CN106565078A - Annealing cooling device - Google Patents

Abstract

The invention relates to the technical field of annealing cooling and discloses an annealing cooling device. The position of an exhaust port of an annealing furnace is provided with a cover body, a driving gear and a driven gear, and the driving gear and the driven gear are engaged with each other; the cover body comprises a first semicircular cover plate and a second semicircular cover plate which are rotationally connected; the first semicircular cover plate is provided with through holes; the second semicircular cover plate is connected with the driven gear; the annealing furnace further comprises a gas collecting system and a cooling system; the gas collecting system comprises a suction fan and a water steaming box; the suction fan is provided with an air suction port and an air suction pipeline; the side wall of the air suction port is connected with a guiding pipe; the air suction pipeline is provided with a through groove and is communicated with the annealing furnace; the water steaming box is suspended at the joint of the air suction port and the air suction pipeline; the cooling system comprises a hollow ring which is provided with ventilation holes; ammonium chloride crystals exist in the ring; the ring penetrates the through groove and is engaged with a rotating gear above the ring; the rotating gear is connected with a motor; and the tail end of the guiding pipe is placed below the ring. The annealing cooling device can effectively improve the cooling efficiency of the annealing furnace.

Description

A kind of annealing and cooling device

Technical field

The present invention relates to cooling technology field of annealing, and in particular to a kind of annealing and cooling device.

Background technology

Vial production need through raw material high-temperature fusion, mould molding, anneal process, by lime stone, stone The raw materials such as sand, soda ash mix in proportion to be put in melting furnace, Jing after high-temperature fusion, is put into blow molding in mould, then It is put into annealing cooling in annealing furnace and obtains finished product.Wherein, vial is stronger due to having in glass body after blow molding Stress so that in temperature shock or air pressure suddenly change, the easy fragmentation of vial, it is therefore desirable to put it into annealing Annealed in stove, to eliminate vial in stress, make vial become firm.

Existing annealing device, in order to ensure the quality of vial finished product, in cooling stage, generally adopts natural cooling side Formula, the cooling velocity of this method is too slow, affects vial production efficiency, it is impossible to meet modern society's Production requirement.Additionally, There are some annealing furnaces using air-cooler to the direct quenching of vial, but, because vial is through rising at gentle insulation It is internal that still there is temporary stress after reason, if directly blown a cold wind over to it, vial cooling can be made too fast, cause in vial The temporary stress in portion strengthens, and when ultimate strength of the temporary stress more than vial itself, vial will burst, and become residual Substandard products.Accordingly, it would be desirable to one kind can make temperature not occur drastically to change, annealing furnace cooling velocity can be lifted again, it is ensured that vial The device of cooling quality.

The patent of Application No. CN201410188737.0 discloses an a kind of lid arrangement of axle quenching glowing furnace, the skill Art scheme is decomposed lifter motion by two-stage lifting device, reduces the power requirement of power input, and shrinks dress by semicircle Put reduction and stretch radius, the requirement of requirement and spatial altitude size of the reduction to peripheral space size, it is adaptable to multiclass part Quenching Treatment, but when annealing cooling is carried out to vial using the technology, due to the annealing of vial, mainly by annealing The cooling of stove is carried out, it is not necessary that fully open on lid, and the technology is by the use of secondary cylinder as power is lifted, unavoidable aobvious Energy must be wasted, in addition, the technology can not realize quick effective cooling of annealing furnace, thus, it would be desirable to which one kind can Realize that annealing furnace is quickly effectively cooled down, while and the device of guarantee glass bottle annealing quality.

The content of the invention

The invention is intended to a kind of annealing and cooling device is provided, to improve the cooling velocity of annealing furnace.

To reach above-mentioned purpose, the basic technology scheme of the present invention is as follows：A kind of annealing and cooling device, including annealing furnace, Annealing furnace top has exhaust outlet, and exhaust ports have the lid being adapted with exhaust outlet, and lid is provided with the master of a pair of meshing Moving gear and driven gear, lid includes the first semicircle cover plate and the second semicircle cover plate, the first semicircle cover plate and second Connection is rotated between semicircle cover plate, there is several through holes, the second semicircle cover plate and driven gear on the first semicircle cover plate It is fixedly connected；Also include gas gathering system and cooling system, gas gathering system includes induced-draught fan and steams water tank, and induced-draught fan has inlet scoop And air-suction duct, inlet scoop is placed in the exhaust ports of annealing furnace, on the side wall of inlet scoop conduit is connected with, and air-suction duct is connected to Inlet scoop upper end, air-suction duct is provided with groove, and the air-suction duct other end is connected with annealing furnace, steam water tank hang on inlet scoop with The junction of air-suction duct, cooling system includes hollow annulus, has several air vents on annulus, and ammonium chloride is housed in annulus Crystal, groove of the annulus on air-suction duct, annulus excircle is provided with several teeth, and annulus top is provided with the rotation engaged with annulus Rotating disk, swing pinion and motor connection, the end of conduit is placed in the lower section of annulus.

