CN209341700U - A kind of multiple drying equipment of energy-saving fired brick and multiple dry code burn equipment - Google Patents

Abstract

The utility model provides a kind of multiple drying equipment of energy-saving fired brick, including high temperature drying chamber device and the first low temperature drying chamber device, the high temperature drying chamber device includes high-temperature drying chamber, the first air supply duct, the first pressure fan, the first exhaust fan and the first wind pipe, the first low temperature drying chamber device includes the first low temperature drying room, the first humidity discharging system and the first heat-exchange system, and first humidity discharging system includes the first left air inlet, the first right air inlet, the second exhaust fan；First heat-exchange system includes the second air supply duct, the first left heat exchange coil, the first connection air hose, the first right heat exchange coil and the second wind pipe, the air inlet of second air supply duct is connected to the air outlet of the first wind pipe, air outlet is connected to the air inlet of the first left heat exchange coil, and the first left heat exchange coil is connected to by the first connection air hose with the first right heat exchange coil.The utility model structure is simple, can effectively improve the rate of drying and production efficiency of fired brick.

Description

A kind of multiple drying equipment of energy-saving fired brick and multiple dry code burn equipment

Technical field

The utility model relates to fired brick production technical field, repeatedly drying is set specifically a kind of energy-saving fired brick Standby and multiple dry code burns equipment.

Background technique

Currently, fired brick manufacturing enterprise mostly uses primary drying code burned brick technique, due to being limited by the wet green strength of lower layer System, generally can only code to certain altitude (12 layers), up Green brick stacking cannot be further continued for, which is primarily present following scarce Point: first is that low efficiency, requires raw material and brickmaking machine relatively high；Second is that low output, is easy to appear blank deformation seriously even Generation is collapsed phenomenon.

To solve the above problems, Patent No. ZL20111036987.7, entitled " repeatedly dry code burns manufacture craft " Utility model patent discloses a kind of multiple dry code burning manufacture craft, which recycle adobe on a plurality of auxiliary road will The moisture content of adobe, which spontaneously dries, to be reduced, and the wet adobe of code again, is then fed into hothouse heat drying in the adobe of natural-dehydration, Height is large enough to hold by the space that natural drying mode enables adobe to pile up value sintering oven.

Although above-mentioned multiple dry code burns manufacture craft and provides fired brick relative to primary drying code burned brick technique Production efficiency, but the technique, there is also some disadvantages, such as wet blank brick starts using spontaneously drying, in winter when rate of drying compared with Slowly, the whole production efficiency of brick is affected, it, will if the high-temperature hot-air that wet blank brick is discharged using tunnel oven is directly dried It cracks because temperature is excessively high.

Utility model content

Technical problem to be solved in the utility model is to overcome the defect of the above-mentioned prior art, is provided a kind of energy-saving The multiple drying equipment of fired brick and repeatedly dry code burning equipment, make wet base by the hothouse of setting different height and different temperatures Brick rapid draing stage by stage, and the waste heat of high-temperature drying chamber is used for the low temperature of the first low temperature drying room and the second low temperature drying room It is dry, the energy consumption for drying of the wet base of fired brick is greatly reduced, the production efficiency of fired brick is effectively increased.

