CN205741136U - Ultrasonic atomization cooling aluminum winding apparatus - Google Patents

Abstract

The utility model discloses a kind of ultrasonic atomization cooling aluminum winding apparatus, relate to high-temperature material cooling device technical field in metal-working industry, it includes the portal frame being coated with outer strip of paper used for sealing, and before and after portal frame, doorframe is mounted on door curtain；Being provided with wind pushing box and water tank in the side frame bottom of portal frame, be provided with pressure fan in wind pushing box, be placed with soniclizer in water tank, water tank is communicated with atomizing nozzle, and the spout of atomizing nozzle and the air outlet of wind pushing box are all towards cooled region；Air outlet has outlet uptake vertically the most upward and tilts crosswind mouth upward, and on strip of paper used for sealing, corresponding position in wind pushing box has air inlet outside, offers the exhaust outlet connected with cooled region at portal frame top；The inner side of portal frame is provided with temperature sensor, and temperature sensor, pressure fan and soniclizer electrically connect with control chamber respectively.It is even that this utility model solves existing aluminum volume inhomogeneous cooling, and cooling effect is poor, the problem of time length.

Description

Ultrasonic atomization cooling aluminum winding apparatus

Technical field

This utility model relates to high-temperature material cooling device technical field in metal-working industry, a kind of aluminum volume device from high temperature fast cooling to assigned temperature.

Background technology

Anneal and produce an important step in various products as aluminum volume, aluminum volume is made to have various different performance, but the aluminum volume of a relatively high making that cannot carry out next process immediately of temperature after Tui Huo, this allows for aluminum volume cooling rate becomes one of reason of quickly producing of restriction factory.

Conventional cool-down method is for using separate unit or many Fans one direction to blow facing to aluminum volume, and this cool-down method mainly has following aspect shortcoming: 1, aluminum volume inhomogeneous cooling is even, causes aluminum to be rolled into a point skewness；2, fan blow aluminum volume produce heat make ambient air temperature raise, cooling effect reduction；3, cool time is longer, and production efficiency reduces.

Utility model content

The purpose of this utility model is to provide a kind of ultrasonic atomization cooling aluminum winding apparatus, and it is even that this device can solve existing aluminum volume inhomogeneous cooling, and cooling effect is poor, the problem of time length.

In order to solve the problems referred to above, the technical solution adopted in the utility model is: this ultrasonic atomization cooling aluminum winding apparatus includes the portal frame being coated with outer strip of paper used for sealing, before and after described portal frame, doorframe is mounted on the space that door curtain, described portal frame and described door curtain enclose is cooled region；In the side frame bottom of described portal frame, wind pushing box and water tank are installed, it is provided with pressure fan in described wind pushing box, being placed with soniclizer in described water tank, described water tank is communicated with atomizing nozzle, and the spout of described atomizing nozzle and the air outlet of described wind pushing box are all towards described cooled region；Described air outlet has the uptake exported the most upward and tilts crosswind mouth upward, has air inlet in the corresponding position of described wind pushing box, offer, at described portal frame top, the exhaust outlet connected with described cooled region on described outer strip of paper used for sealing；The inner side of described portal frame is provided with temperature sensor, and described temperature sensor, described pressure fan and described soniclizer electrically connect with the control chamber being arranged on outside described portal frame respectively.

In the technical scheme of above-mentioned ultrasonic atomization cooling aluminum winding apparatus, more specifically technical scheme is it may also is that the both sides of described portal frame are mounted on a described water tank and two described wind pushing box, each described water tank is installed between two parties, two described wind pushing box are symmetrically arranged on described water tank both sides, and the air-out direction at the described crosswind mouth of two described wind pushing box of same side is oppositely arranged.

Further, at the air inlet of described atomizing nozzle, extraction fan is installed.

