CN208688273U - A kind of waste-heat recovery device of ceramic tile production line kiln chilling band - Google Patents

Abstract

The utility model discloses a kind of waste-heat recovery devices of ceramic tile production line kiln chilling band, belong to technical field of tile production.Including kiln chilling band, flue gas transfer tube, air-introduced machine and waste-heat recovery device；It further include electrostatic precipitator and adsorption box；Collecting electrode is equipped in electrostatic precipitator；The bottom of electrostatic precipitator is fixed with dismountable dust bag；The inner wall of adsorption box is pasted with multiple activated carbon adsorption layers.The waste-heat recovery device of ceramic tile production line kiln chilling band provided by the utility model passes through the electrostatic precipitator and adsorption box of setting；Collecting electrode is equipped in electrostatic precipitator；The bottom of electrostatic precipitator is fixed with dust bag；The inner wall of adsorption box is pasted with multiple activated carbon adsorption layers；Electrostatic precipitator can effectively remove dust and particulate matter in flue gas, adsorption box can flue gas after purifying and dedusting, avoid dust and particulate matter from being attached in adobe by Heat transmission, improve the quality of Ceramic Tiles.

Description

A kind of waste-heat recovery device of ceramic tile production line kiln chilling band

Technical field

The utility model relates to technical field of tile production, more particularly to a kind of ceramic tile production line kiln chilling band Waste-heat recovery device.

Background technique

In the ceramic tile sintering procedure of ceramic brick manufacturing process process, firing temperature is at 1200 DEG C or so, then in kiln Furnace chilling band, which blows a cold wind over to ceramic tile, to be cooled down, and most manufacturers can be dried adobe using the waste heat that kiln generates, and is improved The utilization rate of energy；During heat recovery, flue gas carries heat transmission and gives brick bat drying tower, exists in flue gas Kiln generate dust and particulate matter, lack corresponding purification run, so that dust and particulate matter are easily attached on brick On base, the quality of Ceramic Tiles is influenced.

Utility model content

In order to overcome the drawbacks of the prior art, the technical problem to be solved by the utility model is to propose that a kind of ceramic tile is raw The waste-heat recovery device of producing line kiln chilling band, passes through the electrostatic precipitator and adsorption box of setting；It is equipped in electrostatic precipitator Collecting electrode；The bottom of electrostatic precipitator is fixed with dust bag；The inner wall of adsorption box is pasted with multiple activated carbon adsorption layers；Electrostatic Deduster can effectively remove dust and particulate matter in flue gas, adsorption box can flue gas after purifying and dedusting, avoid dust and Particulate matter is attached in adobe by Heat transmission, improves the quality of Ceramic Tiles.

For this purpose, the utility model uses following technical scheme:

The waste-heat recovery device of ceramic tile production line kiln chilling band provided by the utility model, including kiln chilling band, head End and the flue gas transfer tube of the kiln chilling band connection, the air-introduced machine on the flue gas transfer tube and with the cigarette Gas transmits the waste-heat recovery device of pipe end connection；The inner space of the kiln chilling band and the waste-heat recovery device Inner space be uniformly connected with the flue gas transfer tube；The top of the waste-heat recovery device is equipped with gas outlet；It is described remaining Heat exchanger tube is equipped with inside heat recovery apparatus；The both ends of the heat exchanger tube both pass through the side wall of the waste-heat recovery device and part is sudden and violent It is exposed to the outside of the waste-heat recovery device；Further include be set to the flue gas transfer tube on and be located at the air-introduced machine with it is described Electrostatic precipitator, adsorption box between waste-heat recovery device；The adsorption box is located at the right side of the electrostatic precipitator；It is described quiet Electric precipitator and the adsorption box are connected with the flue gas transfer tube；Collecting electrode is equipped in the electrostatic precipitator； The bottom of the electrostatic precipitator is fixed with dismountable dust bag；The inner wall of the adsorption box is pasted with multiple activated carbon adsorptions Layer.

