CN204286017U - A kind of drying and calcining machining center - Google Patents

Abstract

A kind of drying and calcining machining center belongs to drying and calcining technical field, particularly relates to a kind of drying and calcining machining center.The utility model provides a kind of and processes comprehensive, the energy-conservation and drying and calcining machining center that processing effect is good of process.The utility model adopts following technical scheme, the utility model comprises the first automatic combustion machine, straight fiery heat-exchanger rig, Rotatingandflashstreamingdrier, first self-conveyor feed, first diffusion cyclone dust collectors, first Low-Pressure Pulse Bag Filter, dry air-introduced machine, second automatic combustion machine, second self-conveyor feed, calcining furnace, gas-gas heat exchanger, second diffusion cyclone dust collectors, second Low-Pressure Pulse Bag Filter and calcining air-introduced machine, the outlet of its structural feature first automatic combustion machine is connected with the Imported gas of straight fiery heat-exchanger rig, the straight hot-blast outlet of fiery heat-exchanger rig is connected with the import of Rotatingandflashstreamingdrier, the charging aperture of Rotatingandflashstreamingdrier is connected with the discharging opening of the first self-conveyor feed.

Description

A kind of drying and calcining machining center

Technical field

The utility model belongs to drying and calcining technical field, particularly relates to a kind of drying and calcining machining center.

Background technology

One, calcining is the chemical engineering process being applicable to the modification of inorganic salts, decomposition, purification, oxidation, reduction, produces high-temperature gas simultaneously.The calciner generally applied now has rotary kiln, pushed bat kiln, stationary kiln, ebullated bed etc.

1, rotary kiln.

Rotary kiln is the dynamic calciner of one half be commonly used in inorganic salts drying, its major defect existed be equipment run need huge power, observable index compared with high, regular maintenance expense is large, seriously polluted, atmosphere that is material calcining is poor, calcination surface area is little.

2, pushed bat kiln.

Pushed bat kiln is a kind of quantity-produced calciner, and its floor space is large, and calcination time is long.Need use crucible when calcining materials, its expense is larger.Although it is continuous seepage, belong to Static Calcination, calcining effect relatively poor, energy consumption is high, discharging time environmental pollution large.

3, stationary kiln.

Stationary kiln is a kind of discontinuous production equipment, and production capacity is low, calcination time is long, energy consumption is large, and the product quality after calcining is difficult to ensure, is typically equipped with follow-up equipment, poor working environment, the inadaptable large needs produced.

4, ebullated bed.

Although ebullated bed is a kind of fluidizing calcination equipment, the shortcoming of above-mentioned three kinds of calcining furnaces can be overcome, but still there is the shortcoming that combustion efficiency is undesirable, observe inconvenient operation.

These equipment are difficult to the control of the automation ensureing product quality and realize equipment above.

5, spiral flow calcinator.

Flicker spiral flow calcinator: be the equipment that powder material is calcined.

Spiral flow calcinator in the past, although achieve full fluidizing calcination, there is certain defect in the control of calcination time, mainly the selection of the flow velocity of one section and two sections be one to, such structure is not suitable for some material.

Two, drying equipment is the equipment dewatering to chemical materials such as inorganic salts and dry.

Mainly contain: flash dryer, roller drier, pneumatic drier, blade dryer, disc dryer, chain-plate type drying machine, vibrations fluid bed dryer etc.These drying equipments are used alone all needs separately be furnished with thermal source, otherwise cannot complete dry run.Flash dryer is dry paste and filter cake shape material, and dried material is powdered.

Summary of the invention

The utility model is exactly for the problems referred to above, provides a kind of and processes comprehensive, the energy-conservation and drying and calcining machining center that processing effect is good of process.

For achieving the above object, the utility model adopts following technical scheme, and the utility model comprises the first automatic combustion machine, straight fiery heat-exchanger rig, Rotatingandflashstreamingdrier, first self-conveyor feed, first diffusion cyclone dust collectors, first Low-Pressure Pulse Bag Filter, dry air-introduced machine, second automatic combustion machine, second self-conveyor feed, calcining furnace, gas-gas heat exchanger, second diffusion cyclone dust collectors, second Low-Pressure Pulse Bag Filter and calcining air-introduced machine, the outlet of its structural feature first automatic combustion machine is connected with the Imported gas of straight fiery heat-exchanger rig, the straight hot-blast outlet of fiery heat-exchanger rig is connected with the import of Rotatingandflashstreamingdrier, the charging aperture of Rotatingandflashstreamingdrier is connected with the discharging opening of the first self-conveyor feed, the outlet of Rotatingandflashstreamingdrier is connected with the first import of spreading cyclone dust collectors, after the heat exchange of the first diffusion cyclone dust collectors, exhanst gas outlet is connected with the import of the first Low-Pressure Pulse Bag Filter, the outlet of the first Low-Pressure Pulse Bag Filter is connected with the first chimney lower inlet, and the air-vent of dry air-introduced machine is arranged in the first chimney corresponding to the outlet of the first Low-Pressure Pulse Bag Filter, the outlet of the second automatic combustion machine is connected with the import of the combustion chamber of calcining furnace, the charging aperture of calcining furnace is connected with the discharging opening of the second self-conveyor feed, the outlet of calcining furnace is connected with the heat smoke import of gas-gas heat exchanger, after the heat exchange of gas-gas heat exchanger, exhanst gas outlet is connected with the second import of spreading cyclone dust collectors, after the heat exchange of the second diffusion cyclone dust collectors, exhanst gas outlet is connected with the import of the second Low-Pressure Pulse Bag Filter, the outlet of the second Low-Pressure Pulse Bag Filter is connected with the second chimney lower inlet, the air-vent of calcining air-introduced machine is arranged in the second chimney corresponding to the outlet of the second Low-Pressure Pulse Bag Filter, the described first diffusion lower end blow-off valve of cyclone dust collectors is all connected with the buffer bin of the charging aperture of the second self-conveyor feed with the lower end blow-off valve of the first Low-Pressure Pulse Bag Filter, the air outlet slit of gas-gas heat exchanger is connected with the air inlet at straight fiery heat-exchanger rig rear portion, and the outlet of the second diffusion cyclone dust collectors is connected with the air inlet of straight fiery heat-exchanger rig front portion.

