CN204359066U - Flow translation type drying room - Google Patents
Flow translation type drying room Download PDFInfo
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- CN204359066U CN204359066U CN201420747478.6U CN201420747478U CN204359066U CN 204359066 U CN204359066 U CN 204359066U CN 201420747478 U CN201420747478 U CN 201420747478U CN 204359066 U CN204359066 U CN 204359066U
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Abstract
The utility model discloses a kind of flow translation type drying room, comprise heating clamber and supplies room, firing equipment is established in heating clamber, the air inlet of being blown to supplies room by heating clamber is set respectively in the left and right sides of the division wall of heating clamber and supplies room and by the return air inlet of supplies room to heating clamber return air, hot air circulation path between heating clamber and supplies room arranges at least one circulating fan, therefore horizontal gas flow moving loop is formed between heating clamber and supplies room, thermal current motion in the horizontal direction will be very unobstructed, effectively reduce the Level temperature difference in drying room and vertical temperature-difference, material in drying room is also synchronous dry by thermally equivalent, thus effectively shorten baking time, reduce baking energy consumption, the people caused because dry materials is uneven during avoiding oven dry is for seething the working feature such as material, it also avoid simultaneously traditional drying room because of local material can not dry in time and situations such as the roasting corrupted mistake that occurs.
Description
Technical field
The utility model relates to a kind of agricultural product drying barn, specifically relates to a kind of flow translation type drying room, is applicable to the drying processing process of many agricultural product such as apricot, red date, capsicum, grape, honeysuckle, peanut, mood ear fungus, dried eggplant, tobacco leaf.
Background technology
Fresh fruit and vegetables water content high, postpartum, respiratory metabolism was vigorous, very easily rotten, fruit and vegetable drying regulates supply and demand, the seasonal residue of digestion, reduces postpartum and rot an effective way of losing, meanwhile, fruit and vegetable drying effectively can also improve added value, raising farmers' income, the promotion local economic development of agricultural product.
Existing fruits and vegetables drying room is made up of heating clamber and supplies room two parts usually.And according to the direction of motion of supplies room Inner eycle air-flow, be divided into air-flow ascending manner and airflow descending type compression two kinds of drying rooms.The drying room of these two kinds of modes is all arrange circulating air opening respectively in the upper and lower side of the division wall of heating clamber and supplies room, hot-air is sent in supplies room by the circulating air opening of top or bottom and toasts material, and the hot-air entering supplies room becomes cold air along with the reduction of temperature, turn back in heating clamber heat by the air port that loops back on bottom or top again, so move in circles until by drying materials.But, the drying room of these two kinds of modes, all require that circulating current vertically penetrates the material disc of material indoor multilayer placement, because the resistance of air motion is larger, so cause air flow method in drying room uneven, the vertical direction temperature difference is larger, easily cause the material in intermediate layer to dry not do, full a heatable brick bed material can not be realized synchronously dry, thus cause drying time prolongation to cause energy waste, also easily occur that local material can not be dry in time and produce roasting corrupted and lose, simultaneously also because need people to cause dry labour intensity increase for seething material during drying.
Summary of the invention
The purpose of this utility model is to provide a kind of flow translation type drying room, effectively reduces vertical temperature-difference and Level temperature difference in drying room, makes the material thermally equivalent in drying room, realizes full a heatable brick bed material synchronously dry, to overcome the drawback of existing air-flow ascending manner or descending manner drying room.
For achieving the above object, the utility model is by the following technical solutions:
A kind of flow translation type drying room, comprises heating clamber and supplies room, establishes firing equipment in heating clamber, form horizontal gas flow moving loop between described heating clamber and supplies room; Described horizontal gas flow moving loop refers to: arrange the air inlet of being blown to supplies room by heating clamber in the left and right sides of the division wall of heating clamber and supplies room respectively and by the return air inlet of supplies room to heating clamber return air, the hot air circulation path between heating clamber and supplies room arranges at least one circulating fan.
Position and the air supply direction of circulating fan are as follows:
A, in heating clamber, arrange circulating fan partition wall between firing equipment and air inlet, circulating fan partition wall arranges circulating fan, the heat that firing equipment produces pumps to supplies room by circulating fan through air inlet;
B, in heating clamber, arrange circulating fan partition wall between firing equipment and return air inlet, circulating fan partition wall arranges circulating fan, and the heat that firing equipment produces is blown into supplies room through air inlet by circulating fan;
C, circulating fan are directly installed on air inlet and blow in supplies room;
D, circulating fan are directly installed on return air inlet place to heating indoor return air;
Or when arranging multiple stage circulating fan, adopt any one or a few mode in above-mentioned four kinds of modes to combine installation.
