CN213727761U - A high-efficient filter equipment for carbon piece is categorised - Google Patents

Abstract

The application provides a high-efficient filter equipment for carbon piece is categorised relates to carbon sediment filter equipment technical field. The device is arranged below the conveying belt, carbon blocks are classified according to size by utilizing the vibration of a spring arranged in the filtering chamber and the stirring of the stirring mechanism, and carbon residue in the carbon blocks and carbon powder attached to the carbon blocks can be filtered, so that the aim of accelerating the filtering speed is fulfilled; a carbon dust collecting frame is arranged below the filtering chamber, and carbon dust can be automatically collected; still be provided with the dust cover, when using this application device, install the dust cover on this application device to prevent carbon end pollution factory building environment. The carbon block screening device has the advantages that the filtering effect is good, the screened carbon blocks meet the requirements, the operation is simple and convenient, the carbon slag and the carbon dust are collected and recycled, the cost can be saved, and the environment is protected.

Description

A high-efficient filter equipment for carbon piece is categorised

Technical Field

The application relates to the technical field of carbon block filtering devices, in particular to a high-efficiency filtering device for carbon block classification.

Background

The carbon is formed by calcining coal at high temperature of 1200-1300 ℃ to remove moisture and combustible volatile components, a large amount of carbon slag is generated in the process, and a large amount of carbon powder is attached to the surface of the carbon.

The existing process is that carbon is directly conveyed to a collecting device by a conveyor belt after being discharged, so that the defects that the sizes of obtained carbon blocks are inconsistent, carbon slag and carbon powder are not filtered or dedusted, and flying dust is easily caused to pollute the environment in the transportation process are overcome.

SUMMERY OF THE UTILITY MODEL

The application provides a high-efficient filter equipment for carbon block classification to reach the purpose of classifying the carbon block size and filtering carbon residue, carbon dust.

The technical scheme adopted by the application is as follows:

a high-efficiency filtering device for carbon block classification comprises a first filtering chamber, wherein a first screen is fixedly connected to the bottom surface of the first filtering chamber, a second filtering chamber is arranged below the first filtering chamber, a second screen is fixedly connected to the bottom surface of the second filtering chamber, a third filtering chamber is arranged below the second filtering chamber, a third screen is fixedly connected to the bottom surface of the third filtering chamber, and a carbon dust collecting frame is arranged below the third filtering chamber;

the bottom end of the first filter chamber is fixedly connected with one end of a first spring and a first sliding block, the top end of the second filter chamber is fixedly connected with the other end of the first spring and a first track, and the first sliding block is connected with the first track in a sliding manner; the bottom end of the second filter chamber is fixedly connected with one end of a second spring and a second sliding block, the top end of the third filter chamber is fixedly connected with the other end of the second spring and a second track, and the second sliding block is connected with the second track in a sliding manner; the bottom end of the third filter chamber is fixedly connected with one end of a third spring and a third sliding block, the top end of the carbon dust collecting frame is fixedly connected with the other end of the third spring and a third rail, and the third sliding block is movably connected with the third rail;

the stirring mechanism comprises a rotating motor, a speed reducer and a stirring rod, the rotating motor is arranged at the bottom of the third filtering chamber, the output shaft of the rotating motor is connected with the speed reducer, the output shaft of the speed reducer is fixedly connected with the stirring rod, and the stirring rod penetrates through the third screen, the second screen and the first screen from bottom to top and stretches out of the first screen.

Further, a first side door is arranged on the side face of the first filtering chamber and connected with the first filtering chamber through a hinge; a second side door is arranged on the side surface of the second filtering chamber and is connected with the second filtering chamber through a hinge; and a third side door is arranged on the side surface of the third filtering chamber, and the third side door is connected with the third filtering chamber through a hinge.

Further, the carbon end is collected the frame side and is provided with the through-hole, the side fixed mounting that the frame was collected to the carbon end has the cylinder, the telescopic link one end of cylinder is passed the through-hole stretches into in the frame is collected to the carbon end, telescopic link one end fixed connection push pedal, the opposite of through-hole is provided with the fourth side door.

Further, a plurality of stirring rod paddles are axially installed on the stirring rod.

