CN209866067U

CN209866067U - High-temperature activation device for activated carbon fibers

Info

Publication number: CN209866067U
Application number: CN201822202058.0U
Authority: CN
Inventors: 张勇敢; 张念念; 徐彦军; 武猛
Original assignee: Anhui Tianfu Environmental Protection Greenway Technology Materials Co
Current assignee: Anhui Tianfu Environmental Protection Greenway Technology Materials Co
Priority date: 2018-12-26
Filing date: 2018-12-26
Publication date: 2019-12-31
Anticipated expiration: 2028-12-26

Abstract

The utility model discloses an active carbon fiber high temperature activation device belongs to active carbon fiber high temperature activation technical field, which comprises a bod, the inside one side of organism is provided with first high temperature oxidation chamber, and the inside all with install the bull stick in first high temperature oxidation chamber, the motor is installed to the one end of the bull stick of the inside one side of electric pneumatic cylinder, and the motor is fixed in electric pneumatic cylinder's outer wall, circular gear is installed to the one end in the bull stick outside, and circular gear's the outside is provided with gear conveyer belt, the air feed chamber is installed through the bearing in the both ends in the bull stick outside, and the intermediate position department in the bull stick outside installs the cylinder. The utility model discloses a twice high temperature activation is handled, makes carbon fiber felt activation degree higher to the jet-propelled structure and first electrical heating board and the second electrical heating board through the cylinder can be to carbon fiber felt contact heating closely, therefore solved heat loss more serious, the fast problem of energy resource consumption.

Description

High-temperature activation device for activated carbon fibers

Technical Field

The utility model relates to a high temperature activation device especially relates to an active carbon fiber high temperature activation device, belongs to active carbon fiber high temperature activation technical field.

Background

The carbon fiber felt is a felt made of carbon fiber, has broad adsorption spectrum, large capacity, the adsorption capacity of organic steam such as gasoline, aldehyde, phenols, alcohols and the like is several times to dozens of times larger than that of active carbon, and has good adsorption to inorganic gas, the active carbon fiber is a novel efficient adsorption material exceeding the active carbon, is a novel replacement product, has a highly developed micropore structure, large adsorption capacity, high adsorption speed and good purification efficiency, can be processed into felts, wires and cloth with various specifications, has the characteristics of heat resistance, acid resistance, alkali resistance and the like, is always uneven in the high-temperature activation treatment of the active carbon fiber at present, needs to be flattened, and is heated by high-temperature air in the high-temperature activation device at present, so the heat loss caused by the heating treatment is serious, the energy consumption is huge, and secondly, the existing activated carbon fiber high-temperature activation device only has one high-temperature activation cavity so that the activation is insufficient.

SUMMERY OF THE UTILITY MODEL

The main objective of the utility model is to provide an active carbon fiber high temperature activation device, through twice high temperature activation processing, make carbon fiber felt activation degree higher to the jet-propelled structure and first electrical heating board and the second electrical heating board through the cylinder can be to carbon fiber felt closely contact heating, therefore solved the heat loss more serious, problem that energy resource consumption is fast.

The purpose of the utility model can be achieved by adopting the following technical scheme:

an active carbon fiber high-temperature activation device comprises a machine body, wherein a first high-temperature oxidation cavity is arranged on one side inside the machine body, rotating rods are arranged in the first high-temperature oxidation cavity, a second high-temperature oxidation cavity is arranged on the other side inside the machine body, an electric pneumatic cylinder is arranged inside the second high-temperature oxidation cavity, a motor is arranged at one end of each rotating rod on one side inside the electric pneumatic cylinder and fixed on the outer wall of the electric pneumatic cylinder, a circular gear is arranged at one end outside the rotating rods, a gear conveyor belt is arranged outside the circular gear, air supply cavities are arranged at two ends outside the rotating rods through bearings, a roller is arranged in the middle of the outer side of the rotating rods, air outlet holes are uniformly arranged inside the roller, one end of each air outlet hole is communicated with the corresponding rotating rod, and air inlet holes are uniformly arranged in the air supply cavities outside the rotating rods, the electric air cylinder is fixed other intermediate position department and is installed the heating chamber, and the intermediate position department of heating the inside bottom of chamber installs the electrical heating stick, the pump of admitting air is installed to one side at electric air cylinder top, and the input of the pump of admitting air passes through trachea and heating chamber intercommunication, the output of the pump of admitting air passes through trachea and air feed chamber intercommunication.

