CN107726770A - A kind of drying room structure heated using boiler exhaust gas - Google Patents

Abstract

The invention discloses a kind of drying room structure heated using boiler exhaust gas, include drying room body, hot-water heating system is provided with the left of drying room body, air heating apparatus is provided with the right side of drying room body, air heating apparatus is connected with boiler exhaust gas pipeline, its exhaust end is connected with drying room heating pipe, and drying room heating pipe is located on the big wall of drying room body, the inlet end connection of its afterbody and hot-water heating system.The drying structure heating source of the present invention is both from waste heat caused by boiler exhaust gas, drying room body can not only dry silk, silk quilt raw material, other raw materials can also be put into be dried, and air heating apparatus can also provide silk cocoon byproduct required hot-air, hot-water heating system can also be preheated using high-temperature tail gas caused by boiler itself to water simultaneously, then the water of preheating is evacuated in boiler again and continues heating generation steam, the time that boiler heating produces steam is shortened, so as to reduce the energy resource consumption of boiler.

Description

A kind of drying room structure heated using boiler exhaust gas

Technical field

The present invention relates to a kind of drying room structure, particularly a kind of drying room structure heated using boiler exhaust gas.

Background technology

China is used as silk big country, the custom for just having sericulture from ancient times.Until nowadays, people still carry over and be produced with silk cocoon The technique of silk.People will select silkworm after silk cocoon carry out cocoon cooking after, then carry out shell cocoon and remove the useless husks of silk cocoon outer layer, then Begin to carry out work of reeling off raw silk from cocoons, the silk cocoon after the completion of work of reeling off raw silk from cocoons, which can also be put into other process equipments, again add Work, so that the related raw material of silk quilt is prepared.And pass through the byproduct that finished silk cocoon carries over again and dry again Afterwards, it is also used as his way.Caused silk, silk quilt raw material and silk cocoon byproduct all need in the process of whole silk cocoon Dried.Existing enterprise is typically all that self-built baking room is dried, and these drying rooms are heated using electric power, Power consumption is than more serious.

And existing silk cocoon processing factory is required for using steam in process of production, and steam is produced by boiler It is raw.And existing boiler is all direct-fired cold water, so result in produce steam time it is longer, the energy of consumption also compares It is more.

Because the promotion of energy-conserving and environment-protective uses electrical heating, although the enterprise for having part still makes existing boiler It is briquette boiler.And briquette boiler can produce substantial amounts of high-temperature tail gas.How the high-temperature tail gas of this part to be used, Itself and boiler for producing steam and material drying are combined together well, are a problems for being worth exploring.

The content of the invention

It is an object of the present invention to provide a kind of drying room structure of waste gas heating.The drying room structure is entered using boiler exhaust gas Row heating, it is not necessary to expend other energy, but also various materials can be dried, while boiler feed water can also be entered Row preheating.

Technical scheme：A kind of drying room structure heated using boiler exhaust gas, includes drying room body, drying room sheet Hot-water heating system is provided with the left of body, air heating apparatus, air heating apparatus and boiler are provided with the right side of drying room body Smoke discharging pipe is connected, and its exhaust end is connected with drying room heating pipe, and drying room heating pipe is located on the wall of drying room body, its tail The inlet end of portion and hot-water heating system connects.

The foregoing drying room structure heated using boiler exhaust gas, the air heating apparatus include air heating room body, Air heating room body is a confined space, is divided into top layer, intermediate layer by upper and lower two layers of lateral partitions inside it And bottom, top layer are divided into top layer left chamber and top layer right chamber room further through top layer vertical baffle, intermediate layer be provided with more with Top layer and the blast pipe of bottom conducting, are provided with the air inlet being connected with boiler exhaust gas pipe at top layer right chamber room, at top layer left chamber Provided with exhaust outlet, air intlet and air outlet slit are provided with the side wall in intermediate layer, air outlet slit is connected with pipeline.

The foregoing drying room structure heated using boiler exhaust gas, the intermediate layer are divided into left and right two by intermediate layer dividing plate Individual chamber, air stream port is provided with the dividing plate of intermediate layer, air intlet and air outlet slit are separately positioned on two different chambers On room.

