CN108444236B - Drying equipment based on new forms of energy control - Google Patents

Abstract

The utility model provides a drying equipment based on new forms of energy control, including interior casing and shell body, interior casing is located the shell body, the lifting hook through electric block in the interior casing has hung and can reciprocate and horizontally counterweight plate in including the casing, the upper end of bellows and the connecting pipe of fixing in the shell body top and the fan air intake intercommunication of exhausting downwards, the indoor metal current conducting plate that is fixed with many vertical and be parallel to each other between many of steam collecting chamber, it has many vertical heating pipes to inlay respectively on the casing inside wall in the both sides of every stoving support, solar cell panel charges for the rechargeable battery of its below, a set of heating device is constituteed to the heating pipe of every layer stoving support both sides, and power supply and outage through same on-off control and rechargeable battery. When less materials are dried, the heating of the whole inner shell is avoided, the energy consumption for heating is reduced, the heating space is reduced, the heating is faster, the heat insulation effect is better, and the efficiency of solar energy for drying is improved.

Description

Drying equipment based on new forms of energy control

Technical Field

The invention relates to a drying device, in particular to a drying device based on new energy control.

Background

The new energy is also called unconventional energy, and refers to various energy forms other than the traditional energy. And energy sources to be popularized, such as solar energy, geothermal energy, wind energy, ocean energy, biomass energy, nuclear fusion energy and the like, which are just developed and utilized or are actively researched.

Solar energy is one of new energy sources commonly used at present, and generally refers to radiation energy of sunlight. The main utilization forms of solar energy include three main modes of solar photothermal conversion, photoelectric conversion and photochemical conversion. The method for utilizing solar energy mainly comprises the following steps: a solar cell converting energy contained in sunlight into electric energy by photoelectric conversion; the solar water heater heats water by using the heat of sunlight, and generates electricity by using the hot water. The solar energy is clean and environment-friendly, has no pollution, has high utilization value, and has no energy shortage, and various advantages determine the irreplaceable position in energy replacement.

A photovoltaic panel assembly, i.e., a solar panel, is a power generation device using solar energy, which generates direct current upon exposure to sunlight, and is composed of a thin solid photovoltaic cell almost entirely made of a semiconductor material (e.g., silicon). Because there are no moving parts, it can be operated for a long time without causing any loss. Simple photovoltaic cells can provide energy for watches and computers, and more complex photovoltaic systems can illuminate houses and supply power to the grid. Solar panels can be made in different shapes and the modules can be connected to generate more electricity. Both rooftops and building surfaces utilize photovoltaic panels, even as part of a window, skylight, or shelter, which are commonly referred to as building-attached photovoltaic systems.

Therefore, with the development of technology, more and more devices begin to use solar energy to supply power and heat, for example, a drying device, which needs to consume a large amount of heat energy, so that the consumption of the existing energy source can be reduced by using solar energy, but the existing drying device still has certain defects, and the thermal efficiency and the heat energy utilization rate still need to be improved.

Disclosure of Invention

In order to solve the above problems, an object of the present invention is to provide a drying apparatus based on new energy control.

The invention aims to realize the aim, and provides a drying device based on new energy control, which comprises a cuboid inner shell and a cuboid outer shell, wherein the length, the width and the height of the inner shell are all smaller than those of the outer shell, the inner shell is positioned in the outer shell, the front side, the bottom and the top of the inner shell are respectively provided with an opening, so that the inner shell forms a three-surface structure, a horizontal counterweight plate which can move up and down in the inner shell is suspended in the inner shell through a lifting hook of an electric hoist, a box door which can be opened and closed is fixed on the front side of the outer shell through a hinge, the inner side surface of the box door just completely covers the front side opening of the inner shell after being closed, a layer of high-temperature-resistant;

a closed water vapor collecting chamber is arranged in a gap on one side of the outer shell and the inner shell, a flexible hose which penetrates through the weight plate and is communicated with the interior of the inner shell is fixed above the weight plate, the upper end of the flexible hose is communicated with an air inlet of a fan which exhausts downwards through a connecting pipe fixed in the top of the outer shell, an air outlet of the fan is communicated with the top of the water vapor collecting chamber, a plurality of vertical metal conducting plates which are parallel to each other are fixed in the water vapor collecting chamber, a water drainage channel communicated with the outside and an air outlet communicated with the bottom in the inner shell are respectively arranged at the lower end of the water vapor collecting chamber, and each metal conducting plate is respectively connected with and electrically connected with an;

