CN205878967U - Cooling system - Google Patents

Abstract

The utility model provides a cooling system, its cooling tube through have the contained angle between setting and the vertical direction in cooling bin, make these cooling tubes enough play the cooling action to the particulate matter that falls down in batches when touching the particulate matter, falling can, the particulate matter block and delay the falling speed of these particulate matters again when, thereby make the particulate matter under the same high condition, its cool time has been prolonged, this cooling effect that has improved the particulate matter greatly, and also owing to can fall down the pan feeding mouth that gets into cooling bin simultaneously with the batch particulate matter, this cooling efficiency who makes the particulate matter also can improve greatly, additionally, this cooling system need not the cooling bin of large capacity or bulky coolant liquid, under the condition of having saved cost and space, the problem that current cooling bin leaked greatly and has easily also been solved owing to the water yield.

Description

Cooling system

Technical field

This utility model relates to particulate matter and manufactures field, particularly relates to a kind of cooling system.

Background technology

In particulate matter manufacturing process, cooling system cooling work after particulate matter heats, is in its manufacturing process One of very important equipment.As in aluminium oxide manufacturing process, cooling system is used for the bosher after heating alumina activates Make.As it is shown in figure 1, existing particulate matter cooling system generally comprises cooling storehouse 1 ' and vertically arranged some conveying pipelines 2 ', if Dry conveying pipeline 2 ' is vertically arranged to cool down in storehouse 1 ', fills full coolant 3 ', particulate matter 4 (except in conveying pipeline 2 ') in cooling storehouse 1 ' After completing heat-activated, can serially enter from the upper end entrance of these conveying pipelines 2 ', do downwards freely to fall along conveying pipeline 2 ' Body moves, and in this process by the temperature conduction of conveying pipeline 2 ' tube wall, by the temperature of outer for conveying pipeline 2 ' tube wall coolant 3 ' Being conducted to its internal particulate matter 4, to cool down it in particulate matter 4 dropping process, final particulate matter 4 can be from conveying pipeline The lower end outlet of 2 ' drops out, and completes whole cooling work.But this cooling system is full of coolant due to needs in cooling storehouse (generally water), institute's water requirement is huge and hydraulic pressure big, easily produces the situation that cooling storehouse 1 ' leaks, causes production accident, it addition, Owing to particulate matter 4 falling speed is fast, the whole cooling procedure time is shorter, and this height making to cool down storehouse 1 ' and volume need enough Just can play certain cooling effect greatly, also make the quantity of conveying pipeline 2 ' need abundant to can be only achieved certain work effect Rate, this considerably increases the demand of cost, can be while it is true, the cooling effect of this cooling system and cooling effectiveness are the poorest Strong man anticipates.

Utility model content

The purpose of this utility model is to provide a kind of cooling system, to improve cooling effect and the efficiency of particulate matter, and its Volume required little, reduce space and cost needs, too increase safety.

For reaching above-mentioned technical purpose, this utility model provides a kind of cooling system, cools down for particulate matter, described cooling System includes cooling down storehouse and some cooling tubes, and the upper end in described cooling storehouse is provided with feeding mouth, and lower end is provided with discharging opening, described some Cooling tube may be contained within, in described cooling storehouse, being respectively provided with angle between bearing of trend and the vertical direction of described some cooling tubes.

Further, the cooling tube being positioned at differing heights in described some cooling tubes separately constitutes the cooling of differing heights Layer, in adjacent cooling layer, cooling tube is vertically projected in same level in distribution straggly.

Optionally, in the first technical scheme that this utility model provides, described some cooling tubes are positioned at different high The cooling tube of degree separately constitutes the cooling layer of differing heights, each cooling tube equal parallel interval arrangement in single cooling layer.

In this technical scheme, in adjacent cooling layer, the vertical plane at each cooling tube place is the most parallel.

Optionally, in the second technical scheme that this utility model provides, described some cooling tubes are positioned at different high The cooling tube of degree separately constitutes the cooling layer of differing heights, and each cooling tube in single cooling layer is netted arrangement.

In this technical scheme, in adjacent cooling layer, the vertical lines at the joining place of each cooling tube of netted arrangement is equal It is parallel to each other.

Concrete, described angle is in the range of 45 °-90 °.

Preferably, described angle is 90 °.

Further, described cooling system also includes water pump and connecting tube, and all cooling tubes are all by described connecting tube phase Connection forms cooling circuit, and described water pump is arranged in described cooling circuit.

Further, described feeding mouth is positioned at above the highest cooling tube, and described discharging opening is positioned at minimum Below cooling tube.

