CN211503611U - Continuous baking equipment based on solar energy different-gathering state - Google Patents

Abstract

The utility model relates to a toast technical field, specifically disclose a continuous baking equipment based on different gathering of solar energy attitude, wherein, include: the solar energy heat collecting device comprises a dryer main body device, a solar energy heat collecting plate arranged on the dryer main body device and an electric control cabinet arranged on the dryer main body device; the drying machine main body device comprises a drying chamber and a heating chamber, a partition wall is arranged between the drying chamber and the heating chamber, the lower end of the partition wall is provided with a vent, and the upper end of the partition wall is provided with an air return port; a plurality of layers of net chain mechanisms are arranged in the drying chamber, each layer of net chain mechanism is provided with a conveying mechanism, and every two adjacent layers of net chain mechanisms are arranged in a staggered mode; a temperature detection sensor and a humidity detection sensor are arranged in the drying chamber; a heating circulating device is arranged in the heating chamber and is connected with the solar heat-collecting plate. The utility model provides a continuous baking equipment based on different attitude that gathers of solar energy effectively practices thrift the energy consumption, and green, does not have waste gas to produce, saves artifically, labour saving and time saving.

Description

Continuous baking equipment based on solar energy different-gathering state

Technical Field

The utility model relates to a toast technical field, especially relate to a continuous baking equipment based on different gathering of solar energy attitude.

Background

In the process of producing the relevant agricultural products, the baking dehydration is required to be carried out so as to improve the quality and the yield of the products. Most of the current continuous machine baking processes are realized by adopting coal (or other gas, oil, biofuel and heat pump) and the like, but the baking mode inevitably generates a large amount of waste flue gas emission and is not beneficial to environmental protection. In addition, the current baking process also needs a baker to circularly carry out the complicated labor of coal transportation and coal feeding, and the baking efficiency is lower. Therefore, how to provide a pollution-free baking method, which is labor-saving and simple to operate, and which can improve the quality and yield of the articles becomes a technical problem to be solved by those skilled in the art.

Disclosure of Invention

The utility model discloses aim at solving one of the technical problem that exists among the prior art at least, provide a continuous baking equipment based on solar energy different gathering state to solve the problem among the prior art.

As an aspect of the utility model, a continuous baking equipment based on solar energy different gathering state is provided, wherein, include: the solar energy heat collecting device comprises a dryer main body device, a solar energy heat collecting plate arranged on the dryer main body device and an electric control cabinet arranged on the dryer main body device;

the dryer main body device comprises a drying chamber and a heating chamber, a partition wall is arranged between the drying chamber and the heating chamber, the lower end of the partition wall is provided with a vent, and the upper end of the partition wall is provided with an air return opening;

a plurality of layers of net chain mechanisms are arranged in the drying chamber, each layer of net chain mechanism is provided with a conveying mechanism, and every two adjacent layers of net chain mechanisms are arranged in a staggered mode;

a temperature detection sensor and a humidity detection sensor are arranged in the drying chamber, and both the temperature detection sensor and the humidity detection sensor are electrically connected with the electric control cabinet;

the heating chamber is internally provided with a heating circulating device, the heating circulating device is connected with the solar heat-collecting plate, the solar heat-collecting plate can heat absorbed heat energy through the heating circulating device and then send the heat energy into the drying chamber through the vent, and the heating circulating device can also circularly heat gas entering the heating chamber through the air return opening in the drying chamber and then send the heated gas into the drying chamber through the vent.

Further, still include: the dehumidifying device is arranged at the top of the drying chamber and electrically connected with the electric control cabinet, and can be used for dehumidifying the drying chamber when the humidity detection sensor reaches a preset threshold value.

Further, the dehumidifying device comprises a dehumidifier, a plurality of dehumidifying holes are arranged at the top of the drying chamber, and each dehumidifying hole is provided with one dehumidifying device.

Further, the solar heat collecting plate comprises a heat energy absorption pipeline, and a heat conduction medium capable of flowing is arranged in the heat energy absorption pipeline.

Further, the heating cycle device includes: all with heat pump, fan, radiator and little electric heater that automatically controlled cabinet electricity is connected, the heat pump with solar energy heat-collecting plate connects, the heat pump is located the top of fan, the radiator is located the below of fan, little electric heater is located the below of radiator, just little electric heater sets up by the vent.

