CN203790988U - Coal smashing device with filtering device - Google Patents

Abstract

The utility model relates to a coal smashing device with a filtering device. The device comprises a water storage pond, a motor, a transmission, a crushing machine, a settling pond and a transition pond. The motor comprises an outer cover, a stator coil, a rotor coil, a rotary shaft and a cooling device. The cooling device comprises a shell, a blade, a first permanent magnet, a second permanent magnet and a dust baffle, the second permanent magnet is fixedly connected with one end of the rotary shaft, the outer cover is fixedly connected with the shell, one end of the blade is in rotatably connected with the inner wall of the shell, the other end of the blade is fixedly connected with the first permanent magnet, the dust baffle is arranged between the first permanent magnet and the second permanent magnet, and the dust baffle is fixedly connected with the outer cover. The coal smashing device has the advantages that a good cooling effect is achieved, the cooling device on the motor of the smashing device is easy to replace, internal structures of the cooling device are convenient to clean, and the service life of the motor is prolonged.

Description

A kind of colliery reducing mechanism with filter

Technical field

The utility model relates to colliery reducing mechanism, relates in particular to a kind of colliery reducing mechanism with filter.

Background technology

In the crushing process of existing colliery, need to give reducing mechanism cooling, existing reducing mechanism cooling effect is bad, simultaneously because dust is larger, dust on the heat abstractor of the motor of reducing mechanism is many, more difficult replacing simultaneously, also shortens the service life of the motor of reducing mechanism greatly, makes production cost larger.

Utility model content

Technical problem to be solved in the utility model is to provide a kind of colliery reducing mechanism with filter, solve existing reducing mechanism cooling effect bad, dust on the heat abstractor of the motor of reducing mechanism is many, more difficult replacing simultaneously, the technical problem that production cost is larger.

The technical scheme that the utility model solves the problems of the technologies described above is as follows: a kind of colliery reducing mechanism with filter, comprises cistern, motor, speed changer, disintegrating machine, sedimentation basin, transition pond; The delivery port of described cistern is connected with the water inlet of the shell of described motor by water pipe; The delivery port of the shell of described motor is connected with the water inlet of described speed changer by water pipe; The delivery port of described speed changer is connected with the water inlet of described disintegrating machine by water pipe; The delivery port of described disintegrating machine is connected to the top of one end, described transition pond by water pipe; The delivery port of the described transition pond other end is arranged at the top of described sedimentation basin, and the below in described transition pond is provided with magnetic layer; Described motor comprises shell, stator coil, rotor coil, rotating shaft and heat abstractor; The inside of described shell is provided with cooler bin, and described stator coil is fixedly connected with the inwall of described shell, and the two ends of described rotating shaft are rotationally connected by bearing and described shell, and described rotor coil is arranged in described rotating shaft; Described heat abstractor is arranged at one end of described shell; Described rotating shaft is fixedly connected with the power shaft of described speed changer; Described heat abstractor comprises outer cover, flabellum, the first permanent magnet, the second permanent magnet, dust-proof plate; Described the second permanent magnet is fixedly connected with one end of described rotating shaft; Described outer cover is fixedly connected with described shell; One end of described flabellum and the inwall of described outer cover are rotationally connected, and the other end of described flabellum is fixedly connected with described the first permanent magnet; Described dust-proof plate is arranged between described the first permanent magnet and described the second permanent magnet, and described dust-proof plate is fixedly connected with described shell.

The beneficial effects of the utility model are: whole equipment adopts water cooling system, can lower device temperature, increase service life, reduce simultaneously in atmosphere and discharge dust, are conducive to protection of the environment; Heat abstractor ratio on the motor of reducing mechanism is easier to change, the convenient heat sink interior structure of cleaning, the service life of increase motor.

Further: described disintegrating machine comprises body, the upper end of described body is provided with wide-mouth charging aperture and water inlet, the lower end of described body is provided with supporting leg, the right-hand member of described body is provided with power transmission shaft, between described power transmission shaft and described body, clutch shaft bearing is installed, one end of described power transmission shaft is provided with bevel pinion, the other end of described power transmission shaft is fixedly connected with the output shaft of described speed changer by shaft coupling, the middle part of described body is provided with pole, the upper end of described pole and the upper end of described body are dynamically connected by the second bearing rotary, the middle part of described pole is provided with bevel gear wheel, the top of described bevel gear wheel the first mantle is installed, the inside of the described body on described the first mantle same level line is provided with the first fixed cone, the below of described bevel gear wheel the second mantle is installed, the inside of the described body on described the second mantle same level line is provided with the second fixed cone, the below of described body is provided with discharging opening and delivery port, and the top of described discharging opening is provided with filter course.

