CN206146124U - Baking house of hydrofuge heat energy reutilization - Google Patents

Abstract

The utility model discloses a baking house of hydrofuge heat energy reutilization, including the baking house outer wall, install intramural baking house inner bag in the baking house outside, install heat source and circulating fan at the baking house inner bag, advance the fresh wind tube with the baking house inner bag is linked together, install the fresh air valve on advancing the fresh wind tube, the top of baking house inner bag be equipped with with the inside first hydrofuge wind gap that is linked together of baking house inner bag, form the confession insulation sandwich that hot air flow moved that wets between baking house outer wall and the baking house inner bag outer wall, still include the waste heat recovery heat exchanger who is linked together with insulation sandwich. When toasting, after damp and hot air is full of insulation sandwich to the hot -air that utilizes dumped hydrofuge keeps warm to the baking house, and the inside heat of the baking house that can significantly reduce spreads to the outside, reaches the purpose of energy saving, realizes the once utilization of hydrofuge heat energy. The heat exchange takes place through waste heat recovery heat exchanger with the new trend for unnecessary damp and hot air, reaches hydrofuge heat recovery's purpose, realizes the reutilization of hydrofuge heat energy.

Description

The drying room that a kind of dehumidifying heat-energy secondary is utilized

Technical field

This utility model is related to the insulation of drying room, is to be related to the insulation of dehumidifying heat energy and reclaim secondary utilization more specifically Drying room.

Background technology

Traditional drying room, when dehumidifying is dried, its damp-heat air is often directly drained, or is returned using total-heat exchanger Receive, utilizing status are poor.

Drying room thermal loss is objective reality, if more by baking material moisture, dehumidifying heat energy is once using being difficult With what is made full use of.

Utility model content

The purpose of this utility model is to overcome drawbacks described above of the prior art, there is provided a kind of discarded dehumidifying of utilization Hot-air is incubated to drying room, heats to entering fresh air, can greatly reduce drying room internal heat and be diffused into outside, reclaims energy Source, reaches energy saving, and the drying room that a kind of high dehumidifying heat-energy secondary of heat utilization efficiency is utilized.

For achieving the above object, the technical scheme that this utility model is provided is as follows：

The drying room that a kind of dehumidifying heat-energy secondary is utilized, including drying room outer wall are provided, are installed in the drying room in drying room outer wall Gallbladder, is installed in the thermal source and circulating fan of drying room inner bag, and with drying room inner bag is connected fresh wind tube is entered, and is installed in on fresh wind tube New air-valve, be provided with the top of the drying room inner bag and the first row wet wind mouth being connected inside drying room inner bag, outside the drying room The heat preservation sandwich layer for damp-heat air flowing is formed between wall and drying room inner bladder outer wall, also includes the waste heat being connected with heat preservation sandwich layer Recovery heat exchanger, the heat recovery heat exchanger is provided with second row wet wind mouth, the heat recovery heat exchanger be set in into On fresh wind tube.

Used as preferred, in above-mentioned technical proposal, the heat recovery heat exchanger is arranged on the bottom of drying room outer wall.

As preferred, in above-mentioned technical proposal, in the first row wet wind mouth wet-emitting blower is equiped with.

Used as preferred, in above-mentioned technical proposal, the drying room outer wall is hollow structure.

Compared with prior art, the beneficial effects of the utility model are：By between drying room outer wall and drying room inner bag The heat preservation sandwich layer for damp-heat air flowing is formed, also includes the heat recovery heat exchanger being connected with heat preservation sandwich layer.During baking, Thermal source and circulating fan start, and temperature is raised, by water evaporates in baking material, when humidity is increased to humidity set point in drying room, New air-valve is opened, and wet-emitting blower starts, and the humid air of heat enters heat preservation sandwich layer by the first moisture exhausting port.When damp-heat air is full of guarantor After warm interlayer, so as to be incubated to drying room using the hot-air of discarded dehumidifying, hot-air and the drying room inner bag temperature of dehumidifying Difference is little, and because the temperature difference is the power of heat transfer, the temperature difference is little, can greatly reduce drying room internal heat and be diffused into outside, reaches saving The purpose of the energy, realizes the once utilization of dehumidifying heat energy.Unnecessary damp-heat air is sent out through heat recovery heat exchanger with fresh air Heat is exchanged, and reaches the purpose of dehumidifying energy recovery, realizes the secondary utilization of dehumidifying heat energy, and energy saving reduces dehumidifying heat right The destruction of environment.

The drying room that a kind of dehumidifying heat-energy secondary described in the utility model is utilized is made with reference to the accompanying drawings and examples into One step explanation.

Description of the drawings

Fig. 1 is the assembly structure diagram of the drying room that a kind of dehumidifying heat-energy secondary described in the utility model is utilized.

Specific embodiment

The preferred example of the drying room that a kind of dehumidifying heat-energy secondary described in the utility model is utilized is the following is, is not therefore limited Fixed protection domain of the present utility model.