the bottom supports the horizontally supporting network in the interior casing, a plurality of vertical stacking drying support has been placed on the supporting network, it has many vertical heating pipes to inlay respectively on the casing inside wall in the both sides of every drying support, the opening position of heating pipe covers has the diathermanous aluminum alloy plate with interior casing inside wall on same vertical face, the shell body top is fixed with solar cell panel, solar cell panel charges for the rechargeable battery of its below, a set of heating device is constituteed to the heating pipe of every layer of drying support both sides, and through same on-off control and rechargeable battery's power supply and outage.

The space of the inner shell below the counterweight plate is used for drying, the drying area can be adjusted according to the lifting of the counterweight plate, so that the drying device is better suitable for different amounts of articles to be dried, when the amount of the dried articles is less, only a plurality of layers or even the bottommost heating pipe is needed to be started for heating, thereby avoiding heating the inside of the whole inner shell, and compared with a larger space, the heating device has the advantages that the energy consumption for heating the heating space is reduced, and the temperature is increased more quickly; casing in the weight plate below, the expansion hose, the connecting pipe, the fan, the room is collected to the steam, the gas outlet, go out the gas hood and form closed backflow heating channel, overall structure covers has the insulation material of many places, and the region that inside main heating was used for drying (the inside of casing promptly) still forms the insulation construction of three-layer, casing promptly, the intermediate layer between casing and the casing in the shell body and the casing, thereby greatly reduced thermal scattering and disappearing, be more favorable to the electric energy of abundant utilization solar energy conversion, the efficiency that solar energy was used for drying has been improved.

Drawings

FIG. 1 is a front view of the present invention;

FIG. 2 is a schematic diagram of the internal structure of the present invention;

FIG. 3 is a schematic top view of the internal structure of the present invention;

FIG. 4 is a reference view of the present invention in a state of use with a drying rack of one deck;

fig. 5 is a schematic structural view of the inner housing 1 or the outer housing 2 according to the present invention.

Detailed Description

As shown in fig. 1-5, a drying device based on new energy control comprises an inner casing 1 and an outer casing 2 in a cuboid shape, the length, width and height of the inner casing 1 are all smaller than those of the outer casing 2, the inner casing 1 is located in the outer casing 2, the front side, bottom and top of the inner casing 1 are respectively provided with an opening, so that the inner casing 1 forms a three-sided structure, a weight plate 4 which can move up and down and is horizontal in the inner casing 1 is suspended in the inner casing 1 through a hook of an electric hoist 3, the weight plate 4 is made of a concrete plate or a steel plate externally wrapped with a heat insulation material, the hook of the electric hoist 3 is fixedly connected with the concrete plate or the steel plate in the weight plate 4, a plurality of symmetrical limit stoppers 26 are respectively fixed on the inner side of the top of the inner casing 1, a door 5 which can be opened and closed is fixed on the front side of the, a layer of high-temperature-resistant rubber sealing ring 6 is embedded around the bottom of the counterweight plate 4, the outer side wall of the rubber sealing ring 6 is tightly attached to the inner side wall of the inner shell 1 and the inner side surface of the closed rear box door 5, the inner shell 1 and the outer shell 2 are composed of two layers of stainless steel plates 19 and a middle clamping rock wool plate 20, the contact surface of the inner stainless steel plate 19 and the rubber sealing ring 6 is smooth, after the box door 5 is closed, the inner shell 1 and the counterweight plate 4 form a piston structure under the action of the rubber sealing ring, because the counterweight plate 4 and the inner shell 1 are both provided with heat-insulating layers, the inner shell 1 below the counterweight plate 4 can form a closed heat-insulating heating space, the counterweight plate 4 can move downwards under the self gravity when a lifting hook of the electric hoist 3 descends, and the size of the heating space can be determined by the height of;

