CN205316772U - Based on energy -conserving refrigerating system of thing networking - Google Patents

Abstract

The utility model provides a based on energy -conserving refrigerating system of thing networking, the inside refrigerating plant that is equipped with of walk -in body, the top of walk -in body is equipped with the solar photovoltaic board, solar photovoltaic board and the output electric connection who sets up the input electric connection in the inside electric power storage module of walk -in body, refrigerating plant and electric power storage module, the last cryogenic temperature adjusting module that is equipped with of refrigerating plant, cryogenic temperature adjusting module and host system electricity are connected, the last wireless communication module that still is equipped with of host system, wireless communication module and remote monitoring end are linked together through wireless network, refrigerating plant's top is equipped with first fan, and refrigerating plant's bottom is equipped with the second fan, and first fan, second fan set up relatively. The beneficial effects of the utility model are that can realize remote control, the distribution of temperature is even.

Description

A kind of based on Internet of Things energy-conserving refrigeration system

Technical field

This utility model belongs to refrigeration technology field, especially relates to a kind of based on Internet of Things energy-conserving refrigeration system.

Background technology

Some needs the commodity of cold preservation to need to be placed on storage in cold room, prevent from going bad, refrigerating plant is set in cold room, to reduce internal temperature, but the position temperature of close refrigerating plant is on the low side in cold room, away from the position temperature drift of refrigerating plant, there is the problem that temperature distributing disproportionation is even, and during homoiothermic, need being operated of management personnel's real-time on-site, operation inconvenience, a kind of solve these problems based on Internet of Things energy-conserving refrigeration system, need further research and development.

Utility model content

The purpose of this utility model be to provide a kind of simple in construction, simple to operate, reliability high based on Internet of Things energy-conserving refrigeration system.

The technical solution of the utility model is: one of the present utility model is based on Internet of Things energy-conserving refrigeration system, including cold room body, refrigerating plant, cryogenic temperature adjustment module, main control module, wireless communication module, long-range monitoring client, the first fan, the second fan, solar energy photovoltaic panel.

Described cold room body interior is provided with refrigerating plant, the top of described cold room body is provided with solar energy photovoltaic panel, the input of described solar energy photovoltaic panel and the power storage module that is arranged on cold room body interior is electrically connected, and the outfan of described refrigerating plant and power storage module is electrically connected.

Described refrigerating plant is provided with cryogenic temperature adjustment module, described cryogenic temperature adjustment module and main control module electrical connection, and described main control module is additionally provided with wireless communication module, and described wireless communication module is connected by wireless network with long-range monitoring client.

The top of described refrigerating plant is provided with the first fan, and the bottom of described refrigerating plant is provided with the second fan, and described first fan, the second fan are oppositely arranged.

The outside of described cold room body is coated with heat-insulation layer.

Described cold room body is cylindrical, and the flabellum of the first fan, the second fan extends to the sidewall edge place of cold room body.

This utility model has the advantage that and has the benefit effect that 1, owing to adopting technique scheme, the cryogenic temperature of cold room can remote control and regulation, more convenient to operate;There is simple in construction, simple to operate, the advantage such as time saving and energy saving.

2, the first fan, the second fan that are oppositely arranged have the effect promoting air flowing so that the intrinsic Temperature Distribution of cold room is more uniform.

3, the setting of solar energy photovoltaic panel, can make full use of nature clear energy sources, environmental protection.

Accompanying drawing explanation

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

In figure: 1-cold room body, 2-refrigerating plant, 3-cryogenic temperature adjustment module, 4-main control module, 5-wireless communication module, the long-range monitoring client of 6-, 7-the first fan, 8-the second fan, 9-solar energy photovoltaic panel, 10-heat-insulation layer.

Detailed description of the invention

Below in conjunction with accompanying drawing, this utility model is elaborated.

