CN210337205U - Composite active carbon cloth processing device - Google Patents

Abstract

The utility model relates to a compound activated carbon cloth processingequipment, which comprises a frame, first unwinding mechanism, first gluey mechanism, first dusting mechanism, first stoving mechanism, second glue spraying mechanism, second dusting mechanism, second stoving mechanism, third glue spraying mechanism, pressing mechanism, second unwinding mechanism and winding mechanism have set gradually in the frame, be provided with bottom cloth on the first unwinding mechanism, bottom cloth process first glue spraying mechanism, first dusting mechanism, first stoving mechanism, second glue spraying mechanism, second dusting mechanism, second stoving mechanism, third glue spraying mechanism enter into pressing mechanism, be provided with top cloth on the second unwinding mechanism, top cloth by second unwinding mechanism draw forth enter into pressing mechanism and cover with the top of top cloth. The utility model discloses the structural stability of the activated carbon cloth of processing is high.

Description

Composite active carbon cloth processing device

Technical Field

The utility model relates to a filtering material field, in particular to compound activated carbon cloth processingequipment.

Background

At present, a single mode, namely a glue powder scattering mode or a glue spraying mode, is generally adopted for the composite technology of the activated carbon cloth, the product pressing quality is poor, and the yield is low. The invention combines the advantages of two modes, on the equipment for scattering rubber powder, the drying tunnel part and the part for collecting and releasing materials of the equipment are utilized, and the glue spraying mode is added between the drying tunnel part and the material collecting and releasing part, so that the equipment realizes the process equipment with one machine for multiple purposes, thereby improving the utilization rate of the equipment, and the equipment can be produced by adopting the combination mode of powder scattering and glue spraying on the same equipment, thereby improving the quality of products.

SUMMERY OF THE UTILITY MODEL

Therefore, it is necessary to provide a composite activated carbon cloth processing device, which comprises a frame, wherein a first unwinding mechanism, a first glue spraying mechanism, a first powder spraying mechanism, a first baking mechanism, a second glue spraying mechanism, a second powder spraying mechanism, a second baking mechanism, a third glue spraying mechanism, a pressing mechanism, a second unwinding mechanism and a winding mechanism are sequentially arranged on the frame, bottom cloth is arranged on the first unwinding mechanism, the bottom cloth passes through the first glue spraying mechanism, the first powder spraying mechanism, the first baking mechanism, the second glue spraying mechanism, the second powder spraying mechanism, the second baking mechanism and the third glue spraying mechanism and enters the pressing mechanism, top cloth is arranged on the second unwinding mechanism, and the top cloth is led out from the second unwinding mechanism and enters the pressing mechanism and is pressed above the top cloth.

The utility model discloses during operation, bottom cloth is drawn forth the level from unwinding mechanism and is passed through first gluey mechanism of spouting, first dusting mechanism, first stoving mechanism, second and is spouted gluey mechanism, second dusting mechanism, second and toasts mechanism, third and spout gluey mechanism, then with the top cloth on the second unwinding mechanism can with, top cloth covers on bottom cloth, and top cloth enters into the pressfitting mechanism with top cloth simultaneously and carries out the pressfitting, obtains activated carbon cloth. Wherein, during the moving process of the bottom layer cloth, the first glue spraying mechanism firstly sprays a layer of glue or glue powder on the bottom layer cloth to form a glue layer, then the first dusting mechanism sprinkles a layer of activated carbon layer on the glue layer, then the glue layer and the activated carbon layer enter the first baking mechanism along with the bottom layer cloth to heat the glue layer or the glue layer, so that the activated carbon is adhered on the bottom layer cloth to form an activated carbon layer, then the activated carbon layer adhered on the bottom layer cloth continues to move to the positions below the second glue spraying mechanism and the second dusting mechanism along with the bottom layer cloth, the second glue spraying mechanism sprinkles a layer of glue or glue powder on the previously formed activated carbon layer to form a glue layer, then the second dusting mechanism sprinkles a layer of activated carbon layer on the glue layer, then the activated carbon layer enters the second baking mechanism to be baked to be adhered on the previously formed activated carbon layer, and then enters the position below the third dusting mechanism, and then, spraying a layer of glue or rubber powder on the activated carbon layer formed in the previous procedure to form a glue layer, leading out the top cloth on the second unwinding mechanism from the second unwinding mechanism, covering the bottom cloth, and simultaneously entering the pressing mechanism together with the bottom cloth for pressing to obtain the composite activated carbon cloth. Wherein, the first gluey mechanism of spouting, first dusting mechanism, first stoving mechanism, second spout gluey mechanism, second dusting mechanism, second toast the mechanism, the third spouts gluey mechanism and carries out the operation simultaneously, because bottom cloth lasts to be carried to pressing mechanism, so first spout gluey mechanism, first dusting mechanism, second spout gluey mechanism, second dusting mechanism, third spout gluey mechanism and can form superimposed glue film and activated carbon layer in proper order on bottom cloth.