As a kind of preferred version, straight fiery heat-exchanger rig described in the utility model comprises horizontal heat-insulation and heat-preservation shell, horizontal heat exchange shell combustion chamber inner bag is provided with in the middle part of horizontal heat-insulation and heat-preservation shell, inner bag front end, combustion chamber is connected with heat-insulation and heat-preservation case nose Imported gas, inner bag front portion, combustion chamber is provided with by front side top to the observation tube of centre rear side inclination and the ignitron by rear side inclination in the middle of direction under front side, and the outer end of observation tube and ignitron is placed in the outside of heat-insulation and heat-preservation shell; Transverse jet ventilator cowling cylinder is provided with outside the inner bag of combustion chamber and between heat-insulation and heat-preservation outer casing inner wall, longitudinal ventilation with jetblower cover cylinder front end is connected with heat-insulation and heat-preservation housing front inwall, longitudinal ventilation with jetblower cover tube rear end is connected with heat-insulation and heat-preservation outer casing back hot-blast outlet, longitudinal ventilation with jetblower cover cylinder rear portion outer wall is connected with heat-insulation and heat-preservation shell rear inside wall, and longitudinal ventilation with jetblower cover cylinder is provided with through hole; Heat-insulation and heat-preservation housing front side is provided with air inlet, and the lower end of heat-insulation and heat-preservation shell is provided with leg; Described air inlet is two, is symmetricly set on heat-insulation and heat-preservation shell both sides, and air inlet is vertically in the length direction of heat-insulation and heat-preservation shell; Described through hole is multiple, is distributed on longitudinal ventilation with jetblower cover cylinder.

As another kind of preferred version, combustion chamber described in the utility model inner bladder outer wall arranges spinosity sheet; Described thorn sheet is the multiple row thorn sheet arranged along combustion chamber inner bag length direction, and the spacing of adjacent column thorn sheet is equal; Described heat-insulation and heat-preservation shell rear upper end is provided with thermometric connector and pressure measurement connector; Described combustion chamber inner bag adopts high-temperature refractory steel combustion chamber inner bag, heat exchange shell adopts carbon steel Q235 heat exchange shell, thorn sheet adopts carbon steel Q235 to sting sheet, and longitudinal ventilation with jetblower cover cylinder adopts carbon steel Q235 longitudinal ventilation with jetblower cover cylinder, and heat-insulation and heat-preservation shell adopts alumina silicate fiber felt heat-insulation and heat-preservation shell.

As another kind of preferred version, first self-conveyor feed described in the utility model and the second self-conveyor feed are made up of shell, helical axis, helical blade, shaft coupling, motor, bearing block, the first securing member, the second securing member, the 3rd securing member, supporting leg and support, motor lower end is fixed on the rear end in pedestal upper end face by the first securing member, the posterior end of shell is fixed on the middle part in pedestal upper end face by the second securing member, the middle lower end of shell is fixed on the front end in pedestal upper end face by supporting leg; Described bearing block is fixed on outer casing back sidewall by the 3rd securing member, motor front end output shaft is connected with the rear end of helical axis by shaft coupling, the front end of helical axis is placed in the front end of shell successively through the bearing on bearing block, outer casing back sidewall, the rear upper end of shell is provided with charging aperture; Described helical blade is evenly arranged on helical axis along the length direction of helical axis, and the top and bottom correspondence of helical blade is provided with vertical openings; Described opening extends to the contact position of helical blade and helical axis from the end of helical blade; Described shell is horizontal L shape, and described charging aperture is placed in the rear upper end of horizontal L shape; Described support is made up of upper end horizontal support plate, both sides vertical beam, middle beam, lower end floor beam and lower end leg, lower end, both sides and the vertical beam upper end, both sides of upper end horizontal support plate are fixed, fix in the middle part of middle beam two ends and both sides vertical beam, lower end floor beam and vertical beam lower end, both sides are fixed, and lower end leg and vertical beam lower end are fixed.

As another kind of preferred version, the width of opening described in the utility model is 20mm ~ 40mm; The length of described helical axis is 3M ~ 6M, and diameter is 150mm ~ 500mm; The parallel distance of described helical blade is 150mm ~ 500 mm, and vertical height is 150mm ~ 500mm; Described internal diameter of outer cover is 170mm ~ 520mm; The lateral length of described charging aperture is 260mm ~ 1500mm.

As another kind of preferred version, the first diffusion cyclone dust collectors described in the utility model and the second diffusion cyclone dust collectors comprise shell, are provided with cyclone dust collectors main body in shell, cyclone dust collectors body outer wall are provided with heat exchange thorn sheet; Described shell lower end is provided with import, and import is communicated with the interlayer between outer casing inner wall with heat exchange thorn sheet, and import is connected with blower fan or water pump by tube connector; Described cyclone dust collectors main body upper end is provided with smoke outlet tube after flue gas inlet tube and heat exchange; Described shell upper end is provided with outlet, exports same heat exchange thorn sheet and is communicated with the interlayer between outer casing inner wall; Described flue gas inlet tube horizontally set, tangent with cyclone dust collectors main body inner wall; After described heat exchange, smoke outlet tube is longitudinally arranged on cyclone dust collectors main body upper end center; Described heat exchange thorn sheet is made up of multiple vertically staggered lamellar body.

As another kind of preferred version, each described pellet length of the utility model is identical, and middle row lamellar body is identical with the interlaces lengths of its lastrow, next line lamellar body, and the spacing of adjacent column lamellar body is equal; The longitudinal section of described flue gas inlet tube is rectangle, and after heat exchange, the cross section of smoke outlet tube is circular; After described heat exchange, smoke outlet tube upper end is higher than flue gas inlet tube upper end, and after heat exchange, smoke outlet tube lower end is lower than flue gas inlet tube lower end; Described tube connector adopts horizontal L shape tube connector down, and described import is arranged on the horizontal L shape horizontal front end of tube connector down, and blower fan or water pump are arranged on horizontal L shape tube connector lower end down; Described heat exchange thorn sheet adopts carbon steel thorn sheet or stainless steel thorn sheet.

As another kind of preferred version, gas-gas heat exchanger described in the utility model comprises heat exchanger main body, side, heat exchanger main body upper end is provided with heat smoke import, heat exchanger main body upper end opposite side is provided with exhanst gas outlet after heat exchange, be covered with closure in the middle part of heat exchanger main body, be provided with orifice plate between heat exchanger body outer wall and outer casing inner wall, shell lower end is provided with air intlet, air intlet is communicated with the space between orifice plate with outer casing inner wall, and air intlet is connected with blower fan by tube connector; Described shell upper end is provided with air outlet slit; Described outer shell outer wall is provided with heat exchange fin; Described heat exchange fin is multiple, uniform along casing circumference; The shape of described heat exchanger main body is Qian font, and the shape of shell is square shape, and overlapping with the following of Qian word below of mouth word, described air intlet is positioned at the lower end of mouthful word one side, and air outlet slit is positioned at a mouthful upper end for another side of word.