The foregoing drying room structure heated using boiler exhaust gas, the air intlet are arranged on the front side wall in intermediate layer, Air outlet slit is arranged on the rear wall in intermediate layer.

The foregoing drying room structure heated using boiler exhaust gas, the air intlet are arranged on the upper of the front side wall in intermediate layer Side, air outlet slit are arranged on the top of the rear wall in intermediate layer, and air stream port is arranged on the lower section of intermediate layer dividing plate.

The foregoing drying room structure heated using boiler exhaust gas, tubaeform wind-collecting cover is provided with the air intlet, it is adjacent Spacing between blast pipe is 10-25cm.

The foregoing drying room structure heated using boiler exhaust gas, the hot-water heating system include housing, and enclosure interior is led to Two pieces of horizontal baffles for crossing upper and lower setting are separated three independent regions, from top to bottom respectively top inlet and outlet area, Middle part storage area and bottom air Circulation Area, top inlet and outlet area are divided into left side exhaust area and the right side by top vertical dividing plate Side air inlet area, wherein be provided with Waste gas outlet at the exhaust area of left side, right side air inlet area is provided with waste gas inlet port, in the storage area of middle part The breather line of more connection top inlet and outlet areas and bottom air Circulation Area is provided with, is additionally provided with the storage area of middle part Inlet channel and the suction pump being connected with boiler.

The foregoing drying room structure heated using boiler exhaust gas, being provided with middle part vertical clapboard in the middle part storage area will It is divided into two chambers, and inlet channel and suction pump are separately positioned in two chambers, the water of middle part vertical clapboard and top Spacing between flat partition board be present.

The foregoing drying room structure heated using boiler exhaust gas, the inlet channel are located at middle part storage area left chamber Lower section, suction pump are located at the top of middle part storage area right chamber, and its installation site is less than the top of middle part vertical clapboard.

The foregoing drying room structure heated using boiler exhaust gas, spacing≤10cm between adjacent breather line.

Beneficial effects of the present invention：Compared with prior art, drying structure heating source of the invention is both from boiler tail Waste heat caused by gas, drying room body can not only dry silk, silk quilt raw material, can also be put into other raw materials and be dried, And air heating apparatus can also provide silk cocoon byproduct required hot-air, while hot-water heating system can also utilize boiler High-temperature tail gas caused by itself is preheated to water, and then the water of preheating is evacuated in boiler again and continues heating generation steam, contracting Short boiler heating produces the time of steam, and so as to reduce the energy resource consumption of boiler, whole drying room structure can be realized a variety of Purposes, and the energy need not be consumed, economic expenditure has been saved for enterprise, has realized the benefit of enterprise.

Brief description of the drawings

Accompanying drawing 1 is the structural representation of the present invention；

Accompanying drawing 2 is the structural representation of air heating apparatus；

Accompanying drawing 3 is the overlooking the structure diagram of accompanying drawing 2；

Accompanying drawing 4 is the structural representation of the intermediate layer dividing plate of air heating apparatus；

Accompanying drawing 5 is the structural representation of hot-water heating system；

Reference：1- drying room bodies, 2- hot-water heating systems, 3- air heating apparatus, 4- drying room heating pipes, the heating of 5- air Room body, 6- lateral partitions, 7- top layers, 71- top layers left chamber, 72- top layer right chambers room, 8- intermediate layers, 9- bottoms, 10- top layers erect To dividing plate, 11- pipelines, 12- blast pipes, 13- air inlets, 14- exhaust outlets, 15- air intlets, 16- air outlet slits, among 17- Layer dividing plate, 18- air stream ports, 19- is tubaeform collection air port, 20- housings, 21- horizontal baffles, 22- tops inlet and outlet area, 23- Middle part storage area, 24- bottom airs Circulation Area, 25- left sides exhaust area, 26- right sides air inlet area, 27- Waste gas outlets, 28- give up Gas inlet port, 29- breather lines, 30- inlet channels, 31- suction pumps, 32- top vertical dividing plates, 33- middle parts vertical clapboard.

Embodiment

The present invention is further illustrated with reference to the accompanying drawings and examples, but be not intended as to the present invention limit according to According to.

