CN214802254U - Multi-heat-source energy-saving environment-friendly tobacco curing chamber - Google Patents

Abstract

The utility model relates to a tobacco leaf flue-cured tobacco equipment field, an energy-concerving and environment-protective flue-cured tobacco chamber of many heat sources, wherein solar cell panel lays on flue-cured tobacco chamber main part roof, and electric heating system is infrared heating device, and electric heating system installs in circulating fan below, and the living beings oven is installed in electric heating system's below, solar energy power supply system with circulating fan and electric connection to it is right to make solar energy power supply system the circulating fan power supply still is equipped with temperature sensor and controller in the flue-cured tobacco chamber main part, temperature sensor with controller signal connection, controller with circulating fan and electric heating system electric connection. The flue-cured tobacco chamber can fully utilize heat energy, and achieves the effects of energy conservation, no pollution, accurate temperature, no noise, low energy consumption and high working efficiency.

Description

Multi-heat-source energy-saving environment-friendly tobacco curing chamber

Technical Field

The utility model relates to a tobacco leaf flue-cured tobacco equipment field, especially an energy-concerving and environment-protective flue-cured tobacco chamber of many heats source.

Background

Tobacco leaves are picked and then form flue-cured tobacco leaves through a tobacco curing process, the tobacco curing equipment in the prior art is not environment-friendly due to the adoption of biomass and coal, heating is carried out in a heat pump, an electric heating pipe and the like, energy consumption is high, and particularly the heat pump is greatly influenced by the environment and is unstable in work.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides an energy-concerving and environment-protective flue-cured tobacco chamber of many heat sources, its make full use of heat energy reaches energy saving, pollution-free, the temperature is accurate, noiselessness, the energy consumption is low, effect that work efficiency is high to guarantee the flue-cured tobacco quality.

The utility model adopts the technical proposal that:

a multi-heat-source energy-saving and environment-friendly tobacco curing chamber comprises a tobacco curing chamber main body, a solar power supply system, a circulating fan, an electric heating system and a biomass oven, wherein the solar power supply system comprises a solar cell panel and an electric power storage system, the solar cell panel is laid on the roof of the tobacco curing chamber main body, the electric heating system is an infrared heating device, the electric heating system is installed below the circulating fan, the biomass oven is installed below the electric heating system, the solar power supply system is electrically connected with the circulating fan so that the solar power supply system supplies power to the circulating fan, a temperature sensor and a controller are further arranged in the tobacco curing chamber main body, the temperature sensor is in signal connection with the controller, and the controller is electrically connected with the circulating fan and the electric heating system;

the controller controls the working power of the circulating fan and the electric heating system through the air temperature in the flue-cured tobacco chamber main body detected by the temperature sensor so that the air temperature in the flue-cured tobacco chamber main body is constant within a threshold temperature range.

Preferably, the solar power supply system comprises a solar panel, a system controller, a storage battery, a distributor and an inverter.

Preferably, the electric heating system comprises an electric heating device and an auxiliary fan.

Preferably, a heat energy recovery system is further arranged inside the flue-cured tobacco chamber main body.

Preferably, the heat energy recovery system comprises a tail gas heat conversion assembly and a fresh air conveying assembly.

Preferably, the tail gas heat conversion assembly consists of a heat absorption assembly and a heat dissipation assembly, and the tail gas heat conversion assembly can circularly heat the low-temperature fresh air led in by the fresh air conveying assembly by utilizing the heat conducting part between the heat absorption assembly and the heat dissipation assembly.

The utility model has the advantages that:

this flue-cured tobacco room adopts infrared heating technology, and its power supply adopts the solar energy power supply system power supply that self has, and solar energy power supply system still supplies power to other power consumption devices of flue-cured tobacco room main part inside simultaneously, for example temperature sensor ware, controller etc, circulating fan and auxiliary fan etc.. This flue-cured tobacco room utilizes heat recovery system, and the abandonment that the flue-cured tobacco technology produced carries out the heat exchange through heat recovery system emission flue-cured tobacco room outside in-process and the leading-in low temperature new trend of new trend transport component, further reduces the consumption. Compared with the traditional coal and biomass heating mode, the tobacco flue-curing chamber is more environment-friendly, and compared with the electric heating, the tobacco flue-curing chamber is more energy-saving, and compared with the heat pump and solar heating technology, the tobacco flue-curing chamber is more stable and has lower cost. And through built-in living beings oven flue-cured tobacco under the state that has a power failure, changed the condition that the living beings flue-cured tobacco shut down under the power failure state before.