Secondly, both sides, heat exchanger main body lower end described in the utility model and supporting leg upper end are fixed; Described heat smoke import, air intlet and air outlet slit are horizontally set, and after heat exchange, exhanst gas outlet is longitudinally arrange; Described heat exchange fin adopts finned carbon steel or stainless steel fin; Hole on described orifice plate assumes diamond in shape uniform; The diameter in the hole on described orifice plate is 6mm, and the spacing of adjacent holes is 90mm; The shape of described tube connector is inverted L-shaped, and described air intlet is connected with the front upper end of inverted L-shaped, and blower fan is connected with the rear lower of inverted L-shaped.

In addition, the control of the reinforced process of the utility model drying comprises the following steps.

1) charger: the wind-warm syndrome blast of drying machine is adjusted to the degree that can feed in raw material, outlet wind-warm syndrome is at 120 degree, and the blast of drying machine starts when-800Pa to feed in raw material, and the moisture of material controls in 3% ~ 85% scope; Then start to feed in raw material; The feeding quantity of charger is controlled by variable-frequency motor; When the outlet temperature of drying machine reduces, feeding quantity is large or added material moisture is large, is arranged on the temperature sensor of drying machine outlet to charger motor control signal, otherwise makes motor reduction revolution minimizing feeding quantity just increase feeding quantity.

2) blower fan: at the outlet setting pressure sensor of drying machine, material deposition bottom drying machine too much, reduce the load of drying machine, pressure changes, pressure sensor is to drying drum blower fan and air-introduced machine control signal, the revolution of adjustment blower fan, makes it flow and pressure does corresponding adjustment, until meet fan inlet pressure-4000Pa when running well.

3) combustor: when the outlet temperature of drying machine reduces, feeding quantity is large or added material moisture is large, be arranged on the temperature sensor of drying machine outlet to combustor adjusting valve control signal, otherwise make combustor increase quantity combusted reduce quantity combusted, until meet normal operation drying machine outlet temperature at 120 degree positive and negative 20 degree.

The control of the reinforced process of calcining comprises the following steps.

1) the wind-warm syndrome air quantity of calcining furnace is adjusted to the degree that can feed in raw material, according to material, outlet temperature, at 600 degree ~ 1450 degree, then starts to feed in raw material; The feeding quantity of charger is controlled by variable-frequency motor; When the outlet temperature of calcining furnace reduces, feeding quantity is large, and the temperature sensor being arranged on calciner exit, to charger motor control signal, makes motor increase revolution, increases feeding quantity.

2) blower fan: at the outlet setting pressure sensor of calcining furnace, when the pressure of calcining furnace reduces, pressure sensor gives calcining air blast and calcining air-introduced machine control signal, the revolution of adjustment blower fan, make it flow and pressure does corresponding adjustment, until meet normal operation fan inlet pressure-7000Pa.

3) combustor: when the temperature of calcining furnace reduces, feeding quantity is large or added temperature of charge is too low, be arranged on temperature sensor on calcining furnace to combustor control signal, combustor is made to increase quantity combusted, improve the temperature of calcining furnace, run well until meet, arrange temperature according to calcining materials, temperature is at 600 degree ~ 1450 degree; When the temperature is changed, to combustor signal of telecommunication, when combustor receives the signal of telecommunication of relevant temperature, the air door of combustor and quantity combusted are adjusted to temperature required.

The utility model beneficial effect.

The utility model completes drying, calcining on a machining center equipment, cooling, the whole production processes reclaimed.

The air outlet slit of the utility model gas-gas heat exchanger is connected with the air inlet at straight fiery heat-exchanger rig rear portion, and the outlet of the second diffusion cyclone dust collectors is connected with the air inlet of straight fiery heat-exchanger rig front portion; The secondary realizing the energy utilizes, and a large amount of heat energy solved in calcination process cross the problem of province, energy-saving and environmental protection.

The utility model arranges the first diffusion cyclone dust collectors, the second diffusion cyclone dust collectors, gas-gas heat exchanger, solves the cooling problem of material, ensure that the use of Low-Pressure Pulse Bag Filter (heatproof is limited).

Accompanying drawing explanation

Below in conjunction with the drawings and specific embodiments, the utility model is described further.The utility model protection domain is not only confined to the statement of following content.

Fig. 1 is the utility model structural representation.

In Fig. 1, 1 is straight fiery heat-exchanger rig, 2 is Rotatingandflashstreamingdrier, 3 is the first self-conveyor feed, 4 is the first diffusion cyclone dust collectors, 5 is the first Low-Pressure Pulse Bag Filter, 6 is dry air-introduced machine, 7 is the second automatic combustion machine, 8 is the second self-conveyor feed, 9 is calcining furnace, 10 is gas-gas heat exchanger, 11 is the second diffusion cyclone dust collectors, 12 is the second Low-Pressure Pulse Bag Filter, 13 is calcining air-introduced machine, 14 is the second Low-Pressure Pulse Bag Filter lower end blow-off valve, 15 is the second diffusion cyclone dust collectors lower end blow-off valve, 16 is combustion chamber, 17 is buffer bin, 18 is the first Low-Pressure Pulse Bag Filter lower end blow-off valve, 19 is the first diffusion cyclone dust collectors lower end blow-off valve, 20 is the first automatic combustion machine.

Fig. 2 is the straight fiery heat-exchanger rig structural representation of the utility model.

In Fig. 2,1 be leg, 2 be hot-blast outlet, 3 be pressure measurement connector, 4 be thermometric connector, 5 for thorn sheet, 6 be heat-insulation and heat-preservation shell, 7 be heat exchange shell, 8 be longitudinal ventilation with jetblower cover cylinder, 9 be combustion chamber inner bag, 10 be through hole, 11 be observation tube, 12 be Imported gas, 13 for ignitron.

Fig. 3 is the utility model self-conveyor feed structural representation.

Fig. 4 is the A portion enlarged drawing of Fig. 3.

In Fig. 3,4,1 for lower end leg, 2 for lower end floor beam, 3 for middle beam, 4 for vertical beam, 5 for upper end horizontal support plate, 6 for supporting leg, 7 for shell, 8 for helical axis, 9 for opening, 10 for helical blade, 11 for charging aperture, 12 be the 3rd securing member, 13 for bearing block, 14 for shaft coupling, 15 be the first securing member, 16 for motor, 17 be the second securing member.