Further, the first screen has a mesh diameter of 1cm to 6cm, the second screen has a mesh diameter of 1cm to 6cm, and the third screen has a mesh diameter of 0.1cm to 2 cm.

Furthermore, the high-efficiency filter device for carbon block classification further comprises a dust cover, a zipper is arranged on the dust cover, one end of the dust cover is connected with the top end of the first filter chamber, and the other end of the dust cover is connected with the bottom end of the carbon dust collection frame through a pin shaft.

Further, the first spring, the second spring and the third spring are all compression springs.

The technical scheme of the application has the following beneficial effects:

the device is arranged below a conveyor belt, carbon blocks are classified according to size by utilizing the vibration of a spring arranged in a filter chamber and the stirring of a stirring mechanism, and carbon slag in the carbon blocks and carbon powder attached to the carbon blocks can be filtered, so that the aim of accelerating the filtering speed is fulfilled; a carbon dust collecting frame is arranged below the filtering chamber, and carbon dust can be automatically collected; still be provided with the dust cover, when using this application device, install the dust cover on this application device to prevent carbon end pollution factory building environment. The carbon block screening device has the advantages that the filtering effect is good, the screened carbon blocks meet the requirements, the operation is simple and convenient, the carbon slag and the carbon dust are collected and recycled, the cost can be saved, and the environment is protected.

Drawings

In order to more clearly explain the technical solution of the present application, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious to those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a high-efficiency filtering device for carbon block classification provided by an embodiment of the application;

illustration of the drawings:

wherein, 1-a first filter chamber, 11-a first screen, 12-a first spring, 13-a first slide block;

2-a second filter chamber, 21-a second screen, 22-a first rail, 23-a second slider, 24-a second spring;

3-a third filter chamber, 31-a third screen, 32-a second rail, 33-a third slide block, 34-a third spring;

4-carbon dust collecting frame, 41-third track, 42-cylinder, 43-push plate;

5-stirring mechanism, 51-rotating motor, 52-stirring rod and 53-stirring rod paddle.

Detailed Description

Referring to fig. 1, a schematic structural diagram of a high-efficiency filtering device for carbon block classification provided in an embodiment of the present application is shown.

The utility model provides a be used for categorised high-efficient filter equipment of carbon piece, includes first filter chamber 1, the first screen cloth 11 of bottom surface fixedly connected with of first filter chamber 1, 1 below in first filter chamber is provided with second filter chamber 2, the bottom surface fixedly connected with second screen cloth 21 of second filter chamber 2, 2 below in second filter chamber are provided with third filter chamber 3, 3 bottom surface fixedly connected with third screen cloth 31 in third filter chamber, 3 below in third filter chamber are provided with carbon dust collection frame 4.

The mesh diameters of the first screen 11, the second screen 21 and the third screen 31 vary from large to small. After being filtered by the first screen mesh 11, the second screen mesh 21 and the third screen mesh 31, the carbon blocks which are screened and have the sizes from large to small are respectively arranged in the first filtering chamber 1, the second filtering chamber 2 and the third filtering chamber 3, so that the carbon blocks are classified according to the sizes, the effective utilization of the carbon blocks is facilitated, and the resources are saved.

The embodiment of the application accelerates the filtering process by applying the up-and-down vibration of the compression spring. The first spring 12, the second spring 24, and the third spring 34 are all compression springs. The sliding block is connected with the track in a sliding way and used for limiting the up-and-down movement of the filtering chamber within a certain range.

The bottom end of the first filtering chamber 1 is fixedly connected with one end of a first spring 12 and a first sliding block 13, the top end of the second filtering chamber 2 is fixedly connected with the other end of the first spring 12 and a first rail 22, and the first sliding block 13 is slidably connected with the first rail 22; the bottom end of the second filtering chamber 2 is fixedly connected with one end of a second spring 24 and a second sliding block 23, the top end of the third filtering chamber 3 is fixedly connected with the other end of the second spring 24 and a second rail 32, and the second sliding block 23 is slidably connected with the second rail 32; the bottom end of the third filtering chamber 3 is fixedly connected with one end of a third spring 34 and a third sliding block 33, the top end of the carbon dust collecting frame 4 is fixedly connected with the other end of the third spring 34 and a third rail 41, and the third sliding block 33 is movably connected with the third rail 41.

