m; and a viewing bridge arranged along the length direction of the ornamental fish pond is erected at the top of the ornamental fish pond.

Preferably, an interval adjusting mechanism is arranged in the herbivore shed, and the interval adjusting mechanism comprises:

the two sliding rails are respectively arranged on the upper top surface and the lower bottom surface of the herbivore shed, and the extending direction of the sliding rails is vertical to the width direction of the herbivore shed;

the partition plates are perpendicular to the sliding rail, the area of each partition plate is slightly smaller than the vertical section of the perpendicular long edge of the herbivore shed, pulleys are arranged at the positions, opposite to the sliding rail, of the edges of the partition plates, and the pulleys slide axially along the sliding rail; a through fixing hole is formed in the position, close to the edge of the wall in the length direction of the herbivore colony house, of each partition plate;

a plurality of spacing holes, it is the alignment of a word, and the even setting in interval is in on the wall of herbivore colony house length direction, with the height of fixed orifices is the same, through the fixed angle bar of an L type and the spacing hole of screw fixation and fixed orifices, will the rigidity of space bar.

Preferably, each partition plate is provided with an inlet and an outlet, and the inlet and the outlet are hinged with a communication door.

The utility model discloses at least, include following beneficial effect:

1. the utility model discloses first district has been designed in proper order along one year mainstream wind direction, the second district, and in second district low reaches design heisui river horsefly cultivation canopy, the pine that supplies the ox back of the body aigrette to perch and the edible grass of confession herbivorous animal are planted in the second district, when herbivorous animal moves about in the active area, herbivorous animal eats the grass in active area, the insect that breeds on the body of the ox back of the body aigrette is caught meadow and herbivorous animal is edible, the fatality body and the excrement and urine of the edible herbivorous animal of heisui river horsefly, supply the ox back of the body aigrette to eat after heisui river horsefly pupa, the fertilizer that the grass in active area was grown can be regarded as to the excrement and urine of heisui river horsefly, the global design is reasonable, breed the ecology, raise herbivorous animal through concentrating the colony, raise the ox back of the heisui river fly and breed heisui river horsefly, the administrative cost and area of zoo river fly have both been reduced, ecological cycle again, green.

2. The utility model discloses a design excrement and urine transmission pipe, can directly convey the excrement and urine that the herbivore colony house produced to heisui river horsefly canopy for breed heisui river horsefly, convenient and fast, and reduced the pollution that excrement and urine exposed production in the air.

3. The utility model discloses a set up in the active area and vwatch fish pond and visit the bridge, have on the one hand and vwatch the nature of playing, on the other hand, can regard as the food source of vwatching fish behind the heisui river horsefly pupa, make full use of heisui river horsefly's ecological resource, reduced the administrative cost in zoo, increased the play value in zoo, and ecological environmental protection.

4. The utility model discloses a set up interval adjustment mechanism in the herbivore colony house, can adjust the position of space bar according to herbivore's size, kind and quantity, separate into the living space that suitable various kinds of herbivores had a rest with the herbivore colony house, it is convenient to adjust, and application scope is wide, and the practicality is strong.

5. The utility model discloses an exit and intercommunication door are imported and exported in the design on the space bar, can make things convenient for the business turn over of zoo staff, and the practicality is strong.

Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention.

Drawings

FIG. 1 is a schematic structural diagram of a symbiotic cultivation structure of zoos according to one embodiment of the present invention;

FIG. 2 is a front view of a herbivore shed according to one embodiment of the present invention;

FIG. 3 is a top sectional view of the herbivore shed according to one embodiment of the present invention;

fig. 4 is a front view of the partition board according to one embodiment of the present invention.

Reference numerals: 1-a first zone; 2-a second zone; 3-a herbivore shed; 4-pine tree; 5-ornamental fish pond; 6-visit bridge; 7-grass; 8-Hermetia illucens breeding shed; 9-a culture tank; 10-a buffer tank; 11-a stool transport tube; 12-a slide rail; 13-a spacer plate; 14-a pulley; 15-a communication door; 16-L type fixed angle iron; 17-a wall; 18-a fixation hole; 19-a partition fence; 20-square fence.

Detailed Description

The present invention is further described in detail below with reference to the drawings so that those skilled in the art can implement the invention with reference to the description.

It will be understood that terms such as "having," "including," and "comprising," as used herein, do not preclude the presence or addition of one or more other elements or groups thereof.