a closed water vapor collecting chamber 7 is arranged in a gap between one side of the outer shell 2 and the inner shell 1, a flexible hose 8 which penetrates through the weight plate 4 and is communicated with the inside of the inner shell 1 is fixed above the weight plate 4, the flexible hose 8 is a high-temperature resistant aluminum foil flexible hose, the upper end of the flexible hose 8 is communicated with an air inlet of a fan 10 which exhausts downwards through a connecting pipe 9 fixed in the top of the outer shell 2, an air outlet of the fan 10 is communicated with the top of the water vapor collecting chamber 7, a plurality of vertical metal conductive plates 11 which are parallel to each other are fixed in the water vapor collecting chamber 7, a drainage channel 12 communicated with the outside and an air outlet 13 communicated with the inner bottom of the inner shell 1 are respectively arranged at the lower end of the water vapor collecting chamber 7, each metal conductive plate 11 is respectively connected and electrically connected with an external electrostatic generator electrode, thus electrons with one charge can be formed, when hot air generated by drying objects passes through, moisture contained in the hot air is adsorbed onto the metal conductive plate 11 and is slowly accumulated on the metal conductive plate 11 to form water drops, the water drops are gradually accumulated at the lower end of the water vapor collection chamber 7 along the metal conductive plate 11, the lower end of the water vapor collection chamber 7 is also provided with a flow guide block 21 with a triangular cross section, the lower end of the inclined surface of the flow guide block 21 is close to the water inlet end of the water drainage channel 12, the water drainage channel 12 is U-shaped, the height of the outer end is lower than that of the inner end, namely the water inlet end, the accumulated water can seal the U-shaped water drainage channel 12, the internal hot air can not be better diffused to the outside, as the evaporated water is more and more, the excessive water can be discharged from the water drainage channel 12, the bottom of the inner shell 1 below the support net 14 is provided with an upward opening, and the opening cross section is a funnel-shaped air outlet cover 22, the lower end air inlet end of the air outlet cover 22 is communicated with the air outlet 13, the upward funnel-shaped opening is convenient for more uniformly dispersing air flowing back into the inner shell 1, the air outlet cover 22 is formed by pouring concrete, a plurality of vertical support columns 27 are supported below the support net 14, and more drying supports can be stacked on the support net 14 through the support of the support columns 27;

a horizontal supporting net 14 is supported at the bottom in the inner shell 1, a plurality of drying supports which are vertically stacked together are placed on the supporting net 14, the drying supports can be provided with two or more layers, each drying support comprises four supporting legs 23 and two groups of horizontally parallel grids 24, four corners of each group of rectangular grids 24 are respectively welded on the four vertical supporting legs 23, horizontal supporting rods are respectively welded at the upper end and the lower end of each supporting leg 23 at the same side, pulley guide rails 28 with U-shaped sections are respectively welded on the upper surface of the supporting rod at the upper part, positioning pulleys 25 for supporting the drying supports are respectively welded on the lower surface of the supporting rod at the lower part, the wheels of the positioning pulleys 25 at each side and the sunken parts of the pulley guide rails 28 are positioned in the same vertical plane, the positioning pulleys 25 of the drying supports at the upper part are positioned on the pulley guide rails 28 of the drying supports at the lower part, the positioning pulleys 25 of the drying supports at the, therefore, the number of the drying supports can be placed according to the requirement, namely the drying space is large, the drying supports can be conveniently placed and taken down, a plurality of vertical heating pipes 15 are respectively embedded on the inner side walls of the inner shells 1 on the two sides of each drying support, the opening parts of the heating pipes 15 are covered with diathermanous aluminum alloy plates 16 on the same vertical surface with the inner side wall of the inner shell 1, a solar cell panel 17 is fixed at the top of the outer shell 2, the solar cell panel 17 charges a charging battery 18 below the solar cell panel 17, the heating pipes 15 on the two sides of each layer of drying support form a group of heating devices, namely form an independent heating device, the heating device of the layer controls the power supply and the power off of the charging battery 18 through the same switch, for example, only one layer of drying support is arranged in the inner shell 1, namely only one layer of drying support on the bottom, if fig. 4, the same reason, if there are two-layer stoving support, then open the switch of two-layer heating pipe 15 of bottommost can, confirm the number of piles of opening heating pipe 15 through the number of piles of stoving support like this, the article volume when needs stoving is less, only need one deck stoving support can evenly spread out and fill up, then only need open the heating pipe 15 heating of bottommost can, thereby avoided whole interior casing 1 internal heating, for bigger space, it is littleer to reduce the energy consumption that the heating space need heat, and it is faster to heat up moreover.