Fig. 5 is the utility model diffusion cyclone dust collectors connecting fan structural representation.

Fig. 6 is that the utility model diffusion cyclone dust collectors connect water pump structure schematic diagram.

Fig. 7 is the utility model diffusion cyclone dust collectors heat exchange thorn chip architecture schematic diagram.

Fig. 8 is the A-A sectional view of Fig. 5.

Fig. 9 is the B-B sectional view of Fig. 5.

In Fig. 5 ~ 9,1 be blower fan, 2 be tube connector, 3 be import, 4 be shell, 5 be cyclone dust collectors main body, 7 be outlet, 8 be flue gas inlet tube, 10 be water pump for smoke outlet tube, 9 after heat exchange for heat exchange thorn sheet, 6.

Figure 10 is the utility model gas-gas heat exchanger structural representation.

Figure 11 is the utility model gas-gas heat exchanger top view.

Figure 12 is the flat distribution map in the hole on the utility model gas-gas heat exchanger orifice plate.

In Figure 10,11,12,1 be supporting leg, 2 be air outlet slit, 3 be that after heat exchange, exhanst gas outlet, 4 is heat smoke import, 5 be heat exchanger main body, 6 be orifice plate, 7 be shell, 8 be heat exchange fin, 9 be air intlet, 10 be tube connector, 11 is blower fan, 12 is hole on orifice plate.

Detailed description of the invention

As shown in the figure, the utility model comprises the first automatic combustion machine, straight fiery heat-exchanger rig, Rotatingandflashstreamingdrier, first self-conveyor feed, first diffusion cyclone dust collectors, first Low-Pressure Pulse Bag Filter, dry air-introduced machine, second automatic combustion machine, second self-conveyor feed, calcining furnace, gas-gas heat exchanger, second diffusion cyclone dust collectors, second Low-Pressure Pulse Bag Filter and calcining air-introduced machine, the outlet of its structural feature first automatic combustion machine is connected with the Imported gas of straight fiery heat-exchanger rig, the straight hot-blast outlet of fiery heat-exchanger rig is connected with the import of Rotatingandflashstreamingdrier, the charging aperture of Rotatingandflashstreamingdrier is connected with the discharging opening of the first self-conveyor feed, the outlet of Rotatingandflashstreamingdrier is connected with the first import of spreading cyclone dust collectors, after the heat exchange of the first diffusion cyclone dust collectors, exhanst gas outlet is connected with the import of the first Low-Pressure Pulse Bag Filter, the outlet of the first Low-Pressure Pulse Bag Filter is connected with the first chimney lower inlet, and the air-vent of dry air-introduced machine is arranged in the first chimney corresponding to the outlet of the first Low-Pressure Pulse Bag Filter, the outlet of the second automatic combustion machine is connected with the import of the combustion chamber of calcining furnace, the charging aperture of calcining furnace is connected with the discharging opening of the second self-conveyor feed, the outlet of calcining furnace is connected with the heat smoke import of gas-gas heat exchanger, after the heat exchange of gas-gas heat exchanger, exhanst gas outlet is connected with the second import of spreading cyclone dust collectors, after the heat exchange of the second diffusion cyclone dust collectors, exhanst gas outlet is connected with the import of the second Low-Pressure Pulse Bag Filter, the outlet of the second Low-Pressure Pulse Bag Filter is connected with the second chimney lower inlet, the air-vent of calcining air-introduced machine is arranged in the second chimney corresponding to the outlet of the second Low-Pressure Pulse Bag Filter, the described first diffusion lower end blow-off valve of cyclone dust collectors is all connected with the buffer bin of the charging aperture of the second self-conveyor feed with the lower end blow-off valve of the first Low-Pressure Pulse Bag Filter, the air outlet slit of gas-gas heat exchanger is connected with the air inlet at straight fiery heat-exchanger rig rear portion, and the outlet of the second diffusion cyclone dust collectors is connected with the air inlet of straight fiery heat-exchanger rig front portion.

Water-containing materials passes through the first self-conveyor feed to Rotatingandflashstreamingdrier, dried material reclaims through the first diffusion cyclone dust collectors, the first Low-Pressure Pulse Bag Filter, the mass transport reclaimed is to buffer bin, give the second self-conveyor feed to calcining furnace from buffer bin, the material after calcining enters gas-gas heat exchanger with hot-air and lowers the temperature and heat exchange to material; Material after cooling enters the second diffusion cyclone dust collectors, carries out recovery and the secondary heat exchange of material.Material after heat exchange cooling, enters the second Low-Pressure Pulse Bag Filter and does final recovery, thus ensures whole recovery (rate of recovery 99.8%) of material, reaches the object of protection of the environment simultaneously.The secondary that the hot blast swapped out realizes the energy to drying equipment or calcining furnace utilizes, thus reaches energy-conservation object.

Second automatic combustion machine produces high-temperature gas and calcines in calcining furnace dried material, and the material after calcining carries out the recovery of heat exchange and material by gas-gas heat exchanger and the second diffusion cyclone dust collectors, and calcining tail gas is discharged from the second chimney; Hot blast (spreading the hot blast of the outlet extraction of cyclone dust collectors from the air outlet slit, second of gas-gas heat exchanger) after heat exchange is by dry air-introduced machine air inducing to Rotatingandflashstreamingdrier, and realize the drying of material, dried tail gas is discharged from the first chimney.

First automatic combustion machine is set before straight fiery heat-exchanger rig, uses when waste heat starts to produce not and just when being convenient to some material calcining.

Described straight fiery heat-exchanger rig comprises horizontal heat-insulation and heat-preservation shell, horizontal heat exchange shell combustion chamber inner bag is provided with in the middle part of the horizontal heat-insulation and heat-preservation shell of its structural feature, inner bag front end, combustion chamber is connected with heat-insulation and heat-preservation case nose Imported gas, inner bag front portion, combustion chamber is provided with by front side top to the observation tube of centre rear side inclination and the ignitron by rear side inclination in the middle of direction under front side, and the outer end of observation tube and ignitron is placed in the outside of heat-insulation and heat-preservation shell; Transverse jet ventilator cowling cylinder is provided with outside the inner bag of combustion chamber and between heat-insulation and heat-preservation outer casing inner wall, longitudinal ventilation with jetblower cover cylinder front end is connected with heat-insulation and heat-preservation housing front inwall, longitudinal ventilation with jetblower cover tube rear end is connected with heat-insulation and heat-preservation outer casing back hot-blast outlet, longitudinal ventilation with jetblower cover cylinder rear portion outer wall is connected with heat-insulation and heat-preservation shell rear inside wall, and longitudinal ventilation with jetblower cover cylinder is provided with through hole; Heat-insulation and heat-preservation housing front side is provided with air inlet, and the lower end of heat-insulation and heat-preservation shell is provided with leg.In combustion chamber, inner bag flame directly burns, and obtains high temperature (500 degree) hot-air; Owing to being provided with heat-insulation and heat-preservation shell, serve the insulation effect to equipment, improve the effective rate of utilization of heat energy.The setting of heat-insulation and heat-preservation shell also serves safety effect, avoids that exospheric temperature is too high scalds people.The utility model longitudinal ventilation with jetblower cover cylinder is provided with through hole, and what be convenient to cold air enters heat exchange, protects the endothecium structure of burner, long service life simultaneously.

