CN206300302U - Intelligent farm house temperature control system - Google Patents

Abstract

The utility model is related to domain of control temperature, more particularly to a kind of intelligent agriculture to occupy temperature control system.It can keep agriculture residence to reach the same effect of air-conditioning during the broiling summer, and making the living environment of rural area people is improved.Without the equipment such as installation cost air-conditioning higher, non-environmental-pollution, and can reach the effect of energy-saving and emission-reduction.It includes solar panel, controller for solar, battery, wet well, back water well and is arranged at the evaporator that agriculture occupies underground；One water pump is located in wet well, and the outlet of the water pump is connected with the water inlet of evaporator；The delivery port of the evaporator is connected by an outlet pipeline with back water well；Electrically operated valve is provided with the outlet pipeline；The solar panel is connected with controller for solar, and the controller for solar is connected with battery；The battery is connected to water pump by a relay；One temperature sensor is placed in Nong Junei and is connected with a temperature controller；Also include a control module.

Description

Intelligent farm house temperature control system

technical field

The utility model relates to the field of temperature control, in particular to an intelligent farm house temperature control system.

Background technique

Sannong is the primary issue that the country has always attached great importance to. Improving the living environment of farmers is undoubtedly a livelihood project. With the development of society, the shortage of energy, the pollution of the environment, and the improvement of people's living standards, the living conditions of traditional farm houses can no longer meet the requirements of the times. Especially with the rapid development of computer technology, network technology and control technology, the continuous improvement of rural living standards has promoted the realization of modern life, comfortable environment and safe living in rural areas. Modern rural families are pursuing the diversified information and safe, comfortable and convenient living environment brought by intelligent home as an ideal goal. It is in this situation that smart houses emerge as the times require.

In the hot summer, it is the season of farm work in rural areas of our country. Farmers need to use air conditioners to solve cooling, which is relatively expensive, and most farmers cannot afford this part of the cost. If other measures are taken, it will not be able to meet the requirements of "building a new socialist countryside" due to the disadvantages of difficult temperature control, excessive fuel consumption, environmental pollution, some equipment occupying a large space, and relatively backward construction technology. Therefore, under the premise of saving energy and reducing environmental pollution, it is imperative to improve the conditions of farm houses.

Utility model content

The utility model aims at the defects of the prior art and provides an intelligent farm house temperature control system. The utility model can maintain the effect of the air conditioner in the farm house in hot summer, and improve the living environment of the rural people. There is no need to install high-cost air conditioners and other equipment, no environmental pollution, and can achieve the effect of energy saving and emission reduction.

In order to achieve the above object, the utility model provides an intelligent farm house temperature control system, which is characterized in that it includes solar panels, solar controllers, batteries, water outlet wells, return water wells and an evaporator installed underground in the farm house.

A water pump is located in the water outlet well, the outlet of the water pump is connected with the water inlet of the evaporator; the water outlet of the evaporator is connected with the return water well through a water outlet pipeline; an electric valve is arranged on the water outlet pipeline.

The solar battery panel is connected with a solar controller, and the solar controller is connected with a storage battery.

The storage battery is connected to the water pump through a relay; a temperature sensor is placed in the farm house and connected with a temperature controller.

The outer surface of the farmhouse is provided with a thermal insulation layer.

It also includes a control module, the control module is respectively connected with the electric valve, the relay and the temperature controller.

As a preferred solution of the utility model, the solar controller is selected from the SR-MPC2415 solar controller produced by Shenzhen Shuori New Energy Technology Co., Ltd.

As another preferred solution of the present invention, the temperature controller is REX-C100 temperature controller of EKS.

As another preferred solution of the present utility model, the water pump is a DC water pump.

As another preferred solution of the present utility model, the solar cell panel includes a cell assembly composed of a plurality of solar cells arranged in a matrix, and the plurality of solar cells are connected by interconnecting strips, and the four sides of the cell assembly The frame is fixed by the frame encapsulation glue, the side end of the frame is provided with a wiring hole, the electrode lead is installed in the wiring hole, the outer periphery of the electrode lead is covered with a lead sheath, and the surface of the cell assembly is provided with an upper The glass cover plate, the bottom surface of the cell assembly is provided with a lower bottom plate, and the lower bottom plate is bonded to the cell assembly through an adhesive layer.

As another preferred solution of the present invention, the frame is made of an aluminum alloy frame.

As another preferred solution of the present utility model, the adhesive layer is filled with EVA adhesive.

As another preferred solution of the present invention, the control module adopts a single-chip microcomputer as the main control chip.

Compared with the prior art, the utility model has beneficial effects.

