CN100579756C - Non-blocking highly effective joggle type rotor cooling mechanism - Google Patents

Abstract

The invention relates to a contact rotor of a closed-smelting machine, in particular to a cooling structure of the contact rotor, namely a non-block effective cooling structure of the contact rotor provides unidirectional forced circulate cooling, a cooling coil does not have right angle circuit and 180 degrees reversal. The existing contact rotor cooling structure is optimized to the utmost extent by the invention, seven right angle circuits and two 180 degrees reversal of the existing cooling water sprue are cancelled and are replaced by none right angle circuit and none 180 degrees reversal, further maximum cooling area is bonded. The employment of cross dc canal and sloping line cooling coil duct can improve the fluid smooth of the cooling water, the impurity aggradations such as deposition of the water canal and the like can be effectively avoided, the cooling area can be extended, the efficiency and effect of the cooling can be improved, the three main dangers of the conventional canal can be fundamentally eliminated, the cooling structure of the contact rotor fills an international gap in the contact rotor field.

Description

Non-blocking highly effective joggle type rotor cooling mechanism

One, technical field

The present invention relates to the cooling structure of a kind of meshing rotor of banbury, particularly meshing rotor.

Two, background technology

Banbury is the important process equipment in the rubber industry.As banbury critical component rotor, its structural design quality directly affects the quality of service behaviour, production efficiency and the glue stuff compounding of banbury, and the subsequent production operation is had fundamental influence.In the design of banbury, for guarantee to plasticate, mixing carrying out smoothly, improve the quality of sizing material, require banbury that good cooling effect is arranged.In mixing process, the heat at rotor place is difficult to distribute most, because it is in the banburying chamber all the time, does not have the heat conduction substantially with the external world, again because of the required metal thickness of requirement of strength is bigger, so the ability that it outwards transmits heat is very low.The quality of rotor cooling capacity, be influence dump temperature, prevent that sizing material from burning, the key factor of prevulcanization and refining colloid amount, especially concerning high pressure, fast the banbury, the cooling effect of rotor seems even more important.

At present both at home and abroad the cooling tube of meshing rotor tubulose and directly lead to the top of each rib in the shape of a spiral makes cooling water channel press close to working surface more greatly and more, and adopts unidirectional forced circulation cooling, has improved cooling effect greatly.But as Fig. 3, Fig. 4 and shown in Figure 5, the design of its cooling water runner exist 3 fatal unreasonable:

1, have the 90 ° of zig zags in 7 places, 2 places (8-9 among Fig. 4) big counter-rotating is curved, has not only increased resistance to water-flow, has reduced flow velocity, directly influences heat exchanger effectiveness.

2, in above-mentioned each racing crook, incrustation scale, foreign material etc. are gathered and stop up runner, be directly connected to the cooling failure of whole rotor.

3, this obstruction almost can't be dredged sometimes and be caused rotor to be scrapped.

Three, summary of the invention

The objective of the invention is to overcome 3 fatal not enough problems of existing joggle type rotor cooling mechanism, a kind of non-blocking highly effective joggle type rotor cooling mechanism is provided, structure optimization, cooling effect improves, and does not have and stops up.

The technical scheme that the present invention is adopted for achieving the above object is: non-blocking highly effective joggle type rotor cooling mechanism, and unidirectional forced circulation cooling, cooling tube does not have the loop, right angle and 180 ° big counter-rotatings are curved.

Described cooling tube is shape in the shape of a spiral, adopts to intersect to lead directly to runner connection spiral coolant flow channel.

Described cross-channel cooling angle is 150 °.

Described circuit cools pipe adopts obtuse angle circuit cools pipe.

Described circuit cools pipe obtuse angle angle is 150 °.

The present invention has optimized existing joggle type rotor cooling mechanism to greatest extent, 180 ° big counter-rotatings in loop, right angle, 7 place and 2 places of having cancelled in the existing cooling water runner are curved, the substitute is loop, no right angle, it is curved not have 180 ° big counter-rotatings, more in conjunction with maximum film-cooled heat, adopt to intersect and lead directly to runner and 150 ° of oblique line cooling tube water flow passage, both improved the smoothness of flow of cooling water greatly, avoided the alluvial of impurity such as incrustation scale in the water channel effectively, increased film-cooled heat simultaneously, cooling effectiveness and cooling effect have been improved, fundamentally eliminated above-mentioned three the fatal hidden danger of original runner, the cooling structure of this kind meshing rotor has been filled up international blank.

Four, description of drawings:

Fig. 1 is traditional meshing rotor cooling water runner profile.

Fig. 2 is traditional meshing rotor cooling water runner expanded view.

Fig. 3 is traditional meshing rotor cooling water runner stereogram.

Fig. 4 is a meshing rotor cooling water runner profile of the present invention.

Fig. 5 is a meshing rotor cooling water runner expanded view of the present invention.

Fig. 6 is a meshing rotor cooling water runner stereogram of the present invention.

Five, the specific embodiment:

Non-blocking highly effective joggle type rotor cooling mechanism as shown in Figure 4, its expanded view as shown in Figure 5, stereogram as shown in Figure 6, be unidirectional forced circulation cooling, coolant flow channel 11 is shape in the shape of a spiral, coolant flow channel does not have loop, right angle (1,2,3,4,5,6,7) and 180 ° big counter-rotatings curved (8,9), adopts the straight-through runner 10 of intersection to be communicated with spiral coolant flow channel 11, and preferable cross-channel cooling angle is 150 °; The circuit cools runner adopts obtuse angle circuit cools runner, and preferable obtuse angle, coolant flow channel loop angle is 150 °.

Claims (3)

1, non-blocking highly effective joggle type rotor cooling mechanism, unidirectional forced circulation cooling is characterized in that: coolant flow channel does not have the loop, right angle and 180 ° big counter-rotatings are curved, and coolant flow channel is shape in the shape of a spiral, adopt to intersect and lead directly to runner connection spiral coolant flow channel, cross-channel cooling angle is 150 °.

2, non-blocking highly effective joggle type rotor cooling mechanism according to claim 1 is characterized in that: the circuit cools runner adopts obtuse angle circuit cools runner.

3, non-blocking highly effective joggle type rotor cooling mechanism according to claim 1 is characterized in that: circuit cools runner obtuse angle angle is 150 °.

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