Compared with prior art, this utility model has the advantages that

The cooling system that this utility model provides has the cold of angle by arranging in cooling storehouse between vertical direction But manage, make these cooling tubes when touching particulate matter, the particulate matter that fall of batch can either be played cooling effect, again can be Stopping and delay the decrease speed of these particulate matters during dropout, so that particulate matter is under same altitudes, it is cold But the time is extended, and which greatly enhances the cooling effect of particulate matter, and also due to batch particulate matter can be fallen simultaneously into Entering to cool down the feeding mouth in storehouse, this makes the cooling effectiveness of particulate matter also be able to be greatly improved, it addition, this cooling system is without great Rong The cooling storehouse or the coolant of large volume of amount, is providing cost savings and in the case of space, also solve existing cooling storehouse due to The problem that the water yield is leaked greatly and easily.

Accompanying drawing explanation

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

Fig. 1 is the structural representation of cooling system in prior art；

The front view of the cooling system that Fig. 2 provides for this utility model embodiment；

The top view of the cooling system that Fig. 3 provides for this utility model embodiment.

In Fig. 1 is to 3,

1,1 ': cooling storehouse；11: feeding mouth；12: discharging opening；2: cooling tube；2 ': conveying pipeline；3: cooling layer；3 ': cooling Agent；4: particulate matter；5: water pump；6: connecting tube.

Detailed description of the invention

Below in conjunction with the drawings and specific embodiments, the cooling system that the utility model proposes is described in further detail.Root According to following explanation and claims, advantage of the present utility model and feature will be apparent from.It should be noted that, accompanying drawing all uses non- The form that often simplifies and all use non-ratio accurately, only in order to convenient, aid in illustrating this utility model embodiment lucidly Purpose.

Core concept of the present utility model is, it is provided that one cooling system, and it is by arranging with vertical in cooling storehouse Having the cooling tube of angle between direction, the particulate matter making these cooling tubes can either fall batch when touching particulate matter rises To cooling effect, can stop and delay again the decrease speed of these particulate matters when dropout, so that particulate matter exists Under same altitudes, its cool time is extended, and which greatly enhances the cooling effect of particulate matter, and also due to can will criticize Amount particulate matter falls through into the feeding mouth in cooling storehouse simultaneously, and this makes the cooling effectiveness of particulate matter also be able to be greatly improved, it addition, This cooling system, without jumbo cooling storehouse or the coolant of large volume, is providing cost savings and in the case of space, is also solving Determine the problem that existing cooling storehouse leaks greatly and easily due to the water yield.

Refer to the front view of the cooling system that Fig. 2 and Fig. 3, Fig. 2 provide for this utility model embodiment；Fig. 3 is this reality With the top view of the cooling system that new embodiment provides.

As in figure 2 it is shown, this utility model embodiment provides a kind of cooling system, cool down for particulate matter 4, described cooling system System includes cooling down storehouse 1 and some cooling tubes 2, and the upper end in described cooling storehouse 1 is provided with feeding mouth 11, and lower end is provided with discharging opening 12, institute State some cooling tubes 2 and may be contained within described cooling storehouse 1, between bearing of trend and the vertical direction of described some cooling tubes 2 all There is angle.

The cooling system that this utility model embodiment provides has folder by arranging in cooling storehouse 1 between vertical direction The cooling tube 2 at angle, the particulate matter 4 making these cooling tubes 2 can either fall batch when touching particulate matter 4 plays cooling and makees With, can stop and delay again the decrease speed of these particulate matters 4 when particulate matter 4 falls, so that particulate matter 4 is same high In the case of degree, its cool time is extended, and which greatly enhances the cooling effect of particulate matter 4, and also due to can be by batch Grain thing 4 falls through into the feeding mouth 11 in cooling storehouse 1 simultaneously, and this makes the cooling effectiveness of particulate matter 4 also be able to be greatly improved, separately Outward, coolant, without jumbo cooling storehouse 1 or the coolant of large volume, only need to be passed through in cooling tube 2 by this cooling system Row circulates, and is providing cost savings and in the case of space, also solves existing cooling storehouse 1 and leaks greatly and easily due to the water yield Problem.

Further, the cooling tube 2 being positioned at differing heights in described some cooling tubes 2 separately constitutes the multilamellar of differing heights Cooling layer 3, in adjacent cooling layer 3, cooling tube 2 is vertically projected in same level in distribution straggly.Distribution straggly each cold But the cooling tube 2 in layer 3 can preferably stop the particulate matter 4 fallen from different azimuth such that it is able to extends granule more The decrease speed of thing 4, plays more preferable cooling effect.

Further, as it is shown on figure 3, in the present embodiment, described some cooling tubes 2 are positioned at the cooling tube of differing heights The 2 multilamellar cooling layers 3 separately constituting differing heights, each cooling tube 2 equal parallel interval arrangement in single cooling layer 3.Concrete, In adjacent cooling layer 3, the vertical plane at each cooling tube 2 place is the most parallel.The spatial arrangement design of this cooling tube 2 makes cold But the arrangement mode of pipe 2 is easier to realize, and also is able to fill up the most in the same plane each cooling tube 2 in adjacent cooling layer 3 Vertical projection so that particulate matter 4 has stopped at every layer of cooling layer 3 as far as possible and has stopped, and improves the cooling of particulate matter 4 Effect.