Further, the inner surface of described portal frame is coated with interior strip of paper used for sealing, and the inner top surface of described portal frame is taper air draft guide plate, and described taper air draft guide plate the most gradually draws formation reducing in, and described reducing extends to described exhaust outlet straight up and forms air exhaust passage.

Further, described water tank outer surface is provided with thermal insulation layer.

Further, described temperature sensor has the temperature probe being flexibly connected with described portal frame.

Further, described outer strip of paper used for sealing and described interior strip of paper used for sealing are the aluminum skin of piecemeal and the riveting of described portal frame.

Further, described air inlet is provided with protection network.

Further, the side frame of described portal frame is the double-deck multispan structure that angle steel welding is constituted.

Further, the bottom of described portal frame is provided with the plastics return pulley of the system of stopping.

Owing to have employed technique scheme, this utility model compared with prior art has the advantages that

1, water tank and soniclizer are set, the aluminum volume heat being placed in cooled region is absorbed by atomized steam carburation by evaporation, and the ascending air by wind pushing box ejection carries steam heat in the discharge of device top, with this, high temperature aluminum being involved in row cooling, the effective high temperature aluminum that reduces is rolled onto the time reaching adaptive temperature.

2, two wind pushing box it are symmetrical arranged, and the air-out direction of the crosswind mouth of two wind pushing box of same side is oppositely arranged, form spinning updraft and roll up Uniform Flow around aluminum, drive aluminum volume surface heat aluminum volume neighboring area heat radiation by top exhaust outlet quickly outer row, make aluminum volume cooling uniformly.Meanwhile, water tank reduces the center of gravity of whole device, improves the stability of device.

3, extraction fan is set, atomized steam is quickly evacuated to cooled region, reach to strengthen the effect of cooling effect.

4, arranging interior strip of paper used for sealing, make chiller side, top bevel and exhausting duct form the smooth streamlined flow guide surface of integration, beneficially steam is quickly discharged.

5, water tank arranges thermal insulation layer separation aluminum volume and water tank, makes water temperature keep low temperature.

6, it is arranged at the temperature probe that portal frame is flexibly connected, according to aluminum volume size, temperature probe can be laid in place, it is thus possible to detection aluminum volume temperature more accurately.

7, framework uses double-deck angle steel to be welded, and has certain rigidity, is unlikely to deform, and all encapsulates with aluminum skin, can alleviate the weight of complete machine inside and outside it.

8, equipped with wheel bottom portal frame, it is arranged in bottom and keeps to the side position, can manually promote, make machine to move flexibly to each place.

Accompanying drawing explanation

Fig. 1 is the structural representation of ultrasonic atomization cooling aluminum winding apparatus embodiment.

Fig. 2 is the right view of Fig. 1.

Detailed description of the invention

The utility model is described in further detail for embodiment below in conjunction with the accompanying drawings:

