CN105910449A - Efficient heat energy utilization structure of dehumidification area on ceramic kiln - Google Patents

Abstract

The invention discloses an efficient heat energy utilization structure of a dehumidification area on a ceramic kiln. A box body type dehumidification channel is formed in the upper part of a dehumidification area kiln; multiple dehumidification through pipes are arranged between the dehumidification channel and an inner cavity of the dehumidification area kiln at intervals; each dehumidification through pipe is communicated with multiple sets of upper connecting pipes along the dehumidification area kiln; each set of upper connecting pipes extends to the top of the dehumidification channel to communicate with the dehumidification channel; multiple sets of dehumidification group pipes are arranged in the inner cavity of the dehumidification kiln; each set of dehumidification group pipes includes multiple lower dehumidification pipes and multiple upper dehumidification pipes; the multiple upper dehumidification pipes are respectively communicated with all the dehumidification through pipes by insulation separation layers; the multiple lower dehumidification pipes are respectively communicated with the multiple lower connecting pipes; and the multiple lower connecting pipes are respectively communicated with the dehumidification channel by conveying pipes upwards extending from the front side or the back side or the front and back two sides of the dehumidification area kiln. The structure is excellent in dehumidification effect and higher in heat utilization rate, can effectively stop the heat dissipation, and realizes excellent energy saving and environmental protecting effects.

Description

On ceramic kiln, the efficient heat energy in dehumidifier district utilizes structure

Technical field

The present invention relates to ceramic kiln, on a kind of ceramic kiln, the efficient heat energy in dehumidifier district utilizes structure.

Background technology

Ceramic kiln include successively dry section, dehumidifier district, preheating zone, firing zone, chilling district, slow cooling district and The fast cold-zone of kiln tail, dehumidifier pipeline set on existing dehumidifier district kiln is less, and dehumidifier effect is general, meanwhile, The damp and hot waste gas that comprehensively utilizes of carrying out extracted out from dehumidifier district, by the top pipeline of dehumidifier district kiln, With in the state of extraneous air generation heat exchange transmit, can produce amount of heat scatter and disappear, and can transmit time from In pipeline, a small amount of waste gas of seepage, pollutes air.

Summary of the invention

The technical problem to be solved in the present invention, the efficient heat energy being to provide dehumidifier district on a kind of ceramic kiln utilizes Structure, dehumidifier is respond well, and heat utilization efficiency is higher, can effectively stop heat to scatter and disappear, it is achieved good is energy-conservation And environment protecting.

For solving above-mentioned technical problem, the technical scheme is that dehumidifier district on a kind of ceramic kiln of offer Efficient heat energy utilize structure, along the top of dehumidifier district kiln, be provided with the dehumidifier passage of box-type, dehumidifier lead to Between the inner chamber of road and dehumidifier district kiln, it is interval with some the dehumidifier siphunculus extended along dehumidifier district kiln, Every dehumidifier siphunculus all connects along dehumidifier district kiln with connecting tube on some groups, and often the upper connecting tube of group all extends to The top of dehumidifier passage is in communication；

Inner chamber along dehumidifier district kiln is provided with some groups of dehumidifier group pipes, and often group dehumidifier group Guan Jun includes under some Dehumidifier pipe, and some the upper dehumidifier pipes that quantity is identical with dehumidifier siphunculus, some upper dehumidifier Guan Junjing protect Temperature interlayer connects with each dehumidifier siphunculus respectively, and some lower dehumidifier pipes connect with some lower connecting tubes respectively, Some lower connecting tubes respectively on front side of dehumidifier district kiln or rear side or the pipe of the upwardly extending conveying in both sides front and back, With dehumidifier channel connection.

On ceramic kiln as above, the efficient heat energy in dehumidifier district utilizes structure, the top of dehumidifier district kiln, Be provided with and dehumidifier channel connection the dehumidifier house steward that is connected with blower fan, dehumidifier house steward with on dry section kiln Dehumidifier communication.