It is envisioned that the cooling effect of above-mentioned cooling tube 2 also can be realized by other cooling tube 2 arrangement modes.As institute State and some cooling tubes 2 are positioned at the cooling tube 2 of differing heights separately constitute the multilamellar cooling layer 3 of differing heights, single cooling layer 3 In each cooling tube 2 in netted arrangement.Concrete, the joining place of each cooling tube 2 of netted arrangement in adjacent cooling layer 3 Vertical lines is the most parallel.The spatial arrangement of this kind of cooling tube 2 designs it is also possible that particulate matter 4 can in dropping process It is easier in every layer of cooling layer 3, find the cooling tube 2 stopping that it falls, to improve the cooling effect of particulate matter 4, therefore this practicality Novel being also intended to comprises this technical scheme.

Concrete, between bearing of trend and the vertical direction of described some cooling tubes 2, angle is in the range of 45 °-90 °.Excellent Choosing, described angle is 90 °, and the most dry cooling pipe 2 is for being horizontally disposed with.It is real that this design makes the spatial arrangement of cooling tube 2 be easier to Existing, also reduce the space needed for cooling storehouse.

Further, described cooling system also includes water pump 5 and connecting tube 6, and all cooling tubes 2 are all by described connecting tube 6 are connected formation cooling circuit, and described water pump 5 is arranged in described cooling circuit.By being passed through coolant in cooling tube 2, And each cooling tube 2 is all connected into a cooling circuit by connecting tube 6 so that water pump 5 can drive in this cooling circuit Coolant constantly circulates in this cooling circuit, has saved the use of coolant, has decreased cost, has also reduced due to coolant The risk that pressure is excessive and easily reveals.In the present embodiment, described connecting tube 6 is arranged at outside cooling storehouse 1, and water pump 5 is arranged at In connecting tube 6, to reduce the inner space needed for cooling storehouse 1, reduce cost, add the space utilization of this cooling system Rate.

Further, described feeding mouth 11 is positioned at above the highest cooling tube 2, and described discharging opening 12 is positioned at Below low cooling tube 2.This design makes the particulate matter 4 can be through whole cooling tube 2 structure, and the particulate matter 4 reaching best is cold But effect.In the present embodiment, the upper end in described cooling storehouse 1 is open feeding mouth 11, and the lower end in described cooling storehouse 1 is funnel The open discharging opening of shape 12, its simple in construction, and be easily achieved, enter lower one technological process for particulate matter 4 and provide convenience.

Obviously, those skilled in the art can carry out various change and deformation without deviating from this practicality to this utility model Novel spirit and scope.So, if of the present utility model these amendment and modification belong to this utility model claim and Within the scope of its equivalent technologies, then this utility model is also intended to comprise these change and modification.

Claims (10)

1. a cooling system, cools down for particulate matter, it is characterised in that include cooling down storehouse and some cooling tubes, described cooling The upper end in storehouse is provided with feeding mouth, and lower end is provided with discharging opening, and described some cooling tubes may be contained within described cooling storehouse, described some It is respectively provided with angle between bearing of trend and the vertical direction of cooling tube.

Cooling system the most according to claim 1, it is characterised in that be positioned at the cooling of differing heights in described some cooling tubes Pipe separately constitutes the cooling layer of differing heights, and in adjacent cooling layer, cooling tube is vertically projected in same level in straggly point Cloth.

Cooling system the most according to claim 1, it is characterised in that be positioned at the cooling of differing heights in described some cooling tubes Pipe separately constitutes the cooling layer of differing heights, each cooling tube equal parallel interval arrangement in single cooling layer.

Cooling system the most according to claim 3, it is characterised in that the vertical plane at each cooling tube place in adjacent cooling layer The most parallel.

Cooling system the most according to claim 1, it is characterised in that be positioned at the cooling of differing heights in described some cooling tubes Pipe separately constitutes the cooling layer of differing heights, and each cooling tube in single cooling layer is netted arrangement.

Cooling system the most according to claim 5, it is characterised in that the phase of each cooling tube of netted arrangement in adjacent cooling layer The vertical lines at intersection point place is the most parallel.

7. according to cooling system according to any one of claim 1 to 6, it is characterised in that described angle in the range of 45 °- 90°。

Cooling system the most according to claim 7, it is characterised in that described angle is 90 °.

Cooling system the most according to claim 1, it is characterised in that also including water pump and connecting tube, all cooling tubes are the most logical Crossing described connecting tube to be connected formation cooling circuit, described water pump is arranged in described cooling circuit.

Cooling system the most according to claim 1, it is characterised in that described feeding mouth is positioned on the highest cooling tube Side, described discharging opening is positioned at below minimum cooling tube.