The filtration is accelerated by means of the stirring mechanism 5. A rotating motor 51 is arranged at the bottom of the third filtering chamber 3, an output shaft of the rotating motor 51 is connected with a speed reducer, an output shaft of the speed reducer is fixedly connected with a stirring rod 52, the stirring rod 52 is upwards connected with the third screen 31, the second screen 21 and the first screen 11 in a penetrating way, and the stirring rod extends out of the first screen 11. A plurality of paddle paddles 53 are mounted on the paddle 52 in the axial direction.

In order to facilitate discharging, a first side door is arranged on the side surface of the first filtering chamber 1 and is connected with the first filtering chamber 1 through a hinge; a second side door is arranged on the side surface of the second filtering chamber 2 and is connected with the second filtering chamber 2 through a hinge; and a third side door is arranged on the side surface of the third filtering chamber 3 and is connected with the third filtering chamber 3 through a hinge.

In order to collect the carbon dust in the carbon dust collecting frame 4 conveniently, a through hole is arranged on the side surface of the carbon dust collecting frame 4, and the area and the shape of the through hole are exactly the same as those of the cross section of the telescopic rod of the air cylinder 42. The side fixed mounting of frame 4 is collected to the carbon end has cylinder 42, and in the telescopic link one end of cylinder 42 passed the through-hole and stretched into carbon end and collect frame 4, telescopic link one end fixed connection push pedal 43, the opposite face of through-hole was provided with the fourth side door.

In actual production needs, in order to ensure the specification of the finished carbon block and classify the size of the carbon block, the mesh diameter of the first screen 11 is 1cm-6cm, the mesh diameter of the second screen 21 is 1cm-6cm, and the mesh diameter of the third screen 31 is 0.1cm-2 cm.

The carbon block classification efficient filtering device further comprises a dust cover, a zipper is arranged on the dust cover, one end of the dust cover is connected with the top end of the first filtering chamber 1, and the other end of the dust cover is connected with the bottom end of the carbon dust collecting frame 4 through a pin shaft. The dust cover can vibrate filter equipment with whole carbon sediment and surround, keeps apart with external environment, can prevent the diffusion of carbon end etc. effectively, maintains the environment of factory building, and the protection operation personnel's is healthy.

The device is provided with three layers of filter chambers, the mesh diameter of the first screen 11 is larger than that of the second screen surface 21, the mesh diameter of the second screen surface 21 is larger than that of the third screen 31, and when the mesh diameter of the third screen 31 is 0.1cm, only carbon powder can permeate. Therefore, the device can filter carbon slag and carbon powder and classify the sizes of the carbon blocks.

Before filtration, the stirrer starts to operate by starting the rotary motor 51. Carbon blocks and carbon slag flow out from the tail end of the conveyor belt and fall into the first filtering chamber 1 below the conveyor belt under the action of gravity, the first spring 12 deforms under the action of impact force from top to bottom and drives the first filtering chamber 1 to reciprocate up and down, the carbon blocks and the carbon slag in the first filtering chamber 1 are vibrated, and the carbon slag, the carbon dust and the smaller carbon blocks pass through meshes of the first screen surface 11 and are filtered into the second filtering chamber 2 below.

The second spring 24 at the bottom end of the second filtering chamber 2 deforms due to the impact force from top to bottom and drives the second filtering chamber 1 to reciprocate up and down, the carbon slag, the carbon dust and the smaller carbon blocks in the second filtering chamber 2 are vibrated, and the carbon slag and the carbon dust pass through the meshes of the second screen 21 and are filtered into the third filtering chamber 3 below.

The third spring 34 of the third filtering chamber 3 deforms due to the impact force from top to bottom, and drives the third filtering chamber 3 to reciprocate up and down, the carbon residue and the carbon dust in the third filtering chamber 3 vibrate, and the carbon dust passes through the mesh of the third screen 31 and is filtered into the carbon residue collecting frame 4 below.

After the filtration is finished, the air cylinder 42 is started, and the air cylinder 42 pushes the push plate 43 to push out the carbon powder in the carbon powder collection frame.

After the classification is finished, carbon blocks which are different in size and have no carbon ash adhesion are arranged in the first filtering chamber 1, the second filtering chamber 2 and the third filtering chamber 3, and the carbon blocks are shoveled out by respectively opening the first side door, the second side door and the third side door.

