CN210519857U - Temperature and humidity adjusting system of quasipaa spinosa breeding shed - Google Patents

Abstract

The utility model discloses a frog breeding shed temperature and humidity control system, including the brick wall body, the brick wall body is parallel to be piled up on level and smooth subaerial, and the central point of two brick wall bodies puts fixed mounting has the bracket component, the top of bracket component is provided with the ceiling, leave the ventilation window between ceiling and the brick wall body, the inside of ventilation window is fixed and is the equidistance and be the branch of vertical distribution, two subaerial building between the brick wall body has the equidistance respectively and is the breed pond of bar. The utility model discloses a heating module, the inside temperature of big-arch shelter of examining that can be automatic to utilize the heating pipe to heat the inside environment of big-arch shelter, thereby create the artificial environment that the spiny breast frog survives, the effectual survival rate that improves the spiny breast frog has improved the productivity of breeding the spiny breast frog, and the humidification module utilizes atomizer, improves the humidity of big-arch shelter internal environment, has created good living environment for the spiny breast frog, is favorable to the growth that the spiny breast frog is good and fast again.

Description

Temperature and humidity adjusting system of quasipaa spinosa breeding shed

Technical Field

The utility model relates to a quasipaa spinosa breeds technical field, especially relates to a quasipaa spinosa breeds canopy temperature humidity control system.

Background

Rana spinosa, also known as Shiji, acanthophaga spinosa, Scale, Rana spinosa, and Rana dybowskii, is a special large wild frog in China. Quasipaa belongs to the aquatic type medium-flowing water living frogs, is fond of living in cave, is mainly distributed in south, is a famous and precious mountain delicacy growing in southern hilly mountain areas, and is called 'the king of quasipaa' by delicacies because of fine and smooth meat and rich mineral elements.

In order to meet a large amount of social demands, the conventional Rana spinosa breeding adopts an artificial greenhouse breeding mode, and the Rana spinosa is very sensitive to environmental changes of air temperature, water temperature and air humidity, so that the Rana spinosa can move at the temperature of 18-28 ℃ and is normally ingested; when the water temperature exceeds 30 ℃, the summer sleeping can occur, and when the water temperature exceeds 36 ℃, the activity is abnormal, even the death can occur. Therefore, a temperature and humidity adjusting system for a quasipaa spinosa cultivation shed is needed to solve the above problems.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model aims at providing a temperature humidity control system of quasipaa spinosa cultivation shed of temperature humidity control.

In order to realize the purpose, the utility model discloses a technical scheme be:

a temperature and humidity adjusting system of a quasipaa spinosa breeding shed comprises brick wall bodies, wherein the brick wall bodies are parallelly stacked on a flat ground, a support assembly is fixedly arranged at the center position of each of two brick wall bodies, a ceiling is arranged above the support assembly, a ventilation window is reserved between the ceiling and the brick wall bodies, support rods which are equidistantly and vertically distributed are fixedly arranged inside the ventilation window, equidistant and bar-shaped breeding ponds which are respectively and equidistantly constructed on the ground between the two brick wall bodies, ceiling eaves are fixedly arranged at the edges of two edges of the bottom of the ceiling, a horizontally arranged main water pipe is fixedly arranged on the support assembly, atomizing sprayers which are equidistantly distributed are arranged on the outer wall of the bottom of the main water pipe, connectors are respectively in threaded connection on the outer walls at two ends of the main water pipe, and water feeding pipes which are tightly attached to the brick wall bodies are connected at two ends of the main water pipe through the connectors, the bottom of water pipe is provided with the last water pump of fixed mounting inboard at the brick wall body, fixed mounting has the mount pad that the equidistance distributes on the bracket component, and equal fixed mounting has the heating pipe of the same specification on the outer wall of each mount pad bottom, electric connection has the wire on the mount pad, there is the controller through bolt fixed mounting on the bracket component, and the controller passes through the wire and forms electric connection with the heating pipe, the controller passes through the wire and forms electric connection with last water pump, the lower part fixed mounting of bracket component has electronic type temperature and humidity sensor, and is provided with wireless transmitter on the electronic type temperature and humidity sensor, wireless transmitter passes through radio signal and controller and forms electric connection.