The principle and advantage of this programme be：During practical application, when annealing furnace enters annealing cooling stage, external impetus drive Driving gear rotates, and driven gear follows driving gear to rotate, and the second semicircle cover plate also follows driven gear to rotate, so as to beat The through hole on the first semicircle cover plate is opened, makes to be gushed on the hot gas in annealing furnace, hot gas Jing induced-draught fans are sucked in air-suction duct, heat Gas is steamed the water rapid evaporation in water tank by top, and hot-air carries water vapour and moves in air-suction duct, with the chlorination in annulus Ammonium crystal meets, and water vapour condensation, partial oxidation ammonium is met water dissolves, because ammonium chloride is dissolved in water substantial amounts of heat can be absorbed, or even Can solidify in moment, produce cryogenic effect, hot gas is quickly cooled to the heat thus caning absorb in hot gas cold air, cold Gas Jing air-suction ducts are logical to be back in annealing furnace, so as to effectively be cooled down to annealing furnace, accelerates cooling effectiveness, in addition, using Ammonium chloride under annulus rotation to air-suction duct moved beneath, heated under hot gas effect, ammonium chloride is tied from water Out, afterwards under the rotation of annulus, ammonium chloride carries out again gas cooling work to crystalline substance in air-suction duct.

The beneficial effect of this programme：The present invention makes water vapour and chlorination by the water above the hot gas evaporation in annealing furnace Ammonium crystal meets and produces cooling-down effect, and hot gas is quickly cooled down, then is back to the gas after cooling is logical in annealing furnace, real The displacement of existing cold air and hot gas, by multiple cyclic processes, the effective temperature-reducing being capable of achieving in annealing furnace, simultaneously as annealing furnace Cool off through multiple gas displacement, its cyclic process is incremental, therefore does not result in the urgency of annealing furnace Sharp fall temperature, is conducive to the cooling of vial in annealing furnace, and the ammonia chloride crystal for using can recycled for multiple times, can be effective Reduce production cost.

Preferably, as a kind of improvement, the aperture of the air vent on annulus is less than 0.5mm, and the particle of ammonia chloride crystal is straight Footpath is more than 0.5mm, is arranged such, and can prevent air vent of the ammonia chloride crystal from annulus from spilling.

Preferably, as a kind of improvement, taper condensate port is equipped with above and below annulus, taper condensate port passes through water Pipe is connected with water tank is steamed, and after the ammonium chloride in annulus is combined with water vapour, partially aqueous solution is flowed out by the air vent on annulus, And downstream in the taper condensate port below annulus, steaming water tank being back to by taper condensate port, another part aqueous solution is followed When circular motion is to annulus lower end, under hot gas heating, the water in solution is evaporated, and the cone above annulus is moved on water vapour Shape condensate port, and steaming water tank is flow back into by taper condensate port, it is achieved in the recovery and recycling of water.

Preferably, as a kind of improvement, the end of conduit is connected with ring pipe, has several gas on the inwall of ring pipe Hole, ring pipe is set in the lower end of annulus, and when annulus is rotated, the ammonium chloride from air-suction duct out is added at conduit Heat, catheter tip connection ring pipe, and ring pipe are enclosed within annulus, have several pores on ring pipe, thus, it is possible to realize circle Ring lower end is heated in 360 degree of scopes of perpendicular, is heated evenly the ammonium chloride in annulus lower end, accelerates ammonium chloride crystals speed Degree.

Preferably, as a kind of improvement, cylinder or rectangle are compared in the tapered setting in inlet scoop, and the wealthy mouth of taper sets Put, induced-draught fan air-breathing area can be increased, the water in making more hot gas in air-suction duct to steaming water tank is heated, and is increased The evaporation capacity for adding water so that more water it is molten with ammonium chloride and, the more cold air of generation, enhanced annealing stove cooling-down effect.

Preferably, as a kind of improvement, inlet scoop is additionally provided with heat dissipation channel with the junction of air-suction duct, on heat dissipation channel Be provided with valve, when hot gas is excessive, open valve, unnecessary hot gas directly can be discharged by heat dissipation channel, it is to avoid hot gas excessively and Affect gas cooling effect.