When adopting A mode or C mode, in heating clamber, arrange a point wind apparatus between return air inlet and firing equipment, described point wind apparatus is allow air-flow rationally by each position of firing equipment and the device that fully distributes of the heat making it produce.
Divide wind apparatus for a point brattice, the both ends or one end up and down of point brattice are provided with opening, or divide the left and right sides of brattice or side to be provided with opening, or divide a brattice to be paliform or lattice-shaped, or a point brattice arranges air vent; Or point wind apparatus is any one or a few combined type obstacle of bar, triangle, object polygon, round shape thing.
Described firing equipment is coal furnace, oil burner or gas furnace, or electrical heating facility, or the radiator of central heating system.
Described electrical heating facility is heat pump, infrared heating pipe, heating wire or heating rod.
Drying room arranges at least one air inlet facility and at least one hydrofuge facility; Described air inlet facility is be communicated with the air inlet of drying room outside or ventilating fan or both united application, and described hydrofuge facility is lead to the moisture exhausting port of drying room outside or wet-emitting blower or both united application; Described air inlet is positioned on the body of wall of drying room negative pressuren zone under circulating fan effect, and described moisture exhausting port is positioned on the body of wall of drying room zone of positive pressure under circulating fan effect.
Described air inlet in heating clamber between return air inlet and circulating fan chamber body of wall on; Described moisture exhausting port is positioned at both sides up and down or the side of return air inlet.
Described air inlet and moisture exhausting port share an opening, and opening is positioned on the body of wall of heating clamber; And opening part arranges rotatable baffle mechanism.
The top of described firing equipment upper chambers or side body of wall are provided with the emergent heat extraction mouth leading to drying room outside.
The top of described firing equipment upper chambers or side body of wall are provided with the emergent heat extraction mouth leading to drying room outside; Described air inlet moves to heat extraction mouth place, shares an opening with heat extraction mouth.
Described partition wall has the body of wall that the individual layer body of wall of barrier functionality or centre are provided with chamber.
Adopt the utility model of technique scheme, the left and right sides of the division wall of heating clamber and supplies room has been arranged on due to air inlet and return air inlet, thermal current in drying room will under circulating fan effect in the horizontal direction between heating clamber and supplies room clockwise or left-hand circular motion, for the material drying adopting drip pan horizontal slice to place in supplies room, thermal current motion in the horizontal direction will be very unobstructed, effectively reduce the Level temperature difference in drying room and vertical temperature-difference, material in drying room is also synchronous dry by thermally equivalent, thus effectively shorten baking time, reduce baking energy consumption, the people caused because dry materials is uneven during avoiding oven dry is for seething the working feature such as material, it also avoid simultaneously traditional drying room because of local material can not dry in time and situations such as the roasting corrupted mistake that occurs.
Accompanying drawing explanation
Fig. 1 is the internal structure schematic diagram with firing equipment of the present utility model.
Fig. 2 is the internal structure schematic diagram without firing equipment of the present utility model.
Fig. 3 is the curtain wall structure schematic diagram watched from supplies room to heating clamber.
Fig. 4 is the structural representation with dividing wind apparatus and firing equipment of the present utility model.
Fig. 5 is the utility model with a point wind apparatus, without the structural representation of firing equipment.
Fig. 6 is the structural representation of the utility model with heat extraction mouth.
Fig. 7 is the side view of the utility model with heat extraction mouth.
Detailed description of the invention
As shown in Figure 1, Figure 2 and Figure 3, the utility model discloses a kind of flow translation type drying room.Its main body is heating clamber 8 and supplies room 7, and drying room front portion is heating clamber 8, and rear portion is supplies room 7, forms horizontal gas flow moving loop between heating clamber 8 and supplies room 7; Described horizontal gas flow moving loop refers to: arrange the air inlet 11 of being blown to supplies room 7 by heating clamber 8 respectively in the left and right sides of the division wall 6 of heating clamber 8 and supplies room 7 and by the return air inlet 12 of supplies room 7 to heating clamber 8 return air.In heating clamber, arrange circulating fan partition wall 4, at right angle setting 1 circulating fan 3 on partition wall, in circulating fan 3 air supply direction and drying room, air motion direction is consistent.