Further: described bevel gear wheel and the bevel pinion number of teeth and modulus equate, the installation that cooperatively interacts of described bevel gear wheel and bevel pinion.

Further: the space between the described second fixed cone and described the second mantle is less than the space between the described first fixed cone and described the first mantle.

Brief description of the drawings

Fig. 1 is structural representation of the present utility model;

Fig. 2 is the structural representation of disintegrating machine of the present utility model;

Fig. 3 is the structural representation of motor of the present utility model.

Detailed description of the invention

Below in conjunction with accompanying drawing, principle of the present utility model and feature are described, example, only for explaining the utility model, is not intended to limit scope of the present utility model.

As shown in Figure 1, Figure 2, Figure 3 shows, a kind of colliery reducing mechanism with filter, comprises cistern 1, motor 2, speed changer 3, disintegrating machine 4, sedimentation basin 5, transition pond 6.

The delivery port of described cistern 1 is connected with the water inlet 2.4a of the shell 2.5 of described motor 2 by water pipe; The delivery port 2.4b of the shell 2.5 of described motor 2 is connected with the water inlet of described speed changer 3 by water pipe; The delivery port of described speed changer 3 is connected with the water inlet 4.2a of described disintegrating machine 4 by water pipe; The delivery port 4.2b of described disintegrating machine 4 is connected to the top of 6 one end, described transition pond by water pipe; The delivery port of described transition pond 6 other ends is arranged at the top of described sedimentation basin 5, and the below in described transition pond 6 is provided with magnetic layer 6.1.

As shown in Figure 3, described motor 2 comprises shell 2.5, stator coil 2.3, rotor coil 2.10, rotating shaft 2.6 and heat abstractor; The inside of described shell 2.5 is provided with cooler bin 2.4, and described stator coil 2.3 is fixedly connected with the inwall of described shell 2.5, and the two ends of described rotating shaft 2.6 are rotationally connected by bearing and described shell 2.5, and described rotor coil 2.10 is arranged in described rotating shaft 2.6; Described heat abstractor is arranged at one end of described shell 2.5, between heat abstractor and described shell 2.5, is fixedly connected with by screw thread, and heat abstractor for convenience detach like this, is conducive to change heat abstractor or cleans outer cover 2.1, the flabellum 2.7 in heat abstractor; Described rotating shaft 2.6 is fixedly connected with the power shaft of described speed changer 3.

As shown in Figure 3, described heat abstractor comprises outer cover 2.1, flabellum 2.7, the first permanent magnet 2.8, the second permanent magnet 2.9, dust-proof plate 2.2; Described the second permanent magnet 2.9 is fixedly connected with one end of described rotating shaft 2.6; Described outer cover 2.1 is fixedly connected with described shell 2.5; The inwall of one end of described flabellum 2.7 and described outer cover 2.1 is rotationally connected, and the other end of described flabellum 2.7 is fixedly connected with described the first permanent magnet 2.8; Described dust-proof plate 2.2 is arranged between described the first permanent magnet 2.8 and described the second permanent magnet 2.9, and described dust-proof plate 2.2 is fixedly connected with described shell 2.5.

Preferred: as shown in Figure 2, described disintegrating machine 4 comprises body 4.8, the upper end of described body 4.8 is provided with wide-mouth charging aperture 4a and water inlet 4.2a, the lower end of described body 4.8 is provided with supporting leg 4.10, the right-hand member of described body 4.8 is provided with power transmission shaft 4.4, between described power transmission shaft 4.4 and described body 4.8, clutch shaft bearing is installed, one end of described power transmission shaft 4.4 is provided with bevel pinion, the other end of described power transmission shaft 4.4 is fixedly connected with the output shaft of described speed changer 3 by shaft coupling, the middle part of described body 4.8 is provided with pole 4.1, the upper end of the upper end of described pole 4.1 and described body 4.8 is dynamically connected by the second bearing rotary, the middle part of described pole 4.1 is provided with bevel gear wheel, the top of described bevel gear wheel the first mantle 4.7 is installed, the inside of the described body 4.8 on described the first mantle 4.7 same level lines is provided with first and surely bores 4.3, the below of described bevel gear wheel the second mantle 4.9 is installed, the inside of the described body 4.8 on described the second mantle 4.9 same level lines is provided with second and surely bores 4.5, the below of described body 4.8 is provided with discharging opening 4b and delivery port 4.2b, and the top of described discharging opening 4b is provided with filter course 4.6.