Furthermore, a speed regulating motor is arranged above the dryer main body device, the speed regulating motor is respectively electrically connected with the electric control cabinet and the network chain mechanism, and the speed regulating motor can regulate the transmission speed of the network chain mechanism under the control of the electric control cabinet.

Further, the electric control cabinet comprises a PLC controller.

The utility model provides a continuous baking equipment based on different attitude that gathers of solar energy is provided with solar energy heat-collecting plate, toasts the indoor crops product (for example potato, konjaku etc.) of drying through heating cycle device with the heat energy that obtains of absorption, effectively practices thrift the energy consumption, and green does not have waste gas to produce, compares in the coal-fired stoving, can not produce the pollution of sulfur dioxide to crops, in addition, can also save artifical, labour saving and time saving.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

fig. 1 is a schematic structural diagram of the continuous baking equipment based on the solar heteromultimeric state provided by the present invention.

Fig. 2 is a top view of the continuous baking device based on the solar heteromultimeric state provided by the present invention.

Detailed Description

The following detailed description of the embodiments of the present invention will be made with reference to the accompanying drawings. It is to be understood that the description of the embodiments herein is for purposes of illustration and explanation only and is not intended to limit the invention.

As an aspect of the present invention, there is provided a continuous baking apparatus based on a solar heteromultimeric state, wherein, as shown in fig. 1, the continuous baking apparatus comprises: the solar heat collector comprises a dryer main body device 100, a solar heat collector 200 arranged on the dryer main body device 100 and an electric control cabinet 300 arranged on the dryer main body device 100;

the drying machine main body device 100 comprises a drying chamber 110 and a heating chamber 120, wherein a partition wall 111 is arranged between the drying chamber 110 and the heating chamber 120, a vent 112 is arranged at the lower end of the partition wall 111, and an air return port 113 is arranged at the upper end of the partition wall;

a plurality of layers of net chain mechanisms are arranged in the drying chamber 110, each layer of net chain mechanism is provided with a conveying mechanism, and every two adjacent layers of net chain mechanisms are arranged in a staggered mode;

a temperature detection sensor and a humidity detection sensor are arranged in the drying chamber 110, and both the temperature detection sensor and the humidity detection sensor are electrically connected with the electric control cabinet 300;

the heating chamber 120 is internally provided with a heating circulating device, the heating circulating device is connected with the solar heat-collecting plate 200, the solar heat-collecting plate 200 can heat the absorbed heat energy by the heating circulating device and then send the heat energy into the drying chamber 110 through the ventilation opening, and the heating circulating device can also circularly heat the gas entering the heating chamber 120 from the drying chamber 110 through the air return opening and then send the heated gas into the drying chamber through the ventilation opening.

The utility model provides a continuous baking equipment based on different attitude that gathers of solar energy is provided with solar energy heat-collecting plate, toasts the indoor crops product (for example potato, konjaku etc.) of drying through heating cycle device with the heat energy that obtains of absorption, effectively practices thrift the energy consumption, and green does not have waste gas to produce, compares in the coal-fired stoving, can not produce the pollution of sulfur dioxide to crops product, in addition, can also save manual work, labour saving and time saving.

As shown in fig. 1, in order to facilitate the crop products to enter the drying chamber, a feeding conveyor may be disposed at one end of the drying chamber, and the feeding conveyor is provided with a material equalizing mechanism for uniformly arranging the crop products, and the crop products enter the feeding port of the drying chamber along the feeding conveyor and then enter the network chain mechanism, and then are transmitted in an "S" shape until being discharged from the discharging port after being baked. It should be understood that the multi-layer network link mechanism is also in an "S" configuration.

Specifically, in order to discharge excessive moisture in the drying chamber, the drying device further comprises: and the dehumidifying device 400 is arranged at the top of the drying chamber and electrically connected with the electric control cabinet, and can dehumidify the drying chamber when the humidity detection sensor reaches a preset threshold value.

Further specifically, the dehumidifying device comprises a dehumidifier, a plurality of dehumidifying holes are formed in the top of the drying chamber, and each dehumidifying hole is provided with one dehumidifying device.