Circulating fan 3 requires to arrange 1,2,3 or more platforms according to drying room size and air quantity.Installation site and the air supply direction of circulating fan are as follows:
A, in heating clamber 8, arrange circulating fan partition wall 4 between firing equipment 5 and air inlet 11, circulating fan partition wall 4 arranges circulating fan 3, the heat that firing equipment 5 produces pumps to supplies room 7 by circulating fan 3 through air inlet 11; As shown in Figure 4 and Figure 5;
B, in heating clamber 8, arrange circulating fan partition wall 4 between firing equipment 5 and return air inlet 12, circulating fan partition wall 4 arranges circulating fan 3, and the heat that firing equipment 5 produces by circulating fan 3 is blown into supplies room 7 through air inlet 11; As depicted in figs. 1 and 2;
C, circulating fan 3 are directly installed on air inlet 11 place and blow in supplies room 7;
D, circulating fan 3 are directly installed on return air inlet 12 place to return air in heating clamber 8;
When arranging 1 circulating fan 3, adopting any one installation in above-mentioned four kinds of modes, when arranging multiple stage circulating fan 3, adopting any one or a few mode in above-mentioned four kinds of modes to combine installation.The air supply direction of circulating fan 3 is consistent with the air motion direction in drying room, and form air motion loop with air inlet 11, return air inlet 12, air motion direction can be clockwise, also can be counterclockwise, arranges air inlet 11 and return air inlet 12 accordingly according to air motion direction.
As shown in Figure 4 and Figure 5, when adopting A mode or C mode, in heating clamber 8, arrange a point wind apparatus 13 between return air inlet 12 and firing equipment 5, described point wind apparatus 13 is for allowing air-flow rationally by each position of firing equipment and the device that fully distributes of the heat making it produce.Arrange a point wind apparatus 13 and can make air-flow fully through each position of firing equipment, improve heat exchange efficiency, if do not establish point wind apparatus 13, air-flow easily passes through from firing equipment regional area, fully cannot take away the heat that each position of firing equipment is distributed.Point wind apparatus 13 can be a point brattice, and the both ends or one end up and down of point brattice are provided with opening, or the left and right sides of point brattice or side are provided with opening, or a point brattice be paliform or lattice-shaped, or a point brattice arranges and arranges or multiple row air vent more; Point wind apparatus 13 can also be any one or a few combined type obstacle of bar, triangle, object polygon, round shape thing, these obstacles can arrange airing hole equally, airing hole can randomly arrange, such air-flow not only can pass through from point wind apparatus is upper and lower or left and right, also can circulate from middle part airing hole.
Above-mentioned firing equipment 5 is coal furnace, oil burner or gas furnace, or electrical heating facility, or the radiator of central heating system.Wherein, electrical heating facility is heat pump, infrared heating pipe, heating wire or heating rod.If heating indoor location is coal-fired furnace, needs to configure coal filling hole respectively, unload cinder notch, chimney and combustion fan ajutage etc.
Drying room arranges at least one air inlet facility and at least one hydrofuge facility; Air inlet facility completes the function of air inlet in the export-oriented drying room of drying room, and hydrofuge facility completes the function to hydrofuge drying room in drying room; Air inlet facility is be communicated with the air inlet 2 of drying room outside or ventilating fan or both united application, and hydrofuge facility is lead to the moisture exhausting port 1 of drying room outside or wet-emitting blower or both united application.As shown in Figure 2, air inlet 2 in heating clamber 8 between return air inlet 12 and circulating fan 3 chamber body of wall on, or air inlet 2 is on the body of wall of the lower drying room negative pressuren zone of circulating fan 3 effect, negative pressuren zone mentioned here refers to that drying room internal gas pressure is less than the region of ambient pressure, and such outside air will enter drying room by air inlet 2 under pressure.Arrange moisture exhausting port 1 in the both sides up and down of return air inlet 12 or side, moisture is discharged to outside drying room through heating clamber 8 by hydrofuge cavity by moisture exhausting port; Or moisture exhausting port 1 is positioned on the body of wall of the lower drying room zone of positive pressure of circulating fan 3 effect, zone of positive pressure mentioned here refers to that drying room internal gas pressure is greater than the region of ambient pressure, and the hot and humid gas in such drying room will be discharged to outside drying room by moisture exhausting port 1 under pressure.Or air inlet 2 and moisture exhausting port 1 share an opening, and opening is positioned on the body of wall of heating clamber 8; And opening part arranges rotatable baffle mechanism, rotatable baffle mechanism here refers to: rotatable baffle is positioned at opening centre position, and after rotatable baffle rotates, side is blocked a part of return air and discharged, and fresh air enters drying room from opposite side.Drying room not hydrofuge time air inlet 2 and moisture exhausting port 1 normally close, hydrofuge time side opens.The rear wall of supplies room is installed two and is fanned the gate 9 that can split, and makes material pass in and out drying room, gate, right side 9 is arranged observation window 10.In order to make the hydrofuge of drying room more smooth and easy, also avoid dead space simultaneously, auxiliary moistureproof window can be installed on the body of wall of supplies room Background Region (region away from heating clamber) or gate.