The bottom cloth is kept horizontal in the process of passing, and the bottom cloth can be kept horizontal in the process of passing by adjusting the heights of the first unreeling mechanism and the pressing mechanism on the rack.

The utility model discloses in, through the cooperation of first gluey mechanism of spouting, dusting mechanism and the mechanism of toasting, can add the activated carbon layer on bottom cloth layer by layer, the thickness on the activated carbon layer of adding at every turn is thinner, can combine with bottom cloth better, and joint strength is better.

In addition, a mixture of rubber powder and activated carbon can be added into the powder spreading mechanism, the glue spraying mechanism does not work, a layer of activated carbon powder mixed with the rubber powder is spread on the bottom layer cloth by the first powder spreading mechanism, then the rubber powder in the activated carbon layer is melted by the first baking mechanism, so that the activated carbon powder is bonded on the bottom layer cloth to form an activated carbon layer, a layer of activated carbon powder mixed with the rubber powder is spread on the activated carbon layer by the second powder spreading mechanism, the activated carbon powder in the activated carbon layer is bonded on the bottom layer cloth by the second baking mechanism, then the top layer cloth is bonded on the bottom layer cloth by the second unwinding mechanism, and the top layer cloth and the bottom layer cloth are pressed by the pressing machine to form the composite activated carbon cloth.

Obtain the one deck thicker activated carbon layer through the thin activated carbon layer of many times formation for the joint strength of activated carbon layer and bottom cloth is better, makes the utility model discloses a structure is more stable.

Preferably, first unwinding mechanism includes the first unwinding roller that the level set up, bottom layer cloth is convoluteed in first unwinding roller, second unwinding mechanism includes the second unwinding roller that the level set up, top layer cloth wind in the second unwinding roller, just the second unwinding roller is located the first top of unwinding roller, winding mechanism includes the wind-up roll that the level set up.

The first unwinding roller, the second unwinding roller and the winding roller are rotatably arranged on the frame through a driving mechanism, a driver of the driving mechanism rotates at a constant speed, the driving mechanism can be a motor, the second unwinding roller is arranged above the bottom cloth and arranged above the first unwinding roller so as to ensure that the top cloth can be attached to the top cloth, and the activated carbon is pressed between the bottom cloth and the top cloth.

Furthermore, the pressing mechanism comprises an upper pressing roller and a lower pressing roller which are arranged up and down, and the upper pressing roller and the lower pressing roller are horizontally arranged.

The width of a gap between the upper pressing roller and the lower pressing roller is the preset thickness of the activated carbon cloth, and a heating device can be arranged in the upper pressing roller and/or the lower pressing roller to heat the activated carbon cloth between the upper pressing roller and the lower pressing roller so as to melt the adhesive layer in the activated carbon cloth and press and bond the top layer cloth and the bottom layer cloth together; wherein, the heating device can be an electric heating wire arranged inside the hollow upper pressing roller or the lower pressing roller.

Further, the first baking mechanism comprises a first protective cover surrounding the bottom cloth and a first heating device arranged below the bottom cloth, and the first heating device is located in the first protective cover.

First protection casing cover is established around bottom cloth, covers the bottom cloth and the heating device of first heating device top in first protection casing for first heating device is better to the heating effect of the glue film on bottom cloth and the bottom cloth, thereby has the effect of energy saving.