As shown in fig. 1-4, the utility model provides a zoo symbiotic cultivation structure, including:

a partition fence 19 is arranged in the purse net, two ends of the partition fence 19 in the length direction are fixedly connected with the purse net respectively, the area in the purse net is divided into a first area 1 and a second area 2, the first area 1 and the second area 2 are arranged along the main wind direction of one year, and the second area 2 is positioned at the downstream of the first area 1; an access door for communicating the first zone 1 and the second zone 2 is arranged on the partition fence 19;

wherein, a herbivore shed 3 is arranged in the first zone 1, the herbivore shed 3 is a cuboid surrounded by concrete walls, and has a length of 20-30m, a width of 5-10m and a height of 3-10m, specifically, a length of 20m, a width of 8m and a height of 8 m; the herbivore colony house 3 is provided with a sliding door, and the sliding door is positioned on a leeward wall of the herbivore colony house 3; the interior of the herbivore colony house 3 is divided into a plurality of colony houses through partition walls, and is used for captivating different types of herbivores, wherein the herbivores are mild and non-aggressive herbivores, such as sika deer, antelope, giraffe, yak and the like;

rows of pine trees 4 are planted in the second area 2 close to the edge of the fence along the main wind direction, cattle back aigrette nests are arranged on the pine trees 4, the cattle back aigrette nests are used for perching, the cattle back aigrette is in scattered breeding, the spacing distance between the pine trees 4 is 2-5m, specifically 3m, the area width of the second area 2 is 20-30m, the length of the second area 2 is 20-40m, and specifically the length of the second area is 35m and the width of the second area is 25 m; the middle part of the second area 2 is an active area of the herbivore, the active area is planted with grass 7, the grass 7 is pasture, and the pasture can be ryegrass, corn pasture, pennisetum hydridum and the like; a feces conveying pipe 11 with the same extension direction as the main wind direction is arranged at the position, close to the edge, of the bottom surface of the second area 2, the diameter of the section of the feces conveying pipe 11 is 0.3-0.5m, specifically, the diameter of the section is 0.3m, the feces conveying pipe 11 is arranged in an inclined mode, the angle is 5-10 degrees, and specifically, the angle is 7.5 degrees; the bottom of the excrement conveying pipe 11 is provided with a plurality of vertical supports for supporting, and the supports are arranged along the main wind direction;

the hermetia illucens breeding shed 8 is arranged at the downstream of the main wind direction of the second area 2, the hermetia illucens breeding shed 8 is arranged along the main wind direction, an inlet is formed in one side, away from the second area 2, of each hermetia illucens, and a sliding door is arranged at the inlet, so that workers can conveniently go in and out; a plurality of strip-shaped breeding grooves 9 are arranged in the hermetia illucens breeding shed 8 in parallel along the main wind direction, the breeding grooves 9 are grooves with openings at the upper parts, the length of each breeding groove 9 is 8-12m, the width of each breeding groove 9 is 3-5m, the groove depth is 0.2-0.4m, specifically, the length is 10m, the width is 4m, and the groove depth is 0.3 m;

the high position of the excrement conveying pipe 11 is communicated with the herbivore colony house 3, the low position of the excrement conveying pipe 11 is communicated with the hermetia illucens breeding shed 8, specifically, a first through conveying hole is formed in a wall surface, close to the second area 2, of the herbivore colony house 3 and perpendicular to the main wind direction, the high position of the excrement conveying pipe 11 penetrates through the first conveying hole and is fixedly connected with the wall surface, a second conveying hole is formed in a shed surface, close to the second area 2 and facing the second area 8, of the hermetia illucens breeding shed 8, the conveying tail end of the excrement conveying pipe 11 penetrates through the second conveying hole and is fixedly connected with the shed surface, and a collecting groove is formed below the tail end of the excrement conveying pipe in the hermetia illucens breeding shed 8 and used for receiving excrement conveyed by the excrement conveying pipe; the excrement transmission process is specifically that the workers in the zoon collect the excrement in the herbivore housing 3 and put the excrement into an excrement transmission pipe 11, the excrement is transmitted to a collecting tank in the hermetia illucens breeding shed 8 along the excrement transmission pipe 11, and the workers can breed hermetia illucens by utilizing the excrement in the collecting tank;

