CN206724608U - A kind of air can circulate baking room - Google Patents

Abstract

The utility model, which provides a kind of air, can circulate baking room, baking room is provided with waste-heat recovery device in vitro, drying room body includes heating source of the gas room, drying materials room and interlayer recovery air channel, the drying unit of homonymy air intake is installed on heating source of the gas room, positive portion's circulated air unit is installed on drying materials room, sidepiece circulated air unit and top circulated air unit, the wind inlet end in interlayer recovery air channel connects with drying materials room, the outlet air end in interlayer recovery air channel connects with heating source of the gas room, the recovery hot-wind inlet end of waste-heat recovery device connects with interlayer recovery air channel, the recovery cold wind port of export of waste-heat recovery device connects with the air intake vent of drying unit, heating source of the gas is separately installed with fixed air quantity regulating part and movable air quantity regulating part on room；Ensure air circulation quality, improve effect on moisture extraction, and can makes drying materials indoor temperature distribution uniform, and makes full use of the sensible heat of discharge gas to be preheated with latent heat to make-up gas, improves the drying unit thermal efficiency, it is ensured that drying effect.

Description

A kind of air can circulate baking room

Technical field

Air-source baking room manufacturing field is the utility model is related to, specifically a kind of air can circulate baking room.

Background technology

Big portion is required for desiccant dehumidification, special timber during present industrial production, food production and agricultural byproducts processing Drying, aquatic products drying, tobacco drying, Chinese herbal medicine drying, drying tea leaves etc..

Air-source baking room generally comprises drying room body at present and drying unit, the drying unit generally comprise dehumidifying group Part and heat exchanger assembly, heat exchange compressor assembly, dehumidifying component and heat exchanger assembly are respectively arranged in baking room body.It will dry Air in stove room body is heated by heat exchanger assembly, and the air of heating is delivered in baking room body.Meanwhile the sky of heating Gas by dehumidifying component remove among moisture, so as to reach drying high-temperature gas required in baking room body.

However, the baking room of traditional structure has the following disadvantages：

1) indoor heat-exchanging component and dehumidifying component are respectively arranged in the diverse location in the outside of drying room body, make drying room body Interior damp-heat is difficult to handle；

2) one group of exhausting unit is only installed, exhausting unit is typically mounted at a wherein side wall for drying room body in baking room body On, the temperature in baking room body is only relatively high close to the side of exhausting unit, and the position temperature of other drying room bodies is relatively low, high Warm air Cycle Difference, it is difficult to reach thermally equivalent in baking room body, especially larger drying room body, the effect of drying is worse.For This, can only increase drying heat, extend drying time, just material can be made to reach required drying effect, and drying efficiency is low, drying Cost is high；

3) that takes out dehumidifying component enters that air quantity is constant, causes the drying humidity in baking room body also constant, it is difficult to adapts to different Change needed for material and cause drying temperature and humidity in baking room body, use is single, and effect on moisture extraction is poor；And indoor heat exchange group Part carry out heat exchange continuous to air-source, although thermal source air constantly inputs to drying room body, due in baking room body Thermal source air constantly walks toward outside with circulation air, causes the temperature in baking room body to be difficult to improve, it is impossible to reach needed for material High temperature drying environment, reduce drying materials quality；

4) air entered in baking room body heats by drying unit, and the high-temperature gas after heating is by baking room body It is external that baking room is directly discharged to after drying materials.The gas of discharge still contains at a relatively high temperature, it is therefore apparent that this is high Sensible heat in wet body does not make full use of.Even more noteworthy, high-temperature gas can discharge largely in heat exchange Latent heat does not utilize then completely.Therefore, traditional baking room discharge gas mode easily causes the heat in baking room body to scatter and disappear sternly Weight, and need increasing drying unit heating power to heat make-up gas, otherwise it is difficult to the temperature for reaching material drying, shadow Ring drying effect.

The content of the invention

The purpose of this utility model is overcome the deficiencies in the prior art, there is provided a kind of air can circulate baking room, and it is tied Structure is simple, can make drying unit homonymy air intake, and the dehumidifying air quantity in controllable baking room body and air circulation and reach good Effect on moisture extraction, ensure dries quantity, and the sensible heat and latent heat of discharge gas can be made full use of, improve energy recovery efficiency, with Reach the thermal efficiency for improving drying unit, reduce drying time and also ensure that drying materials effect.

