CN114617157A - Novel energy-saving production device for cured products - Google Patents

Abstract

The invention discloses a novel energy-saving production device for cured products, and relates to the field of food processing. The solar greenhouse comprises a shell, wherein a door, a control panel, a light transmittance receiving and processing module, a cold air device, a supplementing device, a peripheral light monitoring device and a temperature and humidity monitoring rod are arranged on the shell, and the cold air device, the supplementing device, the peripheral light monitoring device, the light transmittance receiving and processing module and the temperature and humidity monitoring rod are all connected with the control panel. The invention effectively solves the problems of poor stability of the formation of characteristic flavor substances of the product and insufficient activity of endogenous enzyme in the production process of the traditional air drying technology, and simultaneously plays a role in energy conservation and emission reduction in the drying process.

Description

Novel energy-saving production device for cured products

Technical Field

The invention relates to the field of food processing, in particular to a novel energy-saving production device for cured products.

Background

The cured products are limited by factors such as weather environment and the like, and are only aired and stored for eating in winter in a large amount every year, but part of characteristic flavor substances, such as aldehyde, alcohol, ketone and other volatile flavor substances, can be degraded in the processes of low-temperature storage and repeated freeze thawing, so that the flavor loss is caused, and how to aired and produce the cured products in spring, summer and autumn has great economic prospect. At present, the common salted products in the market are mainly subjected to technologies such as cold air drying, however, the air-dried fish dried by the technology has a great difference in flavor compared with the salted products dried in winter.

The GC-MS detection shows that characteristic flavor loss such as heptaldehyde and heptanol exists in the traditional cold air dried salted product and winter sun-cured salted product, the quality research on the flavor of sun-cured product and sun-cured product in winter shows that the flavor is greatly different, the GC-MS detection shows that the characteristic flavor loss exists in the traditional cold air dried salted product and the winter sun-cured salted product in winter, and the experimental research shows that the main reason of the flavor loss is loss of temperature and sunlight irradiation. Therefore, it is required to design a device which can stably produce the characteristic flavor of cured products all the year round.

Disclosure of Invention

In view of this, the invention provides a novel energy-saving cured product production device.

In order to achieve the purpose, the invention adopts the following technical scheme:

the utility model provides a novel energy-conserving cured food production device, includes the casing, be provided with the door on the casing, control panel, processing module is received to illumination transmissivity, cold wind device, supplementary device, illumination monitoring devices and humiture monitoring pole all around, the cold wind device, supplementary device, illumination monitoring devices all around illumination transmissivity receive processing module and humiture monitoring pole all with control panel connects.

Optionally, the system further comprises an interactive terminal real-time display module, and the control panel is electrically connected with the interactive terminal real-time display module.

Optionally, the control panel includes a temperature control module, an illumination control module and a wind speed control module inside; the control panel is used for carrying out digital processing on temperature, illumination and wind speed and transmitting the digital processing to the interactive terminal real-time display module, and is also used for coordinating the temperature control module, the illumination control module and the wind speed control module; the temperature control module is used for sensing temperature and adjusting the temperature; the illumination control module is used for sensing illumination and adjusting the illumination; the wind speed control module is used for sensing wind speed and adjusting the wind speed.

Optionally, the illumination transmittance receiving and processing module includes a transparent interlayer glass and a light supplementing device.

Optionally, the illumination control module further includes a natural light indoor distribution module, where the natural light indoor distribution module includes a louver control module, an illumination transmittance receiving module, and a first parameter optimization module; the illumination transmittance receiving module is used for sensing natural light and digitally transmitting the sensed natural light to the shutter control module; the shutter control module is used for controlling the shutter; the first parameter optimization module is used for optimizing the data acquired by the illumination transmittance receiving module.

Optionally, the illumination control module further includes a lighting control module and a second parameter optimization module, the second parameter optimization module optimizes the value of the indoor lighting, and the lighting control module controls the indoor lighting according to the value optimization result of the indoor lighting.

Optionally, the air circulation device is further included, the air circulation device is connected with the control panel, the air circulation device is communicated with the outside, and a bidirectional filter is further arranged.