The key concept of the technical scheme is as follows: the bracket component can play a good supporting effect on the ceiling, ensures the stability of the whole structure of the greenhouse and provides people with higher guarantee for breeding the quasipaa spinosa; the heating module can automatically detect the temperature inside the greenhouse, and the heating pipe is used for heating the environment inside the greenhouse, so that the artificial environment for living of the quasipaa spinosa is created, the survival rate of the quasipaa spinosa is effectively improved, and the productivity for breeding the quasipaa spinosa is improved.

Further, the support subassembly includes that vertical the fixing has the subaerial support montant, and the welding has the support horizontal pole on the outer wall on support montant top, the welding has the ladder member that the equidistance distributes on the outer wall at support horizontal pole top, and is the ceiling fixed mounting of "people" type structure on the outer wall at ladder member top, fixed mounting has the free bearing on the outer wall of ceiling bottom, and the ceiling forms fixed connection through the free bearing with the support horizontal pole.

Further, the ceiling comprises a ceiling frame fixedly mounted at the top end of the step rod piece, and a ceiling film covers the ceiling frame.

Furthermore, a binding rope is fixedly arranged on the outer wall of one side of the ceiling eave, a rolling film is connected to the ceiling eave through the binding rope, and the rolling film covers the ventilation window when being unfolded.

Furthermore, the two spaced heating pipes are simultaneously connected with the controller through leads, and the controller simultaneously leads out a plurality of main lines, each main line is divided into two lines to be connected with each heating pipe.

Furthermore, the electronic temperature and humidity sensor comprises a greenhouse sensing probe, a signal processing unit, a display screen, a power supply and the like.

Furthermore, electronic type temperature and humidity sensor, controller, water feeding pump, water feeding pipe, connector, main water pipe constitute the humidification module jointly, electronic type temperature and humidity sensor, controller, heating pipe, wire constitute heating module jointly.

The utility model has the advantages that: (1) the support component can well support the ceiling, ensures the stability of the whole structure of the greenhouse and provides people with higher guarantee for cultivating the quasipaa spinosa; (2) the heating module can automatically detect the temperature in the greenhouse and utilize the heating pipe to heat the environment in the greenhouse, so that an artificial environment for the survival of the quasipaa spinosa is created, the survival rate of the quasipaa spinosa is effectively improved, and the productivity of quasipaa spinosa cultivation is improved; (3) through the humidification module that sets up, utilize atomizer, improve the humidity of big-arch shelter internal environment, created good living environment for the quasipaa spinosa, be favorable to the good and fast growth of quasipaa spinosa again.

Drawings

FIG. 1 is a perspective view of the temperature and humidity control system of the Rana spinosa breeding shed;

FIG. 2 is a schematic view of a bracket assembly structure of a temperature and humidity adjusting system for a Rana spinosa breeding shed according to the present invention;

FIG. 3 is a front view of the temperature and humidity adjusting system for the Rana spinosa breeding shed;

fig. 4 is a schematic view of the control flow structure of the temperature and humidity adjusting system of the quasipaa spinosa breeding shed.

In the figure: 1 brick wall body, 2 bracket component, 3 ceilings, 4 ventilation windows, 5 branches, 6 culture ponds, 7 support montants, 8 support horizontal poles, 9 ladder member bars, 10 ceiling frames, 11 hinged supports, 12 ceiling films, 13 coiling films, 14 binding ropes, 15 canopy eaves, 16 main water pipes, 17 atomizer, 18 connectors, 19 water supply pipes, 20 water supply pumps, 21 mounting seats, 22 heating pipes, 23 wires, 24 controllers, 25 electronic temperature and humidity sensors, 26 wireless transmitters.