Preferably, further include be fixed on the electrostatic precipitator inner wall and for fix the collecting electrode skeleton, And it is individually fixed in two fixed links at the top and bottom of the skeleton；The skeleton includes top beam；The bottom of the top beam Offer multiple grooves equidistantly arranged；The collecting electrode is arranged in the groove.

It preferably, further include the vibrator being fixed at the top of the electrostatic precipitator.

It preferably, further include being vertically arranged at the absorption chamber interior wall and being located at two of the activated carbon adsorption layer two sides Filter layer.

Preferably, the horizontal cross sectional geometry at the adsorption box both ends is trapezoidal；The section shape of the adsorption box medium position Shape is annular shape.

It preferably, further include being fixed on the waste-heat recovery device inner wall and horizontally disposed baffle plate；The baffle plate Positioned at the top of the heat exchanger tube.

The utility model has the following beneficial effects:

The waste-heat recovery device of ceramic tile production line kiln chilling band provided by the utility model, passes through the electrostatic precipitation of setting Device and adsorption box；Collecting electrode is equipped in electrostatic precipitator；The bottom of electrostatic precipitator is fixed with dust bag；Adsorption box Inner wall is pasted with multiple activated carbon adsorption layers；Electrostatic precipitator can effectively remove dust and particulate matter in flue gas, adsorption box Can flue gas after purifying and dedusting, avoid dust and particulate matter from being attached in adobe by Heat transmission, improve the quality of Ceramic Tiles.

Detailed description of the invention

Fig. 1 is the waste-heat recovery device for the ceramic tile production line kiln chilling band that specific embodiment of the present invention provides Structural schematic diagram；

Fig. 2 is the waste-heat recovery device for the ceramic tile production line kiln chilling band that specific embodiment of the present invention provides Collecting electrode arrangement schematic diagram.

In figure: 1, kiln chilling band；2, flue gas transfer tube；3, air-introduced machine；4, waste-heat recovery device；41, gas outlet；42, Heat exchanger tube；5, electrostatic precipitator；51, collecting electrode；52, dust bag；6, adsorption box；61, activated carbon adsorption layer；62, filter layer； 7, skeleton；71, top beam；711, groove；8, fixed link；9, vibrator；10, baffle plate.

Specific embodiment

Further illustrate the technical solution of the utility model below with reference to the accompanying drawings and specific embodiments.