Preferably, as a kind of improvement, the air-suction duct is tapered, section of the air-suction duct near one end of inlet scoop Footpath is big compared with the section footpath of the air-suction duct other end, so arranges, when gas is moved in air-suction duct, because air-suction duct cuts Face diameter is gradually reduced, and the pressure suffered by gas will gradually increase, and in gas flow, gas is entered using air pressure change The preliminary cooling of row, can effectively aid in gas to lower the temperature, and strengthen the cooling-down effect of gas.

Description of the drawings

Fig. 1 is the structural representation of the embodiment of the present invention.

Fig. 2 is the attachment structure figure of annulus and swing pinion in the embodiment of the present invention.

Fig. 3 is lid structural representation in the embodiment of the present invention.

Fig. 4 is the attachment structure figure of air-suction duct and annulus in the embodiment of the present invention.

Fig. 5 is embodiment of the present invention annular tube structure chart.

Specific embodiment

Below by specific embodiment, the present invention is further detailed explanation：

Reference in Figure of description includes：Annealing furnace 1, lid 2, taper condensate port 3, water pipe 4, exhaust outlet 5, driving tooth The semicircle cover plate 9 of the semicircle cover plate 8, second of wheel 6, driven gear 7, first, through hole 10, valve 11, steam water tank 12, annulus 13, Air vent 14, ammonia chloride crystal 15, inlet scoop 16, air-suction duct 17, heat dissipation channel 18, conduit 19, ring pipe 20, pore 21, Groove 22, tooth 23, swing pinion 24.

Embodiment is substantially as depicted in figs. 1 and 2：A kind of annealing and cooling device, including annealing furnace 1, the top of annealing furnace 1 has Exhaust outlet 5, has the lid 2 being adapted with exhaust outlet 5 at exhaust outlet 5, lid 2 is provided with the driving gear 6 of engagement and driven Gear 7, as shown in figure 3, lid 2 includes the semicircle cover plate 9 of the first semicircle cover plate 8 and second, the first semicircle cover plate 8 and the Connection is rotated between two semicircle cover plates 9, there are several through holes 10 on the first semicircle cover plate 8, the second semicircle cover plate 9 with from Moving gear 7 is fixedly connected；Also include gas gathering system and cooling system, gas gathering system includes induced-draught fan and steams water tank 12, induced-draught fan With inlet scoop 16 and air-suction duct 17, inlet scoop 16 is tapered, and inlet scoop 16 is placed at the exhaust outlet 5 of annealing furnace 1, inlet scoop Conduit 19 is connected with 16 side wall, air-suction duct 17 is connected to the upper end of inlet scoop 16, and air-suction duct 17 is provided with groove 22, is inhaled The right-hand member of wind pipeline 17 is connected with annealing furnace 1, and air-suction duct 17 is tapered, and the section footpath of the left end of air-suction duct 17 is compared with air-suction duct The section footpath of 17 right-hand members is big, steams the junction that water tank 12 hangs on inlet scoop 16 and air-suction duct 17, air-suction duct 17 and air draught The junction of mouth 16 is additionally provided with heat dissipation channel 18, and heat dissipation channel 18 is provided with valve 11, and cooling system includes hollow annulus 13, There are several air vents 14 on annulus 13, ammonia chloride crystal 15 is housed in annulus 13, the aperture of the air vent 14 on annulus 13 is little In the particle diameter of ammonia chloride crystal 15, the pore size of the air vent 14 that the present embodiment is adopted for 0.3mm, ammonia chloride crystal 15 Particle diameter is 1mm, as shown in figure 4, groove 22 of the annulus 13 on air-suction duct 17, and the excircle of annulus 13 is provided with several teeth 23, annulus 13 is engaged by tooth 23 with the swing pinion 24 of top, swing pinion 24 and motor connection, the top of annulus 13 and under Side is equipped with taper condensate port 3, and taper condensate port 3 is connected by water pipe 4 with water tank 12 is steamed, the right side of the conduit 19 at inlet scoop 16 End is connected with ring pipe 20, as shown in figure 5, having several pores 21 on the inwall of ring pipe 20, ring pipe 20 is set in annulus 13 lower end.