Detailed Description

The invention will be further described with reference to the following drawings and specific embodiments:

as shown in fig. 1-4, the temperature and humidity adjusting system for a quasipaa spinosa cultivation shed provided by the present invention comprises brick walls 1, wherein the brick walls 1 are stacked in parallel on a flat ground, and a support assembly 2 is fixedly installed at the central position of each of the two brick walls 1, a ceiling 3 is installed above the support assembly 2, a ventilation window 4 is left between the ceiling 3 and the brick walls 1 for facilitating ventilation and heat dissipation inside the shed, support rods 5 are fixedly installed inside the ventilation window 4, which are equidistantly and vertically distributed, strip-shaped cultivation ponds 6 are constructed on the ground between the two brick walls 1, which are equidistantly and respectively used for accommodating the young plants of the quasipaa spinosa, ceiling eaves 15 are fixedly installed at the edges of the two bottom parts of the ceiling 3, a horizontally arranged main water pipe 16 is fixedly installed on the support assembly 2, and atomization nozzles 17 are arranged on the outer wall at the bottom part of the main water pipe 16, make the water atomization, reach the purpose to big-arch shelter internal environment humidification, equal threaded connection has connector 18 on the outer wall at main water pipe 16 both ends, and the both ends of main water pipe 16 are connected with the upper hose 19 of closely laminating with brick wall body 1 through connector 18, the bottom of upper hose 19 is provided with fixed mounting at the inboard upper water pump 20 of brick wall body 1, fixed mounting has the mount pad 21 of equidistance distribution on the bracket component 2, and equal fixed mounting has the heating pipe 22 of the same specification on the outer wall of each mount pad 21 bottom. Through the mode of electrical heating, an ambient temperature for promoting the big-arch shelter is inside, the electricity is connected with wire 23 on mount pad 21, there is controller 24 through bolt fixed mounting on bracket component 2, controller 24's model is DATA-7311, and controller 24 forms electric connection through wire 23 and heating pipe 22, controller 24 forms electric connection through wire 23 and last water pump 20, the lower part fixed mounting of bracket component 2 has electronic temperature and humidity sensor 25, electronic temperature and humidity sensor 25's model is EFR012, and be provided with wireless transmitter 26 on the electronic temperature and humidity sensor 25, wireless transmitter 26 forms electric connection through radio signal and controller, wireless transmitter 26 adopts local broadband wiFi DATA transmission's mode, wireless transmitter 26's model is DATA 86.

As can be seen from the above description, the present invention has the following advantages: the support component can well support the ceiling, ensures the stability of the whole structure of the greenhouse and provides people with higher guarantee for cultivating the quasipaa spinosa; through the heating module that sets up, the inside temperature of examining the big-arch shelter that can be automatic to utilize the heating pipe to heat the inside environment of big-arch shelter, thereby create the artificial environment that the quasipaa spinosa survived, the effectual survival rate that improves the quasipaa spinosa has improved the productivity of breeding the quasipaa spinosa.

Further, bracket component 2 includes that vertical fixing supports montant 7 on ground, and the welding has support horizontal pole 8 on the outer wall on support montant 7 top, the welding has the ladder member 9 that the equidistance distributes on the outer wall at support horizontal pole 8 top, and be 3 fixed mounting on the outer wall at ladder member 9 top of ceiling of "people" type structure, fixed mounting has free bearing 11 on the outer wall of 3 bottoms of ceiling, and ceiling 3 forms fixed connection through free bearing 11 and support horizontal pole 8, the stability of big-arch shelter has been improved, higher guarantee has been improved for the breed of quasipaa spinosa.

Further, the ceiling 3 comprises a ceiling frame 10 fixedly arranged at the top end of the step rod 9, and a ceiling film 12 covers the ceiling frame 10, so that a closed environment is created for the greenhouse.

Further, the outer wall of 15 one sides of the ceiling eaves is fixedly provided with a binding rope 14, the ceiling eaves 15 is connected with a rolling film 13 through the binding rope 14, the rolling film 13 covers the ventilation window 4 when being unfolded, when the rolling film 13 is rolled up through the binding rope 14, the ventilation and heat dissipation of the greenhouse are facilitated, due to the fact that the environment temperature inside the greenhouse is reduced, when the rolling film 13 is put down, the air tightness of the greenhouse is guaranteed, and the control of the environment temperature and the humidity inside the greenhouse is facilitated.