The utility model installs solar panels in sunny places in rural areas, converts them into electrical energy through solar controllers, charges the batteries, and provides electrical energy to the load water pumps to pump cold water from cold wells or river water with low water temperature. The water inlet leads to the underground evaporator in the house to absorb heat from the indoor hot air, so as to achieve the purpose of reducing the indoor temperature of the farm house by using the temperature of the cold water source itself in the hot summer. If in order to achieve a more comfortable and ideal indoor environment, temperature sensors and temperature controllers are required for overall intelligent control to achieve an ideal state. Finally, the used water is discharged into the backwater well.

Based on the concept of intelligent building, the water wells and solar power generation devices in farmyards are used to regulate the temperature of rural houses and play a cooling role. It can replace air conditioners, save a lot of resources, and play a role in environmental protection.

The solar battery panel of the utility model has electrode lead wires covered with lead wire sheaths, which can effectively protect the personal safety of installers; the aluminum alloy outer frame has enhanced mechanical strength and improved service life.

Description of drawings

The utility model will be further described below in conjunction with the accompanying drawings and specific embodiments. The scope of protection of the utility model is not limited to the expression of the following content.

Fig. 1 is the structural representation of the utility model.

Fig. 2 is a structural schematic diagram of the solar cell panel of the present invention.

In the figure, 1 is a solar panel, 2 is a solar controller, 3 is a battery, 4 is a relay, 5 is a water pump, 6 is a water well, 7 is an evaporator, 8 is an electric valve, 9 is a return well, and 10 is a frame , 11 is the frame encapsulant, 12 is the upper glass cover, 13 is the adhesive layer, 14 is the bottom plate, 15 is the solar cell, 16 is the interconnection strip, 17 is the wiring hole, 18 is the lead sheath, 19 is Electrode leads.

detailed description

As shown in Figure 1, the utility model includes a solar panel 1, a solar controller 2, a storage battery 3, a water outlet well 6, a water return well 9 and an evaporator 7 arranged underground in a farm house.

A water pump 5 is located in the water outlet well 6, and the outlet of the water pump 5 is connected with the water inlet of the evaporator 7; the water outlet of the evaporator 7 is connected with the return water well 9 through a water outlet pipeline; an electric valve is arranged on the water outlet pipeline 8.

The solar panel 1 is connected to a solar controller 2 , and the solar controller 2 is connected to a storage battery 3 . The storage battery 3 is connected to the water pump 5 through a relay 4; a temperature sensor is placed in the farm house and connected to a temperature controller.

It also includes a control module, which is respectively connected with the electric valve 8, the relay 4 and the temperature controller.

The solar controller 22 is the SR-MPC2415 solar controller 2 produced by Shenzhen Shuori New Energy Technology Co., Ltd.

The temperature controller is the REX-C100 temperature controller of EKS.

The water pump 5 is a direct current water pump.

The working process of the utility model: use the solar panel 1 to generate electric energy, and then store the electric energy generated by the solar energy in the storage battery 3 through the solar controller 2, so as to supply power for the load water pump 5, pump the groundwater or river water up through the water pump 5, and pass through the The water outlet goes to the underground evaporator 7 in the house to absorb the heat of the indoor hot air, so as to achieve the purpose of reducing the indoor temperature of the farm house by utilizing the self temperature of the cold water source in the hot summer. The relay 4 is arranged between the water pump 5 and the battery 3, and the relay 4 is connected to a control module; the control module controls the power supply of the water pump 5 by controlling the closing of the relay 4, and then achieves the purpose of controlling whether the water pump 5 works. Since the battery 3 is used to supply power to the water pump 5 , the water pump 5 is a DC water pump 5 . An electric valve 8 is arranged on the water outlet pipeline, and the electric valve 8 is connected with the control module. The control module controls the opening and closing of the water outlet pipeline by controlling the electric valve 8 . The control module is also connected to the temperature controller, and the temperature sensor collects temperature data and transmits it to the temperature controller connected to it. When the indoor temperature reaches the temperature threshold set by the temperature controller, the temperature controller transmits it to the control module A high level, the control module controls the electric valve 8 to open after receiving the high level from the temperature controller, and the heated water is released into the outlet well 6, and then controls the relay 4 to pull in, at this time, the water pump 5 works , extract underground cold water into the evaporator 7, and continue the next round of refrigeration. Repeat this to achieve intelligence.

The control module uses a single-chip microcomputer as the main control chip, and its realized functions are mainly two aspects, that is, controlling the work of the relay 4 and the electric valve 8 according to the high and low levels transmitted by the temperature sensor. This part is a conventional technical means in the field, and those skilled in the art can realize this part of functions by publicizing information or purchasing ready-made relay 4 control modules and electric valve 8 control modules; no further details are given here.

