CN208688118U - A kind of building material drying system based on solar greenhouse - Google Patents

Abstract

The utility model relates to the dry fields of building material, disclose a kind of building material drying system based on solar greenhouse, it is characterized in that: including greenhouse body, solar energy power accumulating plate is laid at the top of greenhouse body, heat exchanger, blast pipe, drier and wind conveying pipe are equipped in greenhouse body, solar energy power accumulating plate is connected by the heating structure of power transmission line and heat exchanger.Blast pipe starting point is located at greenhouse body top, and blast pipe is connect with heat exchanger inlet end, and air pump is connected on wind conveying pipe, and wind conveying pipe one end is connect with heat exchanger outlet side, and the other end is connect with the drier for being located at greenhouse body lower part.When solving existing building raw material drying, need continuous sunny that could complete drying using exposure, using conventional dryers close to heating source material easily because of the excessively high substantially coking of temperature, thus the problem of influencing material moral character.

Description

A kind of building material drying system based on solar greenhouse

Technical field

It is concretely that a kind of building based on solar greenhouse is former the utility model relates to the dry field of building material Material drying system.

Background technique

Building material is primarily referred to as reinforcing bar in engineering structure, cement and clay and coating for wall.Its In stored for convenience after preparation and transport needs to be dried it for the clay of wall, existing drying means point For two classes, another then be that drying machine is selected to be dried one is carrying out exposure, the former is high to environmental requirement, needs Continuous sunny could complete drying, such as run into the rainy day and may cause clay softening and humidify, the latter is based on physics when being dried Heating structure, the material close to heating source is easily because of the excessively high substantially coking of temperature, to influence the moral character of raw material.

Therefore need a kind of structure simple, based on solar powered, while the one kind for relying on hot wind to be dried is based on too The building material drying system of positive energy greenhouse.

Utility model content

When the utility model is directed to existing building raw material drying, need continuous sunny that could complete drying using exposure, Using conventional dryers close to heating source material easily because of the excessively high substantially coking of temperature, to be mentioned the problem of influencing material moral character For a kind of building material drying system based on solar greenhouse.

The utility model solves above-mentioned technical problem, the technical solution adopted is that, a kind of building based on solar greenhouse Raw material drying system, including greenhouse body, greenhouse body top are laid with solar energy power accumulating plate, are equipped with heat exchange in greenhouse body Device, blast pipe, drier and wind conveying pipe, solar energy power accumulating plate are connected by the heating structure of power transmission line and heat exchanger, air inlet Pipe starting point is located at greenhouse body top, and blast pipe is connect with heat exchanger inlet end, and air pump, delivery pipe are connected on wind conveying pipe One end is connect with heat exchanger outlet side, and the other end is connect with the drier for being located at greenhouse body lower part.

The purpose designed in this way is that, by the way that solar energy power accumulating plate is arranged in greenhouse body, solar energy power accumulating plate can Solar energy is acquired, while the sun be can be carried out into storage, in order to continue to energize in no solar irradiation, meanwhile, the sun The solar energy of storage is transferred in heat exchanger tube by energy condenser plate, makes to get a promotion by the air themperature in blast pipe, and final It is discharged from drier, completes the drying to building material, whole process temperature-controllable, and air is relied on to do calorie spread Medium, is greatly reduced the risk that coking occurs when dry for building material, when existing building raw material drying, is needed using exposure Want continuous sunny that could complete drying, using conventional dryers close to heating source material easily because of the excessively high substantially coking of temperature, from And the problem of influencing material moral character.

Further, be equipped with heat exchanger tube and heater strip in heat exchanger, heat exchanger tube is bending structure, the starting point of heat exchanger tube with Blast pipe connection, the end of heat exchanger tube are connect with wind conveying pipe, and heat exchanger tube and heater strip periphery are filled with heating agent, heater strip both ends It is connect with power transmission line.

The purpose designed in this way is, the heat exchanger tube by being arranged to bending structure can be improved connecing for air and heating agent Contacting surface product, to improve heat exchange efficiency, while adding in the electric energy heating heat exchanger that is provided based on solar energy power accumulating plate of heater strip Thermit powder makes it possible to transfer its energy in air.

Optionally, bending structure is S-shaped structure, and the corner of heat exchanger tube is located at outside heat exchanger.

Optionally, heater strip is vertical with the heat exchanger tube being located in heat exchanger.

Further, drier upper surface is equipped with dry slot, is equipped with building material to be dried in dry slot.

Further, dry slot two sides are respectively equipped with the first air exhausting structure and the second air exhausting structure, dry among trench bottom Place is equipped with third air exhausting structure, the wind conveying pipe air inlet with the first air exhausting structure, the second air exhausting structure and third air exhausting structure respectively Mouth connection.