Further, two heating pipes 22 at intervals are simultaneously connected with the controller through the conducting wire 23, a plurality of main lines are simultaneously led out from the controller 24, each main line is divided into two lines to be connected with each heating pipe 22, various heating control modes can be realized, when the difference between the ambient temperature and the set temperature is small, the controller 24 can start a small number of heating pipes 22, and when the difference between the ambient temperature and the set temperature is large, the controller 24 can start a large number of heating pipes 22, so that stable constancy can be quickly realized.

Furthermore, electronic temperature and humidity sensor 25 includes components such as greenhouse inductive probe, signal processing unit, display screen, power, and electronic temperature and humidity sensor 25 carries out real-time measuring to the inside ambient temperature and the humidity of big-arch shelter, has guaranteed that the inside temperature of big-arch shelter and humidity are in a relatively invariable scope, does benefit to the growth of quasipaa spinosa.

Furthermore, the electronic temperature and humidity sensor 25, the controller 24, the water feeding pump 20, the water feeding pipe 19, the connector 18 and the main water pipe 16 jointly form a humidifying module to realize automatic control of the temperature inside the greenhouse, the electronic temperature and humidity sensor 25, the controller 24, the heating pipe 22 and the lead 23 jointly form a heating module to realize automatic control of the humidity inside the greenhouse, a suitable production environment is created for the Rana spinosa, and good and fast normal growth of the Rana spinosa is guaranteed.

The humidifying module is adopted, the atomizing spray head is utilized, the humidity of the environment in the greenhouse is improved, a good living environment is created for the Rana spinosa, and the good and fast growth of the Rana spinosa is facilitated.

In the following, some preferred embodiments or application examples are listed to help those skilled in the art to better understand the technical content of the present invention and the technical contribution of the present invention to the prior art:

example 1

To sum up, the utility model provides a temperature and humidity adjusting system for a quasipaa spinosa cultivation shed, which comprises brick wall bodies 1, wherein the brick wall bodies 1 are parallelly stacked on a flat ground, a bracket component 2 is fixedly arranged at the central position of each of the two brick wall bodies 1, a ceiling 3 is arranged above the bracket component 2, a ventilation window 4 is reserved between the ceiling 3 and the brick wall bodies 1 for facilitating ventilation and heat dissipation inside the quasipaa spinosa, support rods 5 which are equidistantly and vertically distributed are fixedly arranged inside the ventilation window 4, cultivation ponds 6 which are equidistantly and respectively in a strip shape are constructed on the ground between the two brick wall bodies 1 for holding the seedlings of the quasipaa spinosa, ceiling eaves 15 are fixedly arranged at the two edges of the bottom of the ceiling 3, a main water pipe 16 which is horizontally arranged is fixedly arranged on the bracket component 2, and atomization nozzles 17 which are equidistantly distributed are arranged on the outer wall of the bottom of the main water pipe 16 for, reach the purpose to big-arch shelter internal environment humidification, equal threaded connection has connector 18 on the outer wall at main water pipe 16 both ends, and the both ends of main water pipe 16 are connected with the water-supply pipe 19 with 1 inseparable laminating of brick wall body through connector 18, the bottom of water-supply pipe 19 is provided with fixed mounting at 1 inboard water-supply pump 20 of brick wall body, fixed mounting has the mount pad 21 that the equidistance distributes on the bracket component 2, and equal fixed mounting has the heating pipe 22 of the same specification on the outer wall of each mount pad 21 bottom. Through the mode of electrical heating, an ambient temperature for promoting the big-arch shelter is inside, the electricity is connected with wire 23 on mount pad 21, there is controller 24 through bolt fixed mounting on bracket component 2, controller 24's model is DATA-7311, and controller 24 forms electric connection through wire 23 and heating pipe 22, controller 24 forms electric connection through wire 23 and last water pump 20, the lower part fixed mounting of bracket component 2 has electronic temperature and humidity sensor 25, electronic temperature and humidity sensor 25's model is EFR012, and be provided with wireless transmitter 26 on the electronic temperature and humidity sensor 25, wireless transmitter 26 forms electric connection through radio signal and controller, wireless transmitter 26 adopts local broadband wiFi DATA transmission's mode, wireless transmitter 26's model is DATA 86.