in the technical scheme, in the using process, according to the types and the number of herbivorous animals raised in an zoo, the sizes of the first area 1 and the second area 2 are designed, the herbivorous animal housing 3, the cattle back aigrette nest and the black soldier fly raising shed 8 are designed, then the herbivorous animals are raised in the housing, the cattle back aigrette is raised in a scattered manner, the black soldier flies are raised, when the herbivorous animals live in the active area, the herbivorous animals eat grass in the active area, the produced excrement is bred with various insects including body surface parasites, the cattle back aigrette eats insects on the bodies of the grassland and the herbivorous animals, meanwhile, the excrement produced in the herbivorous animal housing 3 can be transported to the black soldier fly raising shed 8 through an excrement transport pipe, and the dead bodies of the herbivorous animals can be manually transported to the black soldier fly raising shed 8, the diseases of the black soldier flies and the black soldier flies can be cleared up by the excrement produced as fertilizers in the active area, the black soldier fly can be used as a food source for a cattle back aigrette after becoming pupa;

by adopting the technical scheme, the first area 1 and the second area 2 are sequentially designed along the mainstream wind direction of one year, the hermetia illucens culture shed is designed at the downstream of the second area 2, the pine 4 for the cattle back aigrette to inhabit and the grass 7 for the herbivorous animals to eat are planted in the second area 2, when the herbivorous animals move in the moving area, the herbivorous animals eat the grass 7 in the moving area, the cattle back aigrette catches the insect breeding on the grassland and the herbivorous animals to eat, the hermetia illucens eat the death body and the excrement of the herbivorous animals, the hermetia illucens eat the cattle back aigrette after becoming pupate, the excrement of the hermetia illucens can be used as the fertilizer for the grass growth in the moving area, the whole design is reasonable, the culture is ecological cycle is realized, and the environment is protected; through the design excrement and urine transmission pipe, can directly convey the excrement and urine that the herbivore colony house produced to the shelter is bred to the heisui river horsefly for breed heisui river horsefly, convenient and fast, and reduced the pollution that excrement and urine exposed production in the air.

In another technical scheme, a plurality of culture tanks 9 are all communicated with a buffer tank 10, and the buffer tank 10 is positioned on one side surface of the plurality of culture tanks 9 close to the second area 2; the buffer groove 10 is a rectangular groove with an opening at the upper part, the slope of the groove bottom is 5-10 degrees, specifically, the slope is 7.5 degrees, the lower part of the buffer groove 10 is communicated with the culture groove 9, the higher part of the buffer groove 10 is communicated with the tail end of the excrement conveying pipe 11 in the conveying direction, specifically, a plurality of communicating holes are arranged on one surface of the buffer groove 10 away from the tail end of the excrement conveying pipe 11, each communicating hole corresponds to one culture groove 9, the buffer groove 10 is communicated with the culture grooves 9, a connecting hole is arranged on one surface of the buffer groove 10 close to the tail end of the excrement conveying pipe 11, the tail end of the excrement conveying pipe 11 in the conveying direction penetrates through the connecting hole and is fixedly connected with the buffer groove, the buffer groove is used for communicating with the excrement conveying pipe, and excrement conveyed by the excrement conveying pipe 11 is conveniently led to each culture groove 9 on the whole; in the technical scheme, in the using process, working personnel collect excrement in the herbivore shed 3 and put the excrement into the excrement conveying pipe 11, and the excrement is conveyed through the excrement conveying pipe 11, flows to the buffer tank 10 and leads to the culture tanks 9; adopt this technical scheme, the beneficial effect who obtains is through designing buffer tank 10, and for excrement and urine that excrement and urine transmission pipe 11 transmitted comes provides one and holds and the guide device, can transmit excrement and urine to each breed groove 9, convenient and fast, the practicality is strong.

In another technical scheme, a movable baffle is arranged at the communication position of each culture tank 9 and the buffer tank 10, specifically, parallel sliding grooves are arranged on two sides of a communication hole for communicating the culture tanks 9 and the buffer tank 10, the two sliding grooves are vertical to the bottom surface of the buffer tank 10, a movable baffle is connected between the two sliding grooves in a sliding manner, the area of the movable baffle is slightly larger than that of the communication hole, and the size of the communication hole can be adjusted by moving the movable baffle to control the opening and closing of the communication hole; in the technical scheme, in the use process, if excrement is transmitted, the movable baffle is slid, the communicating hole is opened, so that the excrement is led to the culture tank 9, and if the culture tank 9 does not need the excrement or only needs a small amount of excrement, the movable baffle is slid, so that the passing area of the communicating hole is reduced or the communicating hole is fully covered to close the communicating hole, and the waste caused by the transmission of excessive excrement to the culture tank 9 is avoided; adopt this technical scheme, the beneficial effect who obtains is that, through design adjustable fender, can open or close the intercommunicating pore or adjust the intercommunicating pore size according to the actual excrement and urine demand of breeding groove 9, makes faecal transmission volume adapt to the breed demand of breeding groove 9, convenient operation, and application scope is wide, and the practicality is strong.