For this purpose, the utility model adopts the following technical solutions: a kind of multiple drying equipment of energy-saving fired brick, including height The dry chamber device of temperature, the high temperature drying chamber device includes high-temperature drying chamber, the first air supply tube above high-temperature drying chamber Road, the first pressure fan, the first exhaust fan and the first wind pipe that high-temperature drying chamber's inner cavity lower left quarter is arranged in, described first send The air inlet of air piping is connected to tunnel oven hot-blast outlet, and air outlet setting goes out on high-temperature drying chamber, top, inner cavity, described first The air inlet of air piping is connected to the air outlet of the first exhaust fan, and air outlet setting is described energy-saving in high temperature drying outside The multiple drying equipment of fired brick further includes the first low temperature drying chamber device, and the first low temperature drying chamber device includes the first low temperature Hothouse, the first humidity discharging system and the first heat-exchange system, first humidity discharging system include setting on the first low temperature drying room left side The left air inlet of the first of lower part, the first right air inlet that the first low temperature drying room right lower quadrant is arranged in, setting are dry in the first low temperature Second exhaust fan in dry ceiling portion；First heat-exchange system includes the second air supply duct, is arranged in the first low temperature drying room The left heat exchange coil of the first of chamber lower left quarter, the first connection air hose, first right side that chamber right lower quadrant in the first low temperature drying room is set The air inlet of heat exchange coil and the second wind pipe, second air supply duct is connected to the air outlet of the first wind pipe, out Air port is connected to the air inlet of the first left heat exchange coil, and described first connects air hose for the first left heat exchange coil and the first right heat exchange Coil pipe connection, the air inlet of second wind pipe is connected to the air outlet of the first right heat exchange coil, and air outlet is arranged the One low temperature drying outside.

Further, the multiple drying equipment of energy-saving fired brick further includes the second low temperature drying chamber device, and described Two low temperature drying chamber devices include the second low temperature drying room, the second humidity discharging system and the second heat-exchange system, the second row tidal system System includes the second left air inlet in the second left portion in low temperature drying room that is arranged in, is arranged in the of the second low temperature drying room right middle Two right air inlets, the third exhaust fan that the second low temperature drying ceiling portion is set；Second heat-exchange system includes third air-supply Pipeline, the second left heat exchange coil that the left portion of chamber in the second low temperature drying room is arranged in, the second connection air hose, setting are low second The the second right heat exchange coil and third wind pipe of warm hothouse inner cavity right middle, the air inlet of the third air supply duct and The air outlet of one wind pipe is connected to, and air outlet is connected to the air inlet of the second left heat exchange coil, and the second connection air hose will Second left heat exchange coil is connected to the second right heat exchange coil, the air inlet of the third wind pipe and the second right heat exchange coil Air outlet connection, air outlet are arranged in the second low temperature drying outside.

Further, the height of first low temperature drying room is 0.4~0.6 times of the height of the second low temperature drying room.

Further, the air outlet of second wind pipe is connected to desulfurizing tower, the outlet air of the third wind pipe Mouth is connected to desulfurizing tower.

The present embodiment, which additionally provides a kind of fired brick, repeatedly to be dried code and burns equipment, including the first ferry bus, the second ferry bus, Sintering track, the sintering oven being arranged on sintering track, the first auxiliary road, the second auxiliary road, the auxiliary road of third, the 4th auxiliary road, kiln car, the One automatic setting machine, the second automatic setting machine and the multiple drying equipment of energy-saving fired brick.

The utility model has the beneficial effects that

(1) the first low temperature will be each led into again after the adobe for the dried by hot air stream at high temperature high-temperature drying chamber that tunnel oven burning generates to do The low temperature drying that wet adobe is carried out in the heat-exchange system of dry room and the second low temperature drying room, mentions the rate of drying of wet blank brick significantly Height effectively increases the production efficiency of fired brick；

(2) by the way that the heat exchange coil of different location is respectively set in the first low temperature drying room and the second low temperature drying chamber interior Wet blank brick is heated, wet blank brick is uniformly heated, the drying effect of wet blank brick is effectively increased, further improves The yield rate of fired brick；

(3) by setting different height and different temperatures hothouse, and using low temperature drying room the early stage of drying humidity compared with The dry preliminarily dried of the big and lesser wet adobe of intensity and use high-temperature drying chamber and the adobe with some strength, make adobe 16 layers or more of height can be piled up, and effectively reduces the cracking that wet blank brick generates when dry, effectively increases fired brick Yield rate and production efficiency；

(4) tunnel oven is burnt to the high-temperature hot-air generated and first passes through high-temperature drying chamber, the first low temperature drying room and second respectively Low temperature drying is thermally dried, and is then passed through desulfurizing tower desulfurization again, substantially increases the heat utilization efficiency of high-temperature hot-air.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the multiple drying equipment of energy-saving fired brick.