What goal of the invention of the present utility model was realized in：A kind of air can circulate baking room, including drying room body and Can to the drying unit of hot wind supply in baking room body, wherein, the baking room is provided with waste-heat recovery device, baking room in vitro Body includes heating source of the gas room, drying materials room and interlayer recovery air channel, and the drying dress of homonymy air intake is provided with heating source of the gas room Put, positive portion's circulated air unit, the sidepiece circulated air unit being provided with the drying materials room including can hot blast be uniformly distributed And top circulated air unit, the wind inlet end in interlayer recovery air channel are connected by top circulated air unit with drying materials room, interlayer The outlet air end for reclaiming air channel connects with heating source of the gas room, recovery hot-wind inlet end and the interlayer recovery wind of the waste-heat recovery device Road connects, and the recovery cold wind port of export of waste-heat recovery device connects with the air intake vent of drying unit, divides on the heating source of the gas room The fixation air quantity regulating part of adjustment drying unit dehumidifying air quantity is not installed and adjusts material drying chamber circulate in the wind amount Movable air quantity regulating part.

Optimized according to above-mentioned, the waste-heat recovery device includes heat exchange chamber, blast pipe and exhaust duct, blast pipe with Exhaust duct is installed on heat exchange chamber, and the heat exchange chamber carries air inlet, the exhaust outlet connected with blast pipe, exhaust duct, enters Adaptation is equipped with air inlet fan in airduct, and adaptation is equipped with exhaust blower, the outlet air end of the blast pipe and entering for drying unit on exhaust outlet Wind end connect, the air intake of exhaust duct with interlayer recovery air channel connect.

Optimized according to above-mentioned, the air inlet, heat exchange chamber, air inlet fan, blast pipe are formed into drying materials room The recuperation of heat air intake path of make-up gas is inputted, the exhaust duct, heat exchange chamber, exhaust blower, exhaust outlet form energy and recuperation of heat The recuperation of heat air draft path that air intake path crosses.

Optimized according to above-mentioned, the heating source of the gas room, positive portion's circulated air unit, sidepiece circulated air unit, material dry Dry chamber, top circulated air unit, interlayer reclaim air circulation path in the forming chamber of air channel.

Optimized according to above-mentioned, the heating source of the gas room be provided with the wind inlet end that can make drying unit, outlet air end respectively with The outlet air end in interlayer recovery air channel, the division board and sealing plate of the air intake connection of drying materials room, division board are arranged at drying The top of device is simultaneously connected with the outlet air end in interlayer recovery air channel, and sealing plate is sealedly attached to bottom and the heating gas of drying unit The junction of the internal face of source chamber.

Optimized according to above-mentioned, the positive portion circulated air unit is installed on the drying materials of corresponding drying unit outlet air end On the front side wall of room, the sidepiece circulating fan group is respectively arranged in the left side wall of drying materials room, on right side wall, the top Circulated air unit be installed on on the upper side wall rear end of the symmetrical drying materials room of positive portion's circulated air unit.

Optimized according to above-mentioned, the side interlayer air-supply in drying materials room both sides is additionally provided with the baking room body Road, side interlayer air delivery duct are connected with drying materials room, heating source of the gas room respectively, and the wind inlet end of side interlayer air delivery duct, which matches, to be provided with Movable air quantity regulating part.

Optimized according to above-mentioned, the fixed air quantity regulating part, which matches, is installed on the wind inlet end of drying unit.

Optimized according to above-mentioned, the drying unit includes containing the auxiliary hot indoor heat-exchanging component of electricity and contains condensate pipe Dehumidifying component, indoor heat-exchanging component and dehumidifying component be respectively arranged in heating source of the gas room, indoor heat-exchanging component be provided with exchange heat into Air port, dehumidifying component are provided with dehumidifying air intake vent, and heat exchange air intake vent is on the horizontal plane of the same side with dehumidifying air intake vent, the fixation Air quantity regulating part is installed on the dehumidifying air intake vent of dehumidifying component, and the outlet air end of dehumidifying component is separately installed with movable air quantity regulation Part.