The purpose designed in this way is, by the way that three air exhausting structures are arranged, two are located at dry slot two sides, and one positioned at dry Dry trench bottom makes it possible to carry out 3d air delivery drying to building material in dry slot, improves drying efficiency, it is former to reduce building Material declines probability because of the moral character that uneven heating generates.

Further, the air inlet of the first air exhausting structure is equipped with the first regulating valve, the air inlet of the second air exhausting structure Equipped with the second regulating valve, the air inlet of third air exhausting structure is equipped with third regulating valve.

The purpose designed in this way is, by the way that three regulating valves are respectively set, so as to three air exhausting structure outlet air Amount is adjusted, and is made it possible to carry out 3d air delivery drying to building material in dry slot, is improved drying efficiency, reduces building Raw material decline probability because of the moral character that uneven heating generates.

The beneficial effects of the utility model are at least following one:

1. solar energy power accumulating plate can acquire solar energy by the way that solar energy power accumulating plate is arranged in greenhouse body, simultaneously will The sun can be carried out storage, in order in no solar irradiation can continue energize, meanwhile, solar energy power accumulating plate by storage too Sun can be transferred in heat exchanger tube, make to get a promotion by the air themperature in blast pipe, and be finally discharged from drier, complete The drying of pairs of building material, whole process temperature-controllable, and air is relied on to do calorie spread medium, it is former that building is greatly reduced The risk of coking occurs when dry for material, solves in existing building raw material drying method and exists to environmental requirement height, needs Want continuous sunny that could complete drying, the material close to heating source is easily because of the excessively high substantially coking of temperature, to influence material moral character The problem of.

2. can be improved the contact area of air and heating agent by the heat exchanger tube for being arranged to bending structure, changed to improve The thermal efficiency, while the heating agent in the electric energy heating heat exchanger that is provided based on solar energy power accumulating plate of heater strip, making it possible to will Amount is transferred in air.

3. two are located at dry slot two sides, and one is located at dry trench bottom by three air exhausting structures of setting, make it possible to 3d air delivery drying is carried out to building material in dry slot, improves drying efficiency, reduces building material because uneven heating produces Raw moral character declines probability.

Detailed description of the invention

Fig. 1 is the building material drying system structural schematic diagram based on solar greenhouse；

Fig. 2 is heat exchanger structure schematic diagram；

Fig. 3 is drier structural schematic diagram；

In figure label for 1 be greenhouse body, 2 be heat exchanger, 3 be power transmission line, 4 be solar energy power accumulating plate, 5 be air pump, 6 it is drier, 7 be dry slot, 8 be building material to be dried, 9 be blast pipe, 10 be heat exchanger tube, 11 is heating agent, 12 It is the first air exhausting structure for heater strip, 13,14 be the second air exhausting structure, 15 be third air exhausting structure, 16 is the first regulating valve, 17 It is the second regulating valve for third regulating valve, 18,19 be transom, 20 be door, 22 is wind conveying pipe.

Specific embodiment

In order to make the purpose of the utility model, technical solutions and advantages more clearly understood, with reference to embodiments to this Utility model is described in further detail.It should be appreciated that specific embodiment described herein is used only for explaining that this is practical new Type is not used to limit the utility model.

Embodiment 1

As shown in Figure 1, a kind of building material drying system based on solar greenhouse, including greenhouse body 1, greenhouse sheet It is laid with solar energy power accumulating plate 4 at the top of body 1, is equipped with heat exchanger 2, blast pipe 9, drier 6 and wind conveying pipe 22 in greenhouse body 1, Solar energy power accumulating plate 4 is connect by power transmission line 3 with the heating structure of heat exchanger 2, and 9 starting point of blast pipe is located in greenhouse body 1 Portion, blast pipe 9 are connect with 2 inlet end of heat exchanger, and air pump 5 is connected on wind conveying pipe 22, and 22 one end of delivery pipe goes out with heat exchanger 2 The connection of gas end, the other end are connect with the drier 6 for being located at 1 lower part of greenhouse body.

In use, solar energy power accumulating plate is arranged in greenhouse body, solar energy power accumulating plate can acquire solar energy, simultaneously will The sun can be carried out storage, in order in no solar irradiation can continue energize, meanwhile, solar energy power accumulating plate by storage too Sun can be transferred in heat exchanger tube, make to get a promotion by the air themperature in blast pipe, and be finally discharged from drier, complete The drying of pairs of building material, whole process temperature-controllable, and air is relied on to do calorie spread medium, it is former that building is greatly reduced The risk of coking occurs when dry for material, solves in existing building raw material drying method and exists to environmental requirement height, needs Want continuous sunny that could complete drying, the material close to heating source is easily because of the excessively high substantially coking of temperature, to influence material moral character The problem of.