Preferably, the bottom of the machine body is uniformly provided with support columns, the middle positions of the outer sides of the support columns are provided with side support rods, and one ends of the side support rods are arranged at the bottom of the machine body.

Preferably, the top of the heating cavity is uniformly provided with air vents.

Preferably, one side of the inside of the machine body is provided with a second high-temperature oxidation cavity, and the two sides of the bottom of the second high-temperature oxidation cavity are provided with heat insulation support rods, a second electric heating plate is installed at the top of each heat insulation support rod, an electric pneumatic cylinder is installed at the top of the inside of the second high-temperature oxidation cavity, a fixing plate is installed at the output end of the electric pneumatic cylinder, springs are evenly installed at the bottom of the fixing plate, a first electric heating plate is installed at the bottom of each spring, a control panel is installed at the upper end of one side of the machine body, and the control panel is respectively connected with an air inlet pump, the electric pneumatic cylinder, the first electric heating plate, an electric heating rod.

Preferably, the middle positions of two sides of the first high-temperature oxidation cavity and the second high-temperature oxidation cavity are both provided with through holes.

Preferably, a connecting pipe is arranged between the air supply cavities.

Preferably, the rotating rod is of a hollow structure.

The utility model has the advantages of:

1. the utility model provides an activated carbon fiber high temperature activation device through twice high temperature activation processing, makes carbon fiber felt activation degree higher.

2. The utility model provides an activated carbon fiber high temperature activation device, the jet-propelled structure through the cylinder and first electric heating board and second electric heating board can be to the carbon fiber felt contact heating closely, therefore solved the heat loss more serious, problem that energy resource consumption is fast.

Drawings

Fig. 1 is a side sectional view of a preferred embodiment of an activated carbon fiber high temperature activation apparatus according to the present invention;

fig. 2 is a schematic structural view of a drum assembly according to a preferred embodiment of the activated carbon fiber high-temperature activation apparatus of the present invention;

fig. 3 is a side view of a preferred embodiment of an activated carbon fiber high temperature activation apparatus according to the present invention;

fig. 4 is a structural view of a gear assembly of a preferred embodiment of the activated carbon fiber high-temperature activation apparatus according to the present invention.

In the figure: 1-an air inlet pump, 2-an electric heating rod, 3-a heating cavity, 4-a machine body, 5-a first electric heating plate, 6-a fixing plate, 7-an electric pneumatic cylinder, 8-a spring, 9-a second electric heating plate, 10-a heat insulation supporting rod, 11-a roller, 12-a circular gear, 13-a connecting pipe, 14-a supporting column, 15-a rotating rod, 16-an air supply cavity, 17-a first high-temperature oxidation cavity, 18-a control panel, 19-a second high-temperature oxidation cavity, 20-a gear conveyor belt, 21-an air inlet hole, 22-a motor and 23-an air outlet hole.

Detailed Description

In order to make the technical solutions of the present invention clearer and clearer for those skilled in the art, the present invention will be described in further detail with reference to the following embodiments and the accompanying drawings, but the embodiments of the present invention are not limited thereto.

As shown in fig. 1-4, an activated carbon fiber high temperature activation device comprises a machine body 4, a first high temperature oxidation cavity 17 is arranged on one side inside the machine body 4, a rotating rod 15 is mounted inside the first high temperature oxidation cavity 17, a second high temperature oxidation cavity 19 is arranged on the other side inside the machine body 4, an electric pneumatic cylinder 7 is arranged inside the second high temperature oxidation cavity 19, a motor 22 is mounted at one end of the rotating rod 15 on one side inside the electric pneumatic cylinder 7, the motor 22 is fixed on the outer wall of the electric pneumatic cylinder 7, a circular gear 12 is mounted at one end outside the rotating rod 15, a gear conveyor belt 20 is arranged outside the circular gear 12, air supply cavities 16 are mounted at two ends outside the rotating rod 15 through bearings, a roller 11 is mounted at the middle position outside the rotating rod 15, air outlet holes 23 are uniformly mounted inside the roller 11, and one end of the air outlet hole 23 is communicated with the rotating rod 15, the outside of bull stick 15 is located in air supply chamber 16 and locates evenly to install inlet port 21, and electric pneumatic cylinder 7 decides other intermediate position department and installs heating chamber 3, and the intermediate position department of the inside bottom of heating chamber 3 installs electric heating rod 2, and air intake pump 1 is installed to one side at electric pneumatic cylinder 7 top, and air intake pump 1's input passes through trachea and heating chamber 3 intercommunication, and air intake pump 1's output passes through trachea and air supply chamber 16 intercommunication.