Optionally, the mobile terminal further comprises a mobile terminal and an interactive terminal real-time display module, wherein the interactive terminal real-time display module is connected with the control panel, and the mobile terminal is connected with the interactive terminal real-time display module in a Bluetooth, WIFI or mobile network mode.

The invention has the beneficial effects that:

1. according to the technical scheme, compared with the prior art, the novel energy-saving cured product production device is provided, the illumination control module is arranged, internal light and external light are combined, internal photosensitizers of raw materials such as megalobrama amblycephala and the like are effectively activated, lipid is subjected to photooxidation reaction, and the product forms characteristic flavor substances

2. Through the operation of the sunlight temperature monitoring module auxiliary circulating air device module, the internal temperature of the air-drying plant is controlled in real time, the problems of insufficient activity of endogenous lipase of raw materials such as Wuchang fish and the like are solved, and the endogenous lipase can effectively decompose lipid to generate free fatty acid.

3. The sunlight temperature monitoring module detects the change of the daily illumination intensity and temperature in real time, so that the running cost of the cold air drying module and the light supplementing module thereof is reduced, and the loss of electric energy and light energy is reduced; the installation and the setting are simple. This device is through three big modules, and regulation and control the device and receive solar intensity, wind strength change, temperature height every day inside, and simultaneously to solar energy, light energy, wind energy, the electric energy, five persons of temperature effectively coordinate, make novel cold air drying-machine can simulate out the winter environment, and novel equipment can be with solar energy conversion for electric energy, wind energy can play energy-conserving effect under artificial intelligence regulation and control simultaneously.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

FIG. 1 is a schematic structural view of the present invention;

1-a cold air device, 2-permeable interlayer glass, 3-a supplement device, 4-a control panel, 5-a peripheral illumination monitoring device, 6-a temperature and humidity monitoring rod and 7-a door.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The embodiment of the invention discloses a temperature-controlled illumination sensing and data processing device, wherein under the monitoring of temperature events, the detection of volatile odor substances of air-dried Wuchang fish finds that the dried Wuchang fish under 10 +/-3 ℃ has more than ten types of characteristic volatile odor substances than a negative-drying treatment group under the same environmental conditions, typical characteristic substances are heptanal, n-octanal, trans-2-octanal, 2-octen-1-ol, 2-methyl-3-octanone and the like, under the drying treatment at the temperature of 18 +/-3 ℃, the light treatment group has more characteristic flavor substances such as heptanal, n-octanol, heptanol and the like than the light-shielding treatment group, under the drying treatment at the temperature of 35 +/-5 ℃, the characteristic flavor substances of the light-irradiation treatment group are more like 2-nonenal than those of the light-shielding treatment group, but the Wuchang fish can be rotted under the drying at the temperature of 35 +/-5 ℃ to cause the deterioration of aquatic products. Meanwhile, with the gradual rise of the temperature, the characteristic volatile substances are gradually reduced, the lipid oxidation is aggravated, the activity of microorganisms is increased, and the quality deterioration is aggravated.