The device of the application not only can realize classifying the carbon blocks according to size, but also can collect carbon residue and carbon dust, and the vibration of the spring and the stirring of the stirring mechanism can accelerate the filtering speed, thereby improving the working efficiency and saving the labor cost.

The embodiments provided in the present application are only a few examples of the general concept of the present application, and do not limit the scope of the present application. Any other embodiments extended according to the scheme of the present application without inventive efforts will be within the scope of protection of the present application for a person skilled in the art.

Claims (7)

1. The efficient filtering device for carbon block classification is characterized by comprising a first filtering chamber (1), wherein a first screen (11) is fixedly connected to the bottom surface of the first filtering chamber (1), a second filtering chamber (2) is arranged below the first filtering chamber (1), a second screen (21) is fixedly connected to the bottom surface of the second filtering chamber (2), a third filtering chamber (3) is arranged below the second filtering chamber (2), a third screen (31) is fixedly connected to the bottom surface of the third filtering chamber (3), and a carbon dust collecting frame (4) is arranged below the third filtering chamber (3);

one end of a first spring (12) and a first sliding block (13) are fixedly connected to the bottom end of the first filtering chamber (1), the other end of the first spring (12) and a first rail (22) are fixedly connected to the top end of the second filtering chamber (2), and the first sliding block (13) is slidably connected with the first rail (22); one end of a second spring (24) and a second sliding block (23) are fixedly connected to the bottom end of the second filtering chamber (2), the other end of the second spring (24) and a second rail (32) are fixedly connected to the top end of the third filtering chamber (3), and the second sliding block (23) is slidably connected with the second rail (32); the bottom end of the third filter chamber (3) is fixedly connected with one end of a third spring (34) and a third sliding block (33), the top end of the carbon dust collecting frame (4) is fixedly connected with the other end of the third spring (34) and a third rail (41), and the third sliding block (33) is movably connected with the third rail (41);

rabbling mechanism (5) include rotating electrical machines (51), speed reducer and stirring rod (52), third filter chamber (3) bottom is provided with rotating electrical machines (51), the output shaft speed reducer of rotating electrical machines (51), the output shaft fixedly connected with of speed reducer stirring rod (52), stirring rod (52) run through from bottom to top third screen cloth (31), second screen cloth (21) and first screen cloth (11) and stretch out first screen cloth (11).

2. A high efficiency filter device for carbon block sorting according to claim 1 characterized by that said first filter chamber (1) is provided with a first side door at the side, said first side door is connected with said first filter chamber (1) by hinge; a second side door is arranged on the side surface of the second filtering chamber (2), and the second side door is connected with the second filtering chamber (2) through a hinge; and a third side door is arranged on the side surface of the third filtering chamber (3), and the third side door is connected with the third filtering chamber (3) through a hinge.

3. The high-efficiency filtering device for carbon block classification as claimed in claim 1, wherein the side of the carbon dust collecting frame (4) is provided with a through hole, the side of the carbon dust collecting frame (4) is fixedly provided with a cylinder (42), one end of a telescopic rod of the cylinder (42) passes through the through hole and extends into the carbon dust collecting frame (4), one end of the telescopic rod is fixedly connected with a push plate (43), and the opposite surface of the through hole is provided with a fourth side door.

4. A high efficiency filter device for carbon block sorting according to claim 1 wherein a plurality of stirring rod paddles (53) are mounted axially of the stirring rod (52).

5. A high efficiency filter device for carbon block sorting according to claim 1, c h a r a c t e r i z e d in that the first screen (11) has a mesh diameter of 1cm-6cm, the second screen (21) has a mesh diameter of 1cm-6cm and the third screen (31) has a mesh diameter of 0.1cm-2 cm.

6. The efficient filtering device for carbon block classification as claimed in claim 1, further comprising a dust cover, wherein a zipper is arranged on the dust cover, one end of the dust cover is connected with the top end of the first filtering chamber (1), and the other end of the dust cover is connected with the bottom end of the carbon dust collecting frame (4) through a pin shaft.

7. A high efficiency filter device for carbon block sorting according to claim 1 wherein said first spring (12), said second spring (24), said third spring (34) are compression springs.

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