The support assembly 2 comprises a support vertical rod 7 vertically fixed on the ground, a support cross rod 8 is welded on the outer wall of the top end of the support vertical rod 7, ladder rod pieces 9 distributed at equal intervals are welded on the outer wall of the top of the support cross rod 8, a ceiling 3 in a herringbone structure is fixedly installed on the outer wall of the top of the ladder rod piece 9, a hinged support 11 is fixedly installed on the outer wall of the bottom of the ceiling 3, and the ceiling 3 is fixedly connected with the support cross rod 8 through the hinged support 11, so that the stability of the greenhouse is improved, and higher guarantee is provided for the cultivation of rana spinosa; the ceiling 3 comprises a ceiling frame 10 fixedly arranged at the top end of the ladder rod piece 9, and a ceiling film 12 covers the ceiling frame 10, so that a closed environment is created for the greenhouse; the outer wall of one side of the ceiling eave 15 is fixedly provided with a binding rope 14, the ceiling eave 15 is connected with a rolling film 13 through the binding rope 14, the rolling film 13 covers the ventilation window 4 when being unfolded, and when the rolling film 13 is rolled up through the binding rope 14, the ventilation and heat dissipation of the greenhouse are facilitated, and due to the fact that the environmental temperature inside the greenhouse is reduced, when the rolling film 13 is put down, the air tightness of the greenhouse is guaranteed, and the control of the environmental temperature and humidity inside the greenhouse is facilitated; the two spaced heating pipes 22 are simultaneously connected with the controller through the conducting wires 23, the controller 24 simultaneously leads out a plurality of main lines, each main line is divided into two lines to be connected with each heating pipe 22, various heating control modes can be realized, when the difference between the ambient temperature and the set temperature is small, the controller 24 can start a small number of heating pipes 22, and when the difference between the ambient temperature and the set temperature is large, the controller 24 can start a large number of heating pipes 22, so that stable constancy can be quickly realized; the electronic temperature and humidity sensor 25 comprises a greenhouse sensing probe, a signal processing unit, a display screen, a power supply and the like, and the electronic temperature and humidity sensor 25 detects the ambient temperature and humidity inside the greenhouse in real time, so that the temperature and humidity inside the greenhouse are ensured to be in a relatively constant range, and the growth of Rana spinosa is facilitated; electronic temperature and humidity sensor 25, controller 24, water-feeding pump 20, water-feeding pipe 19, connector 18, main water pipe 16 constitute humidification module jointly, realize the automatic control to the inside temperature of big-arch shelter, and electronic temperature and humidity sensor 25, controller 24, heating pipe 22, wire 23 constitute heating module jointly, realize the automatic control to the inside humidity of big-arch shelter, create suitable production environment for quasipaa spinosa, guaranteed good and fast normal growth of quasipaa spinosa.

The working principle is as follows: when the temperature in the greenhouse is high, the operator can roll the rolling film 13 through the binding rope 14, the stability in the greenhouse is reduced through the ventilation window 4, so that an environment suitable for growth is created for the Rana spinosa, when the electronic temperature and humidity sensor 25 detects that the humidity in the greenhouse is dry, the controller 24 starts the water feeding pump 20, the water feeding pump 20 pumps water to the water feeding pipe 19 and the main water pipe 16, and the environment in the greenhouse is humidified through the atomizing nozzle 16, the quasipaa spinosa growth promoting system ensures that the quasipaa spinosa is in a humidity environment with normal growth, creates an environment beneficial to survival for the quasipaa spinosa by the whole system, and improves the productivity of the quasipaa spinosa during artificial culture.