Therefore, on the premise of controlling temperature illumination by combining the illumination control module and the temperature control module, when the illumination monitoring module detects that the sunlight is less than 300lux, the light supplementing device module runs at full power, wherein the illumination control module also comprises a natural light indoor distribution module which comprises a shutter control module, an illumination transmittance receiving module and a first parameter optimization module, the illumination transmittance receiving module is used for sensing the natural light and digitally transmitting the sensed natural light to the shutter control module, the shutter control module is used for controlling the shutter, the first parameter optimization module is used for optimizing the data acquired by the illumination transmittance receiving module, when the illumination monitoring module detects that the sunlight is more than 300lux, the variable illumination device module reduces the illumination transmittance, and the external light intensity is gradually reduced, the temperature detection module synchronously operates when the light intensity starts to be reduced and compensated, the light intensity gradually increases to 50000lux along with the external light entering, the light entering module device stops increasing the light entering brightness, the light entering brightness starts to be controlled, meanwhile, the temperature detection device synchronously operates, the temperature sensor data acquisition and light data acquisition and control module comprises a light sensing device, a light intensity adjusting device, a temperature sensing device, a temperature adjusting device and a wind speed adjusting device, when the internal temperature gradually increases to 12 +/-3 ℃, the power of the refrigerating device gradually increases to the maximum degree, the internal temperature is controlled below fifteen degrees, the light entering brightness is gradually controlled by the light entering device, and the light supplementing device is started. The novel energy-saving pickling device comprises a temperature sensor data acquisition module, an illumination data acquisition and control module, a data receiving and processing module and a signal processing module, wherein the temperature sensor data acquisition module, the illumination data acquisition module and the control module are respectively connected with the temperature sensor data acquisition module and the illumination data acquisition module; the temperature sensor data acquisition and illumination data acquisition and control module comprises an illumination sensing device, an illumination intensity adjusting device, a temperature sensing device, a temperature adjusting device and a wind speed adjusting device; the illumination sensing equipment is connected with a signal amplification conditioning circuit and a first Bluetooth module; the temperature sensing equipment is connected with a signal amplification conditioning circuit and a first Bluetooth module; the signal amplification conditioning circuit is connected with the illumination transmittance sensor and the air temperature control sensor; the illumination transmittance control sensor collects illumination intensity; the illumination transmittance receiving and processing module comprises an interlayer glass plate with adjustable light transmittance, a top opening and closing device and a light supplementing device; the wind control temperature control sensor acquires the internal temperature; the wind control temperature control processing module comprises a device capable of adjusting wind speed and temperature; the temperature sensor data acquisition module, the illumination data acquisition module and the control module thereof are connected with the second Bluetooth module; the first Bluetooth module is connected with the solar energy conversion device; the data receiving and processing module transmits signals to the signal processing module through serial port communication; the signal processing module comprises an interactive terminal and a programmable logic controller; and the programmable logic controller is connected with the illumination transmittance control executing mechanism and the temperature control executing mechanism so as to realize the adjustment of the internal environment.

The illumination sensing equipment is connected with a signal amplification conditioning circuit and a first Bluetooth module; the temperature sensing equipment is connected with a signal amplification conditioning circuit and a first Bluetooth module; the signal amplification conditioning circuit is connected with the illumination transmittance sensor and the air temperature control sensor; the illumination transmittance control sensor collects illumination intensity; the illumination transmittance receiving and processing module comprises a permeable interlayer glass 2, a top opening and closing device and a light supplementing device; the wind control temperature control sensor acquires the internal temperature; the wind control temperature control processing module comprises a device capable of adjusting wind speed and temperature; the temperature sensor data acquisition module, the illumination data acquisition module and the control module thereof are connected with the second Bluetooth module; the first Bluetooth module is connected with the solar energy conversion device; the data receiving and processing module transmits the signals to the signal processing module through serial port communication; the signal processing module comprises an interactive terminal and a programmable logic controller; the programmable logic controller is connected with the illumination transmittance control executing mechanism and the temperature control executing mechanism to realize the adjustment of the internal environment.

Furthermore, the temperature sensor data acquisition module, the illumination data acquisition module and the control module thereof simultaneously monitor the temperature, the illumination intensity and the wind speed, and send the values measured by each sensor as a group of data

Specifically, in this embodiment, as shown in fig. 1, the lighting device includes a housing, on which a door 7, a control panel 4, a lighting transmittance receiving and processing module, a cold air device 1, a supplementing device 3, a peripheral lighting monitoring device 5 and a temperature and humidity monitoring rod 6 are arranged, the cold air device 1, the supplementing device 3, the peripheral lighting monitoring device 5, the lighting transmittance receiving and processing module and the temperature and humidity monitoring rod 6 are all connected to the control panel 4; the intelligent terminal comprises a control panel 4 and an interactive terminal real-time display module, wherein the control panel is electrically connected with the interactive terminal real-time display module.

The control panel 4 comprises a temperature control module, an illumination control module and a wind speed control module; the control panel 4 is used for carrying out digital processing on the temperature, the illumination and the wind speed and transmitting the digital processing to the interactive terminal real-time display module, and is also used for coordinating the relationship among the temperature control module, the illumination control module and the wind speed control module; the temperature control module is used for sensing temperature and adjusting the temperature; the illumination control module is used for sensing illumination and adjusting the illumination; the wind speed control module is used for sensing wind speed and adjusting the wind speed.