Fig. 1, Fig. 2 show to exemplary a kind of the remaining of ceramic tile production line kiln chilling band provided by the utility model respectively The structural schematic diagram and collecting electrode arrangement schematic diagram of heat recovery apparatus.As shown in Figure 1 and Figure 2, a kind of ceramic tile production The waste-heat recovery device of line kiln chilling band include kiln chilling band 1, head end and kiln chilling band 1 connect flue gas transfer tube 2, Air-introduced machine 3 on flue gas transfer tube 2 and the waste-heat recovery device 4 being connect with 2 end of flue gas transfer tube；Kiln chilling Uniformly it is connected with flue gas transfer tube 2 with 1 inner space and the inner space of waste-heat recovery device 4；Waste-heat recovery device 4 top is equipped with gas outlet 41；Heat exchanger tube 42 is equipped with inside waste-heat recovery device 4；The both ends of heat exchanger tube 42 both pass through waste heat and return The side wall of receiving apparatus 4 and the outside for being partially exposed to waste-heat recovery device 4；It further include being set on flue gas transfer tube 2 and being located at Electrostatic precipitator 5, adsorption box 6 between air-introduced machine 3 and waste-heat recovery device 4；Adsorption box 6 is located at the right side of electrostatic precipitator 5； Electrostatic precipitator 5 and adsorption box 6 are connected with flue gas transfer tube 2；Collecting electrode 51 is equipped in electrostatic precipitator 5；Electrostatic The bottom of deduster 5 is fixed with dismountable dust bag 52；The inner wall of adsorption box 6 is pasted with multiple activated carbon adsorption layers 61.Tool It says to body, on ceramic tile production line, kiln will generate a large amount of heat, in order to which by heat recovery, heat is with flue gas Form exists, and air-introduced machine 3 extracts flue gas out from kiln chilling band 1, is imported in waste-heat recovery device 4 by flue gas transfer tube 2, Flue gas is handled by the heat exchanger tube 42 in waste-heat recovery device 4, and heat exchanger tube 42 is snake bend, and treated, and flue gas is transferred to brick Base drying tower, dry ceramic adobe, improves the utilization rate of energy；In order to by dust existing for flue gas and particulate matter, toxic gas Purified treatment is carried out, by the way that electrostatic precipitator 5 and adsorption box 6 are arranged between kiln chilling band 1 and waste-heat recovery device 4； Collecting electrode 51 is equipped in electrostatic precipitator 5；The bottom of electrostatic precipitator 5 is fixed with dismountable dust bag 52；Adsorption box 6 Inner wall is pasted with multiple activated carbon adsorption layers 61；When flue gas passes through electrostatic precipitator 5, the power plant in electrostatic precipitator 5 makes Dust ionization, the dust and collecting electrode 51 of electrification act on, to remove the dust in flue gas, particulate matter, dust and particulate matter It will be collected by dust bag 52, collecting electrode 51 is in reticular structure, increases the contact area of collecting electrode 51 and flue gas, is conducive to Flue gas is contacted with collecting electrode 51, improves the efficiency of dust collection of collecting electrode 51, reduces the content of dust in flue gas；After dedusting Flue gas enter in adsorption box 6, the activated carbon adsorption layer 61 in adsorption box 6 will by itself adsorptivity remove flue gas in Pernicious gas reaches clean-up effect.Pass through the electrostatic precipitator 5 and adsorption box 6 of setting；Dust is equipped in electrostatic precipitator 5 Electrode 51；The bottom of electrostatic precipitator is fixed with dust bag 52；The inner wall of adsorption box 6 is pasted with multiple activated carbon adsorption layers 61； Electrostatic precipitator 5 can effectively remove dust and particulate matter in flue gas, adsorption box 5 can flue gas after purifying and dedusting, avoid Dust and particulate matter are attached in adobe by Heat transmission, improve the quality of Ceramic Tiles.

Further, further include be fixed on electrostatic precipitator 5 inner wall and for fix collecting electrode 51 skeleton 7, with And it is individually fixed in two fixed links 8 of 7 top beam portion of skeleton and bottom；Skeleton 7 includes top beam 71；The bottom of top beam 71 offers Multiple grooves 711 equidistantly arranged；Collecting electrode 51 is arranged in groove 711.Specifically, skeleton 7 is hollow rectangle Frame, the bottom of top beam 71 offer multiple grooves 711, and collecting electrode 51 is arranged in groove 711,8 energy of fixed link of setting It is enough that skeleton 7 is securely fixed in electrostatic precipitator 5, prevent collecting electrode 51 from falling off and influencing the dedusting of collecting electrode 51 Effect.

It further, further include the vibrator 9 for being fixed on 5 top of electrostatic precipitator.It is opened on vibrator 9 configured with timing It closes, the vibrator 9 of setting can clear up the collecting electrode 51 in electrostatic precipitator 5, avoid 51 dust accumulation mistake of collecting electrode Influence pick-up performance, time switch can control the working time of vibrator 9, effectively increase efficiency of dust collection more.

It further, further include two mistakes for being vertically arranged at 6 inner wall of adsorption box and being located at 61 two sides of activated carbon adsorption layer Filtering layer 62.Two filter layers 62 are micropore ceramic filter layer, so that filter layer 62 has stronger adsorptivity and corrosion-resistant Property, purified treatment is carried out to the pernicious gas in flue gas, and further adsorb to dust remaining in flue gas, improves flue gas Degree of purification.