Preferred: described bevel gear wheel and the bevel pinion number of teeth and modulus equate, the installation that cooperatively interacts of described bevel gear wheel and bevel pinion.

Preferred: described second surely bore 4.5 and described the second mantle 4.9 between space be less than described first surely bore 4.3 and described the first mantle 4.7 between space.

The foregoing is only preferred embodiment of the present utility model, not in order to limit the utility model, all within spirit of the present utility model and principle, any amendment of doing, be equal to replacement, improvement etc., within all should being included in protection domain of the present utility model.

Claims (4)

1. the colliery reducing mechanism with filter, is characterized in that: comprise cistern (1), motor (2), speed changer (3), disintegrating machine (4), sedimentation basin (5), transition pond (6);

The delivery port of described cistern (1) is connected with the water inlet (2.4a) of the shell (2.5) of described motor (2) by water pipe; The delivery port (2.4b) of the shell (2.5) of described motor (2) is connected with the water inlet of described speed changer (3) by water pipe; The delivery port of described speed changer (3) is connected with the water inlet (4.2a) of described disintegrating machine (4) by water pipe; The delivery port (4.2b) of described disintegrating machine (4) is connected to the top of one end, described transition pond (6) by water pipe; The delivery port of described transition pond (6) other end is arranged at the top of described sedimentation basin (5), and the below in described transition pond (6) is provided with magnetic layer (6.1);

Described motor (2) comprises shell (2.5), stator coil (2.3), rotor coil (2.10), rotating shaft (2.6) and heat abstractor; The inside of described shell (2.5) is provided with cooler bin (2.4), described stator coil (2.3) is fixedly connected with the inwall of described shell (2.5), the two ends of described rotating shaft (2.6) are rotationally connected by bearing and described shell (2.5), and described rotor coil (2.10) is arranged in described rotating shaft (2.6); Described heat abstractor is arranged at one end of described shell (2.5); Described rotating shaft (2.6) is fixedly connected with the power shaft of described speed changer (3);

Described heat abstractor comprises outer cover (2.1), flabellum (2.7), the first permanent magnet (2.8), the second permanent magnet (2.9), dust-proof plate (2.2); Described the second permanent magnet (2.9) is fixedly connected with one end of described rotating shaft (2.6); Described outer cover (2.1) is fixedly connected with described shell (2.5); The inwall of one end of described flabellum (2.7) and described outer cover (2.1) is rotationally connected, and the other end of described flabellum (2.7) is fixedly connected with described the first permanent magnet (2.8); Described dust-proof plate (2.2) is arranged between described the first permanent magnet (2.8) and described the second permanent magnet (2.9), and described dust-proof plate (2.2) is fixedly connected with described shell (2.5).

2. a kind of colliery reducing mechanism with filter according to claim 1, it is characterized in that: described disintegrating machine (4) comprises body (4.8), the upper end of described body (4.8) is provided with wide-mouth charging aperture (4a) and water inlet (4.2a), the lower end of described body (4.8) is provided with supporting leg (4.10), the right-hand member of described body (4.8) is provided with power transmission shaft (4.4), between described power transmission shaft (4.4) and described body (4.8), clutch shaft bearing is installed, one end of described power transmission shaft (4.4) is provided with bevel pinion, the other end of described power transmission shaft (4.4) is fixedly connected with the output shaft of described speed changer (3) by shaft coupling, the middle part of described body (4.8) is provided with pole (4.1), the upper end of the upper end of described pole (4.1) and described body (4.8) is dynamically connected by the second bearing rotary, the middle part of described pole (4.1) is provided with bevel gear wheel, the top of described bevel gear wheel the first mantle (4.7) is installed, the inside of the described body (4.8) on described the first mantle (4.7) same level line is provided with the first fixed cone (4.3), the below of described bevel gear wheel the second mantle (4.9) is installed, the inside of the described body (4.8) on described the second mantle (4.9) same level line is provided with the second fixed cone (4.5), the below of described body (4.8) is provided with discharging opening (4b) and delivery port (4.2b), and the top of described discharging opening (4b) is provided with filter course (4.6).

3. a kind of colliery reducing mechanism with filter according to claim 2, is characterized in that: described bevel gear wheel and the bevel pinion number of teeth and modulus equate, the installation that cooperatively interacts of described bevel gear wheel and bevel pinion.

4. a kind of colliery reducing mechanism with filter according to claim 3, is characterized in that: the described second fixed cone (4.5) is less than the space between the described first fixed cone (4.3) and described the first mantle (4.7) with the space between described the second mantle (4.9).