Optimized according to above-mentioned, the indoor heat-exchanging component is mounted side by side in the both sides of dehumidifying component respectively, and indoor The blast pipe of the wind inlet end of heat-exchanging component, the wind inlet end of dehumidifying component respectively with interlayer recovery air channel, waste-heat recovery device enters Wind end connects.

The utility model has the advantage of：

1) drying unit, drying materials room are integrally installed in shell body, and exchange heat air intake vent and dehumidifying air intake vent are same On the horizontal plane of side, promote the homonymy air intake of the indoor heat-exchanging component and dehumidifying component of drying unit, ensure air circulation quality While improve effect on moisture extraction, it is ensured that dries quantity, ensure material sanitary edible safety；

2) by positive portion's circulated air unit, sidepiece circulated air unit, top circulated air unit structure, make drying room body Drying materials indoor temperature is uniformly distributed, and is heated evenly the material in drying materials room, while reduces drying time, is improved and is dried Dry efficiency, reduces drying cost；And coordinate the structure of air quantity controllable register, the air circulation in baking room body is can control, with Reach the demand of drying temperature, equally reduce drying time, dries quantity is effectively ensured；

3) can be according to the intake of the dehumidifying component of temperature control drying unit, so as to control using fixed air quantity regulating part Dehumidifying air quantity in baking room body, reaches good effect on moisture extraction；And the structure of cooperation activity air quantity regulating part, it can control drying Air circulation in room body, to reach the demand of drying temperature, the air quantity of dries quantity is effectively ensured；

4) gas of the discharge in baking room body is reclaimed by recuperation of heat switch, made containing the gas recovery having surplus heat Heat exchange is carried out in recuperation of heat switch with the cold air of supplement, makes full use of the sensible heat of discharge gas with latent heat to supplement Gas preheats, and improves the drying unit thermal efficiency, equally reduces drying time, reduces drying cost, while ensures that drying materials are imitated Fruit.

Brief description of the drawings

Accompanying drawing 1 is the stereogram of the utility model first embodiment.

Accompanying drawing 2 is the top view of the utility model first embodiment.

Accompanying drawing 3 is the sectional view of the utility model first embodiment.

Accompanying drawing 4 is the partial enlarged drawing of the utility model first embodiment.

Accompanying drawing 5 is the left view of the utility model first embodiment.

Accompanying drawing 6 is the sectional view of another angle of the utility model first embodiment.

Accompanying drawing 7 is the stereogram of the utility model second embodiment.

Embodiment

The utility model will be further described below in conjunction with the accompanying drawings.

With reference to the accompanying drawings shown in 1 to Fig. 6, air of the present utility model can circulate baking room, and it includes drying room body 1 and drying Device 2, drying unit 2 are installed in drying room body 1, are heated the air dried in room body 1 using drying unit 2, hot wind supply To in drying room body 1.

Wherein, the drying room body 1 includes heating source of the gas room 11, drying materials room 12 and interlayer recovery air channel 13.Heating The drying unit 2 of homonymy air intake is installed on source of the gas room 11.The drying unit 2 is included containing the auxiliary hot indoor heat-exchanging component 22 of electricity With dehumidifying component 21, indoor heat-exchanging component 22 is respectively arranged in heating source of the gas room 11 with dehumidifying component 21.In practical operation, institute Indoor heat-exchanging component 22 is stated to be mounted side by side respectively in the both sides of dehumidifying component 21, the wind inlet end of indoor heat-exchanging component 22, dehumidifying group The wind inlet end of part 21 connects with interlayer recovery air channel 13 respectively.Moreover, indoor heat-exchanging component 22 is provided with heat exchange air intake vent 24, dehumidifying Component 21 is provided with dehumidifying air intake vent 25, and the heat exchange air intake vent 24 is on the horizontal plane of the same side with dehumidifying air intake vent 25.