Described air inlet is two, is symmetricly set on heat-insulation and heat-preservation shell both sides, and air inlet is vertically in the length direction of heat-insulation and heat-preservation shell; Cloth wind is even.

Described through hole is multiple, is distributed on longitudinal ventilation with jetblower cover cylinder.Uniform multiple through hole, heat exchange is even, good effect of heat exchange.

Described combustion chamber inner bladder outer wall arranges spinosity sheet.Arrange the effective increasing heat radiation area of thorn sheet, heat exchange efficiency is high.

Described thorn sheet is the multiple row thorn sheet arranged along combustion chamber inner bag length direction, and the spacing of adjacent column thorn sheet is equal.

Described heat-insulation and heat-preservation shell rear upper end is provided with thermometric connector and pressure measurement connector.

Described combustion chamber inner bag adopts high-temperature refractory steel combustion chamber inner bag, heat exchange shell adopts carbon steel Q235 heat exchange shell, thorn sheet adopts carbon steel Q235 to sting sheet, and longitudinal ventilation with jetblower cover cylinder adopts carbon steel Q235 longitudinal ventilation with jetblower cover cylinder, and heat-insulation and heat-preservation shell adopts alumina silicate fiber felt heat-insulation and heat-preservation shell.

Fuel directly burns in combustion chamber inner bag flame, and produce high-temperature hot flue gas, high-temperature hot flue gas mixes with the cold air entered from air inlet in combustion chamber inner bag back outlet; The heat that flame combustion produces outwards is dispelled the heat by heat exchange shell, thorn sheet; Cold air enters from air inlet; entered by the through hole on longitudinal ventilation with jetblower cover cylinder and carry out heat exchange (so just protecting the internal layer of burner); then the hot-air after heat exchange, transfers out after air outlet mixes with high-temperature flue gas, reaches the object obtaining high temperature (500 degree) hot-air.

Described first self-conveyor feed and the second self-conveyor feed are made up of shell, helical axis, helical blade, shaft coupling, motor, bearing block, the first securing member, the second securing member, the 3rd securing member, supporting leg and support, motor lower end is fixed on the rear end in pedestal upper end face by the first securing member, the posterior end of shell is fixed on the middle part in pedestal upper end face by the second securing member, the middle lower end of shell is fixed on the front end in pedestal upper end face by supporting leg; Described bearing block is fixed on outer casing back sidewall by the 3rd securing member, motor front end output shaft is connected with the rear end of helical axis by shaft coupling, the front end of helical axis is placed in the front end of shell successively through the bearing on bearing block, outer casing back sidewall, the rear upper end of shell is provided with charging aperture; Described helical blade is evenly arranged on helical axis along the length direction of helical axis, and the top and bottom correspondence of helical blade is provided with vertical openings.The top and bottom correspondence of the utility model helical blade is provided with vertical openings; Be easy to the high material larger containing wet cream pasty state, filter cake shape material and ratio of viscosities of high-temperature area conveying.

First self-conveyor feed and the second self-conveyor feed are made up of shell, helical axis, helical blade, shaft coupling, motor, bearing block, the first securing member, the second securing member, the 3rd securing member, supporting leg and support; Front equipment end eliminates support (bracing or strutting arrangement with bearing), dry at high-temperature area like this, can not make bearing locking, cause equipment normally to use; In addition, avoid in the transmitting procedure of paste and granular material, granular material is to the situation of bearing wear ambassador device damage.The utility model is applicable to the reinforced use of high-temperature service.

Described opening extends to the contact position of helical blade and helical axis from the end of helical blade; More be beneficial to the transmission of the larger material of cream pasty state, filter cake shape material and ratio of viscosities.

Described shell is horizontal L shape, and described charging aperture is placed in the rear upper end of horizontal L shape.

Described support is made up of upper end horizontal support plate, both sides vertical beam, middle beam, lower end floor beam and lower end leg, lower end, both sides and the vertical beam upper end, both sides of upper end horizontal support plate are fixed, fix in the middle part of middle beam two ends and both sides vertical beam, lower end floor beam and vertical beam lower end, both sides are fixed, and lower end leg and vertical beam lower end are fixed.Adopt the combination of horizontal support plate, both sides vertical beam, middle beam, lower end floor beam and lower end leg as supporting, supporting construction is stablized.

The width of described opening is 20mm ~ 40mm.

The length of described helical axis is 3M ~ 6M, and diameter is 150mm ~ 500mm.

The parallel distance of described helical blade is 150mm ~ 500 mm, and vertical height is 150mm ~ 500mm.

Described internal diameter of outer cover is 170mm ~ 520mm.

The lateral length of described charging aperture is 260mm ~ 1500mm.

More than that the self-conveyor feed that makes obtained in process of the test obtains the data of works fine effect.

The material carried needing high temperature is added by charging aperture, and helical blade drives material to push ahead, and in the process advanced, helical axis is by material automatic capturing; When after the complete centering of helical axis, material is by continual and steady transmission.

Described first diffusion cyclone dust collectors and the second diffusion cyclone dust collectors comprise shell, are provided with cyclone dust collectors main body in its structural feature shell, cyclone dust collectors body outer wall are provided with heat exchange thorn sheet; Described shell lower end is provided with import, and import is communicated with the interlayer between outer casing inner wall with heat exchange thorn sheet, and import is connected with blower fan or water pump by tube connector; Described cyclone dust collectors main body upper end is provided with smoke outlet tube after flue gas inlet tube and heat exchange; Described shell upper end is provided with outlet, exports same heat exchange thorn sheet and is communicated with the interlayer between outer casing inner wall.The utility model makees heat-exchanger rig at cyclone dust collectors skin, can dedusting to swap out again hot-air or hot water stream; Reach the function namely keeping existing equipment, turn increase heat exchange function.