Embodiments of the invention：A kind of drying room structure heated using boiler exhaust gas, as shown in accompanying drawing 1-5, includes baking Room body 1, the left side of drying room body 1 are provided with hot-water heating system 2, and the right side of drying room body 1 is provided with air heating apparatus 3, Air heating apparatus 3 is connected with boiler exhaust gas pipeline, and its exhaust end is connected with drying room heating pipe 4, and drying room heating pipe 4 is located at On the wall of drying room body 1, its afterbody is connected with the inlet end of hot-water heating system 2.

During use, boiler high temperature tail gas is first into air heating apparatus 3, and the heat that high-temperature tail gas distributes is real Now to the heating of the cold air in air heating apparatus 3, and the air after heating can be evacuated to silk cocoon pair in the presence of air exhauster Silk cocoon byproduct is dried in product drying unit.And due to being provided with drying room heating pipe 4 in drying room body 1, high temperature Tail gas by drying room body 1 therefrom by that so the temperature of drying room body 1 can be improved, can realize the silkworm obtained to processing Silk and silk quilt raw material are dried., can be to the cold water that is stored therein in after high-temperature tail gas is entered in hot-water heating system 2 Preheated, the warm water after preheating heats in boiler is delivered to produces steam, so as to shorten the time caused by steam.Drying room sheet Body 1 is arranged between hot-water heating system 2 and air heating apparatus 3, can be realized by 2 heaters to drying room body 1 Surround, to ensure the high temperature of drying room body 1.

The air heating apparatus 3 includes air heating room body 5, and air heating room body 5 is a confined space, in it Portion is divided into top layer 7, intermediate layer 8 and bottom 9 by upper and lower two layers of lateral partitions 6, and top layer 7 is vertical further through top layer Dividing plate 10 is divided into top layer left chamber 71 and top layer right chamber room 72, and intermediate layer 8 is provided with more and turned on top layer 7 and bottom 9 Blast pipe 12, the air inlet 13 be connected with boiler exhaust gas pipe is provided with top layer right chamber room 72, is provided with and is vented at top layer left chamber 71 Mouth 14, is provided with air intlet 15 and air outlet slit 16, air outlet slit 16 is connected with pipeline 11 in the side wall in intermediate layer 8.

The present apparatus starts the air exhauster being attached thereto, air exhauster in use, silk cocoon byproduct is poured into drying unit Other end is connected through pipeline 11 with air heating apparatus 3, and the suction of air exhauster acts on air heating apparatus 3 by pipeline 11 In.And in air heating apparatus 3, the high-temperature tail gas of boiler exhaust gas pipe discharge is entered in top layer right chamber room 72 from air inlet 13, By the stop of top layer vertical baffle 10, then enter from the head end of blast pipe 12 connected with top layer right chamber room 72, flow downward Enter in bottom 9, then enter in the blast pipe 12 of another part, finally enter to top layer left chamber from bottom 9 again In room 71, then discharged at exhaust outlet 14.And high-temperature tail gas, when being circulated in blast pipe 12, its heat can radiate to surrounding Exterior space in, so as to which the air of exterior space be heated.And the air that the suction of air exhauster will can be heated in intermediate layer 8 Siphon away, the air of heating is entered in silk cocoon byproduct drying unit by pipeline 11 to be heated to silk cocoon byproduct, in intermediate layer 8 While the air of heating is absorbed, outside air is then entered in intermediate layer 8 by air intlet 15 and is heated again, So move in circles.

The intermediate layer 8 is divided into left and right two chambers by intermediate layer dividing plate 17, is set on intermediate layer dividing plate 17 free Air-flow port 18, air intlet 15 and air outlet slit 16 are separately positioned on two different chambers.When air is from air intlet 16 when entering the right chamber in intermediate layer 8, then is entered by air stream port 18 in the left chamber in intermediate layer 8, again Air outlet slit 16 in left chamber is entered in the pipeline of air exhauster connection.Be arranged such is to ensure air in intermediate layer In 8 from enter discharge have enough currencies, can fully be heated.It is too short to avoid enter into efflux time, air without Method is heated.

The air intlet 15 is arranged on the front side wall in intermediate layer 8, and air outlet slit 16 is arranged on the rear wall in intermediate layer 8 On.Be arranged such may further ensure that air in intermediate layer 8 from enter discharge have enough currencies, can be abundant It is heated.It is too short to avoid enter into efflux time, air can not be heated.