In an embodiment, as shown in fig. 1, the bottom of the machine body 4 is uniformly provided with supporting pillars 14, a side supporting rod is installed at a middle position outside the supporting pillars 14, and one end of the side supporting rod is installed at the bottom of the machine body 4, so that a good supporting effect can be achieved, and the stability of the machine body 4 is facilitated.

In the embodiment, as shown in fig. 1, the top of the heating chamber 3 is uniformly provided with air vents, so that sufficient air can be better provided in the heating chamber 3.

In the embodiment, as shown in fig. 1, a second high temperature oxidation chamber 19 is arranged on one side inside the machine body 4, heat insulation support rods 10 are installed on two sides of the bottom of the second high temperature oxidation chamber 19, a second electric heating plate 9 is installed on the top of the heat insulation support rods 10, an electric pneumatic cylinder 7 is installed on the top end inside the second high temperature oxidation chamber 19, a fixing plate 6 is installed at the output end of the electric pneumatic cylinder 7, springs 8 are evenly installed at the bottom of the fixing plate 6, a first electric heating plate 5 is installed at the bottom of the springs 8, so that a further high temperature activation effect on the carbon fiber felt can be achieved, a control panel 18 is installed at the upper end of one side of the machine body 4, and the control panel 18 is respectively electrically connected with the air intake pump 1, the electric pneumatic cylinder 7, the first electric heating plate 5, the electric heating rod 2, the motor 22 and the, so that various electrical components can be respectively controlled through the control panel.

In an embodiment, as shown in fig. 1, a through hole is formed at the middle position of both sides of the first high temperature oxidation chamber 17 and the second high temperature oxidation chamber 19, so that the carbon fiber felt can pass through the through hole.

In the embodiment shown in fig. 1, the rotating rod 15 has a hollow structure so as to function as a carrier for the transfer of hot air, and the air supply chambers 16 are provided with connecting pipes 13 therebetween so as to transfer hot air to different air supply chambers 1.

As shown in fig. 1 to 4, the working process of the activated carbon fiber high-temperature activation apparatus provided in this embodiment is as follows:

step 1: the device is powered on, and the air inlet pump 1, the electric heating rod 2, the motor 22, the first electric heating plate 5 and the second electric heating plate 9 are turned on through the control panel 18;

step 2: the rotating rod 15 is driven to rotate by the motor 22, the gear conveyor belt 20 is driven to rotate by the circular gear 12 on the outer side of the rotating rod 15, so that thrust is generated on the rest of the circular gears 12, the rest of the rotating rods 15 are driven to rotate, and all the rollers are driven to rotate;

and step 3: air in the heating cavity 3 is heated by the electric heating rod 2, hot air is pumped into the air supply cavity 16 by the air inlet pump 1 for air supply, enters the rotating rod 15 through the air inlet hole 21, and is sprayed out through the air outlet hole 23;

and 4, step 4: inserting the carbon fiber felt between the rollers 11, driving the carbon fiber felt to move forwards through the driven rollers 11, and performing first-step high-temperature treatment on the carbon fiber felt through sprayed hot air;

and 5: enter into second high temperature oxidation chamber 19 through cylinder 11 carbon fiber felt, open electric pneumatic cylinder 7 through control panel 18 to drive first electric heating board 5 and push down and carry out further high temperature treatment to the carbon fiber felt that transmits to second electric heating board 9.

