CN206936382U - One kind atomization copper-iron alloy powder cooling device - Google Patents

Abstract

It the utility model is related to a kind of atomization copper-iron alloy powder cooling device, including cooling tank, switch board, feed hopper, water tank, condenser, precool case and air blower, the precooling case is connected by conveying pipeline with feed hopper, at least three layers of decentralized network are from top to bottom sequentially provided with the cooling tank, every layer of decentralized network tilts 45 degree~60 degree settings in cooling tank, the aperture of the decentralized network from top to bottom set gradually in the cooling tank reduces successively, the side of the mezzanine space of two decentralized networks of phase neck is equipped with inlet of cold air in the cooling tank, the inlet of cold air is connected by the side of pipeline and condenser, the opposite side of the condenser is connected by airduct with air blower；The beneficial effects of the utility model are：It is simple in construction, floor space is small, air-cooled by being carried out again after advance water cooling, can not only accelerate cooling effectiveness, while energy consumption is lower, operation is easier.

Description

One kind atomization copper-iron alloy powder cooling device

Technical field

A kind of cooling device is the utility model is related to, in particular to a kind of atomization copper-iron alloy powder cooling dress Put.

Background technology

Laser melting and coating technique refers to the coating material for placing selection on coating matrix surface in a manner of different fillers, warp Laser irradiation is allowed to and matrix surface a thin layer while melted, and after quickly solidifying formation dilution factor it is extremely low and with matrix material into The face coat of metallurgical binding, it is special so as to significantly improve wear-resisting, corrosion-resistant, heat-resisting, the anti-oxidant and electrical equipment of substrate material surface The process of property etc..In general coating material is powdered, needs to cool down it when in use.

At present, existing atomization copper-iron alloy powder cooling device has that floor space is larger and cooling effectiveness is relatively low more, Equipment needs manually to be operated in use, wastes time and energy, cost is higher.

Utility model content

The purpose of this utility model is to solve the defects of above-mentioned existing, there is provided a kind of floor space is small, energy consumption compared with Atomization copper-iron alloy powder cooling device low, that powder agglomates can be prevented in cooling procedure.

To achieve the above object, the technical solution of the utility model is as follows：

One kind atomization copper-iron alloy powder cooling device, it is characterised in that including cooling tank, switch board, feed hopper, water Case, condenser, case and air blower are precooled, the feed hopper is located at the top of cooling tank, and the precooling case passes through conveying Pipe is connected with feed hopper, and the bottom surrounding laying water-cooled layer for precooling case, the water tank passes through water inlet pipe and water-cooled layer Connect, be connected with exhaust duct at the upper side of the cooling tank, opposite side is provided with cold air interface, and the water-cooled layer passes through refrigerator pipe With cold air orifice, at least three layers of decentralized network are from top to bottom sequentially provided with the cooling tank, every layer of decentralized network is cold But 45 degree~60 degree settings are tilted in tank, the aperture of the decentralized network from top to bottom set gradually in the cooling tank is contracted successively Small, the side of the mezzanine space of two decentralized networks of phase neck is equipped with inlet of cold air, the cold air in the cooling tank Import is connected by the side of pipeline and condenser, and the opposite side of the condenser is connected by airduct with air blower, the control Cabinet processed is located at the outer end side of cooling tank, and the switch board is connected with air blower.

As preferable technical scheme, the pore size of the decentralized network of lowermost end is 3um~10um in the cooling tank.

As preferable technical scheme, in addition to filtering adsorption net, the filtering adsorption net is located in exhaust duct.

As preferable technical scheme, in addition to drier, the drier is located at the connection of inlet of cold air and pipeline End.

As preferable technical scheme, in addition to chilling temperature sensor, the chilling temperature sensor is respectively provided at cold But in tank the mezzanine space that two decentralized networks of phase neck are divided into side.

As preferable technical scheme, in addition to weighing unit, the weighing unit is located at contact of the feed hopper with cooling tank End.

As preferable technical scheme, the weighing unit is provided with 2 poidometers, and the poidometer is connected with switch board.

As preferable technical scheme, air control valve is equipped with the pipeline between the condenser and inlet of cold air, The air control valve is connected with switch board.

The beneficial effects of the utility model are：It is simple in construction, floor space is small, air-cooled by being carried out again after advance water cooling, Cooling effectiveness can not only be accelerated, while energy consumption is lower, operation is easier, and granular material falls in cooling tank internal cause self gravitation Bulk powder can be crushed by the decentralized network of different pore size size, reduce caking rate, cost is lower.

Brief description of the drawings

Fig. 1 is a kind of structural representation for being atomized copper-iron alloy powder cooling device of the utility model；

In figure：1- cooling tanks；2- switch boards；3- feed hoppers；4- water tanks；5- condensers；6- precools case；6-1- cold water Layer；7- air blowers；8- conveying pipelines；9- water inlet pipes；10- exhaust ducts；11- cold air interfaces；12- refrigerator pipes；13- decentralized networks；14- is cold Air intlet；15- pipelines；16- airducts；17- filters adsorption net；18- driers；19- chilling temperature sensors；20- weighing units； 21- poidometers；22- air control valves.