Fig. 2 is the structural schematic diagram of the first low temperature drying room.

Fig. 3 is the structural schematic diagram of the second low temperature drying room.

Fig. 4 is the structural schematic diagram that fired brick repeatedly dries that code burns equipment.

Description of symbols: the first ferry bus of 1-, 2- sintering oven, 3- high-temperature drying chamber, the second low temperature drying of 4- room, 5- One low temperature drying room, 6- are sintered track, the auxiliary road 7- first, the auxiliary road 8- second, the second ferry bus of 9-, the auxiliary road of 10- third, 11- the Four auxiliary roads, 12- kiln car, the first automatic setting machine of 13-, the second automatic setting machine of 14-, the first air supply duct of 15-, 16- first are sent Blower, the first exhaust fan of 17-, the first wind pipe of 18-, the second air supply duct of 19-, the second exhaust fan of 20-, the connection of 21- first Air hose, the left heat exchange coil of 22- first, the left air inlet of 23- first, 24- third air supply duct, the connection air hose of 25- second, 26- Three exhaust fans, the right heat exchange coil of 27- second, the right air inlet of 28- second, 29- third wind pipe, 30- desulfurizing tower, 31- second Right heat exchange coil, the right air inlet of 32- first, the second wind pipe of 33-, the left air inlet of 34- second, the left heat exchange coil of 35- second.

Specific embodiment

The utility model is further described in detail below by specific embodiment and in conjunction with attached drawing.

The production technology of fired brick mainly includes raw material preparation at present and allotment, base, drying, code are burnt and the works such as storage Skill, emphasis illustrates dry with code firing technique and equipment, remaining such as raw material preparation and allotment, base, storage in the utility model Brickmaking technology is all made of the prior art.

Embodiment 1: referring to figure 1, figure 2 and figure 3, this implementation provides a kind of multiple drying equipment of energy-saving fired brick, packet Include high temperature drying chamber device, the high temperature drying chamber device includes high-temperature drying chamber 3, first above high-temperature drying chamber send Air piping 15, the first pressure fan 16, the first exhaust fan 17 and the first wind pipe that high-temperature drying chamber's inner cavity lower left quarter is set 18, the air inlet of first air supply duct 15 is connected to tunnel oven hot-blast outlet, and air outlet is arranged in high-temperature drying chamber inner cavity Top, the air inlet of first wind pipe 18 are connected to the air outlet of the first exhaust fan 17, and air outlet setting is dry in high temperature Dry 3 outside of room.

Specifically, the first pressure fan is preferably with centrifugal blower, and the first blower-use is in the high temperature cigarette that tunnel oven is discharged Gas is delivered in high-temperature drying chamber, and the first exhaust fan is used for will be outside the moisture discharge high temperature drying room in high-temperature drying chamber.It needs Illustrate, the first exhaust fan can also be set up directly on the lower left quarter of high-temperature drying chamber, i.e. the lower left quarter of high-temperature drying chamber is equipped with One opening, the first exhaust fan are installed in said opening.

The multiple drying equipment of energy-saving fired brick further includes the first low temperature drying chamber device, first low temperature drying Chamber device includes the first low temperature drying room 5, the first humidity discharging system and the first heat-exchange system.

First humidity discharging system include the first left air inlet 23 that the first low temperature drying room lower left quarter is set, setting exist First right air inlet 32 of the first low temperature drying room right lower quadrant, the second exhaust fan 20 that the first low temperature drying ceiling portion is set, Second exhaust fan 10 is used to for the indoor moisture of the first low temperature drying being discharged outdoor.