Cyclone dust collectors body outer wall is provided with heat exchange thorn sheet, adds heat exchange area, thus reach the object increasing heat transfer effect.Import is connected with blower fan or water pump by tube connector, is convenient to the introducing heat exchange of air-flow and current.

Described flue gas inlet tube horizontally set, tangent with cyclone dust collectors main body inner wall; Increase the path of flue gas walking, increase heat-exchange time.

After described heat exchange, smoke outlet tube is longitudinally arranged on cyclone dust collectors main body upper end center.

Described heat exchange thorn sheet is made up of multiple vertically staggered lamellar body; Be convenient to the flowing of flue gas.

Each described pellet length is identical, and middle row lamellar body is identical with the interlaces lengths of its lastrow, next line lamellar body, and the spacing of adjacent column lamellar body is equal.

The longitudinal section of described flue gas inlet tube is rectangle, and after heat exchange, the cross section of smoke outlet tube is circular.Rectangular gas approach, after flue gas access arrangement, realizes face contact; The cross section of smoke outlet tube is circular, discharges fume smooth and easy, is convenient to processing.

After described heat exchange, smoke outlet tube upper end is higher than flue gas inlet tube upper end, and after heat exchange, smoke outlet tube lower end is lower than flue gas inlet tube lower end; Fully heat exchange, dedusting are just discharged to avoid entering the flue gas of cyclone dust collectors.

Described tube connector adopts horizontal L shape tube connector down, and described import is arranged on the horizontal L shape horizontal front end of tube connector down, and blower fan or water pump are arranged on horizontal L shape tube connector lower end down.

Described heat exchange thorn sheet adopts carbon steel thorn sheet or stainless steel thorn sheet.

By blower fan or water pump, wind or water-jet are entered in the interlayer between shell and cyclone dust collectors body outer wall, by gas or current, after the upper heat exchange of the outer wall (heat carrier) of cyclone dust collectors, by hot gas or current, the heat changed is taken away by outlet, thus reach heat exchange and material cooling object.

Described gas-gas heat exchanger comprises heat exchanger main body, side, heat exchanger main body upper end is provided with heat smoke import, heat exchanger main body upper end opposite side is provided with exhanst gas outlet after heat exchange, closure is covered with in the middle part of its structural feature heat exchanger main body, orifice plate is provided with between heat exchanger body outer wall and outer casing inner wall, shell lower end is provided with air intlet, and air intlet is communicated with the space between orifice plate with outer casing inner wall, and air intlet is connected with blower fan by tube connector; Described shell upper end is provided with air outlet slit.Orifice plate is provided with between the utility model heat exchanger body outer wall and outer casing inner wall; Namely add " jet orifice ", make cold air after entering housing, formed " air flow stream " that up to ten thousand have certain energy, add the jet velocity of air-flow.When " air flow stream " beats on the outer wall of heat exchanger main body, be very easy to and well Hot swapping gone out, heat transfer effect is very good, and heat exchange efficiency is high.

Described outer shell outer wall is provided with heat exchange fin.Heat exchange fin is set and increases heat exchange area, enhance heat transfer effect.

Described heat exchange fin is multiple, uniform along casing circumference; Further enhancing heat transfer effect.

The shape of described heat exchanger main body is Qian font, and the shape of shell is square shape, and overlapping with the following of Qian word below of mouth word, described air intlet is positioned at the lower end of mouthful word one side, and air outlet slit is positioned at a mouthful upper end for another side of word.Adopt Qian font heat exchanger main body, lengthen the heat exchange length of input heat smoke, reach the effect of abundant heat exchange.

Described both sides, heat exchanger main body lower end and supporting leg upper end are fixed.By support bearing heat exchanger main body, overall structure is stable, reliable.

Described heat smoke import, air intlet and air outlet slit are horizontally set, and after heat exchange, exhanst gas outlet is longitudinally arrange.

Hole on described orifice plate assumes diamond in shape uniform.

The diameter in the hole on described orifice plate is 6mm, and the spacing of adjacent holes is 90mm.Through test, this parameter value is set, shows good heat transfer effect.

The shape of described tube connector is inverted L-shaped, and described air intlet is connected with the front upper end of inverted L-shaped, and blower fan is connected with the rear lower of inverted L-shaped.Adopt inverted L-shaped tube connector, connect and arrange conveniently.

Described heat exchange fin adopts finned carbon steel or stainless steel fin.

High-temperature hot flue gas enters heat exchanger main body from heat smoke import, through cooling after by heat exchange after exhanst gas outlet discharge; Cold wind blows in the interlayer between shell and orifice plate by blower fan, forms high velocity air by orifice plate, and " air flow stream " beats on the outer wall of heat exchanger main body at a high speed.After heat exchange, thermal current is walked by air outlet slit the torrid zone changed, thus reaches heat exchange object.The utility model can be connected with high temperature gas flow conveying equipment and be used, and reaches the object to material cooling and heat exchange.

The control of the reinforced process of the utility model drying comprises the following steps.

1) charger: the wind-warm syndrome blast of drying machine is adjusted to the degree that can feed in raw material, outlet wind-warm syndrome is at 120 degree, and the blast of drying machine starts when-800Pa to feed in raw material, and the moisture of material controls in 3% ~ 85% scope, then starts to feed in raw material; The feeding quantity of charger is controlled by variable-frequency motor; When the outlet temperature of drying machine reduces, feeding quantity is large or added material moisture is large, is arranged on the temperature sensor of drying machine outlet to charger motor control signal, otherwise makes motor reduction revolution minimizing feeding quantity just increase feeding quantity.

2) blower fan: at the outlet setting pressure sensor of drying machine, material deposition bottom drying machine too much, reduce the load of drying machine, pressure changes, pressure sensor is to drying drum blower fan and air-introduced machine control signal, the revolution of adjustment blower fan, makes it flow and pressure does corresponding adjustment, until meet fan inlet pressure-4000Pa when running well.

3) combustor: when the outlet temperature of drying machine reduces, feeding quantity is large or added material moisture is large, the temperature sensor being arranged on drying machine outlet can to combustor adjusting valve control signal, otherwise make combustor increase quantity combusted reduce quantity combusted, until meet normal operation drying machine outlet temperature at 120 degree positive and negative 20 degree.

The control of the reinforced process of calcining comprises the following steps.

1) the wind-warm syndrome air quantity of calcining furnace is adjusted to the degree that can feed in raw material, according to material, outlet temperature, at 600 degree ~ 1450 degree, then starts to feed in raw material; The feeding quantity of charger is controlled by variable-frequency motor; When the outlet temperature of calcining furnace reduces, feeding quantity is large, and the temperature sensor being arranged on calciner exit, to charger motor control signal, makes motor increase revolution, increases feeding quantity.

