CN201488480U

CN201488480U - A combination drying equipment of solar energy and air source heat pump

Info

Publication number: CN201488480U
Application number: CN2009201644176U
Authority: CN
Inventors: 沈卫强; 王晓冬
Original assignee: Agricultural Mechanization Research Institute Xinjiang Academy of Agricultural Sciences
Current assignee: Agricultural Mechanization Research Institute Xinjiang Academy of Agricultural Sciences
Priority date: 2009-08-28
Filing date: 2009-08-28
Publication date: 2010-05-26
Anticipated expiration: 2019-08-28

Abstract

The utility model discloses a combination drying equipment of solar energy and air source heat pump. The roof surface of the drying room is a transparent cover plate. The side walls are connected to form a drying room, the heat pump auxiliary machine is connected to the air inlet, the circulation fan is installed above the air outlet, and the horizontal partition with air inlet and outlet installed above the drying room is connected to the four walls of the drying room. The connection between the horizontal partition and the transparent cover constitutes a solar heating room with a solar collector plate. An automatic air intake device is installed on the upper part of the air inlet, and a circulating fan is installed on the air outlet. The horizontal partition and the drying chamber A circulating air duct chamber is formed between the outer walls, a circulating fan is installed on the entrance of the chamber wall of the circulating air duct chamber, and a dehumidifying fan is arranged on the rear wall of the drying room. The utility model uses solar energy and a heat pump for combined drying, and has the characteristics of forced circulation of hot air, uniform air flow, high drying efficiency and low energy consumption.

Description

A kind of solar energy and air source heat pump combination drying equipment

Technical field

The utility model relates to drying device, particularly a kind of solar energy and the air source heat pump combination drying equipment of solid material or goods elimination moisture.

Background technology

Solar energy drying and air source heat pump drying all are the energy-saving drying new technologies.Solar energy drying utilizes solar energy, and luminous energy is converted into heat energy, is used for dry processing, because solar energy drying does not have at overcast and rainy and night etc. can not normally to use under the situation of sunlight, causes dry work not proceed, thereby promotes the use of and be restricted.The air source heat pump drying is to utilize heat pump principle to say that the low-grade heat energy that can not be used for drying is converted into the heat energy that high-grade can be used for drying in the air, be used for dry processing, compare with electrical drying, air unit heat pump drying thermal efficiency height, power consumption greatly reduces, thereby begins to use in some dry fields, compares with coal-fired drying, the energy consumption cost height of air source heat pump drying, thereby promote the use of and be restricted.

The utility model content

The purpose of this utility model is to provide a kind of solar energy and air source heat pump combination drying equipment, the combination drying way that solar energy drying and air source heat pump drying are combined, enable the air source overcast and rainy and night provides dry heat energy, fine day is enabled solar energy dry heat energy is provided, and when solar-heating is not enough, enables solar-heating and heat pump heat supply simultaneously, has the hot blast forced circulation, air-flow is even, the drying efficiency height, and low characteristics consume energy.

The purpose of this utility model is achieved in that a kind of solar energy and air source heat pump combination drying equipment, comprise the drying shed and the solar heat-collection plate that have door, the deck of drying shed is a transparent cover plate, be positioned at that the drying shed rear portion has the upright dividing plate of air inlet and air outlet and the diaphragm plate and the drying shed two side of drying shed connects and composes hothouse, on the air inlet of upright dividing plate, connecting the heat pump subsidiary engine, the heat pump main frame that is positioned at the drying shed outside is connected with the heat pump subsidiary engine, circulating fan is installed on air outlet, what be provided with above hothouse has into, the horizontal baffle of air outlet is connected with the wall of drying shed, make and constitute the solar energy heating chamber between horizontal baffle and the transparent cover plate, the top of horizontal baffle air inlet is installed with the automatic air-intake device of gravity type, circulating fan is installed on air outlet, the solar heat-collection plate that is provided with in the upper horizontal of solar energy heating indoor horizontal dividing plate, the solar energy heating chamber is separated into heat collecting chamber and heat-exchanging chamber, constitute the circulation air path chamber between the outer wall of horizontal baffle and hothouse, be positioned in the import of circulation air path chamber locular wall of horizontal baffle air inlet one side circulating fan is installed, wet-emitting blower is installed being provided with on the exhaust outlet that communicates with the circulation air path chamber on the drying shed rear wall.

Utilize solar energy drying to use separately: when fine dried material operation, material to be dried to be installed in the material go-cart, push hothouse, close door.The solar heat-collection plate of solar energy heating chamber is subjected to the solar radiation by transparent cover plate, absorb solar energy and the temperature rising, under the effect of circulating fan, air-flow is heated by solar heat-collection plate from the heat-exchanging chamber that the horizontal baffle air inlet enters the solar energy heating chamber, heat material bedly, form air-flow forced circulation dry run.The wet-emitting blower that is provided with on the drying shed rear wall is regulated dry gas stream humidity, all finishes up to dry run.

Utilize heat pump drying to use: at overcast and rainy and night, during drying operation, the hot blast that the main and auxiliary machine work of heat pump produces enters hothouse, under the effect of circulating fan and heat pump subsidiary engine, hot blast passes material bed, adds thermal material, enter circulation air path, carry out air-flow forced circulation dry run, wet-emitting blower can be finished the adjusting of dry gas stream humidity, all finishes up to dry run.