Specifically, the second exhaust fan is directly installed on the first low temperature drying ceiling portion, i.e. the first low temperature drying ceiling portion is set There is an opening, in said opening, the air outlet of the second exhaust fan can also be connected to exhausting moisture pipeline for installation, by exhausting moisture pipeline by the Moisture exhausting in one low temperature drying room is to designated position.

First heat-exchange system includes the second air supply duct 19, is arranged in of chamber lower left quarter in the first low temperature drying room The first right heat exchange coil that one left heat exchange coil 22, first connects air hose 21, chamber right lower quadrant in the first low temperature drying room is arranged in 31 and second wind pipe 33, the air inlet of second air supply duct 19 be connected to the air outlet of the first wind pipe 18, out Air port is connected to the air inlet of the first left heat exchange coil 22, and described first connects air hose 21 for the first left heat exchange coil 22 and first Right heat exchange coil 31 is connected to, and the air inlet of second wind pipe 33 is connected to the air outlet of the first right heat exchange coil 31, out Air port setting is in 5 outside of the first low temperature drying room.

Specifically, the first left heat exchange coil and the first right heat exchange coil preferably both use more bending metals pipes, the prior art Wet adobe natural drying is generallyd use before high temperature drying, efficiency is lower, especially in winter, spontaneously dry the time it is longer, Predrying is carried out to wet blank brick using the first low temperature drying room in the present embodiment, since the dry heat source in the first low temperature drying room comes Low temperature exhaust heat from after the drying of high-temperature drying chamber, and exchanged heat by the heat exchange coil of different location, make wet blank brick will not be because of heat Air temperature is higher and cracks, and drying effect is preferable.It should be noted that the first low temperature drying room is mainly used for dry low layer Wet adobe, it is dry after wet adobe become first dry brick.

Preferably, in order to further increase the heat exchange efficiency of heat exchange coil, the installation site of the first left heat exchange coil and institute The position for stating the first left air inlet is corresponding, the position phase of the installation site of the first right heat exchange coil and the described first right air inlet It is corresponding.

Preferably, the outer surface of the first connection air hose and the second air supply duct is respectively equipped with thermal insulation material.

To enable adobe to pile up 16 layers or more of height, the energy-saving multiple drying equipment of fired brick further includes second Low temperature drying chamber device, the second low temperature drying chamber device are changed including the second low temperature drying room 4, the second humidity discharging system and second Hot systems.

Second humidity discharging system include the second left portion in low temperature drying room that is arranged in the second left air inlet 34, setting exist Second right air inlet 28 of the second low temperature drying room right middle, the third exhaust fan 26 that the second low temperature drying ceiling portion is set, Third exhaust fan 26 is used to for the indoor moisture of the second low temperature drying being discharged outdoor.

Specifically, third exhaust fan is directly installed on the second low temperature drying ceiling portion, i.e. the second low temperature drying ceiling portion is set There is an opening, in said opening, the air outlet of third exhaust fan can also be connected to exhausting moisture pipeline for installation, by exhausting moisture pipeline by the Moisture exhausting in two low temperature drying rooms is to designated position.

Second heat-exchange system includes third air supply duct 24, is arranged in of the left portion of chamber in the second low temperature drying room The second right heat exchange coil that two left heat exchange coils 35, second connect air hose 25, chamber right middle in the second low temperature drying room is arranged in 27 and third wind pipe 29, the air inlet of the third air supply duct 24 be connected to the air outlet of the first wind pipe 18, out Air port is connected to the air inlet of the second left heat exchange coil 35, and described second connects air hose 25 for the second left heat exchange coil 35 and second Right heat exchange coil 27 is connected to, and the air inlet of the third wind pipe 29 is connected to the air outlet of the second right heat exchange coil 27, out Air port setting is in 4 outside of the second low temperature drying room.