Because larger cavity is left on drying room supplies room top unlike the drying room that air-flow moves both vertically of flow level motion, therefore once circulating fan stall causes air-flow not circulation time, above heating clamber, hot gas gathers and enters supplies room top from return air inlet or air inlet, easily causes supplies room material disc to burn out.Therefore as shown in Figure 6 and Figure 7, the top or side body of wall of firing equipment 5 upper chambers are provided with the emergent heat extraction mouth 14 leading to drying room outside, heat extraction mouth 14 is at least one, during normal baking, heat extraction mouth 14 is closed and seals, need open heat extraction mouth during heat extraction and heat is discharged to outside drying room, in order to reach better heat extraction effect, heat extraction mouth 14 is positioned at above heating clamber 8 firing equipment.In addition, on the body of wall of firing equipment upper chambers, establish heat extraction mouth 14, above-mentioned air inlet 2 can be moved to heat extraction mouth 14 place, shares an opening with heat extraction mouth 14.
Above-mentioned partition wall 6 is the individual layer bodies of wall with barrier functionality, and the thickness of individual layer body of wall specifically can set according to practical matter, or partition wall can also be the body of wall that centre is provided with chamber.
During utility model works, as shown in Figure 1, first material being placed on the zone line of supplies room 7 by drying the facility such as car, drip pan even laminating, in supplies room 7, just circulation air path being stayed to the position of air inlet and return air inlet.Then open firing equipment 5, the high-temperature flue gas that fuel combustion produces enters the radiator of firing equipment, and the radiator of firing equipment and furnace wall etc. are to the air heat in heating clamber 8.Open circulating fan 3 simultaneously, due to the wind-force effect of circulating fan 3, hot-air in heating clamber 8 will be moved to supplies room 7 by air inlet 11 in the horizontal direction, after hot-air enters supplies room 7, layering will carry out damp and hot exchange by material disc and with material drying in the horizontal direction, air-flow is by after material disc, be recycled again blower fan 3 to be extracted in heating clamber 8 by return air inlet 12 and to heat, so move in circles and make hot-air uniformly across the material drying of supplies room 7, along with constantly being heated, the continuous vaporization of the moisture in material.Need to open the air inlet facilities such as air inlet 2 or ventilating fan during hydrofuge, fresh air enters drying room from the external world, and the air pressure at this moment in drying room is by natural increase, and damp-heat air is just discharged to outside drying room by the hydrofuge facility such as moisture exhausting port 1 or wet-emitting blower opened.Due to the shuttling movement between heating clamber 8 and supplies room 7 in the horizontal direction under circulating fan 3 acts on of the thermal current in drying room, the material drying placed for adopting drip pan horizontal slice in supplies room 7, thermal current motion in the horizontal direction will be very unobstructed, effectively reduce the Level temperature difference in drying room and vertical temperature-difference, material in drying room is also synchronous dry by thermally equivalent, thus effectively shorten baking time, reduce baking energy consumption, the people produced because dry materials is uneven during avoiding oven dry is for seething the working feature such as material, it also avoid simultaneously traditional drying room because of local material can not dry in time and situations such as the roasting corrupted mistake that occurs.When circulating fan stall causes air-flow not circulate, and heat hot is when working on for 5, above heating clamber 8 firing equipment, hot gas gathers more, heat extraction mouth 14 can be opened, hot gas is discharged to outside drying room in time, avoid hot gas to be back to supplies room 7 from return air inlet 12 or air inlet 11 and burn material disc, equally caused by other reasons air-flow run smooth or be necessary time can open heat extraction mouth 14 heat extraction in time.
Claims (12)
1. a flow translation type drying room, comprises heating clamber (8) and supplies room (7), establishes firing equipment (5), it is characterized in that: form horizontal gas flow moving loop between described heating clamber and supplies room in heating clamber; Described horizontal gas flow moving loop refers to: arrange the air inlet (11) of being blown to supplies room by heating clamber in the left and right sides of the division wall (6) of heating clamber and supplies room respectively and by the return air inlet (12) of supplies room to heating clamber return air, the hot air circulation path between heating clamber and supplies room is arranged at least one circulating fan (3).