Ultrasonic atomization cooling aluminum winding apparatus shown in Fig. 1 and Fig. 2 mainly includes being provided with the portal frame 1 of strip of paper used for sealing, wind pushing box 2, blower fan 2-2, water tank 3, soniclizer 3-1, atomizing nozzle 3-2, temperature sensor, door curtain 7, control chamber 8.Two of portal frame 1 just to side frame be angle steel welding constitute double-deck multispan structure, its roof racks is upwards gradually reduced, portal frame 1 top offers exhaust outlet 1-3, all outer strip of paper used for sealing 1-4 and interior strip of paper used for sealing 1-5 is formed with the encapsulation of aluminum skin inside and outside portal frame 1, all aluminum skin piecemeal aluminium rivets rivet with angle iron frame, two sides, top bevel and air exhaust passage 1-2 aluminum skin form the smooth streamlined flow guide surface of integration, the inner top surface of portal frame 1 is taper air draft guide plate 1-1, this taper air draft guide plate 1-1 the most gradually draws formation reducing in, reducing extends to exhaust outlet 1-3 straight up and forms air exhaust passage 1-2.Before and after portal frame 1, doorframe is mounted on door curtain 7, the door curtain 7 of the present embodiment uses electric door curtain, portal frame 1 and the space that front and back door curtain 7 is enclosed after putting down with strip of paper used for sealing are that the cooled region 1-6, air exhaust passage 1-2 rolled up for cooling down aluminum connects with cooled region 1-6.The side frame bottom of portal frame 1 is provided with wind pushing box 2 and water tank 3, in order to realize cooling down fast and efficiently, a water tank 3 and two wind pushing box 2 it are mounted in the both sides of portal frame 1, water tank 3 is installed on side frames between two parties with bolt is fixing respectively, and two wind pushing box 2 of homonymy are symmetrically arranged on water tank 3 both sides；Soniclizer 3-1 it is placed with in water tank 3, water tank 3 is communicated with two atomizing nozzle 3-2 erectting setting side by side, the spout 3-3 of atomizing nozzle 3-2 is towards cooled region 1-6, extraction fan (not shown) is installed at the air inlet of atomizing nozzle 3-2, extraction fan profile diameter size is with atomizing nozzle 3-2 internal diameter, for an atomization gas guard system part；Being provided with pressure fan 2-2 in each wind pushing box 2, on strip of paper used for sealing 1-5 and wind pushing box 2, corresponding position with pressure fan 2-2 has air inlet outside, and air inlet is provided with protection network 2-3；Wind pushing box 2 has the wind-guiding oblique cylinder 2-1 tilted to cooled region 1-6, wind-guiding oblique cylinder 2-1 is provided with multiple air outlet towards cooled region 1-6, these air outlets include the uptake 2-5 exported the most upward and tilt crosswind mouth 2-4 upward, and the air-out direction of the crosswind mouth 2-4 being arranged on two wind pushing box 2 of same side is oppositely arranged.Inner side mounting temperature sensor (not shown) at portal frame 1, temperature sensor has the temperature probe being flexibly connected with portal frame 1, roll up 6 sizes (just) according to aluminum and temperature probe is laid in place, carry out contactless detection aluminum being rolled up 6 surface temperatures, its signal transmission compensating wire is fixed on doorframe from introducing also temporary electricity work band between door curtain 7 edge framework and door curtain 7, it is achieved monitoring aluminum rolls up 6 temperature in real time.For ease of operation, being arranged on outside portal frame 1 by the control chamber 8 of cooling system, the rolling motor of temperature sensor, pressure fan 2 and soniclizer 3-1 and door curtain electrically connects with this control chamber 8 respectively.For ease of mobile and location, it is provided with the plastics return pulley 4 of the system of stopping in the bottom of portal frame 1.Preferably, water tank 3 surface configuration has thermal insulation layer, makes water keep low temperature, and the thermal insulation layer of the present embodiment uses thermal insulation cotton；Soniclizer 3-1 is inside water tank 3, and when water shortage, nebulizer does not works；Pressure fan 2-2 direction makes airflow direction upwards slightly upwards；Door curtain 7 uses high temperature resistant cloth；Air exhaust passage 1-2 is the longest, makes hot-air to be discharged into high aerial, and allowing pressure fan 2-2 suck wind is that cold wind improves cooling effectiveness.

The aluminum volume 6 of annealing is placed on V-type bearing 5, during cooling, shift onto this device need the aluminum of cooling to roll up 6 placement locations, aluminum volume 6 is made to be placed between two parties in portal frame 1, put down the door curtain 7 before and after portal frame 1, start soniclizer 3-1 and pressure fan 2, pressure fan 2 rotates the air-flow formed and blows to cooled region 1-6 from uptake 2-5 and crosswind mouth 2-4 respectively, the air-flow of two bursts of inclinations of homonymy wind pushing box 2 crosswind mouth 2-4 is compounded to form and rotates the air-flow risen, and drives hot aluminum to roll up 6 neighboring area heat radiations by arranging outside the exhaust outlet 1-3 of top；Meanwhile, atomized steam is pumped into atomizing nozzle 3-2 by extraction fan, is ultimately delivered to aluminum and rolls up 6 end face spaces, is mixed to form outside cooling wind mist with aforementioned air-flow and arranges, and makes hot aluminum roll up 6 surface heat radiation and accelerates diffusion, reaches to strengthen the effect of cooling effect.In above-mentioned cooling procedure, realize monitoring aluminum volume temperature in real time by temperature sensor, atomized steam and the supply time of swirling eddy and supply flow, intensity etc. can be adjusted according to technological requirement, use atomization cooling and rotary wind to cool down alternately aluminum volume.