As shown in Figure 1, one of the present utility model is based on Internet of Things energy-conserving refrigeration system, including cold room body 1, refrigerating plant 2, cryogenic temperature adjustment module 3, main control module 4, wireless communication module 5, long-range monitoring client the 6, first fan the 7, second fan 8, solar energy photovoltaic panel 9.

Cold room body 1 is internal is provided with refrigerating plant 2, the top of cold room body 1 is provided with solar energy photovoltaic panel 9, solar energy photovoltaic panel 9 and be arranged on the input of power storage module cold room body 1 within and be electrically connected, the outfan electric connection of refrigerating plant 2 and power storage module.

Refrigerating plant 2 is provided with cryogenic temperature adjustment module 3, cryogenic temperature adjustment module 3 and main control module 4 and electrically connects, and main control module 4 is additionally provided with wireless communication module 5, and wireless communication module 5 is connected by wireless network with long-range monitoring client 6.

The top of refrigerating plant 2 is provided with the first fan 7, and the bottom of refrigerating plant 2 is provided with the second fan 8, and first fan the 7, second fan 8 is oppositely arranged.

The outside of cold room body 1 is coated with heat-insulation layer 10.

Cold room body 1 is cylindrical, and the flabellum of first fan the 7, second fan 8 extends to the sidewall edge place of cold room body 1.

The work process of this example: user can pass through long-range monitoring client 6, such as mobile phone, PAD etc., sending work order by network to the main control module 4 on refrigerating plant 2, main control module 4 controls cryogenic temperature adjustment module 3 and is adjusted to corresponding cryogenic temperature, it is achieved remotely intelligently monitoring.

Temperature in cold room body 1 is reduced by refrigerating plant 2, first fan the 7, second fan 8 accelerates the flowing of cold room body 1 inner air, and the flabellum of first fan the 7, second fan 8 extends to the sidewall edge place of cold room body 1, make not stay in cold room body 1 high temperature dead angle, in whole cold room body 1, the temperature of gas is more uniform, does not ensure the Optimality of refrigeration in cold room body 1.

Heat-insulation layer 10 can reduce cold room body 1 internal-external heat exchange speed, save the energy, solar energy photovoltaic panel 9 can convert solar energy into electrical energy, environmental protection, solar energy photovoltaic panel 9 is arranged on top simultaneously, avoid the sunlight direct irradiation top at cold room body 1, the situation of cold room body 1 heat absorption caused.

Above an embodiment of the present utility model is described in detail, but described content has been only preferred embodiment of the present utility model, it is impossible to be considered for limiting practical range of the present utility model. All equalizations made according to this utility model application range change and improvement etc., all should still belong within patent covering scope of the present utility model.

Claims (3)

1. one kind based on Internet of Things energy-conserving refrigeration system, it is characterised in that: include cold room body, refrigerating plant, cryogenic temperature adjustment module, main control module, wireless communication module, long-range monitoring client, the first fan, the second fan, solar energy photovoltaic panel;

Described cold room body interior is provided with refrigerating plant, the top of described cold room body is provided with solar energy photovoltaic panel, the input of described solar energy photovoltaic panel and the power storage module that is arranged on cold room body interior is electrically connected, and the outfan of described refrigerating plant and power storage module is electrically connected;

Described refrigerating plant is provided with cryogenic temperature adjustment module, described cryogenic temperature adjustment module and main control module electrical connection, and described main control module is additionally provided with wireless communication module, and described wireless communication module is connected by wireless network with long-range monitoring client;

The top of described refrigerating plant is provided with the first fan, and the bottom of described refrigerating plant is provided with the second fan, and described first fan, the second fan are oppositely arranged.

2. one according to claim 1 is based on Internet of Things energy-conserving refrigeration system, it is characterised in that: the outside of described cold room body is coated with heat-insulation layer.

3. one according to claim 1 is based on Internet of Things energy-conserving refrigeration system, it is characterised in that: described cold room body is cylindrical, and the flabellum of the first fan, the second fan extends to the sidewall edge place of cold room body.