Furthermore, the second baking mechanism comprises a second protective cover surrounding the bottom cloth and a second heating device arranged below the bottom cloth, and the second heating device is positioned in the second protective cover.

The second protection casing cover is established around the bottom cloth, covers the bottom cloth and the heating device of second heating device top in the second protection casing for second heating device is better to the heating effect of the glue film on bottom cloth and the bottom cloth, thereby has the effect of energy saving.

Preferably, still be provided with in the frame that first group's flat baffle and second are dialled the flat baffle, first group's flat baffle and second are dialled the flat baffle and are located the top of bottom cloth, first group's flat baffle is located between first dusting mechanism and the first mechanism of toasting, the second is dialled the flat baffle and is located second dusting mechanism with the second toasts between the mechanism, first group's flat baffle and second are dialled the flat baffle and are followed the width direction setting of bottom cloth, and first group's flat baffle and second are dialled the both ends of flat baffle with the edge parallel and level of bottom cloth or surpass the edge of bottom cloth.

The first flat baffle of dialling and the horizontal setting of second flat baffle, the first flat baffle of dialling and the second are dialled the clearance between flat baffle and the bottom cloth and can be set up according to the thickness on the required activated carbon layer of activated carbon cloth, wherein, the second dial flat baffle with clearance height between the bottom cloth and the required activated carbon layer's of activated carbon cloth thickness always, the height of the first clearance of dialling between flat baffle and the bottom cloth is the second and dials the half of the clearance height between flat baffle and the bottom cloth.

In addition, for the activated carbon cloth needing a thicker activated carbon layer, a plurality of groups of glue spraying mechanisms, powder scattering mechanisms and baking mechanisms can be added, so that the aim of firmly jointing the thicker activated carbon layer on the bottom layer cloth is fulfilled.

Furthermore, the lower ends of the first leveling baffle and the second leveling baffle are obliquely arranged towards the advancing direction of the bottom cloth.

Activated carbon powder scattered on the bottom cloth is pressed on the bottom cloth when the first leveling baffle and the second leveling baffle which are obliquely arranged are used, so that the combination of the activated carbon powder and the bottom cloth is more compact, and the filtering effect of the activated carbon cloth is better.

Preferably, the glue spraying mechanism comprises a glue cavity with an opening at the upper end and a nozzle arranged at the bottom of the glue cavity, and the nozzle is communicated with the glue cavity.

The nozzle can draw the glue in the glue cavity out of the glue cavity and uniformly spray the glue on the surface of the bottom cloth, wherein the nozzle adopts the nozzle for spraying the glue in the prior art.

Furthermore, a closed state heat preservation cavity is arranged on the side wall of the glue cavity, and a water inlet and a water outlet are respectively arranged on two sides of the heat preservation cavity.

The heat preservation chamber encircles gluey chamber setting for hold hot water, the water inlet and the delivery port on it are used for hydrothermal entering and discharge respectively, heat for the glue of gluing the intracavity with forming heat exchange circulation system, in order to prevent to glue the unable blowout of glue solidification of intracavity.

Preferably, the powder spreading mechanism is in a cavity shape with an opening at the upper end, a powder spreading port is arranged below the powder spreading mechanism, and the powder spreading port is arranged along the width direction of the bottom layer cloth.

The width of the powder spreading port is smaller, so that the activated carbon powder can be uniformly discharged through the powder spreading port and uniformly fall on the bottom cloth.

The principle and effect of the present invention will be further explained by combining the above technical solutions:

the utility model discloses in, through the cooperation of first gluey mechanism of spouting, dusting mechanism and the mechanism of toasting, can add the activated carbon layer on bottom cloth layer by layer, the thickness on the activated carbon layer of adding at every turn is thinner, can combine with bottom cloth better, and joint strength is better.

Drawings

Fig. 1 is a schematic structural diagram i of a composite activated carbon cloth processing device according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a composite activated carbon cloth processing device according to an embodiment of the present invention;

fig. 3 is a schematic structural view of the glue spraying mechanism according to the embodiment of the present invention;

fig. 4 is a schematic structural diagram of the powdering mechanism according to an embodiment of the present invention.