Embodiment

The effect of to make to architectural feature of the present utility model and being reached, has a better understanding and awareness, to compared with Good embodiment and accompanying drawing coordinate detailed description, are described as follows：

As shown in figure 1, a kind of atomization copper-iron alloy powder cooling device, including cooling tank 1, switch board 2, feed hopper 3, Water tank 4, condenser 5, case 6 and air blower 7 are precooled, feed hopper 3 is located at the top of cooling tank 1, precools case 6 and passes through conveying Pipe 8 is connected with feed hopper 3, precools the bottom surrounding laying water-cooled layer 6-1 of case 6, and water tank 4 passes through water inlet pipe 9 and water-cooled layer 6-1 is connected, and the upper side of cooling tank 1 is connected with exhaust duct 10, and opposite side is provided with cold air interface 11, and water-cooled layer 6-1 passes through cold Tracheae 12 is connected with cold air interface 11, and at least three layers of decentralized network 13, every layer of decentralized network 13 are from top to bottom sequentially provided with cooling tank 1 45 degree~60 degree settings are tilted in cooling tank 1, the aperture of the decentralized network 13 from top to bottom set gradually in cooling tank 1 is successively Reduce, the side of the mezzanine space of two decentralized networks 13 of phase neck is equipped with inlet of cold air 14 in cooling tank 1, and cold air enters Mouth 14 is connected by pipeline 15 with the side of condenser 5, and the opposite side of condenser 5 is connected by airduct 16 with air blower 7, control Cabinet 2 is located at the outer end side of cooling tank 1, and switch board 2 is connected with air blower 7.

In the present embodiment, the pore size of the decentralized network 13 of lowermost end is 3um~10um in cooling tank 1.

In the present embodiment, in addition to filtering adsorption net 17, filtering adsorption net 17 are located in exhaust duct 10.

In the present embodiment, in addition to drier 18, drier 18 are located at the connection end of inlet of cold air 14 and pipeline 15.

In the present embodiment, in addition to chilling temperature sensor 19, chilling temperature sensor 19 are respectively provided in cooling tank 1 The side for the mezzanine space that two decentralized networks 13 of phase neck are divided into.

In the present embodiment, in addition to weighing unit 20, weighing unit 20 are located at the contact jaw of feed hopper 3 and cooling tank 1；Claim Weight platform 20 is provided with 2 poidometers 21, and poidometer 21 is connected with switch board 2.

In the present embodiment, air control valve 22, air control are equipped with the pipeline 15 between condenser 5 and inlet of cold air 14 Valve 22 is connected with switch board 2.

In summary, preferred embodiment only of the present utility model, not it is used for limiting the utility model implementation Scope, the equivalent change carried out by all shapes according to described in the utility model claims scope, construction, feature and spirit is with repairing Decorations, all should be included in right of the present utility model.

Claims (8)

1. one kind atomization copper-iron alloy powder cooling device, it is characterised in that including cooling tank, switch board, feed hopper, water Case, condenser, case and air blower are precooled, the feed hopper is located at the top of cooling tank, and the precooling case passes through conveying Pipe is connected with feed hopper, and the bottom surrounding laying water-cooled layer for precooling case, the water tank passes through water inlet pipe and water-cooled layer Connect, be connected with exhaust duct at the upper side of the cooling tank, opposite side is provided with cold air interface, and the water-cooled layer passes through refrigerator pipe With cold air orifice, at least three layers of decentralized network are from top to bottom sequentially provided with the cooling tank, every layer of decentralized network is cold But 45 degree~60 degree settings are tilted in tank, the aperture of the decentralized network from top to bottom set gradually in the cooling tank is contracted successively Small, the side of the mezzanine space of two decentralized networks of phase neck is equipped with inlet of cold air, the cold air in the cooling tank Import is connected by the side of pipeline and condenser, and the opposite side of the condenser is connected by airduct with air blower, the control Cabinet processed is located at the outer end side of cooling tank, and the switch board is connected with air blower.

A kind of 2. atomization copper-iron alloy powder cooling device according to claim 1, it is characterised in that：In the cooling tank The pore size of the decentralized network of lowermost end is 3um~10um.

A kind of 3. atomization copper-iron alloy powder cooling device according to claim 1, it is characterised in that：Also include filtering to inhale Attached net, the filtering adsorption net are located in exhaust duct.

A kind of 4. atomization copper-iron alloy powder cooling device according to claim 1, it is characterised in that：Also include drying Device, the drier are located at the connection end of inlet of cold air and pipeline.

A kind of 5. atomization copper-iron alloy powder cooling device according to claim 1, it is characterised in that：Also include cooling temperature Degree sensor, the one of the mezzanine space that two decentralized networks that the chilling temperature sensor is respectively provided at phase neck in cooling tank are divided into Side.

A kind of 6. atomization copper-iron alloy powder cooling device according to claim 1, it is characterised in that：Also include weighing Platform, the weighing unit are located at the contact jaw of feed hopper and cooling tank.

A kind of 7. described atomization copper-iron alloy powder cooling device stated according to claim 6, it is characterised in that：It is described to weigh Platform is provided with 2 poidometers, and the poidometer is connected with switch board.

A kind of 8. atomization copper-iron alloy powder cooling device according to claim 1, it is characterised in that：In the condenser Air control valve is equipped with pipeline between inlet of cold air, the air control valve is connected with switch board.