CN203675979U - Fermentation device - Google Patents

Abstract

The utility model relates to a fermentation device, which belongs to the technical field of solar energy comprehensive utilization equipment. The utility model includes a fermentation workshop, a water supply valve, a dehumidification device, a water storage tank, a temperature-hygrometer, and a solar heating system. The solar heating system includes a solar collector, a cooling device, a frequency conversion motor, and a water vapor delivery pump; A cooling device is installed inside the workshop. The cooling device is connected to the hot water outlet of the solar collector. The hot water outlet of the solar collector is connected to the water vapor delivery pump through the cooling device. The water vapor delivery pump is driven by a frequency conversion motor, and the water inlet of the solar collector passes through The water supply valve is connected to the water storage tank, and the dehumidification device and the temperature and humidity meter are respectively located on the wall of the fermentation workshop. The utility model has the advantages of simple structure, low construction cost, stable and reliable operation, high fermentation efficiency, and realizes dual purposes of energy saving and environmental protection.

Description

a fermentation device

technical field

The utility model relates to a fermentation device, which belongs to the technical field of solar energy comprehensive utilization equipment.

Background technique

Fermentation is the process by which microorganisms break down organic matter. Used in agriculture, medicine, brewing, food and chemical industry, etc. Fermentation is one of the most widely used material processing methods in production and life. Generally speaking, the fermentation process is a biochemical reaction carried out at normal temperature and pressure. The reaction is safe and the requirements are relatively simple. In general, the production of miscellaneous bacteria needs to be specially controlled during the fermentation process. Usually, the method of controlling miscellaneous bacteria is to carry out strict disinfection treatment on the equipment, heat and sterilize the air and ferment in an automated way as much as possible. Usually, if bacteria or bacteriophages are contaminated during the fermentation process, the fermentation process will be affected, resulting in a reduction in the yield of the fermented product. In severe cases, the entire fermentation process will even fail, and all fermented products will be required to be dumped. The most traditional method is natural fermentation, but this kind of complete dependence on the natural environment is often difficult to meet the needs of industrialized mass production. However, to realize the fermentation in an automated manner, although the efficiency has been improved, the production cost has also been increased. How to fully and effectively utilize solar energy and meet the needs of industrial production is a problem that people urgently need to solve. Especially the fermentation of ham takes a relatively long time. During the fermentation process, it is necessary to control the temperature at 20-30°C and the humidity between 50-60% to facilitate the fermentation of ham to ensure the color and taste of ham and ensure the fermentation During the process, there will be no contamination of bacteria or phages, ensuring the quality of the ham.

Therefore, it is very necessary to develop a device that can effectively control the temperature and humidity of the fermentation workshop to ensure the normal fermentation. Solar energy is an inexhaustible source of energy, and the technology of the solar water heating system is relatively mature. If the solar water heating system can be combined with the fermentation workshop, the normal fermentation process of the product can be guaranteed, which will help It is beneficial to reduce the cost of use and protect the environment, which has positive and long-term significance.

Contents of the invention

The utility model provides a fermenting device, which is used to solve the problems of high cost of the existing device and unenvironmental protection by conventional heating.

The technical scheme of the utility model is: a fermentation device, including a fermentation workshop 1, a water supply valve 3, a dehumidification device 5, a water storage tank 8, a temperature and humidity meter 9, and a solar heating system, and the solar heating system includes a solar collector Heater 2, heat dissipation device 4, frequency conversion motor 6, water vapor delivery pump 7; among them, a heat dissipation device 4 is installed inside the fermentation workshop 1, and the heat dissipation device 4 is connected to the hot water outlet of the solar heat collector 2, and the hot water outlet of the solar heat collector 2 The water vapor delivery pump 7 is connected through the cooling device 4, the water vapor delivery pump 7 is driven by the frequency conversion motor 6, the water inlet of the solar collector 2 is connected to the water storage tank 8 through the water supply valve 3, and the dehumidification device 5 and the temperature and humidity meter 9 are respectively located in the fermentation workshop 1 on the wall.

A hook 10 is arranged on the top of the fermentation workshop 1 .

The number of the dehumidification device 5 and the temperature-hygrometer 9 is one or more respectively.

The heat dissipation device 4 is a pipe-and-pipe type or a fin type heat dissipation device.

The heat dissipation device 4 is arranged in the lower space and/or the middle of the fermentation workshop 1 and is not intersected with the working channel and the drying work area.

The cooling devices 4 are evenly distributed around the fermentation workshop 1 .

The cooling device 4 is arranged in parallel and close to the wall of the fermentation workshop 1 .