So, drying unit 2, drying materials room 12 are integrally installed in shell body, reduce installation site, and the inlet air that exchanges heat Mouth 24 and dehumidifying air intake vent 25 promote the indoor heat-exchanging component 22 and dehumidifying component 21 of drying unit 2 on the horizontal plane of the same side Homonymy air intake, ensure air circulation quality while improve effect on moisture extraction, it is ensured that dries quantity, ensure the sanitary edible of material Safety.

Period, condensate pipe 23 is installed on dehumidifying component 21, it is using condensate pipe 23 that indoor heat-exchanging component 22 is warm Condensed water is exclusive caused by exchange.Reduce the moisture in drying materials room 12, it is ensured that dries quantity.

Reference picture 3 is followed to shown in Fig. 6, being provided with the positive portion including can hot blast be uniformly distributed on the drying materials room 12 Ring blower fan group 4, sidepiece circulated air unit 5 and top circulated air unit 6.The positive portion circulated air unit 4 is installed on corresponding drying On the front side wall of the drying materials room 12 of the outlet air end of device 2, the sidepiece circulated air unit 5 is respectively arranged in drying materials room 12 Left side wall, on right side wall, the top circulated air unit 6 is installed on and positive 4 symmetrical drying materials room of portion's circulated air unit On 12 upper side wall rear end.

In actual applications, the wind inlet end in the interlayer recovery air channel 13 passes through top circulated air unit 6 and drying materials Room 12 connects, and the outlet air end in interlayer recovery air channel 13 connects with heating source of the gas room 11.The heating source of the gas room 11, which is provided with, can make baking The outlet air end with interlayer recovery air channel 13, the air intake of drying materials room 12 are connected wind inlet end, the outlet air end of equipment for drying 2 respectively Division board 15 and sealing plate 16, division board 15 are arranged at the top of drying unit 2 and connected with the outlet air end in interlayer recovery air channel 13 Connect, sealing plate 16 is sealedly attached to the bottom and the junction of the internal face of heating source of the gas room 11 of drying unit 2.

Using the respective outer side edges of division board 15 and sealing plate 16, heating source of the gas room 11, positive portion's circulated air unit 4, side can be made Portion's circulated air unit 5, drying materials room 12, top circulated air unit 6, interlayer reclaim air circulation path in the forming chamber of air channel 13 14.Accelerate the air circulation in drying room body 1, supply the dry-heat air of drying materials room 12 in time, promote in material drying chamber Even heat is distributed, and is heated evenly the material in drying materials room 12, extends the time that heat stops drying materials room 12, fills Divide and utilize heat, reduce drying time, improve drying efficiency, reduce drying cost.

In addition, the fixation air quantity that the adjustment dehumidifying air quantity of drying unit 2 is separately installed with the heating source of the gas room 11 is adjusted Save part 7 and adjust the movable air quantity regulating part 8 of the circulate in the wind amount of material drying chamber 12.The fixed air quantity regulating part 7 is installed In the dehumidifying air intake vent 25 of dehumidifying component 21, the fixed air quantity regulating part 7, which matches, is installed on the wind inlet end of drying unit 2.Profit Can be according to the intake of the dehumidifying component 21 of temperature control drying unit 2, so as to control drying room body with fixed air quantity regulating part 7 Dehumidifying air quantity in 1, reaches good effect on moisture extraction.And the movable air quantity regulating part 8 is installed on the air-out of dehumidifying component 21 End.In prioritization scheme, the side interlayer air delivery duct 17 in the both sides of drying materials room 12 is additionally provided with the drying room body 1.Side Interlayer air delivery duct 17 connects with drying materials room 12, heating source of the gas room 11 respectively, and the wind inlet end of side interlayer air delivery duct 17, which matches, pacifies Equipped with movable air quantity regulating part 8.By movable air quantity regulating part 8 regulation enter drying materials room 12 in air circulation, with up to To the demand of the drying temperature of drying materials room 12, particular for will higher drying temperature material, reduction enters drying materials Air circulation in room 12, drying temperature is improved, reduce drying time, dries quantity is effectively ensured.