2) blower fan: at the outlet setting pressure sensor of calcining furnace, when the pressure of calcining furnace reduces, pressure sensor gives calcining air blast and calcining air-introduced machine control signal, the revolution of adjustment blower fan, make it flow and pressure does corresponding adjustment, until meet normal operation fan inlet pressure-7000Pa.

3) combustor: when the temperature of calcining furnace reduces, feeding quantity is large or added temperature of charge is too low, be arranged on temperature sensor on calcining furnace to combustor control signal, combustor is made to increase quantity combusted, improve the temperature of calcining furnace, run well until meet, arrange temperature according to calcining materials, temperature is at 600 degree ~ 1450 degree; When the temperature is changed, to combustor signal of telecommunication, when combustor receives the signal of telecommunication of relevant temperature, the air door of combustor and quantity combusted are adjusted to temperature required.Combustor can adopt Italy hundred to obtain combustor.

Automated control operation step.

1, click startup, drying air fan and calcining blower fan start simultaneously.When drying machine import blast and calcining burner hearth blast reach-800Pa, drying air fan and calcining blower fan maintain current revolution, and system wind pressure PID is in poised state.

2, drying and burning machine and calcination combustion machine automatic ignition after 3 minutes, temperature is stabilized between 200 DEG C-400 DEG C and 600 DEG C-1450 DEG C respectively, this temperature adjusts according to material properties, if baking temperature and calcining heat reach setting value, combustor temperature PID is by temperature-constant operation.

3, after 5 minutes when after system pressure temperature stabilization, drying machine, blow-off valve, vibrator, pulse valve etc. start simultaneously, ready for producing.

4,10 minutes, reinforced spiral started, and the feeding quantity of reinforced spiral changes with drying machine outlet temperature and calciner exit variations in temperature, until pid parameter no longer changes after reaching a certain stationary value, illustrative system is in reinforced optimum state.

5, when heat exchanger outlet temperature is higher than 400 DEG C, heat exchanger fan starting, ensures that heat exchanger outlet temperature is stabilized within 400 DEG C.

The automation machine of the drying of material of above process implementation, calcining controls, and saves human and material resources and reduces labour intensity.

Be understandable that, above about specific descriptions of the present utility model, the technical scheme described by the utility model embodiment is only not limited to for illustration of the utility model, those of ordinary skill in the art is to be understood that, still can modify to the utility model or equivalent replacement, to reach identical technique effect; Needs are used, all within protection domain of the present utility model as long as meet.

Claims (9)

1. a kind of drying and calcining machining center, comprises the first automatic combustion machine, straight fiery heat-exchanger rig, Rotatingandflashstreamingdrier, first self-conveyor feed, first diffusion cyclone dust collectors, first Low-Pressure Pulse Bag Filter, dry air-introduced machine, second automatic combustion machine, second self-conveyor feed, calcining furnace, gas-gas heat exchanger, second diffusion cyclone dust collectors, second Low-Pressure Pulse Bag Filter and calcining air-introduced machine, it is characterized in that the outlet of the first automatic combustion machine is connected with the Imported gas of straight fiery heat-exchanger rig, the straight hot-blast outlet of fiery heat-exchanger rig is connected with the import of Rotatingandflashstreamingdrier, the charging aperture of Rotatingandflashstreamingdrier is connected with the discharging opening of the first self-conveyor feed, the outlet of Rotatingandflashstreamingdrier is connected with the first import of spreading cyclone dust collectors, after the heat exchange of the first diffusion cyclone dust collectors, exhanst gas outlet is connected with the import of the first Low-Pressure Pulse Bag Filter, the outlet of the first Low-Pressure Pulse Bag Filter is connected with the first chimney lower inlet, and the air-vent of dry air-introduced machine is arranged in the first chimney corresponding to the outlet of the first Low-Pressure Pulse Bag Filter, the outlet of the second automatic combustion machine is connected with the import of the combustion chamber of calcining furnace, the charging aperture of calcining furnace is connected with the discharging opening of the second self-conveyor feed, the outlet of calcining furnace is connected with the heat smoke import of gas-gas heat exchanger, after the heat exchange of gas-gas heat exchanger, exhanst gas outlet is connected with the second import of spreading cyclone dust collectors, after the heat exchange of the second diffusion cyclone dust collectors, exhanst gas outlet is connected with the import of the second Low-Pressure Pulse Bag Filter, the outlet of the second Low-Pressure Pulse Bag Filter is connected with the second chimney lower inlet, the air-vent of calcining air-introduced machine is arranged in the second chimney corresponding to the outlet of the second Low-Pressure Pulse Bag Filter, the described first diffusion lower end blow-off valve of cyclone dust collectors is all connected with the buffer bin of the charging aperture of the second self-conveyor feed with the lower end blow-off valve of the first Low-Pressure Pulse Bag Filter, the air outlet slit of gas-gas heat exchanger is connected with the air inlet at straight fiery heat-exchanger rig rear portion, and the outlet of the second diffusion cyclone dust collectors is connected with the air inlet of straight fiery heat-exchanger rig front portion.

2. a kind of drying and calcining machining center according to claim 1, it is characterized in that described straight fiery heat-exchanger rig comprises horizontal heat-insulation and heat-preservation shell, horizontal heat exchange shell combustion chamber inner bag is provided with in the middle part of horizontal heat-insulation and heat-preservation shell, inner bag front end, combustion chamber is connected with heat-insulation and heat-preservation case nose Imported gas, inner bag front portion, combustion chamber is provided with by front side top to the observation tube of centre rear side inclination and the ignitron by rear side inclination in the middle of direction under front side, and the outer end of observation tube and ignitron is placed in the outside of heat-insulation and heat-preservation shell; Transverse jet ventilator cowling cylinder is provided with outside the inner bag of combustion chamber and between heat-insulation and heat-preservation outer casing inner wall, longitudinal ventilation with jetblower cover cylinder front end is connected with heat-insulation and heat-preservation housing front inwall, longitudinal ventilation with jetblower cover tube rear end is connected with heat-insulation and heat-preservation outer casing back hot-blast outlet, longitudinal ventilation with jetblower cover cylinder rear portion outer wall is connected with heat-insulation and heat-preservation shell rear inside wall, and longitudinal ventilation with jetblower cover cylinder is provided with through hole; Heat-insulation and heat-preservation housing front side is provided with air inlet, and the lower end of heat-insulation and heat-preservation shell is provided with leg; Described air inlet is two, is symmetricly set on heat-insulation and heat-preservation shell both sides, and air inlet is vertically in the length direction of heat-insulation and heat-preservation shell; Described through hole is multiple, is distributed on longitudinal ventilation with jetblower cover cylinder.