Specifically, the second left heat exchange coil and the second right heat exchange plate preferably both use more bending metals pipes, in the prior art The wet adobe piled up in the adobe of bottom generallys use natural drying before high temperature drying, and efficiency is lower, especially in winter, natural Drying time is longer, carries out predrying to the wet adobe in the adobe of bottom using the second low temperature drying room in the present embodiment, due to Low temperature exhaust heat of the dry heat source in second low temperature drying room after the drying of high-temperature drying chamber, and in the high temperature drying room passed through The heat exchange coil of chamber medium position exchanges heat, and keeps bottom adobe hardly dry, the wet blank brick in the adobe of bottom will not be because of hot wind temperature It spends higher and cracks, drying effect is preferable.It should be noted that the second low temperature drying room is mainly used for dry bottom adobe The wet adobe of upper stacking, wet adobe becomes first dry brick after drying.

Preferably, in order to further increase the heat exchange efficiency of heat exchange coil, the installation site of the second left heat exchange coil and institute The position for stating the second left air inlet is corresponding, the position phase of the installation site of the second right heat exchange coil and the described second right air inlet It is corresponding.

Preferably, the outer surface of the second connection air hose and third air supply duct is respectively equipped with thermal insulation material.

For the drying effect for further increasing wet adobe, the height of first low temperature drying room 5 is the second low temperature drying 0.4~0.6 times of the height of room 4.

Preferably, the air outlet of second wind pipe 33 is connected to desulfurizing tower 30, the third wind pipe 29 Air outlet is connected to desulfurizing tower 30.

Embodiment 2: on the basis of the multiple drying equipment of the energy type fired brick described in above-described embodiment 1, the present embodiment is mentioned It has supplied a kind of fired brick repeatedly to dry code and has burnt equipment, including the first ferry bus 1, the second ferry bus 9, sintering track 6, setting are being burnt Tie sintering oven 2, the first auxiliary road 7, the second auxiliary road 8, the auxiliary road 10 of third, the 4th auxiliary road 11, kiln car 12, the first Automatic Code on track Base machine 13, the second automatic setting machine 14 and the multiple drying equipment of energy-saving fired brick.

The fired brick, which repeatedly dries code and burns equipment, makees fired brick for repeatedly dry code firing, manufacture craft include with Lower step:

A) the first automatic setting machine and the second automatic setting machine are respectively enterd by slitting, the adobe after blank cutter, first Automatic setting machine piles up adobe on the kiln car in the 4th auxiliary road；

B) when kiln car runs to the left part in the 4th auxiliary road, by the first ferry bus by kiln car ferry on the auxiliary road of third simultaneously Into the first low temperature drying indoor seasoning；

When continuing to run to from the second automatic setting machine along the auxiliary road of third after c) kiln car comes out from the first low temperature drying room, by Second automatic setting machine piles up adobe to the adobe of kiln car；

D) when kiln car runs to the right part in third auxiliary road, by the second ferry bus by kiln car ferry on the second auxiliary road simultaneously Into the second low temperature drying indoor seasoning；

E) when kiln car runs to the left part in the second auxiliary road after coming out out of second low temperature drying room, pass through the first ferry bus Kiln car is ferried on the first auxiliary road and entering dry in high-temperature drying chamber；

F) after kiln car comes out out of high temperature drying room when running to the right part in the first auxiliary road, by the second ferry bus by kiln Vehicle ferry to sintering track on and enter sintering oven in be sintered；

G) it after kiln car comes out out of sintering oven, is run to along sintering track 5 and unloads brick position, finished bricks are removed stage makeup and costume by unloading base machine To designated position.

The moisture content of adobe is quickly reduced to a certain degree by the utility model by a plurality of auxiliary road, improves the anti-of brick bottom Compressive Strength, make fired brick can speed code be put into 16 layers or more, substantially increase production efficiency.

The protection scope of the utility model is not limited to foregoing description, any other under the enlightenment of the utility model Formal product, it is all that there is same or similar technical side with the utility model no matter making any change in shape or structure Case both is within the protection scope of the present invention.