2. flow translation type drying room according to claim 1, is characterized in that: position and the air supply direction of circulating fan are as follows:
A, in heating clamber, between firing equipment (5) and air inlet (11), circulating fan partition wall (4) is set, circulating fan partition wall (4) arranges circulating fan (3), and the heat that firing equipment (5) produces pumps to supplies room (7) by circulating fan (3) through air inlet (11);
B, in heating clamber, between firing equipment (5) and return air inlet (12), circulating fan partition wall (4) is set, circulating fan partition wall (4) arranges circulating fan (3), and the heat that firing equipment (5) produces by circulating fan (3) is blown into supplies room (7) through air inlet (11);
C, circulating fan (3) are directly installed on air inlet (11) place and blow in supplies room;
D, circulating fan (3) are directly installed on return air inlet (12) place to heating indoor return air;
Or when arranging multiple stage circulating fan, adopt any one or a few mode in above-mentioned four kinds of modes to combine installation.
3. flow translation type drying room according to claim 2, is characterized in that:
When adopting A mode or C mode, in heating clamber, arrange a point wind apparatus (13) between return air inlet (12) and firing equipment (5), described point wind apparatus (13) is for allowing air-flow rationally by each position of firing equipment and the device that fully distributes of the heat making it produce.
4. flow translation type drying room according to claim 3, it is characterized in that: point wind apparatus (13) is a point brattice, the both ends or one end up and down of brattice are divided to be provided with opening, or divide the left and right sides of brattice or side to be provided with opening, or a point brattice is paliform or lattice-shaped, or a point brattice arranges air vent; Or a point wind apparatus (13) is bar, any one or a few combined type obstacle of triangle, object polygon, round shape thing.
5. flow translation type drying room according to claim 1, is characterized in that: described firing equipment (5) is coal furnace, oil burner or gas furnace, or electrical heating facility, or the radiator of central heating system.
6. flow translation type drying room according to claim 5, is characterized in that: described electrical heating facility is heat pump, infrared heating pipe, heating wire or heating rod.
7. flow translation type drying room according to claim 1, is characterized in that: drying room arranges at least one air inlet facility and at least one hydrofuge facility; Described air inlet facility is be communicated with the air inlet (2) of drying room outside or ventilating fan or both united application, and described hydrofuge facility is lead to the moisture exhausting port (1) of drying room outside or wet-emitting blower or both united application; Described air inlet (2) is positioned on the body of wall of drying room negative pressuren zone under circulating fan effect, and described moisture exhausting port (1) is positioned on the body of wall of drying room zone of positive pressure under circulating fan effect.
8. flow translation type drying room according to claim 7, is characterized in that: described air inlet (2) is positioned on the body of wall of chamber between heating clamber (8) return air inlet (12) and circulating fan (3); Described moisture exhausting port (1) is positioned at both sides up and down or the side of return air inlet (12).
9. flow translation type drying room according to claim 7, is characterized in that: described air inlet (2) and moisture exhausting port (1) share an opening, and opening is positioned on the body of wall of heating clamber; And opening part arranges rotatable baffle mechanism.
10. flow translation type drying room according to claim 1, is characterized in that: the top of described firing equipment (5) upper chambers or side body of wall are provided with the emergent heat extraction mouth (14) of leading to drying room outside.
11. flow translation type drying rooms according to claim 7, is characterized in that: the top of described firing equipment (5) upper chambers or side body of wall are provided with the emergent heat extraction mouth (14) of leading to drying room outside; Described air inlet (2) moves to heat extraction mouth (14) place, shares an opening with heat extraction mouth (14).
12. flow translation type drying rooms according to claim 1, is characterized in that: described partition wall (6) has the body of wall that the individual layer body of wall of barrier functionality or centre are provided with chamber.
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CN201420747478.6U CN204359066U (en) | 2014-10-21 | 2014-12-03 | Flow translation type drying room |
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CN201420747478.6U CN204359066U (en) | 2014-10-21 | 2014-12-03 | Flow translation type drying room |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104501543A (en) * | 2014-10-21 | 2015-04-08 | 张中伟 | Airflow translation type drying room |
CN109459525A (en) * | 2018-12-27 | 2019-03-12 | 山东宏业纺织股份有限公司 | A kind of device and test method improving flame-retardant yarn flame retardant property testing precision |
-
2014
- 2014-12-03 CN CN201420747478.6U patent/CN204359066U/en active Active
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104501543A (en) * | 2014-10-21 | 2015-04-08 | 张中伟 | Airflow translation type drying room |
CN109459525A (en) * | 2018-12-27 | 2019-03-12 | 山东宏业纺织股份有限公司 | A kind of device and test method improving flame-retardant yarn flame retardant property testing precision |
CN109459525B (en) * | 2018-12-27 | 2024-01-19 | 山东宏业纺织股份有限公司 | Device for improving flame retardant property test accuracy of flame retardant yarns |
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