Drawings

Fig. 1 is a schematic structural view of the multi-heat-source energy-saving and environment-friendly tobacco flue-curing chamber of the present invention.

Fig. 2 is a perspective view of the multi-heat source energy-saving and environment-friendly tobacco flue-curing chamber of the present invention.

The reference numerals include:

1-flue-cured tobacco chamber main body; 2-a solar power supply system; 3-a circulating fan; 4-an electrical heating system; 5-biomass oven; 6-a heat energy recovery system.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings.

As shown in fig. 1 and fig. 2, the embodiment provides a multi-heat-source energy-saving and environment-friendly flue-cured tobacco chamber, which comprises a flue-cured tobacco chamber main body 1, a solar power supply system 2, a circulating fan 3, an electric heating system 4 and a biomass oven 5, wherein the solar power supply system 2 comprises a solar panel and an electric power storage system, the solar panel is laid on the roof of the tobacco flue-curing chamber main body 1, the electric heating system 4 is an infrared heating device, the electric heating system 4 is arranged below the circulating fan 3, the biomass oven 5 is arranged below the electric heating system 4, the solar power supply system 2 is electrically connected with the circulating fan 3, so that the solar power supply system 2 supplies power to the circulating fan 3, a temperature sensor and a controller are also arranged in the tobacco curing chamber main body 1, the temperature sensor is in signal connection with the controller, and the controller is electrically connected with the circulating fan 3 and the electric heating system 4; the controller controls the working power of the circulating fan 3 and the electric heating system 4 through the air temperature in the tobacco curing chamber main body 1 detected by the temperature sensor so as to ensure that the air temperature in the tobacco curing chamber main body 1 is constant in a threshold temperature range.

The electric heating system 4 includes an electric heating device and an auxiliary fan.

The solar power supply system 2 of the tobacco flue-curing chamber comprises a solar panel, a system controller, a storage battery, a distributor and an inverter. Solar energy is collected through the solar cell panel, electric energy is stored in the storage battery through the system controller, the storage battery adopts a large-capacity storage battery, and the storage battery can supply power for other power-requiring equipment in the flue-cured tobacco chamber main body 1. If alternating current is needed, the direct current is converted into the alternating current through an inverter.

Circulating fan 3, circulation of air in its main effect is quickening flue-cured tobacco room main part 1, avoids the heat gathering of electric heating system 4 and 5 productions of living beings oven, and circulating fan 3 can accelerate the inside air flow speed of flue-cured tobacco room main part 1. Because the hot-air concentrates in the top region in flue-cured tobacco chamber main part 1, consequently circulating fan 3 sets up the position that is close to the top in flue-cured tobacco chamber main part 1.

The electric heating system 4, the electric heating system 4 in the equipment is used for baking the tobacco leaves; when the electric heating system 4 heats, the temperature in the sealed space is ensured to be constant. The electric heating system 4 comprises an electric heating device, a temperature sensor and an auxiliary fan, wherein the temperature sensor is connected with the electric heating device and the fan through a controller, and the power of the electric heater and the power of the fan are controlled in real time according to a temperature detection signal in a sealed space output by the temperature sensor. The electric heating system 4 is powered by industrial electricity.

The biomass oven 5 serves as a second device for baking tobacco leaves, and serves as an auxiliary heating system and a standby heating system. For example, when the solar power supply system 2 cannot provide enough electric energy, the electric heating system 4 is turned off, and the biomass oven 5 is used for baking tobacco leaves inside the tobacco flue-curing chamber, so as to achieve the effect of a common tobacco flue-curing chamber. Although the electric heating part in the electric heating system 4 can not work, the tobacco flue-curing room adopts the biomass oven 5 to cure the tobacco leaves, and the solar power supply system 2 still keeps partial electric energy to supply power to the circulating fan 3, the sensor, the controller and other control parts, the detection part and the wind circulation part, so as to ensure the stability of the tobacco flue-curing room.

The interior of the tobacco flue-curing chamber body 1 is also provided with a heat energy recovery system 6. The heat energy recovery system 6 comprises a tail gas heat conversion assembly and a fresh air conveying assembly. The tail gas heat conversion assembly consists of a heat absorption assembly and a heat dissipation assembly, and the tail gas heat conversion assembly can circularly heat the low-temperature fresh air led in by the fresh air conveying assembly by utilizing the heat conduction part between the heat absorption assembly and the heat dissipation assembly.