The air intlet 15 is arranged on the top of the front side wall in intermediate layer 8, after air outlet slit 16 is arranged on intermediate layer 8 The top of side wall, air stream port 18 are arranged on the lower section of intermediate layer dividing plate 17.This setting can better ensure that air in In interbed 8 from enter discharge have enough currencies, can fully be heated.It is too short to avoid enter into efflux time, it is empty Gas can not be heated.

Tubaeform wind-collecting cover 19 is provided with the air intlet 16, the setting is to be able to preferably absorb greatly from outside The air of amount is entered in intermediate layer 8.Be not simply to expand air intlet 16, if air intlet 16 be open it is excessive, when When air exhauster 3 does not work, heat scatters and disappears also than more serious.While the setting is to ensure that heat does not scatter and disappear, and can is enough big Amount suction air.Spacing between adjacent gas outlets 12 is 10-25cm.The spacing can ensure the high-temperature tail gas in blast pipe 12 While fully heating to the air in intermediate layer 8, it will not arrange too intensive and stop in intermediate layer 8 because of blast pipe 12 again The circulation of air.

The hot-water heating system 2 includes housing 20, will by two pieces of horizontal baffles 21 of upper and lower setting inside housing 20 It separates three independent regions, from top to bottom respectively top inlet and outlet area 22, middle part storage area 23 and bottom air circulation Area 24, top inlet and outlet area 22 are divided into left side exhaust area 25 and right side air inlet area 26 by top vertical dividing plate 32, wherein left Waste gas outlet 27 is provided with side exhaust area 25, right side air inlet area 26 is provided with waste gas inlet port 28, set in middle part storage area 23 There is the breather line 29 of more connection top inlet and outlet areas 22 and bottom air Circulation Area 24, also set in middle part storage area 23 It is equipped with inlet channel 30 and the suction pump being connected with boiler 31.

The present invention is stored in use, being beaten cold water into middle part storage area 23 by inlet channel 30, and boiler produces High-temperature tail gas by being entered after drying room heating pipe 4 in waste gas inlet port 28, after the stop by top vertical dividing plate 32, Enter in breather line 29 from the import of breather line 29 turned on right side air inlet area 26, circulated then into bottom air In area 24, then the bottom opening of the breather line 29 from another part is entered in breather line 29, enters finally into left side Exhaust area 25, then discharged from Waste gas outlet 27.The whole process of circulation collects, the heat of the high-temperature tail gas in breather line 29 It will distribute into middle part storage area 23, so as to be heated to the water in middle part storage area 23.Water after heating is again by taking out Water pump 31 is evacuated in boiler to be heated again, and because early stage is by preliminary preheating, therefore the time of subsequent heat to steam will Shorten.

Middle part vertical clapboard 33 is provided with the middle part storage area 23 and is divided into two chambers, the He of inlet channel 30 Suction pump 31 is separately positioned in two chambers, spacing be present between the horizontal baffle 21 of middle part vertical clapboard 33 and top.Should Setting is to be taken away in order to avoid water is just entered in the storage area 23 of middle part from inlet channel 30 by suction pump 31, can not be realized Pre- hot function.And inlet channel 30 and suction pump 31 are separately positioned in two chambers, when can make it that water has enough preheatings Between, just can be vertical from middle part when current enter from a chamber is slowly increased to concordant with the top plate of middle part vertical clapboard 33 Space between dividing plate 33 and the horizontal baffle of top 21 flows into another chamber of middle part storage area 23.In whole process, Can make it that current are sufficiently heated.

The inlet channel 30 is located at the lower section of middle part storage area 23 left chamber, and suction pump 31 is located at middle part storage area 23 The top of right chamber, its installation site are less than the top of middle part vertical clapboard 33.The setting can cause water in middle part water storage Sufficiently heated in area 23, pre-heat effect is more preferable.

Spacing≤10cm between adjacent breather line 29.The spacing can enable the high-temperature tail gas in breather line 29 Water in the middle part of the heating of enough maximal efficiencies in storage area 23.