Fig. 1 is refer to, the drying room that a kind of dehumidifying heat-energy secondary is utilized, including drying room outer wall 1 are shown in figure, be installed in baking Drying room inner bag 2 in room outer wall 1, is installed in the thermal source 3 and circulating fan 4 of drying room inner bag 2, with entering that drying room inner bag 2 is connected Fresh wind tube 5, is installed in into the new air-valve 6 on fresh wind tube 5, and the top of the drying room inner bag 2 is provided with and is connected with the inside of drying room inner bag 2 Logical first row wet wind mouth 7, forms the thermal insulation clamp for damp-heat air flowing between the drying room outer wall 1 and the outer wall of drying room inner bag 2 Layer 8, also includes the heat recovery heat exchanger 11 being connected with heat preservation sandwich layer 8, and the heat recovery heat exchanger 11 is provided with second Dehumidifying air port 9, the heat recovery heat exchanger 11 is set in on fresh wind tube 5.During baking, thermal source 3 and circulating fan 4 are opened Dynamic, temperature is raised, and by water evaporates in baking material, when humidity is increased to humidity set point in drying room, new air-valve 6 is opened, dehumidifying Blower fan 10 starts, and the humid air of heat enters heat preservation sandwich layer 8 by the first moisture exhausting port 7.After damp-heat air is full of heat preservation sandwich layer 8, So as to be incubated to drying room using the hot-air of discarded dehumidifying, the hot-air of dehumidifying is little with the temperature difference of drying room inner bag 2, by It is the power of heat transfer in the temperature difference, the temperature difference is little, can greatly reduce drying room internal heat and be diffused into outside, reaches the mesh of energy saving , realize the once utilization of dehumidifying heat energy.There is heat with fresh air and hand in unnecessary damp-heat air through heat recovery heat exchanger 11 Change, reach the purpose of dehumidifying energy recovery, realize the secondary utilization of dehumidifying heat energy, energy saving reduces dehumidifying heat to environment Destruction.

Preferably, in the present embodiment, the heat recovery heat exchanger 11 is arranged on the bottom of drying room outer wall 1, Make full use of damp-heat air rise insulation, lower temperature air sink, finally from second row wet wind mouth 9 discharge be lower temperature Humid air.

Preferably, in the present embodiment, wet-emitting blower 10 is equiped with the first row wet wind mouth 7, by dehumidifying Blower fan 10 is discharged to the damp-heat air in drying room inner bag 2 in heat preservation sandwich layer 8.

Preferably, in the present embodiment, the drying room outer wall 1 be hollow structure, the guarantor that can further improve drying room Temp effect.

This utility model is incubated using the damp-heat air in heat preservation sandwich layer 8 to drying room, the damp and hot sky in heat preservation sandwich layer 8 Gas is little with the temperature difference of drying room inner bag 2, and because the temperature difference is the power of heat transfer, the temperature difference is little, can greatly reduce the expansion of drying room internal heat Outside is scattered to, the purpose of energy saving is reached, the once utilization of dehumidifying heat energy is realized.

There is heat exchange in unnecessary damp-heat air, reach dehumidifying heat energy and return through heat recovery heat exchanger 11 with fresh air The purpose of receipts, realizes the secondary utilization of dehumidifying heat energy.Energy saving, reduces destruction of the dehumidifying heat to environment.

Principle of the present utility model is as follows：

Ti ≈ Tm ＞ To.

In formula；Ti represent in temperature in drying room inner bag；

Tm represent in temperature in heat preservation sandwich layer；

To represent in temperature outside drying room outer wall.

Because the temperature difference is the power of heat transfer, by arranging heat preservation sandwich layer 8, Tm ≈ Ti are made, therefore by drying room inner bag to insulation Dispersion heat is considerably less in interlayer 8, i.e., the damp-heat air discharged from drying room inner bag 2 has heat insulation effect；Tm ＞ To, therefore heat preservation sandwich layer Radiate larger, the heat of the partial loss of heat preservation sandwich layer 8 of drying room to outside drying room for 8 parts, the damp-heat air discharged by drying room inner bag 2 Continually supplement.

Above-described embodiment is this utility model preferably embodiment, but embodiment of the present utility model is not by above-mentioned The restriction of embodiment, it is other it is any without departing from the change made under spirit of the present utility model and principle, modify, replace Generation, combination, simplification, should be equivalent substitute mode, be included within protection domain of the present utility model.

Claims (4)

1. the drying room that a kind of dehumidifying heat-energy secondary is utilized, it is characterised in that：Including drying room outer wall (1), drying room outer wall (1) is installed in Interior drying room inner bag (2), is installed in the thermal source (3) and circulating fan (4) of drying room inner bag (2), is connected with drying room inner bag (2) Enter fresh wind tube (5), be installed in into the new air-valve (6) on fresh wind tube (5), be provided with the top of the drying room inner bag (2) with drying room First row wet wind mouth (7) being connected inside gallbladder (2), forms for wet between the drying room outer wall (1) and drying room inner bag (2) outer wall The heat preservation sandwich layer (8) of hot-air flowing, also includes the heat recovery heat exchanger (11) being connected with heat preservation sandwich layer (8), and this is remaining Heat recovery heat exchanger (11) is provided with second row wet wind mouth (9), and the heat recovery heat exchanger (11) is set in into fresh wind tube (5) on.

2. the drying room that a kind of dehumidifying heat-energy secondary according to claim 1 is utilized, it is characterised in that：The waste heat recovery heat Exchanger (11) is arranged on the bottom of drying room outer wall (1).

3. the drying room that a kind of dehumidifying heat-energy secondary according to claim 1 is utilized, it is characterised in that：The first row wet wind Wet-emitting blower (10) is equiped with mouth (7).

4. the drying room that a kind of dehumidifying heat-energy secondary according to claim 1 is utilized, it is characterised in that：The drying room outer wall (1) it is hollow structure.