Chamotte cooler
Technical field
The utility model relates to a kind of chamotte cooler, relates in particular to the chamotte cooler that is suitable in a kind of aluminium oxide and the manufacture of cement.
Background technology
In aluminium oxide and manufacture of cement, grog need be cooled to suitable temperature behind sintering, enters next process then.But former used cooler has very big defective.Because when cooling water is sprayed onto on the cooler cylindrical shell that is rotating, cooling water can not contact with the cooler cylindrical shell fully and cool off, there is most cooling water to splash away on the contrary once being sprayed onto on the cooler cylindrical shell that is rotating, the steam that is evaporated is directly volatilization also, fail to collect, had a strong impact on heat exchange efficiency like this, and waste energy and almost do not have the effect of cooling, waste water resource so greatly, had a strong impact on production efficiency.Simultaneously, the cooling water that splashes away can be fallen apart from the far ground of cooler, because the cooling water that falls earthward has certain temperature and alkalescence, miscellaneous equipment or pedestrian's walking can not be installed in this place that just causes cooling water to fall again, so just influence the utilization rate in place greatly.
The utility model content
Provide a kind of chamotte cooler for solving the problems of the technologies described above the utility model, purpose is raising cooling effectiveness, energy savings, saving cost, cuts down the consumption of energy, increases economic efficiency.
The utility model is achieved by the following technical solution in order to achieve the above object.
A kind of chamotte cooler, its structure is as follows: the cooler cylindrical shell is provided with shell outward, be provided with at least one cooling water inlet at the top of shell, be provided with at least one coolant outlet in the bottom of shell, the import of cooling grog is higher than the height of cooling grog outlet apart from ground apart from the height on ground.
Cooling water inlet on the described shell and coolant outlet are aligned to cooling grog exit from the import of cooling grog.
The front portion of described cooler cylindrical shell is provided with cylinder bearing, and the postmedian of cooler cylindrical shell is provided with transmission device.
The both sides of described transmission device are provided with shell, are provided with a cooling water inlet and coolant outlet on the shell of every side at least.
Distance between described cooler cylindrical shell and the shell is 50-500mm.
Described cooling water inlet is connected with the cooling upper hose, coolant outlet with cool back water pipe and be connected.
The import of described cooling grog is the 1-40 degree to the angle that the outlet of cooling grog becomes with horizontal plane.
Described coolant outlet is located at the not end of shell.
Advantage of the present utility model with effect is: it can make cooling water fully contact with grog to carry out heat exchange, and this has just improved the utilization rate of cooling water greatly; Cooling water is just discharged from coolant outlet; and drain from the trench of cooler bottom, so just avoided cooling water to spray ground, protected the cooler surrounding enviroment; saved land area greatly, improved cooling effectiveness, energy savings, saving cost, cut down the consumption of energy, increase economic efficiency.
Description of drawings
Fig. 1 is a structural representation of the present utility model.
Among the figure, 1, cooling grog outlet; 2, shell; 3, cooler cylindrical shell; 4, cooling water inlet; 5, cooling grog import; 6, coolant outlet; 7, grog before the cooling; 8, cooling back grog; 9, cooling upper hose; 10, cool back water pipe; 11, cylinder bearing; 12, transmission device.
The specific embodiment
Below embodiment of the present utility model is described in detail in conjunction with the accompanying drawings, but protection domain of the present utility model is not limit by embodiment.
Embodiment 1
With reference to Fig. 1, a kind of chamotte cooler of the utility model, constitute by following structure: the cooler cylindrical shell 3 outer shells 2 that are provided with, be provided with 8 cooling water inlets 4 at the top of shell 2, be provided with 3 coolant outlets 6 in the bottom of shell 2, cooler cylindrical shell 3 has certain gradient, the import 5 of cooling grog is higher than cooling grog outlet 1 height apart from ground apart from the height on ground, cooling grog import 5 is the 1-40 degree to cooling grog outlet 1 angle that becomes with horizontal plane, and cooling water inlet 4 on the shell 2 and coolant outlet 6 are aligned to the cooling grog from cooling grog import 5 and export 1.
The front portion of cooler cylindrical shell 3 is provided with cylinder bearing 11, the postmedian of cooler cylindrical shell 3 is provided with transmission device 12, transmission device 12 drives cooler cylindrical shell 3 and rotates, the both sides of transmission device 12 are provided with shell 2, on the shell 2 of transmission device 12 chargings one side, be provided with 7 cooling water inlets 4 and 2 coolant outlets 6, on the shell 2 of transmission device 12 dischargings one side, be provided with 1 cooling water inlet 4 and 1 coolant outlet 6, coolant outlet 6 is located at the not end of shell 2, distance between cooler cylindrical shell 3 and the shell 2 is 50-500mm, cooling water inlet 4 is connected with cooling upper hose 9, coolant outlet 6 with cool back water pipe 10 and be connected.
Embodiment 2
On the shell 2 of transmission device 12 chargings one side, be provided with 5 cooling water inlets 4 and 3 coolant outlets 6 among the embodiment 1, on the shell 2 of transmission device 12 dischargings one side, be provided with 2 cooling water inlets 4 and 1 coolant outlet 6.Other is with embodiment 1.
Operation principle of the present utility model is as follows: grog 7 flows into from the import of cooler grog before the cooling, in the cooler cylindrical shell, flow to cooler grog Way out, cooling water enters by the cooling water inlet on the shell, grog in the cooler cylindrical shell is cooled off, flow out from coolant outlet from the top-down following current of top barrel in the cavity of cooling water between cooler cylindrical shell and shell; Cooling water enters into cooling water inlet on the shell by the cooling upper hose; Cooling water enters into CWR by the coolant outlet on the shell; When grog was cooled off, the cooler cylindrical shell rotated, and shell is motionless, grog is rotated in the cooler cylindrical shell fully to be contacted with cooling water, can accelerate the cooling velocity of material like this, improve cooling effectiveness, cooling back grog 8 flows out from the outlet of cooling grog at last.
Cooling upper hose 9 is determined according to size, the length required water amount of the temperature difference and cooler before and after the cooling with the big I of caliber that cools back water pipe 10.