On ceramic kiln as above, the efficient heat energy in dehumidifier district utilizes structure, along the bottom of dehumidifier district kiln, Be provided with the hot gas path of some, the head and the tail of all hot gas paths, respectively with on dry section, preheating zone Hot gas path connects.

On ceramic kiln as above, the efficient heat energy in dehumidifier district utilizes structure, every upper connecting tube, lower company Adapter and conveying pipe on, be equipped with can automatic or manual regulate damp and hot waste gas extracted amount control valve.

On above-mentioned ceramic kiln, the efficient heat energy in dehumidifier district utilizes structure, owing to being simultaneously provided with some upper dehumidifiers Pipe and lower dehumidifier pipe, dehumidifier is respond well, simultaneously as be provided with dehumidifier passage, that extracts out from dehumidifier district is wet Hot waste gas, can carry out closing and transmit, it is to avoid thermal loss, and heat utilization efficiency is higher, can realize good energy-conservation And environment protecting.

Accompanying drawing explanation

The present invention is further detailed explanation with detailed description of the invention below in conjunction with the accompanying drawings.

Fig. 1 is the schematic front view of described embodiment；

Fig. 2 is that the A-A of Fig. 1 is to sectional view；

Fig. 3 is that the B-B of Fig. 1 is to sectional view；

Fig. 4 is the connection diagram of all upper connecting tubes and dehumidifier channel roof；

Fig. 5 is the connection diagram of all lower connecting tubes and conveying pipe.

Detailed description of the invention

See Fig. 1-Fig. 5, it is provided that on a kind of ceramic kiln, the efficient heat energy in dehumidifier district utilizes structure, furnace Stove includes dry section, dehumidifier district, preheating zone, firing zone, chilling district, slow cooling district and the fast cold-zone of kiln tail successively, Along the top of dehumidifier district kiln, being provided with the dehumidifier passage 1 of box-type, dehumidifier passage 1 is interior with dehumidifier district kiln Between chamber, being interval with five dehumidifier siphunculus 2 extended along dehumidifier district kiln, all dehumidifier siphunculus 2 is along dehumidifier District's kiln connects with connecting tube 3 on some groups, and often the upper connecting tube 3 of group is set to five, every upper connecting tube 3 The top all extending to dehumidifier passage 1 is in communication, and specifically, a middle upper connecting tube 3, with middle one Bar dehumidifier siphunculus 2 connects, and to former and later two directions of kiln, dehumidifier district, extends to the top of dehumidifier passage 1 In communication, the most each two upper connecting tubes 3, connect with the most each two dehumidifier siphunculus 2 respectively, and respectively The top extending to dehumidifier passage 1 to dehumidifier district kiln front and rear direction is in communication.

Inner chamber along dehumidifier district kiln is provided with some groups of dehumidifier group pipes, and often group dehumidifier group Guan Jun includes taking out under five Wet pipe 4, and five upper dehumidifier pipes 5 that quantity is identical with dehumidifier siphunculus 2, five upper dehumidifier pipes 5 are all through protecting Temperature interlayer connects with each dehumidifier siphunculus 2 respectively, and five lower dehumidifier pipes 4 connect with five lower connecting tubes 6 respectively, Article five, lower connecting tube 6 is respectively on front side of dehumidifier district kiln or rear side or the pipe of the upwardly extending conveying in both sides front and back 7, Connect with dehumidifier passage 1, specifically, a middle lower connecting tube 6, both direction forwards, backwards, respectively with take out Before and after wet district kiln, upwardly extending two the less conveying pipes 7 in both sides connect, the most each two lower connecting tubes 6, Respectively with on front side of dehumidifier district kiln, upwardly extending two the bigger conveying pipes 7 of rear side connect.

The top of dehumidifier district kiln, is provided with the dehumidifier house steward 8 connecting with dehumidifier passage 1 and being connected with blower fan, Dehumidifier house steward 8 and the dehumidifier communication on dry section kiln；

On every on connecting tube 3, lower connecting tube 6 and conveying pipe 7, it is equipped with and can regulate damp and hot by automatic or manual The control valve 9 of waste gas extracted amount.