Claims (10)

1. A kind of 1. drying room structure heated using boiler exhaust gas, it is characterised in that：Include drying room body（1）, drying room body（1） Left side be provided with hot-water heating system（2）, drying room body（1）Right side be provided with air heating apparatus（3）, air heating apparatus （3）It is connected with boiler exhaust gas pipeline, its exhaust end and drying room heating pipe（4）Connection, drying room heating pipe（4）It is located at drying room sheet Body（1）Wall on, its afterbody and hot-water heating system（2）Inlet end connection.
2. 2. the drying room structure according to claim 1 heated using boiler exhaust gas, it is characterised in that：The air heating dress Put（3）Include air heating room body（5）, air heating room body（5）Pass through upper and lower two layers for a confined space, inside it Lateral partitions（6）It is divided into top layer（7）, intermediate layer（8）And bottom（9）, top layer（7）Further through top layer vertical baffle （10）It is divided into top layer left chamber（71）With top layer right chamber room（72）, intermediate layer（8）It is provided with more and top layer（7）And bottom （9）The blast pipe of conducting（12）, top layer right chamber room（72）Place is provided with the air inlet being connected with boiler exhaust gas pipe（13）, top layer left chamber Room（71）Place is provided with exhaust outlet（14）, in intermediate layer（8）Side wall be provided with air intlet（15）And air outlet slit（16）, air Outlet（16）With pipeline（11）Connection.
3. 3. the drying room structure according to claim 2 heated using boiler exhaust gas, it is characterised in that：The intermediate layer（8） Pass through intermediate layer dividing plate（17）It is divided into left and right two chambers, intermediate layer dividing plate（17）On be provided with air stream port（18）, it is empty Gas import（15）And air outlet slit（16）It is separately positioned on two different chambers.
4. 4. the drying room structure according to claim 3 heated using boiler exhaust gas, it is characterised in that：The air intlet （15）It is arranged on intermediate layer（8）Front side wall on, air outlet slit（16）It is arranged on intermediate layer（8）Rear wall on.
5. 5. the drying room structure according to claim 4 heated using boiler exhaust gas, it is characterised in that：The air intlet （15）It is arranged on intermediate layer（8）Front side wall top, air outlet slit（16）It is arranged on intermediate layer（8）Rear wall top, Air stream port（18）It is arranged on intermediate layer dividing plate（17）Lower section.
6. 6. the drying room structure according to claim 2 heated using boiler exhaust gas, it is characterised in that：The air intlet （16）Place is provided with tubaeform wind-collecting cover（19）, adjacent gas outlets（12）Between spacing be 10-25cm.
7. 7. the drying room structure according to claim 1 heated using boiler exhaust gas, it is characterised in that：The hot-water heating system （2）Include housing（20）, housing（20）Internal two pieces of horizontal baffles by upper and lower setting（21）Separated three independences Region, from top to bottom respectively top inlet and outlet area（22）, middle part storage area（23）With bottom air Circulation Area（24）, on Inlet and outlet area of portion（22）Pass through top vertical dividing plate（32）It is divided into left side exhaust area（25）With right side air inlet area（26）, wherein Left side exhaust area（25）Place is provided with Waste gas outlet（27）, right side air inlet area（26）Provided with waste gas inlet port（28）, middle part water storage Area（23）Inside it is provided with more connection top inlet and outlet areas（22）With bottom air Circulation Area（24）Breather line（29）, Middle part storage area（23）In be additionally provided with inlet channel（30）The suction pump being connected with boiler（31）.
8. 8. the drying room structure according to claim 7 heated using boiler exhaust gas, it is characterised in that：The middle part storage area （23）In be provided with middle part vertical clapboard（33）It is divided into two chambers, inlet channel（30）And suction pump（31）Set respectively Put in two chambers, middle part vertical clapboard（33）With the horizontal baffle of top（21）Between spacing be present.
9. 9. the drying room structure according to claim 8 heated using boiler exhaust gas, it is characterised in that：The inlet channel （30）It is located at middle part storage area（23）The lower section of left chamber, suction pump（31）It is located at middle part storage area（23）Right chamber it is upper Side, its installation site are less than middle part vertical clapboard（33）Top.
10. 10. the drying room structure according to claim 7 heated using boiler exhaust gas, it is characterised in that：Adjacent breather line （29）Between spacing≤10cm.