Claims (5)

1. a kind of multiple drying equipment of energy-saving fired brick, including high temperature drying chamber device, the high temperature drying chamber device include High-temperature drying chamber (3), the first pressure fan (16), is arranged in high temperature the first air supply duct (15) above high-temperature drying chamber The first exhaust fan (17) and the first wind pipe (18) of hothouse inner cavity lower left quarter, the air inlet of first air supply duct (15) Mouth is connected to tunnel oven hot-blast outlet, and air outlet is arranged on high-temperature drying chamber, top, inner cavity, first wind pipe (18) Air inlet is connected to the air outlet of the first exhaust fan (17), and air outlet setting is on the outside of high-temperature drying chamber (3), which is characterized in that The multiple drying equipment of energy-saving fired brick further includes the first low temperature drying chamber device, the first low temperature drying chamber device packet The first low temperature drying room (5), the first humidity discharging system and the first heat-exchange system are included, first humidity discharging system includes being arranged first The left air inlet (23) of the first of low temperature drying room lower left quarter, the first right air inlet that the first low temperature drying room right lower quadrant is set (32), second exhaust fan (20) in the first low temperature drying ceiling portion is set；First heat-exchange system includes the second air supply tube Road (19), the first connection air hose (21), is set the first left heat exchange coil (22) that chamber lower left quarter in the first low temperature drying room is arranged in The first right heat exchange coil (31) and the second wind pipe (33) of the chamber right lower quadrant in the first low temperature drying room are set, described second send The air inlet of air piping (19) is connected to the air outlet of the first wind pipe (18), air outlet and the first left heat exchange coil (22) First left heat exchange coil (22) is connected to by air inlet connection, first connection air hose (21) with the first right heat exchange coil (31), The air inlet of second wind pipe (33) is connected to the air outlet of the first right heat exchange coil (31), and air outlet is arranged first On the outside of low temperature drying room (5).

2. the multiple drying equipment of energy-saving fired brick according to claim 1, which is characterized in that the energy-saving fired brick Multiple drying equipment further includes the second low temperature drying chamber device, and the second low temperature drying chamber device includes the second low temperature drying room (4), the second humidity discharging system and the second heat-exchange system, second humidity discharging system include being arranged in the second left portion in low temperature drying room The second left air inlet (34), the second low temperature drying room right middle is set the second right air inlet (28), setting it is low second Third exhaust fan (26) at the top of warm hothouse；Second heat-exchange system includes third air supply duct (24), is arranged second The second of the left portion of chamber the left heat exchange coil (35), the second connection air hose (25), setting are in the second low temperature drying in low temperature drying room The right heat exchange coil (27) of the second of indoor chamber right middle and third wind pipe (29), the air inlet of the third air supply duct (24) Mouth is connected to the air outlet of the first wind pipe (18), and air outlet is connected to the air inlet of the second left heat exchange coil (35), described Second left heat exchange coil (35) is connected to by the second connection air hose (25) with the second right heat exchange coil (27), the third wind pipe (29) air inlet is connected to the air outlet of the second right heat exchange coil (27), air outlet setting the second low temperature drying room (4) outside Side.

3. the multiple drying equipment of energy-saving fired brick according to claim 2, which is characterized in that first low temperature drying The height of room (5) is 0.4~0.6 times of the height of the second low temperature drying room (4).

4. the multiple drying equipment of energy-saving fired brick according to claim 2 or 3, which is characterized in that second outlet air The air outlet of pipeline (33) is connected to desulfurizing tower (30), and the air outlet of the third wind pipe (29) and desulfurizing tower (30) are even It is logical.

5. a kind of fired brick repeatedly dry code burn equipment, including the first ferry bus (1), the second ferry bus (9), sintering track (6), The sintering oven (2) being sintered on track, the first auxiliary road (7), the second auxiliary road (8), the auxiliary road of third (10), the 4th auxiliary road are set (11), kiln car (12), the first automatic setting machine (13) and the second automatic setting machine (14), which is characterized in that further include that right is wanted Seek the described in any item energy-saving multiple drying equipments of fired brick of 2-4.