In using:

See Fig. 1-Fig. 5, the damp and hot waste gas of dehumidifier district kiln inner chamber, on the one hand on each bar dehumidifier pipe 5, Connecting tube 3 on each dehumidifier siphunculus 2 and each bar, pumps in dehumidifier passage 1, on the one hand dehumidifier pipe under each bar 4 and each bar under connecting tube 6, each conveying pipe 7, pump in dehumidifier passage 1, dehumidifier is respond well.Each bar Control valve 9 on upper connecting tube 3, lower connecting tube 6 and conveying pipe 7, can adjust by automatic or manual as required Joint aperture, thus increase or reduce the extracted amount of damp and hot waste gas.

Damp and hot waste gas transmits in dehumidifier passage 1, both can avoid having been at and extraneous air generation heat exchange State in transmit, be effectively reduced thermal losses, play dehumidifier district kiln gain of heat insulation effect, can have Effect stops the heat in dehumidifier district kiln to scatter and disappear, and can avoid again air pollution, energy-saving and environment-friendly.Dehumidifier is led to Damp and hot waste gas in road 1, after dehumidifier house steward 8 through being connected with blower fan, pump and transfer on dry section kiln Dehumidifier path, can be used for the drying function of dry section kiln.

See Fig. 3, along the bottom of dehumidifier district kiln, be provided with 6 hot gas paths 10, all hot gas paths 10 Head and the tail, connect with the hot gas path on dry section, preheating zone respectively.Steam from preheating zone kiln All hot gas paths 10 transmit, also dehumidifier district kiln can be played dehumidifier district kiln gain of heat insulation effect, Realize good energy-saving effect.

Above-described embodiment is the preferred embodiments of the present invention, all structures similar with the present invention and the equivalence made Change, all should belong to the protection category of the present invention.

Claims (4)

1. on a ceramic kiln, the efficient heat energy in dehumidifier district utilizes structure, it is characterised in that: along dehumidifier district kiln Top, is provided with the dehumidifier passage of box-type, and between the inner chamber of dehumidifier passage and dehumidifier district kiln, interval sets Have some the dehumidifier siphunculus extended along dehumidifier district kiln, if every dehumidifier siphunculus all along dehumidifier district kiln with The upper connecting tube connection of dry group, the top that often the upper connecting tube of group all extends to dehumidifier passage is in communication；

Inner chamber along dehumidifier district kiln is provided with some groups of dehumidifier group pipes, and often group dehumidifier group Guan Jun includes some Lower dehumidifier pipe, and some the upper dehumidifier pipes that quantity is identical with dehumidifier siphunculus, some upper dehumidifier Guan Jun Warm interlayer connects with each dehumidifier siphunculus respectively, some lower dehumidifier pipes respectively with some lower connecting tubes Connection, some lower connecting tubes respectively on front side of dehumidifier district kiln rear side or front and back both sides upwardly extending Conveying pipe, with dehumidifier channel connection.

On ceramic kiln the most according to claim 1, the efficient heat energy in dehumidifier district utilizes structure, it is characterised in that: The top of dehumidifier district kiln, is provided with and dehumidifier channel connection the dehumidifier house steward that is connected with blower fan, dehumidifier House steward and the dehumidifier communication on dry section kiln.

On ceramic kiln the most according to claim 1, the efficient heat energy in dehumidifier district utilizes structure, it is characterised in that: Along the bottom of dehumidifier district kiln, it is provided with the hot gas path of some, the head and the tail of all hot gas paths, divides equally Do not connect with the hot gas path on dry section, preheating zone.

On ceramic kiln the most according to claim 1, the efficient heat energy in dehumidifier district utilizes structure, it is characterised in that: On every on connecting tube, lower connecting tube and conveying pipe, it is equipped with and can take out by the automatic or manual damp and hot waste gas of regulation The control valve of output.