Further, the horizontal cross sectional geometry at 6 both ends of adsorption box is trapezoidal；The cross sectional shape of 6 medium position of adsorption box is It is circular.The horizontal cross sectional geometry at 6 both ends of adsorption box be designed as it is trapezoidal, facilitate limit flue gas output, improve absorption effect Rate；The cross sectional shape of 6 medium position of adsorption box is annular shape, and adsorption box 6 is hollow cylindrical structure, increases flue gas logical Contact area when crossing adsorption box 6 with activated carbon adsorption layer 61, improves the absorbed efficiency of harmful substance in flue gas.

It further, further include being fixed on 4 inner wall of waste-heat recovery device and horizontally disposed baffle plate 10；Baffle plate 10 In the top of heat exchanger tube 42.The baffle plate 10 of setting is circular ring shape, is capable of the speed of steady air flow, improves waste-heat recovery device 4 Interior heat-transfer effect.

The utility model is described with reference to the preferred embodiments, and those skilled in the art know, is not departing from this reality In the case where with novel spirit and scope, various changes or equivalence replacement can be carried out to these features and embodiment.This reality It is not limited to the particular embodiment disclosed with novel, other embodiments fallen into claims hereof all belong to In the range of the utility model protection.

Claims (6)

1. a kind of waste-heat recovery device of ceramic tile production line kiln chilling band, including kiln chilling band (1), head end and the kiln Chilling band (1) connection flue gas transfer tube (2), be set to the flue gas transfer tube (2) on air-introduced machine (3) and with the cigarette The waste-heat recovery device (4) of gas transfer tube (2) end connection；The top of the waste-heat recovery device (4) is equipped with gas outlet (41)； The inner space of the kiln chilling band (1) and the inner space of the waste-heat recovery device (4) are uniformly passed with the flue gas Defeated pipe (2) is connected；Heat exchanger tube (42) are equipped with inside the waste-heat recovery device (4)；It wears at the both ends of the heat exchanger tube (42) It crosses the side wall of the waste-heat recovery device (4) and part is exposed to the outside of the waste-heat recovery device (4)；It is characterized by:

Further include be set on the flue gas transfer tube (2) and be located at the air-introduced machine (3) and the waste-heat recovery device (4) it Between electrostatic precipitator (5), adsorption box (6)；

The adsorption box (6) is located at the right side of the electrostatic precipitator (5)；

The electrostatic precipitator (5) and the adsorption box (6) are connected with the flue gas transfer tube (2)；

Multiple collecting electrodes (51) are equipped in the electrostatic precipitator (5)；

The bottom of the electrostatic precipitator (5) is fixed with dismountable dust bag (52)；

The inner wall of the adsorption box (6) is pasted with multiple activated carbon adsorption layers (61).

2. the waste-heat recovery device of ceramic tile production line kiln chilling band according to claim 1, it is characterised in that:

Further include be fixed on the electrostatic precipitator (5) inner wall and for fix the collecting electrode (51) skeleton (7) and Two fixed links (8) being individually fixed at the top and bottom of the skeleton (7)；

The skeleton (7) includes top beam (71)；

The bottom of the top beam (71) offers multiple grooves (711) equidistantly arranged；

The collecting electrode (51) is arranged in the groove (711).

3. the waste-heat recovery device of ceramic tile production line kiln chilling band according to claim 1, it is characterised in that:

It further include the vibrator (9) being fixed at the top of the electrostatic precipitator (5).

4. the waste-heat recovery device of ceramic tile production line kiln chilling band according to claim 1, it is characterised in that:

It further include two filterings for being vertically arranged at the adsorption box (6) inner wall and being located at the activated carbon adsorption layer (61) two sides Layer (62).

5. the waste-heat recovery device of ceramic tile production line kiln chilling band according to claim 1, it is characterised in that:

The horizontal cross sectional geometry at adsorption box (6) both ends is trapezoidal；

The cross sectional shape of adsorption box (6) medium position is annular shape.

6. the waste-heat recovery device of ceramic tile production line kiln chilling band according to claim 1, it is characterised in that:

It further include being fixed on the waste-heat recovery device (4) inner wall and horizontally disposed baffle plate (10)；

The baffle plate (10) is located at the top of the heat exchanger tube (42).