After interior casing 1 heats the uniform temperature and reaches atmospheric pressure balance, receive inside and outside atmospheric pressure balanced action this moment, the water that 7 lower extremes of steam collection room collected can not flow outward again, be unfavorable for the discharge of unnecessary moisture like this, the stoving support top leaves certain space with counter weight plate 4 in advance, only need descend electric block 3's lifting hook this moment, just so make counter weight plate 4 slight decline once more, thereby make the space originally by slight compression, thereby increase inside atmospheric pressure, the water that the stoving of being convenient for produced continues to be arranged outward, be favorable to going on of drying.

When drying, the box door 5 is opened, a layer of drying bracket is firstly placed, articles to be dried are uniformly placed on the two layers of grids 24 of the drying bracket, the aperture of each grid 24 can be set according to the requirement, the drying bracket is fully placed, then the drying bracket is stacked, the articles to be dried are continuously placed on the upper layer until all the articles to be dried are placed, if all the drying brackets are used up and the articles to be dried are remained, the articles to be dried are continuously placed in another device, if the drying bracket of the drying device is remained, the placing is also stopped, the height of the suspended weight plate 4 is controlled by a control switch of the electric hoist 3, the drying space is reduced, as shown in figure 4, then the box door 5 is closed, the heating pipe 15 switch of the same layer of the drying bracket is closed to heat, the fan 10 is started to work at the same time, the external static generator is started, and each conductive plate 11 is charged with static electricity, the closed backflow heating channel is used for adsorbing moisture in the dried air, and is formed by the inner shell 1 under the counterweight plate 4 → the telescopic hose 8 → the connecting pipe 9 → the fan 10 → the water vapor collecting chamber 7 → the air outlet 13 → the air outlet cover 22 → the inner shell 1 under the counterweight plate 4, so that heat loss is greatly reduced, and the heat efficiency utilization rate is higher.

In order to adapt to long-term cloudy weather, when the electric quantity of the storage battery is insufficient, the electric equipment can also be directly connected with the commercial power through the distribution box for use.

The standard parts used by the invention can be purchased from the market, the special-shaped parts can be customized according to the description of the specification and the accompanying drawings, the specific connection mode of each part adopts conventional means such as bolts, rivets, welding and the like mature in the prior art, machines, parts and equipment adopt conventional models in the prior art and relate to circuits, the circuit connection also adopts the conventional connection mode in the prior art, and the detailed description is omitted here

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and those skilled in the art should understand that they can make various changes, modifications, additions and substitutions within the spirit and scope of the present invention.

Claims (8)

1. The utility model provides a drying equipment based on new forms of energy control which characterized in that: comprises a cuboid inner shell (1) and an outer shell (2), the length, the width and the height of the inner shell (1) are all smaller than those of the outer shell (2), the inner shell (1) is positioned in the outer shell (2), the front side of the inner shell (1), the bottom and the top of the inner shell are respectively provided with an opening, the inner shell (1) is made to form a three-side structure, a horizontal counterweight plate (4) which can move up and down in the inner shell (1) is hung in the inner shell (1) through a lifting hook of an electric hoist (3), the front side of the outer shell (2) is fixed with a box door (5) which can be opened and closed through a hinge, the inner side surface of the box door (5) is closed and then just completely covers the front side opening of the inner shell (1), a layer of high-temperature-resistant rubber sealing ring (6) is embedded around the bottom of the counterweight plate (4), and the outer side wall of the rubber sealing ring (6);