Specifically, as a specific embodiment of the solar heat collecting plate, the solar heat collecting plate comprises a thermal energy absorption pipeline, and a flowing heat conduction medium is arranged in the thermal energy absorption pipeline.

Specifically, as a specific embodiment of the heating cycle device, the heating cycle device includes: the heat pump 121 is connected with the solar heat collecting plate 200, the heat pump 121 is located above the fan 122, the radiator 123 is located below the fan 122, the micro-electric heater 124 is located below the radiator 123, and the micro-electric heater 124 is disposed beside the ventilation opening.

Specifically, as shown in fig. 2, an adjustable speed motor 500 is further disposed above the dryer main body device 100, the adjustable speed motor 500 is electrically connected to the electric control cabinet 300 and the network chain mechanism, respectively, and the adjustable speed motor 500 can adjust the transmission speed of the network chain mechanism under the control of the electric control cabinet 300.

Preferably, the electric control cabinet 300 comprises a PLC controller.

It is to be understood that the above embodiments are merely exemplary embodiments that have been employed to illustrate the principles of the present invention, and that the present invention is not limited thereto. It will be apparent to those skilled in the art that various modifications and improvements can be made without departing from the spirit and substance of the invention, and these modifications and improvements are also considered to be within the scope of the invention.

Claims (7)

1. A continuous baking device based on solar heteromultimeric state is characterized by comprising: the solar energy heat collecting device comprises a dryer main body device, a solar energy heat collecting plate arranged on the dryer main body device and an electric control cabinet arranged on the dryer main body device;

the dryer main body device comprises a drying chamber and a heating chamber, a partition wall is arranged between the drying chamber and the heating chamber, the lower end of the partition wall is provided with a vent, and the upper end of the partition wall is provided with an air return opening;

a plurality of layers of net chain mechanisms are arranged in the drying chamber, each layer of net chain mechanism is provided with a conveying mechanism, and every two adjacent layers of net chain mechanisms are arranged in a staggered mode;

a temperature detection sensor and a humidity detection sensor are arranged in the drying chamber, and both the temperature detection sensor and the humidity detection sensor are electrically connected with the electric control cabinet;

the heating chamber is internally provided with a heating circulating device, the heating circulating device is connected with the solar heat-collecting plate, the solar heat-collecting plate can heat absorbed heat energy through the heating circulating device and then send the heat energy into the drying chamber through the vent, and the heating circulating device can also circularly heat gas entering the heating chamber through the air return opening in the drying chamber and then send the heated gas into the drying chamber through the vent.

2. The solar heteromultimeric based continuous baking apparatus of claim 1, further comprising: the dehumidifying device is arranged at the top of the drying chamber and electrically connected with the electric control cabinet, and can be used for dehumidifying the drying chamber when the humidity detection sensor reaches a preset threshold value.

3. The continuous baking equipment based on the solar energy heteromultimerization according to claim 2, wherein the moisture discharging device comprises a moisture discharging device, a plurality of moisture discharging holes are arranged at the top of the drying chamber, and one moisture discharging device is arranged on each moisture discharging hole.

4. The continuous baking apparatus based on solar heteromultimeric state according to claim 1, wherein the solar heat collecting plate comprises a heat energy absorbing pipeline, and a flowable heat transfer medium is disposed in the heat energy absorbing pipeline.

5. The solar heteromultimeric based continuous baking apparatus of claim 1, wherein said heating cycle device comprises: all with heat pump, fan, radiator and little electric heater that automatically controlled cabinet electricity is connected, the heat pump with solar energy heat-collecting plate connects, the heat pump is located the top of fan, the radiator is located the below of fan, little electric heater is located the below of radiator, just little electric heater sets up by the vent.

6. The continuous baking equipment based on the solar energy heteromultimeric state as claimed in claim 1, wherein a speed regulating motor is further disposed above the dryer main body device, the speed regulating motor is electrically connected to the electric control cabinet and the network chain mechanism, respectively, and the speed regulating motor can adjust the transmission speed of the network chain mechanism under the control of the electric control cabinet.

7. The solar heteromultimeric based continuous baking apparatus of claim 1 wherein the electrical control cabinet comprises a PLC controller.

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