In another technical scheme, a square fence 20 with an opening at the upper end is arranged in the middle area of the active area, an ornamental fish pond 5 is arranged in the square fence 20, the ornamental fish pond 5 is arranged perpendicular to the main wind direction, the top of the ornamental fish pond 5 is flush with the bottom surface of the second area 2, the length of the ornamental fish pond 5 is 5-8m, the width of the ornamental fish pond 5 is 5-8m, the groove depth of the ornamental fish pond 5 is 3-5m, and specifically, the length is 6m, the width is 5m, and the groove depth is 4 m; various ornamental fishes such as goldfishes, fancy carps and the like are cultured in the ornamental fish pond 5; the top of the ornamental fish pond 5 is provided with an observation bridge 6 arranged along the length direction of the ornamental fish pond 5, the observation bridge 6 can be arched or square, and two ends of the observation bridge are provided with guardrails; by adopting the technical scheme, the obtained beneficial effects are that the ornamental fish pond 5 and the observation bridge 6 are arranged in the moving area, on one hand, ornamental playability is realized, on the other hand, the black soldier fly can be used as a food source of the ornamental fish after becoming pupa, ecological resources of the black soldier fly are fully utilized, the management cost of a zoo is reduced, the playing value of the zoo is increased, and the zoo is ecological and environment-friendly.

In another technical solution, an interval adjusting mechanism is arranged in the herbivore shed 3, and the interval adjusting mechanism includes:

a pair of parallel slide rails 12, wherein the two slide rails 12 are respectively arranged on the upper top surface and the lower bottom surface of the herbivore shed 3, and the extending direction of the slide rails 12 is vertical to the width direction of the herbivore shed 3;

the partition plates 13 are perpendicular to the sliding rails 12, the partition plates 13 can be made of wood or steel, the area of each partition plate 13 is slightly smaller than the vertical section of the perpendicular long side of the herbivore colony house 3, pulleys 14 are arranged at the positions, right opposite to the sliding rails 12, of the edges of the partition plates 13, the pulleys 14 axially slide along the sliding rails 12, and the plurality of partition plates 13 divide the herbivore colony house 3 into a plurality of spaces so as to be suitable for inhabitation of different kinds of herbivores; a through fixing hole 18 is formed in the edge of each partition plate 13, which is close to a vertical wall 17 where the long edge of the herbivore shed 3 is located, namely, fixing holes 18 are formed in two sides, close to the vertical edge, of each partition plate 13;

the limiting holes are arranged in a straight line, are uniformly arranged on the wall in the length direction of the herbivore colony house 3 at intervals, are as high as the fixing holes 18, and are used for fixing the positions of the spacing plates 13 through L-shaped fixing angle iron 16 and screw fixing limiting holes and fixing holes 18 so as to connect and fix the spacing plates 13 with the vertical wall surface where the long sides of the herbivore colony house 3 are located, wherein two sides of each spacing plate 13 are fixedly connected with the vertical wall 17 where the long sides of the herbivore colony house 3 are located; in the technical scheme, when the living space of the herbivore needs to be adjusted in the using process, the partition plate 13 is moved and adjusted to a proper position, and the partition plate 13 is fixedly connected with the vertical wall surface of the herbivore colony house 3 in the length direction by utilizing the L-shaped fixed angle iron 16 and the screws; adopt this technical scheme, the beneficial effect who obtains is through setting up interval adjustment mechanism in the herbivore colony house, can adjust the position of space bar according to herbivore's size, kind and quantity, separates into the living space that the rest was had a rest in the growth of each kind of herbivore with herbivore colony house, and it is convenient to adjust, and application scope is wide, and the practicality is strong.

In another technical scheme, each partition plate 13 is provided with an inlet and an outlet, the inlet and the outlet are hinged with a communication door 15, and the communication door 15 is provided with a handle for workers of an animal park to go in and out; by adopting the technical scheme, the beneficial effects that the inlet and the outlet and the communication door are designed on the partition plate, the workers in the zoo can conveniently enter and exit, and the practicability is high.

The number of apparatuses and the scale of the process described here are intended to simplify the description of the present invention. The use, modifications and variations of the zoo symbiotic feeding structure of the present invention will be apparent to those skilled in the art.