This flue-cured tobacco room adopts infrared heating technology, and its power supply adopts the solar power supply system 2 power supply that self has, and solar power supply system 2 still supplies power to other power consumption devices of flue-cured tobacco room main part 1 inside simultaneously, for example temperature sensor ware, controller etc, circulating fan 3 and auxiliary fan etc.. This flue-cured tobacco room utilizes heat recovery system 6, and the abandonment that the flue-cured tobacco technology produced carries out the heat exchange through heat recovery system 6 discharge the outside in-process of flue-cured tobacco room and the leading-in low temperature new trend of new trend conveying component, further reduces the consumption. Compared with the traditional coal and biomass heating mode, the tobacco flue-curing chamber is more environment-friendly, and compared with the electric heating, the tobacco flue-curing chamber is more energy-saving, and compared with the heat pump and solar heating technology, the tobacco flue-curing chamber is more stable and has lower cost.

The tobacco flue-curing chamber combines a plurality of energy-saving technologies, and various indexes of cost, energy consumption, environmental protection and stability can be optimally combined. The cost of a furnace of tobacco leaves in a common biomass tobacco curing chamber is 1500 yuan, and the cost of the tobacco curing chamber is 1125 yuan. The cost of the heat pump tobacco curing chamber is 1000 yuan, but the cost of the heat pump tobacco curing chamber is 6 ten thousand yuan, and the equipment cost of the tobacco curing chamber is only 2 ten thousand yuan. And this flue-cured tobacco room is through 5 flue-cured tobaccos of built-in living beings oven under the state that has a power failure, has changed the condition that living beings flue-cured tobacco shut down under the power failure state before. This flue-cured tobacco room can be with temperature control at positive and negative 0.5 degree, and living beings flue-cured tobacco room among the prior art can only be with temperature control at positive and negative 4 degrees, and this flue-cured tobacco room flue-cured tobacco effect is more accurate.

The above description is only a preferred embodiment of the present invention, and many changes can be made in the detailed description and the application scope according to the idea of the present invention for those skilled in the art, which all belong to the protection scope of the present invention as long as the changes do not depart from the concept of the present invention.

Claims (6)

1. The utility model provides an energy-concerving and environment-protective flue-cured tobacco chamber of many heats source which characterized in that: the tobacco curing chamber comprises a tobacco curing chamber main body, a solar power supply system, a circulating fan, an electric heating system and a biomass oven, wherein the solar power supply system comprises a solar cell panel and an electric power storage system, the solar cell panel is laid on the roof of the tobacco curing chamber main body, the electric heating system is an infrared heating device, the electric heating system is installed below the circulating fan, the biomass oven is installed below the electric heating system, the solar power supply system is electrically connected with the circulating fan so that the solar power supply system supplies power to the circulating fan, a temperature sensor and a controller are further arranged in the tobacco curing chamber main body, the temperature sensor is in signal connection with the controller, and the controller is electrically connected with the circulating fan and the electric heating system;

the controller controls the working power of the circulating fan and the electric heating system through the air temperature in the flue-cured tobacco chamber main body detected by the temperature sensor so that the air temperature in the flue-cured tobacco chamber main body is constant within a threshold temperature range.

2. The multi-heat-source energy-saving environment-friendly tobacco flue-curing chamber as claimed in claim 1, characterized in that: the solar power supply system comprises a solar panel, a system controller, a storage battery, a distributor and an inverter.

3. The multi-heat-source energy-saving environment-friendly tobacco flue-curing chamber as claimed in claim 1, characterized in that: the electric heating system comprises an electric heating device and an auxiliary fan.

4. The multi-heat-source energy-saving environment-friendly tobacco flue-curing chamber as claimed in claim 1, characterized in that: the flue-cured tobacco chamber main body is internally provided with a heat energy recovery system.

5. The multi-heat-source energy-saving environment-friendly tobacco flue-curing chamber as claimed in claim 4, characterized in that: the heat energy recovery system comprises a tail gas heat conversion assembly and a fresh air conveying assembly.

6. The multi-heat-source energy-saving environment-friendly tobacco flue-curing chamber as claimed in claim 5, characterized in that: the tail gas heat conversion assembly is composed of a heat absorption assembly and a heat dissipation assembly, and the tail gas heat conversion assembly can circularly heat the low-temperature fresh air led in by the fresh air conveying assembly by utilizing the heat conduction part between the heat absorption assembly and the heat dissipation assembly.

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