The present invention has been described with reference to the above embodiments and the accompanying drawings, however, the above embodiments are only examples for implementing the present invention. It should be noted that the disclosed embodiments do not limit the scope of the present invention. On the contrary, the intention is to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention as defined by the appended claims.

Claims (7)

1. A temperature and humidity adjusting system of a quasipaa spinosa breeding shed comprises brick wall bodies and is characterized in that the brick wall bodies are parallelly stacked on a flat ground, a support assembly is fixedly mounted at the center position of each of two brick wall bodies, a ceiling is arranged above the support assembly, a ventilation window is reserved between the ceiling and each brick wall body, support rods which are equidistant and vertically distributed are fixedly arranged inside the ventilation window, breeding ponds which are equidistant and respectively in a strip shape are built on the ground between the two brick wall bodies, ceiling eaves are fixedly mounted at the edges of two edges of the bottom of the ceiling, a horizontally arranged main water pipe is fixedly mounted on the support assembly, atomizing spray heads which are equidistantly distributed are arranged on the outer wall of the bottom of the main water pipe, connectors are connected on the outer walls at two ends of the main water pipe in a threaded manner, and water feeding pipes which are tightly attached to the brick wall bodies are connected at two ends of the main water pipe through the connectors, the bottom of water pipe is provided with the last water pump of fixed mounting inboard at the brick wall body, fixed mounting has the mount pad that the equidistance distributes on the bracket component, and equal fixed mounting has the heating pipe of the same specification on the outer wall of each mount pad bottom, electric connection has the wire on the mount pad, there is the controller through bolt fixed mounting on the bracket component, and the controller passes through the wire and forms electric connection with the heating pipe, the controller passes through the wire and forms electric connection with last water pump, the lower part fixed mounting of bracket component has electronic type temperature and humidity sensor, and is provided with wireless transmitter on the electronic type temperature and humidity sensor, wireless transmitter passes through radio signal and controller and forms electric connection.

2. The temperature and humidity adjusting system for the quasipaa spinosa cultivation shed as claimed in claim 1, wherein the support assembly comprises a vertical support rod vertically fixed on the ground, a horizontal support rod is welded on the outer wall of the top end of the vertical support rod, step rod pieces are welded on the outer wall of the top of the horizontal support rod and distributed equidistantly, a roof in a 'human' shaped structure is fixedly installed on the outer wall of the top of the step rod pieces, a hinged support is fixedly installed on the outer wall of the bottom of the roof, and the roof is fixedly connected with the horizontal support rod through the hinged support.

3. The temperature and humidity adjustment system for the quasipaa spinosa cultivation shed according to claim 1, wherein the canopy comprises a canopy frame fixedly installed at the top end of the step rod, and a canopy film covers the canopy frame.

4. The temperature and humidity adjusting system for the quasipaa spinosa cultivation shed according to claim 1, wherein a binding rope is fixedly arranged on an outer wall of one side of the ceiling eave, a rolling film is connected to the ceiling eave through the binding rope, and the rolling film covers the ventilation window when being unfolded.

5. The temperature and humidity control system for the Rana spinosa breeding shed according to claim 1, wherein two spaced heating pipes are simultaneously connected with the controller through wires, and the controller simultaneously leads out a plurality of main lines, each main line is divided into two lines to be connected with each heating pipe.

6. The temperature and humidity adjustment system for the quasipaa spinosa cultivation shed according to claim 1, wherein the electronic temperature and humidity sensor comprises a greenhouse sensing probe, a signal processing unit, a display screen, a power supply and the like.

7. The temperature and humidity adjusting system for the quasipaa spinosa breeding shed according to claim 1, wherein the electronic temperature and humidity sensor, the controller, the water feeding pump, the water feeding pipe, the connector and the main water pipe jointly form a humidifying module, and the electronic temperature and humidity sensor, the controller, the heating pipe and the lead jointly form a heating module.

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