While the embodiments of the invention have been described above, it is not intended to be limited to the details shown, or described, but rather to cover all modifications, which would come within the scope of the appended claims, and all changes which come within the meaning and range of equivalency of the art are therefore intended to be embraced therein.

Claims (6)

1. Zoo symbiotic breeding structure, its characterized in that includes:

the fence comprises a square fence, wherein a partition fence is arranged in the fence, two ends of the partition fence along the length direction of the partition fence are fixedly connected with the fence respectively, the area in the fence is divided into a first area and a second area, the first area and the second area are arranged along the annual wind direction, and the second area is positioned at the downstream of the first area;

wherein the first area is internally provided with a herbivore shed which is a cuboid surrounded by concrete walls, and has a length of 20-30m, a width of 5-10m and a height of 3-10 m; the herbivore colony house is provided with a sliding door, and the sliding door is positioned on a leeward wall of the herbivore colony house;

rows of pine trees are planted in the second area close to the edge of the purse net along the main wind direction, cattle back aigrette nests are arranged on the pine trees, the spacing distance between the pine trees is 2-5m, the area width of the second area is 20-30m, and the length of the second area is 20-40 m; the middle part of the second area is a moving area of the herbivore, grass is planted in the moving area, an excrement conveying pipe with the extending direction the same as the main wind direction is arranged at the position, close to the edge, of the bottom surface of the second area, the diameter of the section of the excrement conveying pipe is 0.3-0.5m, the excrement conveying pipe is arranged in an inclined mode, and the angle is 5-10 degrees;

the hermetia illucens breeding shed is arranged at the downstream of the main wind direction of the second area, the hermetia illucens breeding shed is arranged along the main wind direction, a plurality of strip-shaped breeding grooves are arranged in the hermetia illucens breeding shed side by side along the main wind direction, the breeding grooves are grooves with openings at the upper parts, the length of each breeding groove is 8-12m, the width of each breeding groove is 3-5m, and the depth of each breeding groove is 0.2-0.4 m;

the high position of the excrement conveying pipe is communicated with the herbivore shed, and the low position of the excrement conveying pipe is communicated with the hermetia illucens breeding shed.

2. The zoo symbiotic aquaculture structure of claim 1, wherein each of the plurality of aquaculture grooves is communicated with a buffer groove, the buffer groove is positioned on one side of the plurality of aquaculture grooves close to the second zone, the buffer groove is a rectangular groove with an upper opening, the slope of the bottom of the rectangular groove is 5-10 degrees, the lower part of the buffer groove is communicated with the aquaculture grooves, and the upper part of the buffer groove is communicated with the tail end of the excrement conveying pipe in the conveying direction.

3. A zoo symbiotic feeding structure according to claim 2, wherein a movable baffle is provided at the connection between each feeding trough and the buffer trough.

4. The zoo symbiotic aquaculture structure of claim 1, wherein the middle area of the activity area is provided with a square fence with an opening at the upper end, an ornamental fish pond is arranged in the square fence, the ornamental fish pond is arranged perpendicular to the main wind direction, the top of the ornamental fish pond is flush with the bottom surface of the second area, the length of the ornamental fish pond is 5-8m, the width of the ornamental fish pond is 5-8m, and the depth of the pond is 3-5 m; and a viewing bridge arranged along the length direction of the ornamental fish pond is erected at the top of the ornamental fish pond.

5. A zoo symbiotic feeding structure according to claim 2, wherein the herbivore housing is provided with a spacing adjustment mechanism comprising:

the two sliding rails are respectively arranged on the upper top surface and the lower bottom surface of the herbivore shed, and the extending direction of the sliding rails is vertical to the width direction of the herbivore shed;

the partition plates are perpendicular to the sliding rail, the area of each partition plate is slightly smaller than the vertical section of the perpendicular long edge of the herbivore shed, pulleys are arranged at the positions, opposite to the sliding rail, of the edges of the partition plates, and the pulleys slide axially along the sliding rail; a through fixing hole is formed in the position, close to the edge of the wall in the length direction of the herbivore colony house, of each partition plate;

a plurality of spacing holes, it is the alignment of a word, and the even setting in interval is in on the wall of herbivore colony house length direction, with the height of fixed orifices is the same, through the fixed angle bar of an L type and the spacing hole of screw fixation and fixed orifices, will the rigidity of space bar.

6. A zoo symbiotic aquaculture structure according to claim 5 wherein each partition is provided with an access opening, said access opening being hinged to a connecting door.

Images