Referring to figs. 1 to shown in Fig. 6, waste-heat recovery device 3 is installed outside the drying room body 1, indoor heat-exchanging component 22 Wind inlet end, dehumidifying component 21 wind inlet end respectively with interlayer recovery air channel 13, waste-heat recovery device 3 blast pipe 32 wind inlet end Connection.Wherein, the waste-heat recovery device 3 includes heat exchange chamber 31, blast pipe 32 and exhaust duct 33.Blast pipe 32 and exhaust duct 33 are installed on heat exchange chamber 31, and the heat exchange chamber 31 carries the air inlet 34 connected with blast pipe 32, exhaust duct 33, air draft Mouth 35.Moreover, adaptation is equipped with air inlet fan 36 in blast pipe 32, adaptation is equipped with exhaust blower 37, the blast pipe 32 on exhaust outlet 35 Outlet air end connected with the wind inlet end of drying unit 2, the air intake of exhaust duct 33 with interlayer recovery air channel 13 connect.Operation When, in the presence of air inlet fan 36, the air inlet 34, heat exchange chamber 31, air inlet fan 36, blast pipe 32 are formed to drying materials The recuperation of heat air intake path 9 of input make-up gas in room 12.In the presence of exhaust blower 37, the exhaust duct 33, heat exchange chamber 31st, exhaust blower 37, exhaust outlet 35 form the recuperation of heat air draft path 10 that can be crossed with recuperation of heat air intake path 9.

That is, according to needed for drying materials temperature, when conveying make-up gas to drying materials room 12, waste-heat recovery device 3 is transported OK.Period, make-up gas enter heating source of the gas room 11 by recuperation of heat air intake path 9.Meanwhile the inside points of drying materials room 12 Air channel 13 can be reclaimed containing the gas having surplus heat by way of interlayer and enters recuperation of heat air draft path 10, and waste heat gas is on recuperation of heat air draft road Intersection and make-up gas heat exchange of the footpath 10 with recuperation of heat air intake path 9.Dropped using the sensible heat and waste heat gas of waste heat gas The latent heat discharged when warm, realize and make-up gas is preheated, improve the thermal efficiency of drying unit 2, reduce drying time, reduction is dried into This, while ensure material drying effect.

It is worth noting that, waste-heat recovery device 3 also can apply to split type baking room, i.e. drying unit 2 is installed on baking Outside stove room body 1, waste-heat recovery device 3 is installed in drying room body 1, the recuperation of heat cold wind port of export of the waste-heat recovery device 3 The air intake of drying materials room 12 with drying room body 1 connects, the recuperation of heat hot-wind inlet end of waste-heat recovery device 3 and baking room The outlet air end connection of the drying materials room 12 of body 1, as shown in Figure 7.

Above-mentioned specific embodiment is only the preferable embodiment of the utility model effect, all and sky of the present utility model Gas can circulate the identical or equivalent structure of baking room, in the scope of protection of the utility model.

Claims (10)

1. a kind of air can circulate baking room, including drying room body (1) and the drying dress that can give drying room body (1) interior hot wind supply Put (2), it is characterised in that：Waste-heat recovery device (3) is installed, drying room body (1) includes heating gas outside the drying room body (1) Source chamber (11), drying materials room (12) and interlayer recovery air channel (13), heat the baking that homonymy air intake is provided with source of the gas room (11) Equipment for drying (2), be provided with the drying materials room (12) positive portion's circulated air unit (4) including can hot blast be uniformly distributed, Sidepiece circulated air unit (5) and top circulated air unit (6), the wind inlet end of interlayer recovery air channel (13) pass through top circulating fan Group (6) connects with drying materials room (12), and the outlet air end of interlayer recovery air channel (13) connects with heating source of the gas room (11), described remaining The recovery hot-wind inlet end of heat reclamation device (3) connects with interlayer recovery air channel (13), the recovery cold wind of waste-heat recovery device (3) The port of export is connected with the air intake vent of drying unit (2), and adjustment drying unit (2) is separately installed with heating source of the gas room (11) Dehumidify the fixation air quantity regulating part (7) of air quantity and the movable air quantity regulating part of regulation material drying chamber (12) circulate in the wind amount (8)。