Further, the illumination transmittance receiving and processing module comprises a transparent interlayer glass 2 and a light supplementing device.

The illumination control module also comprises a natural light indoor distribution module, and the natural light indoor distribution module comprises a shutter control module, an illumination transmittance receiving module and a first parameter optimization module; the illumination transmittance receiving module is used for sensing natural light and digitally transmitting the sensed natural light to the shutter control module; the shutter control module is used for controlling the shutter; the first parameter optimization module is used for optimizing the data acquired by the illumination transmittance receiving module; the illumination control module also comprises a light control module and a second parameter optimization module, the second parameter optimization module optimizes the value of the indoor light, and the light control module controls the indoor light according to the value optimization result of the indoor light.

In this embodiment, the air circulation device is further included, the air circulation device is connected with the control panel 4, the air circulation device is communicated with the outside, and a bidirectional filter is further arranged; the intelligent terminal comprises a control panel 4, and is characterized by further comprising a mobile terminal and an interactive terminal real-time display module, wherein the interactive terminal real-time display module is connected with the control panel 4, and the mobile terminal and the interactive terminal real-time display module are connected in a Bluetooth mode, a WIFI mode or a mobile network mode.

Table 1 the results obtained by treating megalobrama amblycephala with the apparatus of this example are compared with the comparative examples.

TABLE 1

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other. The device disclosed by the embodiment corresponds to the method disclosed by the embodiment, so that the description is simple, and the relevant points can be referred to the method part for description.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (8)

1. The utility model provides a novel energy-conserving cured food apparatus for producing, a serial communication port, which comprises a housin, be provided with the door on the casing, control panel, illumination transmittance receives processing module, the cold wind device, supplementary device, illumination monitoring devices and humiture monitoring pole all around, the cold wind device, supplementary device, illumination monitoring devices all around illumination transmittance receive processing module and humiture monitoring pole all with control panel connects.

2. The apparatus for producing novel energy-saving cured meat products according to claim 1, further comprising a real-time display module of an interactive terminal, wherein the control panel is electrically connected to the real-time display module of the interactive terminal.

3. The novel energy-saving cured meat product production device as claimed in claim 1, wherein the control panel comprises a temperature control module, a light control module and a wind speed control module inside; the control panel is used for carrying out digital processing on temperature, illumination and wind speed and transmitting the digital processing to the interactive terminal real-time display module, and is also used for coordinating the temperature control module, the illumination control module and the wind speed control module; the temperature control module is used for sensing temperature and adjusting the temperature; the illumination control module is used for sensing illumination and adjusting the illumination; the wind speed control module is used for sensing wind speed and adjusting the wind speed.

4. The apparatus for producing cured products according to claim 1, wherein the light transmittance receiving and processing module comprises a transparent interlayer glass and a light supplementing device.

5. The apparatus for producing novel energy-saving cured products according to claim 2, wherein the illumination control module further comprises a natural light indoor distribution module, the natural light indoor distribution module comprises a shutter control module, an illumination transmittance receiving module, a first parameter optimization module; the illumination transmittance receiving module is used for sensing natural light and digitally transmitting the sensed natural light to the shutter control module; the shutter control module is used for controlling the shutter; the first parameter optimization module is used for optimizing the data acquired by the illumination transmittance receiving module.

6. The novel energy-saving cured meat production device according to claim 2, wherein the illumination control module further comprises a light control module and a second parameter optimization module, the second parameter optimization module optimizes the value of indoor light, and the light control module controls the indoor light according to the value optimization result of the indoor light.

7. The apparatus for producing cured meat products as claimed in claim 1, further comprising a circulating air device, wherein the circulating air device is connected to the control panel, the circulating air device is connected to the outside, and a bi-directional filter is further provided.

8. The novel energy-saving cured meat production device according to claim 1, further comprising a mobile terminal, an interactive terminal real-time display module, wherein the interactive terminal real-time display module is connected with the control panel, and the mobile terminal and the interactive terminal real-time display module are connected by means of bluetooth, WIFIq or a mobile network.

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