During work, at first hang the product that needs fermentation on the hook 10 that this device is provided with, close the door. When the humidity displayed on the temperature-hygrometer 9 is higher than the set value, start the dehumidification device 5 to get rid of moisture. When the temperature displayed on the temperature-hygrometer 9 is lower than the set value, the water supply valve 3 is opened, and the solar heating system consisting of the solar heat collector 2, the water vapor delivery pump 7, the frequency conversion motor 6 and the cooling device 4 is started. The motor 6 drives the water vapor delivery pump 7 to transport the hot water in the solar heat collector 2 to the cooling device 4, and the cooling device 4 transfers heat to the fermentation workshop 1 to increase the internal temperature of the fermentation workshop 1. After the fermentation is finished, open the door and take off the fermented product from the hook 10.

The beneficial effects of the utility model are: simple structure, low construction cost, stable and reliable operation, high fermentation efficiency, and the realization of dual purposes of energy saving and environmental protection.

Description of drawings

Fig. 1 is a schematic diagram of the front view of the structure of the utility model;

Fig. 2 is the left side sectional view of the utility model;

Each label in the figure: 1 is the fermentation workshop, 2 is the solar collector, 3 is the water supply valve, 4 is the cooling device, 5 is the dehumidification device, 6 is the frequency conversion motor, 7 is the water vapor delivery pump, 8 is the water storage tank, 9 10 is a thermo-hygrometer, and 10 is a hook.

Detailed ways

Below in conjunction with accompanying drawing and embodiment, the utility model will be further described, but the content of the utility model is not limited to said range.

Embodiment 1: As shown in Figure 1-2, a kind of fermentation device, comprises fermentation workshop 1, water supply valve 3, dehumidification device 5, water storage tank 8, temperature-hygrometer 9, solar heating system, described solar heating The system includes a solar heat collector 2, a heat dissipation device 4, a frequency conversion motor 6, and a water vapor delivery pump 7; wherein a heat dissipation device 4 is installed inside the fermentation workshop 1, and the heat dissipation device 4 is connected to the hot water outlet of the solar heat collector 2, and the solar heat collector 2 The hot water outlet is connected to the water vapor delivery pump 7 through the cooling device 4, the water vapor delivery pump 7 is driven by the frequency conversion motor 6, the water inlet of the solar collector 2 is connected to the water storage tank 8 through the water supply valve 3, and the dehumidification device 5 (such as: fan) , Thermo-hygrometer 9 are located on the wall of fermentation workshop 1 respectively.

A hook 10 is arranged on the top of the fermentation workshop 1 .

The number of the dehumidification device 5 and the temperature-hygrometer 9 is one respectively.

The heat dissipation device 4 is a pipe-type heat dissipation device.

The heat dissipation device 4 is arranged in the lower space and the middle of the fermentation workshop 1 and is not intersected with the working channel and the drying work area.

The cooling devices 4 are evenly distributed around the fermentation workshop 1 .

The cooling device 4 is arranged in parallel and close to the wall of the fermentation workshop 1 . the

Embodiment 2: As shown in Figure 1-2, a kind of fermentation device, comprises fermentation workshop 1, water supply valve 3, dehumidification device 5, water storage tank 8, temperature and humidity meter 9, solar heating system, described solar heating The system includes a solar heat collector 2, a heat dissipation device 4, a frequency conversion motor 6, and a water vapor delivery pump 7; wherein a heat dissipation device 4 is installed inside the fermentation workshop 1, and the heat dissipation device 4 is connected to the hot water outlet of the solar heat collector 2, and the solar heat collector 2 The hot water outlet is connected to the water vapor delivery pump 7 through the cooling device 4, the water vapor delivery pump 7 is driven by the frequency conversion motor 6, the water inlet of the solar collector 2 is connected to the water storage tank 8 through the water supply valve 3, the dehumidification device 5, the temperature and humidity meter 9 They are respectively located on the walls of the fermentation workshop 1.

A hook 10 is arranged on the top of the fermentation workshop 1 .

The number of the dehumidification device 5 and the temperature-hygrometer 9 is one respectively.

The heat sink 4 is a finned heat sink.

The heat dissipation device 4 is arranged in the lower space of the fermentation workshop 1 .

The cooling devices 4 are evenly distributed around the fermentation workshop 1 .

The cooling device 4 is arranged in parallel and close to the wall of the fermentation workshop 1 . the

Embodiment 3: as shown in Figure 1-2, a kind of fermentation device, comprises fermentation workshop 1, water supply valve 3, dehumidification device 5, water storage tank 8, temperature and humidity meter 9, solar heating system, described solar heating The system includes a solar heat collector 2, a heat dissipation device 4, a frequency conversion motor 6, and a water vapor delivery pump 7; wherein a heat dissipation device 4 is installed inside the fermentation workshop 1, and the heat dissipation device 4 is connected to the hot water outlet of the solar heat collector 2, and the solar heat collector 2 The hot water outlet is connected to the water vapor delivery pump 7 through the cooling device 4, the water vapor delivery pump 7 is driven by the frequency conversion motor 6, the water inlet of the solar collector 2 is connected to the water storage tank 8 through the water supply valve 3, the dehumidification device 5, the temperature and humidity meter 9 They are respectively located on the walls of the fermentation workshop 1.