a closed water vapor collecting chamber (7) is arranged in a gap between one side of the outer shell (2) and one side of the inner shell (1), a flexible hose (8) which penetrates through the weight plate (4) and is communicated with the inside of the inner shell (1) is fixed above the weight plate (4), the upper end of the flexible hose (8) is communicated with an air inlet of a fan (10) exhausting downwards through a connecting pipe (9) fixed in the top of the outer shell (2), an air outlet of the fan (10) is communicated with the top of the water vapor collecting chamber (7), a plurality of vertical metal conductive plates (11) which are parallel to each other are fixed in the water vapor collecting chamber (7), a drainage channel (12) communicated with the outside and an air outlet (13) communicated with the bottom in the inner shell (1) are respectively arranged at the lower end of the water vapor collecting chamber (7), and each metal conductive plate (11) is respectively connected with and electrically connected with an external;

the bottom in the inner shell (1) supports a horizontal supporting net (14), a plurality of drying supports which are vertically stacked together are placed on the supporting net (14), a plurality of vertical heating pipes (15) are embedded on the inner side walls of the inner shell (1) on two sides of each drying support respectively, the opening parts of the heating pipes (15) are covered with diathermanous aluminum alloy plates (16) on the same vertical surface with the inner side walls of the inner shell (1), a solar cell panel (17) is fixed at the top of the outer shell (2), the solar cell panel (17) charges a charging battery (18) below the solar cell panel, the heating pipes (15) on two sides of each layer of drying support form a group of heating devices, and the power supply and the power outage of the charging battery (18) are controlled through the same;

the drying support comprises four supporting legs (23) and two groups of horizontally parallel grids (24), four corners of each group of rectangular grids (24) are respectively welded on four vertical supporting legs (23), horizontal supporting rods are further respectively welded at the upper end and the lower end of each supporting leg (23) on the same side, pulley guide rails (28) with U-shaped cross sections are respectively welded on the upper surface of each supporting rod above the rectangular grids (24), positioning pulleys (25) for supporting the drying support are respectively welded on the lower surface of each supporting rod below the rectangular supporting legs, the wheels of the positioning pulleys (25) on each side and the concave parts of the pulley guide rails (28) are positioned in the same vertical plane, the positioning pulleys (25) of the drying support above the rectangular supporting legs are positioned on the pulley guide rails (28) of the drying support below the rectangular supporting legs, and the positioning pulleys (25) of the drying support below the rectangular supporting legs are positioned on the.

2. The drying device based on new energy control as claimed in claim 1, wherein: the inner shell (1) and the outer shell (2) are composed of two layers of stainless steel plates (19) and a middle clamping rock wool plate (20), and one surface of the inner side of the stainless steel plate (19) in contact with the rubber sealing ring (6) is smooth.

3. The drying device based on new energy control as claimed in claim 1, wherein: the lower extreme of steam collecting chamber (7) is provided with water conservancy diversion piece (21) that the cross-section is triangle-shaped, and the lower one end in inclined plane of water conservancy diversion piece (21) is close to the end of intaking of drainage channel (12), and drainage channel (12) are the U font, and the outer end height is less than the inner height of intaking the end promptly.

4. The drying device based on new energy control as claimed in claim 1, wherein: an upward opening is arranged at the bottom of the inner shell (1) below the supporting net (14), the section of the opening is a funnel-shaped air outlet cover (22), and the air inlet end at the lower end of the air outlet cover (22) is communicated with the air outlet (13).

5. The drying device based on new energy control as claimed in claim 1, wherein: a plurality of symmetrical limit stoppers (26) are respectively fixed on the inner side of the top of the inner shell (1).

6. The drying device based on new energy control as claimed in claim 1, wherein: the flexible hose (8) is a high-temperature resistant aluminum foil flexible hose.

7. The drying device based on new energy control as claimed in claim 1, wherein: the counterweight plate (4) is made of a heat insulation material wrapped outside a concrete plate or a steel plate, and a lifting hook of the electric hoist (3) is fixedly connected with the concrete plate or the steel plate in the counterweight plate (4).

8. The drying equipment based on new energy control as claimed in claim 4, wherein: the air outlet cover (22) is formed by pouring concrete, and a plurality of vertical supporting columns (27) are supported below the supporting net (14).

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