Embodiment 2

Based on embodiment 1, as shown in Fig. 2, being equipped with heat exchanger tube 10 and heater strip 12 in heat exchanger 2, heat exchanger tube 10 is bending The starting point of structure, heat exchanger tube 10 is connect with blast pipe 9, and the end of heat exchanger tube 10 is connect with wind conveying pipe 22, heat exchanger tube 10 and plus 12 periphery of heated filament is filled with heating agent 11, and 12 both ends of heater strip are connect with power transmission line 3.

In use, the heat exchanger tube for being arranged to bending structure can be improved the contact area of air and heating agent, to improve Heat exchange efficiency, while the heating agent in the electric energy heating heat exchanger that is provided based on solar energy power accumulating plate of heater strip, make it possible to by Energy transmission is into air.

Embodiment 3

Based on embodiment 2, bending structure is S-shaped structure, and the corner of heat exchanger tube 10 is located at outside heat exchanger 2.

Embodiment 4

Based on embodiment 2, heater strip 12 is vertical with the heat exchanger tube 10 being located in heat exchanger 2.

Embodiment 5

It is equipped in dry slot 7 as shown in figure 3,6 upper surface of drier is equipped with dry slot 7 to dry based on embodiment 1 Dry building material 8.7 two sides of dry slot are respectively equipped with the first air exhausting structure 13 and the second air exhausting structure 14, in 7 bottom of dry slot Between be equipped with third air exhausting structure 15, wind conveying pipe 22 respectively with the first air exhausting structure 13, the second air exhausting structure 14 and third outlet air The air inlet of structure 15 connects.

In use, two are located at dry slot two sides, and one is located at dry trench bottom by three air exhausting structures of setting, make 3d air delivery drying can be carried out to building material in dry slot by obtaining, and improve drying efficiency, reduce building material because heated The moral character that unevenness generates declines probability.

Embodiment 6

Based on embodiment 5, the air inlet of the first air exhausting structure 13 is equipped with the first regulating valve 16, the second air exhausting structure 14 Air inlet is equipped with the second regulating valve 18, and the air inlet of third air exhausting structure 15 is equipped with third regulating valve 17.

In use, three air exhausting structures of setting, two are located at dry slot two sides, and one is located at dry trench bottom, make it possible to It is enough that 3d air delivery drying is carried out to building material in dry slot, drying efficiency is improved, reduces building material because of uneven heating The moral character of generation declines probability.

Claims (7)

1. a kind of building material drying system based on solar greenhouse, including greenhouse body (1), it is characterised in that: described Solar energy power accumulating plate (4) are laid at the top of greenhouse body (1), heat exchanger (2), blast pipe (9), drying are equipped in greenhouse body (1) Mechanism (6) and wind conveying pipe (22), the solar energy power accumulating plate (4) are connected by the heating structure of power transmission line (3) and heat exchanger (2) It connects, blast pipe (9) starting point is located at greenhouse body (1) top, and blast pipe (9) is connect with heat exchanger (2) inlet end, described Be connected on wind conveying pipe (22) air pump (5), wind conveying pipe (22) one end is connect with heat exchanger (2) outlet side, the other end be located at The drier (6) of greenhouse body (1) lower part connects.

2. a kind of building material drying system based on solar greenhouse according to claim 1, it is characterised in that: institute It states and is equipped with heat exchanger tube (10) and heater strip (12) in heat exchanger (2), the heat exchanger tube (10) is bending structure, heat exchanger tube (10) Starting point is connect with blast pipe (9), and the end of heat exchanger tube (10) is connect with wind conveying pipe (22), heat exchanger tube (10) and heater strip (12) Periphery is filled with heating agent (11), and heater strip (12) both ends are connect with power transmission line (3).

3. a kind of building material drying system based on solar greenhouse according to claim 2, it is characterised in that: institute Stating bending structure is S-shaped structure, and the corner of heat exchanger tube (10) is located at heat exchanger (2) outside.

4. a kind of building material drying system based on solar greenhouse according to claim 2, it is characterised in that: institute It is vertical with heat exchanger tube (10) being located in heat exchanger (2) to state heater strip (12).

5. a kind of building material drying system based on solar greenhouse according to claim 1, it is characterised in that: institute Drier (6) upper surface is stated equipped with dry slot (7), dry slot (7) is interior to be equipped with building material to be dried (8).

6. a kind of building material drying system based on solar greenhouse according to claim 5, it is characterised in that: institute It states dry slot (7) two sides and is respectively equipped with the first air exhausting structure (13) and the second air exhausting structure (14), dry slot (7) bottom middle Equipped with third air exhausting structure (15), the wind conveying pipe (22) respectively with the first air exhausting structure (13), the second air exhausting structure (14) and The air inlet of third air exhausting structure (15) connects.

7. a kind of building material drying system based on solar greenhouse according to claim 6, it is characterised in that: institute The air inlet for stating the first air exhausting structure (13) is equipped with the first regulating valve (16), the air inlet of second air exhausting structure (14) Equipped with the second regulating valve (18), the air inlet of the third air exhausting structure (15) is equipped with third regulating valve (17).