3. according to claim 2, a drying and calcining machining center, is characterized in that described combustion chamber inner bladder outer wall arranges spinosity sheet; Described thorn sheet is the multiple row thorn sheet arranged along combustion chamber inner bag length direction, and the spacing of adjacent column thorn sheet is equal; Described heat-insulation and heat-preservation shell rear upper end is provided with thermometric connector and pressure measurement connector; Described combustion chamber inner bag adopts high-temperature refractory steel combustion chamber inner bag, heat exchange shell adopts carbon steel Q235 heat exchange shell, thorn sheet adopts carbon steel Q235 to sting sheet, and longitudinal ventilation with jetblower cover cylinder adopts carbon steel Q235 longitudinal ventilation with jetblower cover cylinder, and heat-insulation and heat-preservation shell adopts alumina silicate fiber felt heat-insulation and heat-preservation shell.

4. a kind of drying and calcining machining center according to claim 3, it is characterized in that described first self-conveyor feed and the second self-conveyor feed are made up of shell, helical axis, helical blade, shaft coupling, motor, bearing block, the first securing member, the second securing member, the 3rd securing member, supporting leg and support, motor lower end is fixed on the rear end in pedestal upper end face by the first securing member, the posterior end of shell is fixed on the middle part in pedestal upper end face by the second securing member, the middle lower end of shell is fixed on the front end in pedestal upper end face by supporting leg; Described bearing block is fixed on outer casing back sidewall by the 3rd securing member, motor front end output shaft is connected with the rear end of helical axis by shaft coupling, the front end of helical axis is placed in the front end of shell successively through the bearing on bearing block, outer casing back sidewall, the rear upper end of shell is provided with charging aperture; Described helical blade is evenly arranged on helical axis along the length direction of helical axis, and the top and bottom correspondence of helical blade is provided with vertical openings; Described opening extends to the contact position of helical blade and helical axis from the end of helical blade; Described shell is horizontal L shape, and described charging aperture is placed in the rear upper end of horizontal L shape; Described support is made up of upper end horizontal support plate, both sides vertical beam, middle beam, lower end floor beam and lower end leg, lower end, both sides and the vertical beam upper end, both sides of upper end horizontal support plate are fixed, fix in the middle part of middle beam two ends and both sides vertical beam, lower end floor beam and vertical beam lower end, both sides are fixed, and lower end leg and vertical beam lower end are fixed.

5. according to claim 4, a drying and calcining machining center, is characterized in that the width of described opening is 20mm ~ 40mm; The length of described helical axis is 3M ~ 6M, and diameter is 150mm ~ 500mm; The parallel distance of described helical blade is 150mm ~ 500 mm, and vertical height is 150mm ~ 500mm; Described internal diameter of outer cover is 170mm ~ 520mm; The lateral length of described charging aperture is 260mm ~ 1500mm.

6. a kind of drying and calcining machining center according to claim 5, it is characterized in that described first diffusion cyclone dust collectors and the second diffusion cyclone dust collectors comprise shell, be provided with cyclone dust collectors main body in shell, cyclone dust collectors body outer wall be provided with heat exchange thorn sheet; Described shell lower end is provided with import, and import is communicated with the interlayer between outer casing inner wall with heat exchange thorn sheet, and import is connected with blower fan or water pump by tube connector; Described cyclone dust collectors main body upper end is provided with smoke outlet tube after flue gas inlet tube and heat exchange; Described shell upper end is provided with outlet, exports same heat exchange thorn sheet and is communicated with the interlayer between outer casing inner wall; Described flue gas inlet tube horizontally set, tangent with cyclone dust collectors main body inner wall; After described heat exchange, smoke outlet tube is longitudinally arranged on cyclone dust collectors main body upper end center; Described heat exchange thorn sheet is made up of multiple vertically staggered lamellar body.

7. a drying and calcining machining center according to claim 6, it is characterized in that each described pellet length is identical, middle row lamellar body is identical with the interlaces lengths of its lastrow, next line lamellar body, and the spacing of adjacent column lamellar body is equal; The longitudinal section of described flue gas inlet tube is rectangle, and after heat exchange, the cross section of smoke outlet tube is circular; After described heat exchange, smoke outlet tube upper end is higher than flue gas inlet tube upper end, and after heat exchange, smoke outlet tube lower end is lower than flue gas inlet tube lower end; Described tube connector adopts horizontal L shape tube connector down, and described import is arranged on the horizontal L shape horizontal front end of tube connector down, and blower fan or water pump are arranged on horizontal L shape tube connector lower end down; Described heat exchange thorn sheet adopts carbon steel thorn sheet or stainless steel thorn sheet.

8. a kind of drying and calcining machining center according to claim 7, it is characterized in that described gas-gas heat exchanger comprises heat exchanger main body, side, heat exchanger main body upper end is provided with heat smoke import, heat exchanger main body upper end opposite side is provided with exhanst gas outlet after heat exchange, closure is covered with in the middle part of heat exchanger main body, orifice plate is provided with between heat exchanger body outer wall and outer casing inner wall, shell lower end is provided with air intlet, air intlet is communicated with the space between orifice plate with outer casing inner wall, and air intlet is connected with blower fan by tube connector; Described shell upper end is provided with air outlet slit; Described outer shell outer wall is provided with heat exchange fin; Described heat exchange fin is multiple, uniform along casing circumference; The shape of described heat exchanger main body is Qian font, and the shape of shell is square shape, and overlapping with the following of Qian word below of mouth word, described air intlet is positioned at the lower end of mouthful word one side, and air outlet slit is positioned at a mouthful upper end for another side of word.

9. according to claim 8, a drying and calcining machining center, is characterized in that described both sides, heat exchanger main body lower end and supporting leg upper end are fixed; Described heat smoke import, air intlet and air outlet slit are horizontally set, and after heat exchange, exhanst gas outlet is longitudinally arrange; Described heat exchange fin adopts finned carbon steel or stainless steel fin; Hole on described orifice plate assumes diamond in shape uniform; The diameter in the hole on described orifice plate is 6mm, and the spacing of adjacent holes is 90mm; The shape of described tube connector is inverted L-shaped, and described air intlet is connected with the front upper end of inverted L-shaped, and blower fan is connected with the rear lower of inverted L-shaped.