2. air can circulate baking room according to claim 1, it is characterised in that：The waste-heat recovery device (3) includes heat Inverting chamber (31), blast pipe (32) and exhaust duct (33), blast pipe (32) are installed on heat exchange chamber (31) with exhaust duct (33), The heat exchange chamber (31) carries air inlet (34), the exhaust outlet (35) connected with blast pipe (32), exhaust duct (33), blast pipe (32) adaptation is equipped with air inlet fan (36) in, and adaptation is equipped with exhaust blower (37), the air-out of the blast pipe (32) on exhaust outlet (35) End connected with the wind inlet end of drying unit (2), the air intake of exhaust duct (33) with interlayer reclaim air channel (13) connect.

3. air can circulate baking room according to claim 2, it is characterised in that：The air inlet (34), heat exchange chamber (31), air inlet fan (36), blast pipe (32) form the recuperation of heat air intake path of the input make-up gas into drying materials room (12) (9), the exhaust duct (33), heat exchange chamber (31), exhaust blower (37), exhaust outlet (35) formed can be with recuperation of heat air intake path (9) the recuperation of heat air draft path (10) to cross.

4. air can circulate baking room according to claim 1, it is characterised in that：Heating source of the gas room (11), positive portion follow Ring blower fan group (4), sidepiece circulated air unit (5), drying materials room (12), top circulated air unit (6), interlayer recovery air channel (13) air circulation path (14) in forming chamber.

5. air can circulate baking room according to claim 4, it is characterised in that：Heating source of the gas room (11) is provided with and can made Wind inlet end, the outlet air end of drying unit (2) reclaim the outlet air end of air channel (13), the air intake of drying materials room (12) with interlayer respectively The division board (15) and sealing plate (16) of connection are held, division board (15) is arranged at the top of drying unit (2) and reclaimed with interlayer The outlet air end connection in air channel (13), sealing plate (16) are sealedly attached to bottom and heating source of the gas room (11) of drying unit (2) The junction of internal face.

6. air can circulate baking room according to claim 1, it is characterised in that：Positive portion's circulated air unit (4) installation In on the front side wall of the drying materials room (12) of corresponding drying unit (2) outlet air end, the sidepiece circulated air unit (5) is pacified respectively On left side wall, right side wall loaded on drying materials room (12), the top circulated air unit (6) is installed on and positive portion's circulating fan On the upper side wall rear end of the symmetrical drying materials room (12) of group (4).

7. air can circulate baking room according to claim 1, it is characterised in that：Place is additionally provided with the drying room body (1) In the side interlayer air delivery duct (17) of drying materials room (12) both sides, side interlayer air delivery duct (17) respectively with drying materials room (12), Source of the gas room (11) connection is heated, the wind inlet end of side interlayer air delivery duct (17), which matches, is provided with movable air quantity regulating part (8).

8. air can circulate baking room according to claim 6, it is characterised in that：The fixed air quantity regulating part (7) matches It is installed on the wind inlet end of drying unit (2).

9. air can circulate baking room according to any one of claim 1 to 7 claim, it is characterised in that：The baking Equipment for drying (2) includes the dehumidifying component (21) containing the auxiliary hot indoor heat-exchanging component (22) of electricity and containing condensate pipe (23), indoor Heat-exchanging component (22) and dehumidifying component (21) are respectively arranged in heating source of the gas room (11), indoor heat-exchanging component (22) be provided with exchange heat into Air port (24), dehumidifying component (21) are provided with dehumidifying air intake vent (25), and heat exchange air intake vent (24) is in same with dehumidifying air intake vent (25) On the horizontal plane of side, the fixed air quantity regulating part (7) is installed on the dehumidifying air intake vent (25) of dehumidifying component (21), dehumidifying component (21) outlet air end is separately installed with movable air quantity regulating part (8).

10. air can circulate baking room according to claim 9, it is characterised in that：The indoor heat-exchanging component (22) is respectively It is mounted side by side in the both sides of dehumidifying component (21), and the wind inlet end of indoor heat-exchanging component (22), the wind inlet end of dehumidifying component (21) The wind inlet end with interlayer recovery air channel (13), the blast pipe (32) of waste-heat recovery device (3) connects respectively.