The combination drying way that the utility model combines solar energy drying and air source heat pump drying, enable the air source overcast and rainy and night provides dry heat energy, fine day is enabled solar energy dry heat energy is provided, when solar-heating is not enough, enable solar-heating and heat pump heat supply simultaneously, have the hot blast forced circulation, air-flow is even, the drying efficiency height, low characteristics consume energy.

Description of drawings

The utility model is described in further detail below in conjunction with accompanying drawing.

Fig. 1 is the utility model sectional structure schematic diagram;

Fig. 2 is the left TV structure schematic diagram of Fig. 1;

Fig. 3 is the A-A sectional structure schematic diagram of Fig. 1;

Fig. 4 is the B-B sectional structure schematic diagram of Fig. 1.

The specific embodiment

A kind of solar energy and air source heat pump combination drying equipment, as Fig. 1, Fig. 2, Fig. 3, shown in Figure 4, comprise the drying shed 7 and the solar heat-collection plate 14 that have door 19, the deck of drying shed 7 is a transparent cover plate 16, be positioned at the diaphragm plate 9 that drying shed 7 rear portions have the upright dividing plate 5 of air inlet and air outlet and drying shed 7 and connect and compose hothouse 10 with drying shed 7 two sides, on the air inlet of upright dividing plate 5, connecting heat pump subsidiary engine 2, the heat pump main frame 1 that is positioned at drying shed 7 outsides is connected with heat pump subsidiary engine 2, circulating fan 4 is installed on air outlet, what be provided with above hothouse 10 has into, the horizontal baffle 11 of air outlet is connected with the wall of drying shed 7, make and constitute the solar energy heating chamber between horizontal baffle 11 and the transparent cover plate 16, the top of horizontal baffle air inlet is installed with the automatic air-intake device 17 of gravity type, circulating fan 8 is installed on air outlet, the solar heat-collection plate 14 that is provided with in the upper horizontal of solar energy heating indoor horizontal dividing plate 11, the solar energy heating chamber is separated into heat collecting chamber 12 and heat-exchanging chamber 13, constitute chamber, hot air circulation air channel 15 between the outer wall of horizontal baffle 11 and hothouse 10, be positioned in the import of circulation air path chamber 15 locular walls of horizontal baffle 11 air inlets one side circulating fan 18 is installed, on drying shed 7 rear walls, be provided with wet-emitting blower 6 is installed on the exhaust outlet that communicates with circulation air path chamber 15.On drying shed 7 rear walls, be provided with the automatic air-intake device 3 of gravity type is being installed on the air inlet that communicates with circulation air path chamber 15.The automatic air-intake device of

gravity type

3,17 is hingedly mounted on the air inlet by hinge respectively for uniform blade, closes air inlet automatically by the deadweight of blade.Material go-cart 20 is being set in hothouse 10.

Claims

1. solar energy and air source heat pump combination drying equipment, comprise the drying shed (7) and the solar heat-collection plate (14) that have door (19), it is characterized in that: the deck of drying shed (7) is transparent cover plate (16), be positioned at the diaphragm plate (9) that drying shed (7) rear portion has the upright dividing plate (5) of air inlet and air outlet and drying shed (7) and connect and compose hothouse (10) with drying shed (7) two side, on the air inlet of upright dividing plate (5), connecting heat pump subsidiary engine (2), being positioned at the outside heat pump main frame (1) of drying shed (7) is connected with heat pump subsidiary engine (2), circulating fan (4) is installed on air outlet, having into that the top of hothouse (10) is provided with, the horizontal baffle of air outlet (11) is connected with the wall of drying shed (7), make and constitute the solar energy heating chamber between horizontal baffle (11) and the transparent cover plate (16), the top of horizontal baffle air inlet is installed with the automatic air-intake device of gravity type (17), circulating fan (8) is installed on air outlet, the solar heat-collection plate (14) that is provided with in the upper horizontal of solar energy heating indoor horizontal dividing plate (11), the solar energy heating chamber is separated into heat collecting chamber (12) and heat-exchanging chamber (13), constitute circulation air path chamber (15) between the outer wall of horizontal baffle (11) and hothouse (10), be positioned in the import of circulation air path chamber (15) locular wall of horizontal baffle (11) air inlet one side circulating fan (18) is installed, on drying shed (7) rear wall, be provided with wet-emitting blower (6) is installed on the exhaust outlet that communicates with circulation air path chamber (15).

2. solar energy according to claim 1 and air source heat pump combination drying equipment is characterized in that: be provided with on drying shed (7) rear wall the automatic air-intake device of gravity type (3) is installed on the air inlet that communicates with circulation air path chamber (15).

3. solar energy according to claim 1 and 2 and air source heat pump combination drying equipment, it is characterized in that: the automatic air-intake device of gravity type (3), (17) are hingedly mounted on the air inlet by hinge respectively for uniform blade, close air inlet automatically by the deadweight of blade.

4. solar energy according to claim 1 and air source heat pump combination drying equipment is characterized in that: material go-cart (20) is being set in hothouse (10).