A hook 10 is arranged on the top of the fermentation workshop 1 .

The number of the dehumidification device 5 and the temperature-hygrometer 9 is two respectively.

The heat dissipation device 4 is a pipe-type heat dissipation device.

The heat dissipation device 4 is arranged in the middle of the fermentation workshop 1 and is not intersected with the working channel and the drying work area.

The cooling devices 4 are evenly distributed around the fermentation workshop 1 .

The cooling device 4 is arranged in parallel and close to the wall of the fermentation workshop 1 . the

Embodiment 4: As shown in Figure 1-2, a kind of fermentation device, comprises fermentation workshop 1, water supply valve 3, dehumidification device 5, water storage tank 8, temperature and humidity meter 9, solar heating system, described solar heating The system includes a solar heat collector 2, a heat dissipation device 4, a frequency conversion motor 6, and a water vapor delivery pump 7; wherein a heat dissipation device 4 is installed inside the fermentation workshop 1, and the heat dissipation device 4 is connected to the hot water outlet of the solar heat collector 2, and the solar heat collector 2 The hot water outlet is connected to the water vapor delivery pump 7 through the cooling device 4, the water vapor delivery pump 7 is driven by the frequency conversion motor 6, the water inlet of the solar collector 2 is connected to the water storage tank 8 through the water supply valve 3, the dehumidification device 5, the temperature and humidity meter 9 They are respectively located on the walls of the fermentation workshop 1.

A hook 10 is arranged on the top of the fermentation workshop 1 .

There are three dehumidifiers 5 and one thermo-hygrometer 9 .

The heat sink 4 is a finned heat sink.

Embodiment 5: As shown in Figure 1-2, a kind of fermentation device, comprises fermentation workshop 1, water supply valve 3, dehumidification device 5, water storage tank 8, temperature and humidity meter 9, solar heating system, described solar heating The system includes a solar heat collector 2, a heat dissipation device 4, a frequency conversion motor 6, and a water vapor delivery pump 7; wherein a heat dissipation device 4 is installed inside the fermentation workshop 1, and the heat dissipation device 4 is connected to the hot water outlet of the solar heat collector 2, and the solar heat collector 2 The hot water outlet is connected to the water vapor delivery pump 7 through the cooling device 4, the water vapor delivery pump 7 is driven by the frequency conversion motor 6, the water inlet of the solar collector 2 is connected to the water storage tank 8 through the water supply valve 3, the dehumidification device 5, the temperature and humidity meter 9 They are respectively located on the walls of the fermentation workshop 1.

The number of the dehumidification device 5 and the temperature-hygrometer 9 is three respectively.

The heat sink 4 is a finned heat sink.

Claims (7)

1. an installation for fermenting, it is characterized in that: comprise fermentation plant (1), water supply valve (3), dehydrating unit (5), water tank (8), Hygrothermograph (9), solar energy heat distribution system, described solar energy heat distribution system comprises solar thermal collector (2), heat abstractor (4), variable-frequency motor (6), vapor transfer pump (7); Wherein fermentation plant (1) inside arranges heat abstractor (4), heat abstractor (4) connects the hot water outlet of solar thermal collector (2), the hot water outlet of solar thermal collector (2) connects vapor transfer pump (7) by heat abstractor (4), vapor transfer pump (7) is driven by variable-frequency motor (6), the water inlet of solar thermal collector (2) connects water tank (8) by water supply valve (3), and dehydrating unit (5), Hygrothermograph (9) lay respectively on the wall of fermentation plant (1).

2. installation for fermenting according to claim 1, is characterized in that: described fermentation plant (1) top arranges hook (10).

3. installation for fermenting according to claim 1 and 2, is characterized in that: the number of described dehydrating unit (5), Hygrothermograph (9) is respectively one or more.

4. installation for fermenting according to claim 3, is characterized in that: described heat abstractor (4) is calandria or finned heat abstractor.

5. installation for fermenting according to claim 4, is characterized in that: described heat abstractor (4) is arranged at the lower space of fermentation plant (1) and/or middle part and non-arranged in a crossed manner with service aisle, drying operation district.

6. installation for fermenting according to claim 5, is characterized in that: described heat abstractor (4) is distributed in the interior surrounding of fermentation plant (1).

7. installation for fermenting according to claim 6, is characterized in that: parallel and close fermentation plant (1) the wall setting of described heat abstractor (4).

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