CN203289218U - Bead grinding machine rotor strong cooling structure - Google Patents

Abstract

The utility model discloses a bead grinding machine rotor strong cooling structure. Multiple groups of cooling water channels are arranged between an internal wall and an external wall of a rotor. Each group of cooling water channels are composed of two water flow channels which are arranged along rotor axial direction. A water inlet and a water outlet are arranged at one end of the two water flow channels, and the other end of the two water flow channels is communicated with each other. The multiple groups of cooling water channels are arranged at intervals along rotor radial direction. Therefore, cooling area is increased, and improvement of cooling efficiency and enhancement of rotor speed are facilitated.

Description

The powerful cooling structure of ball mill rotor

Technical field

The utility model belongs to ball mill structure field, is specifically related to a kind of cooling structure of rotor of ball mill.

Background technology

In prior art, the rotor that horizontal ball mill comprises cylindrical shell and is positioned at cylindrical shell, general main is that cooling water channel is set on cylindrical shell, be used for cooling mill chamber, cooling structure generally is not set on rotor, it is to consist of rotor ectosome and rotor inner sleeve that a kind of rotor is also arranged, and between rotor ectosome and rotor inner sleeve, cooling water channel is set, but cooling effect is not very desirable.

The utility model content

In order to address the above problem, the utility model provides a kind of ball mill rotor powerful cooling structure, the powerful cooling structure of ball mill rotor of the present utility model has increased film-cooled heat, and be conducive to improve cooling effectiveness and improve rotor speed, and simple in structure, easy to implement.

The utility model for the technical scheme that solves its technical problem and adopt is:

The powerful cooling structure of a kind of ball mill rotor, be provided with some groups of cooling-water ducts between the inside and outside wall of rotor, every group of cooling-water duct all consists of two water stream channels along rotor axial, and two an end of water stream channel is respectively water inlet and delivery port, article two, the other end of water stream channel is connected, and some groups of cooling-water ducts are arranged along the spaced radial of rotor.

The utility model for the further technical scheme that solves its technical problem and adopt is:

Described rotor comprises rotor ectosome and rotor inner sleeve, and described cooling-water duct is between the inside and outside wall of rotor ectosome, and described water inlet and delivery port all are positioned on the inwall of described rotor ectosome.

Be provided with cooling water channel between described rotor ectosome and rotor inner sleeve.

Described cooling water channel communicates with described cooling-water duct.

The beneficial effects of the utility model are: the utility model is to be provided with some groups of cooling-water ducts between the inside and outside wall of rotor, every group of cooling-water duct all consists of two water stream channels along rotor axial, and two an end of water stream channel is respectively water inlet and delivery port, article two, the other end of water stream channel is connected, some groups of cooling-water ducts are arranged along the spaced radial of rotor, therefore increased film-cooled heat, be conducive to improve cooling effectiveness and improve rotor speed.

Description of drawings

Fig. 1 is sectional structure schematic diagram of the present utility model;

Fig. 2 is the A-A section cutaway view of Fig. 1.

Embodiment

Embodiment: the powerful cooling structure of a kind of ball mill rotor, be provided with some groups of cooling-water ducts 1 between the inside and outside wall of rotor, every group of cooling-water duct all consists of two water stream channels along rotor axial 11, and two an end of water stream channel is respectively water inlet 2 and delivery port 3, article two, the other end of water stream channel is connected, and some groups of cooling-water ducts are arranged along the spaced radial of rotor.

Described rotor comprises rotor ectosome and rotor inner sleeve, and described cooling-water duct 1 is between the inside and outside wall of rotor ectosome, and described water inlet 2 and delivery port 3 all are positioned on the inwall of described rotor ectosome.

Be provided with cooling water channel between described rotor ectosome and rotor inner sleeve.

Described cooling water channel communicates with described cooling-water duct.

Claims (4)

1. the powerful cooling structure of a ball mill rotor, it is characterized in that: be provided with some groups of cooling-water ducts (1) between the inside and outside wall of rotor, every group of cooling-water duct all consists of two water stream channels along rotor axial (11), and two an end of water stream channel is respectively water inlet (2) and delivery port (3), article two, the other end of water stream channel is connected, and some groups of cooling-water ducts are arranged along the spaced radial of rotor.

2. the powerful cooling structure of ball mill rotor as claimed in claim 1, it is characterized in that: described rotor comprises rotor ectosome and rotor inner sleeve, described cooling-water duct (1) is between the inside and outside wall of rotor ectosome, and described water inlet (2) and delivery port (3) all are positioned on the inwall of described rotor ectosome.

3. the powerful cooling structure of ball mill rotor as claimed in claim 2, is characterized in that: be provided with cooling water channel between described rotor ectosome and rotor inner sleeve.

4. the powerful cooling structure of ball mill rotor as claimed in claim 3, it is characterized in that: described cooling water channel communicates with described cooling-water duct.

Images