To sum up, in the present embodiment, the apparatus is powered on, the air intake pump 1, the electric heating rod 2, the motor 22, the first electric heating plate 5 and the second electric heating plate 9 are turned on by the control panel 18, the rotating rod 15 is driven to rotate by the motor 22, the gear belt 20 is driven to rotate by the circular gear 12 outside the rotating rod 15, so as to generate thrust on the other circular gears 12, thereby driving the other rotating rods 15 to rotate, thereby driving all the rollers to rotate, the rotating rod 15 is driven to rotate by the motor 22, the gear belt 20 is driven to rotate by the circular gear 12 outside the rotating rod 15, thereby generating thrust on the other circular gears 12, thereby driving the other rotating rods 15 to rotate, thereby driving all the rollers to rotate, the carbon fiber felt is inserted between the rollers 11, the carbon fiber felt is driven to move forward by the driven rollers 11, and the carbon fiber felt is subjected to the first high temperature treatment by the ejected hot air, enter into second high temperature oxidation chamber 19 through cylinder 11 carbon fiber felt, open electric pneumatic cylinder 7 through control panel 18, thereby drive first electric heating board 5 and push down and carry out further high temperature treatment to the carbon fiber felt that transmits to on the second electric heating board 9, through twice high temperature activation processing, make carbon fiber felt activation degree higher, and can be to carbon fiber felt contact heating closely through the air-jet structure of cylinder 11 and first electric heating board 5 and second electric heating board 9, therefore it is more serious to have solved heat loss, the fast problem of energy resource consumption.

The above description is only a further embodiment of the present invention, but the scope of protection of the present invention is not limited thereto, and any person skilled in the art can replace or change the technical solution and the concept of the present invention within the scope of the present invention.

Claims

1. The utility model provides an active carbon fiber high temperature activation device, includes organism (4), its characterized in that: a first high-temperature oxidation cavity (17) is arranged on one side inside the machine body (4), a rotating rod (15) is mounted in the first high-temperature oxidation cavity (17), a second high-temperature oxidation cavity (19) is arranged on the other side inside the machine body (4), an electric pneumatic cylinder (7) is arranged inside the second high-temperature oxidation cavity (19), a motor (22) is mounted at one end of the rotating rod (15) on one side inside the electric pneumatic cylinder (7), the motor (22) is fixed on the outer wall of the electric pneumatic cylinder (7), a circular gear (12) is mounted at one end outside the rotating rod (15), a gear conveyor belt (20) is arranged outside the circular gear (12), an air supply cavity (16) is mounted at two ends outside the rotating rod (15) through bearings, a roller (11) is mounted at the middle position outside the rotating rod (15), and air outlet holes (23) are uniformly mounted inside the roller (11), and the one end and the bull stick (15) of venthole (23) are linked together, the outside of bull stick (15) is located in air supply chamber (16) and locates evenly to install inlet port (21), electric pneumatic cylinder (7) are fixed other intermediate position department and are installed heating chamber (3), and the intermediate position department of heating chamber (3) inside bottom installs electric heating rod (2), pump (1) admits air is installed to one side at electric pneumatic cylinder (7) top, and the input of pump (1) admits air passes through trachea and heating chamber (3) intercommunication, the output of pump (1) admits air passes through trachea and air supply chamber (16) intercommunication.

2. The activated carbon fiber high-temperature activation device according to claim 1, wherein: support columns (14) are uniformly installed at the bottom of the machine body (4), side support rods are installed in the middle positions of the outer sides of the support columns (14), and one ends of the side support rods are installed at the bottom of the machine body (4).

3. The activated carbon fiber high-temperature activation device according to claim 1, wherein: and vent holes are uniformly formed in the top of the heating cavity (3).

4. The activated carbon fiber high-temperature activation device according to claim 1, wherein: a second high-temperature oxidation cavity (19) is arranged at one side inside the machine body (4), heat-insulating support rods (10) are arranged at two sides of the bottom of the second high-temperature oxidation cavity (19), a second electric heating plate (9) is arranged at the top of the heat insulation support rod (10), an electric pneumatic cylinder (7) is arranged at the top end inside the second high-temperature oxidation cavity (19), and the output end of the electric pneumatic cylinder (7) is provided with a fixed plate (6), the bottom of the fixed plate (6) is uniformly provided with springs (8), a first electric heating plate (5) is arranged at the bottom of the spring (8), a control panel (18) is arranged at the upper end of one side of the machine body (4), and the control panel (18) is respectively electrically connected with the air inlet pump (1), the electric pneumatic cylinder (7), the first electric heating plate (5), the electric heating rod (2), the motor (22) and the second electric heating plate (9) through leads.

5. The activated carbon fiber high-temperature activation device according to claim 4, wherein: and the middle positions of two sides of the first high-temperature oxidation cavity (17) and the second high-temperature oxidation cavity (19) are provided with through ports.

6. The activated carbon fiber high-temperature activation device according to claim 4, wherein: and connecting pipes (13) are arranged between the air supply cavities (16).

7. The activated carbon fiber high-temperature activation device according to claim 1, wherein: the rotating rod (15) is of a hollow structure.