As shown in Figure 2, the solar cell panel 1 is a cell assembly comprising a plurality of solar cell sheets 15 arranged in a matrix, and the plurality of solar cell sheets 15 are connected by interconnecting strips 16, and the four sides of the cell assembly The frame 10 is fixed by the encapsulation glue of the frame 10, and the side end of the frame 10 is provided with a connection hole 17, and the electrode lead 19 is installed in the connection hole 17, and the periphery of the electrode lead 19 is covered with a lead sheath 18. An upper glass cover plate 12 is provided on the surface of the battery sheet assembly, and a lower bottom plate 14 is provided on the bottom surface of the battery sheet assembly, and the lower bottom plate 14 is bonded to the battery sheet assembly through an adhesive layer 13 .

The frame 10 is made of an aluminum alloy frame 10, and the adhesive layer 13 is filled with an EVA adhesive.

The utility model installs the solar battery panel 1 in a sunny place in the countryside, converts it into electric energy through the solar controller 2, charges the storage battery 3, provides electric energy to the load water pump 5, and uses the cold water of the cold water well or the river water with a low water temperature to use the water pump 5 is pumped up, through the water inlet to the underground evaporator 7 in the house, the indoor hot air is absorbed, so as to achieve the purpose of reducing the indoor temperature of the farm house in the hot summer by utilizing the temperature of the cold water source itself. If in order to achieve a more comfortable and ideal indoor environment, temperature sensors and temperature controllers are required for overall intelligent control to achieve an ideal state. Finally, the utilized water is discharged into the backwater well 9.

Based on the concept of intelligent building, the water wells and solar power generation devices in farmyards are used to regulate the temperature of rural houses and play a cooling role. It can replace air conditioners, save a lot of resources, and play a role in environmental protection.

The solar battery panel 1 of the utility model has electrode leads 19 covered with a lead sheath 18, which can effectively protect the personal safety of installers; the aluminum alloy outer frame has enhanced mechanical strength and improved service life.

It can be understood that the above specific description of the utility model is only used to illustrate the utility model and is not limited to the technical solutions described in the embodiments of the utility model. Those of ordinary skill in the art should understand that they can still understand the utility model Modifications or equivalent replacements are carried out to achieve the same technical effect; as long as the requirements of use are met, they are all within the protection scope of the present utility model.

Claims (8)

1. The intelligent farm house temperature control system is characterized in that it includes solar panels, solar controllers, batteries, water outlet wells, return water wells, and evaporators installed underground in farm houses; A water pump is located in the water outlet well, the outlet of the water pump is connected with the water inlet of the evaporator; the water outlet of the evaporator is connected with the return water well through a water outlet pipeline; an electric valve is arranged on the water outlet pipeline; The solar panel is connected with a solar controller, and the solar controller is connected with a storage battery; The storage battery is connected to the water pump through a relay; a temperature sensor is placed in the farm house and connected to a temperature controller; The outer surface of the farmhouse is provided with a thermal insulation layer; It also includes a control module, the control module is respectively connected with the electric valve, the relay and the temperature controller. 2. The intelligent farm house temperature control system according to claim 1, characterized in that: the solar controller is the SR-MPC2415 solar controller produced by Shenzhen Shuori New Energy Technology Co., Ltd. 3. The intelligent farm house temperature control system according to claim 1, characterized in that: the temperature controller is the REX-C100 temperature controller of EKS. 4. The intelligent farm house temperature control system according to claim 1, wherein the water pump is a DC water pump. 5. The intelligent farm house temperature control system according to claim 1, characterized in that: the solar cell panel comprises a plurality of solar cells arranged in a matrix, and the plurality of solar cells are interconnected by interconnecting strips connection, the four sides of the cell assembly are fixed by the frame through the frame encapsulant, the side end of the frame is provided with a wiring hole, the electrode lead is installed in the wiring hole, and the outer periphery of the electrode lead is covered with a lead sheath, so The surface of the cell assembly is provided with an upper glass cover plate, the bottom surface of the cell assembly is provided with a lower base plate, and the lower base plate is bonded to the cell assembly through an adhesive layer. 6. The intelligent farm house temperature control system according to claim 5, wherein the frame is made of an aluminum alloy frame. 7. The intelligent farm house temperature control system according to claim 5, characterized in that: the adhesive layer is filled with EVA adhesive. 8. The intelligent farm house temperature control system according to claim 1, characterized in that: the control module uses a single-chip microcomputer as the main control chip.