In the present embodiment, during practical application, when annealing furnace 1 enters cooling stage, motor work makes driving gear 6 and rotation Rotating disk 24 rotates, and swing pinion 24 drives the rotation of annulus 13 induced-draught fan work simultaneously, driving gear 6 to drive driven gear 7 to revolve Turn, the second semicircle cover plate 9 follows driven gear 7 to rotate so as to the through hole 10 on the first semicircle cover plate 8 be opened, annealing furnace Hot gas in 1 is escaped from through hole 10, in the hot gas suction air-suction duct 17 that induced-draught fan will escape out, the water steamed in water tank 12 is quick Evaporation, water vapour follows hot gas to flow, and when water vapour and hot gas are flowed at the groove 22 of air-suction duct 17, water vapour is passed through Air vent 14 on annulus 13 enter annulus 13 in it is molten with ammonia chloride crystal 15 and, heat is absorbed in a large number, hot gas is quickly cooled down Into cold air, cold air is back in annealing furnace 1 by air-suction duct 17 is logical, and annealing furnace 1 is lowered the temperature, in addition, in annulus 13 with it is water-soluble and Ammonia chloride crystal 15, moves downward under the rotation of annulus 13, and a part of aqueous solution is directly downstream to the taper of the lower section of annulus 13 Condensate port 3, the taper condensate port 3 of the lower section of Jing annulus 13 is flow back in steaming water tank 12, and by Water Sproading, another part aqueous solution is followed Annulus 13 moves to the lowest point of annulus 13, and ring pipe 20 introduces ammonia chloride crystal of the hot gas to the lowest point of annulus 13 by inlet scoop 16 15 carry out rapid draing, ammonia chloride crystal 15 is crystallized out from water, escape on the vapor of generation to the cone of the top of annulus 13 Shape condensate port 3, the taper condensate port 3 of the top of Jing annulus 13 is condensed and is back in steaming water tank 12, by Water Sproading, then annulus 13 Continue to rotate, drive dried ammonia chloride crystal 15 to be again introduced into carrying out cooling work next time in air-suction duct 17.

Above-described is only embodiments of the invention, the general knowledge here such as known concrete structure and/or characteristic in scheme Excessive description is not made.It should be pointed out that for a person skilled in the art, on the premise of without departing from present configuration, also Some deformations and improvement can be made, these should also be considered as protection scope of the present invention, these are real all without the present invention is affected The effect applied and practical applicability.This application claims protection domain should be defined by the content of its claim, specification In specific embodiment etc. record the content that can be used for explaining claim.

Claims (7)

1. a kind of annealing and cooling device, including annealing furnace, annealing furnace top has an exhaust outlet, the exhaust ports have with The adaptable lid of exhaust outlet, it is characterised in that：Lid is provided with the driving gear and driven gear of a pair of meshing, the lid Including the first semicircle cover plate and the second semicircle cover plate, the company of rotation between the first semicircle cover plate and the second semicircle cover plate Connect, there are several through holes on the described first semicircle cover plate, the second semicircle cover plate is fixedly connected with the driven gear；Also wrap Gas gathering system and cooling system are included, the gas gathering system includes induced-draught fan and steams water tank, and the induced-draught fan has inlet scoop and suction Wind pipeline, inlet scoop is placed in the exhaust ports of annealing furnace, and conduit is connected with the side wall of inlet scoop, and the air-suction duct is connected to Inlet scoop upper end, air-suction duct is provided with groove, and the other end of air-suction duct is connected with annealing furnace, and the steaming water tank hangs on suction Air port and the junction of air-suction duct, the cooling system includes hollow annulus, has several air vents on annulus, in annulus Equipped with ammonia chloride crystal, groove of the annulus on air-suction duct, and annulus excircle are provided with several teeth, and annulus top is provided with The swing pinion engaged with annulus, swing pinion and motor connection, the end of the conduit is placed in the lower section of the annulus.

2. a kind of annealing and cooling device according to claim 1, it is characterised in that：The aperture of the air vent on the annulus Less than 0.5mm, the particle diameter of ammonia chloride crystal is more than 0.5mm.

3. a kind of annealing and cooling device according to claim 2, it is characterised in that：It is all provided with above and below the annulus There is taper condensate port, taper condensate port is connected by water pipe with water tank is steamed.

4. a kind of annealing and cooling device according to claim 3, it is characterised in that：The end of the conduit is connected with annular Pipe, has several pores on the inwall of ring pipe, ring pipe is set in the lower end of the annulus.

5. a kind of annealing and cooling device according to claim 4, it is characterised in that：The tapered setting in the inlet scoop.

6. a kind of annealing and cooling device according to claim 5, it is characterised in that：The inlet scoop and the company of air-suction duct The place of connecing is additionally provided with heat dissipation channel, and heat dissipation channel is provided with valve.

7. a kind of annealing and cooling device according to claim 6, it is characterised in that：The air-suction duct is tapered, air draught Pipeline is big compared with the section footpath of the air-suction duct other end near the section footpath of inlet scoop one end.