Content described in this specification embodiment is only enumerating of the way of realization to utility model design; protection domain of the present utility model is not construed as being only limitted to the concrete form that embodiment is stated, protection domain of the present utility model be also included in those skilled in the art according to this utility model design it is conceivable that equivalent technologies means.

Claims (10)

1. ultrasonic atomization cooling aluminum winding apparatus, it is characterised in that: including the portal frame being coated with outer strip of paper used for sealing, before and after described portal frame, doorframe is mounted on the space that door curtain, described portal frame and described door curtain enclose is cooled region；In the side frame bottom of described portal frame, wind pushing box and water tank are installed, it is provided with pressure fan in described wind pushing box, being placed with soniclizer in described water tank, described water tank is communicated with atomizing nozzle, and the spout of described atomizing nozzle and the air outlet of described wind pushing box are all towards described cooled region；Described air outlet has the uptake exported the most upward and tilts crosswind mouth upward, has air inlet in the corresponding position of described wind pushing box, offer, at described portal frame top, the exhaust outlet connected with described cooled region on described outer strip of paper used for sealing；The inner side of described portal frame is provided with temperature sensor, and described temperature sensor, described pressure fan and described soniclizer electrically connect with the control chamber being arranged on outside described portal frame respectively.

Ultrasonic atomization the most according to claim 1 cooling aluminum winding apparatus, it is characterized in that: the both sides of described portal frame are mounted on a described water tank and two described wind pushing box, each described water tank is installed between two parties, two described wind pushing box are symmetrically arranged on described water tank both sides, and the air-out direction at the described crosswind mouth of two described wind pushing box of same side is oppositely arranged.

Ultrasonic atomization the most according to claim 2 cooling aluminum winding apparatus, it is characterised in that: at the air inlet of described atomizing nozzle, extraction fan is installed.

Ultrasonic atomization the most according to claim 3 cooling aluminum winding apparatus, it is characterized in that: the inner surface of described portal frame is coated with interior strip of paper used for sealing, the inner top surface of described portal frame is taper air draft guide plate, described taper air draft guide plate the most gradually draws formation reducing in, and described reducing extends to described exhaust outlet straight up and forms air exhaust passage.

Ultrasonic atomization the most according to claim 4 cooling aluminum winding apparatus, it is characterised in that: described water tank outer surface is provided with thermal insulation layer.

6. cool down aluminum winding apparatus according to the ultrasonic atomization described in Claims 1-4 any one claim, it is characterised in that: described temperature sensor has the temperature probe being flexibly connected with described portal frame.

7. cool down aluminum winding apparatus according to the ultrasonic atomization described in claim 4 or 5, it is characterised in that: described outer strip of paper used for sealing and described interior strip of paper used for sealing are the aluminum skin of piecemeal and the riveting of described portal frame.

Ultrasonic atomization the most according to claim 7 cooling aluminum winding apparatus, it is characterised in that: described air inlet is provided with protection network.

Ultrasonic atomization the most according to claim 8 cooling aluminum winding apparatus, it is characterised in that: the side frame of described portal frame is the double-deck multispan structure that angle steel welding is constituted.

Ultrasonic atomization the most according to claim 9 cooling aluminum winding apparatus, it is characterised in that: the bottom of described portal frame is provided with the plastics return pulley of the system of stopping.