Description of reference numerals:

1-a first unreeling roller, 21-a first glue spraying mechanism, 211-a glue cavity, 212-a nozzle, 213-a heat preservation cavity, 22-a second glue spraying mechanism, 23-a third glue spraying mechanism, 31-a first powder scattering mechanism, 32-a second powder scattering mechanism, 41-a first baking mechanism, 42-a second baking mechanism, 5-a second unreeling roller, 61-an upper press roller, 62-a lower press roller, 7-a reeling roller, 81-bottom cloth and 82-top cloth.

Detailed Description

To facilitate understanding of those skilled in the art, the present invention will be described in further detail with reference to the accompanying drawings and examples:

referring to fig. 1 to 4, a composite activated carbon cloth processing device includes a frame (not shown), the frame is sequentially provided with a first unreeling mechanism, a first glue spraying mechanism 21, a first powder spreading mechanism 31, a first baking mechanism 41, a second glue spraying mechanism 22, a second powder spreading mechanism 32, a second baking mechanism 42, a third glue spraying mechanism 23, a pressing mechanism, a second unreeling mechanism and a reeling mechanism, the first unreeling mechanism is provided with a bottom cloth 81, the bottom cloth 81 enters the pressing mechanism through the first glue spraying mechanism 21, the first dusting mechanism 31, the first baking mechanism 41, the second glue spraying mechanism 22, the second dusting mechanism 32, the second baking mechanism 42 and the third glue spraying mechanism 23, the second unwinding mechanism is provided with top cloth 82, and the top cloth 82 is led out from the second unwinding mechanism, enters the pressing mechanism and is pressed on the top of the top cloth 82.

The utility model discloses during operation, bottom cloth 81 is drawn forth the level from unwinding mechanism and is passed through first gluey mechanism 21 that spouts, first dusting mechanism 31, first stoving mechanism 41, the second spouts gluey mechanism 22, second dusting mechanism 32, the second toasts mechanism 42, the third spouts gluey mechanism 23, then with the top cloth 82 on the second unwinding mechanism can with, top cloth 82 covers on bottom cloth 81, top cloth 82 carries out the pressfitting with top cloth 82 in entering into pressing mechanism simultaneously, obtain activated carbon cloth. Wherein, in the process of the bottom cloth 81, the first glue spraying mechanism 21 firstly sprays a layer of glue or glue powder on the bottom cloth 81 to form a glue layer, then the first dusting mechanism 31 sprinkles a layer of activated carbon on the glue layer, then the glue layer and the activated carbon layer enter the first baking mechanism 41 along with the bottom cloth 81, the glue layer or the glue layer is heated, so that the activated carbon is adhered on the bottom cloth 81 to form an activated carbon layer, then the activated carbon layer adhered on the bottom cloth 81 continues to move to the lower part of the second glue spraying mechanism 22 and the second dusting mechanism 32 along with the bottom cloth 81, the second glue spraying mechanism 22 further sprinkles a layer of glue powder or glue on the previously formed activated carbon layer to form a glue layer, then the second dusting mechanism 32 sprinkles a layer of activated carbon on the glue layer, then the activated carbon layer enters the second baking mechanism 42 to be baked, so that the activated carbon layer is adhered on the previously formed activated carbon layer, and then the cloth enters the lower part of the third glue spraying mechanism 23, a layer of glue or glue powder is spread on the activated carbon layer formed in the previous process to form a glue layer, then the top cloth 82 on the second unwinding mechanism is led out by the second unwinding mechanism, and the top cloth 82 and the bottom cloth 81 which are covered on the bottom cloth 81 enter the pressing mechanism at the same time for pressing, so that the composite activated carbon cloth is obtained. Wherein, the first glue spraying mechanism 21, the first powder spreading mechanism 31, the first baking mechanism 41, the second glue spraying mechanism 22, the second powder spreading mechanism 32, the second baking mechanism 42 and the third glue spraying mechanism 23 operate simultaneously, and because the bottom cloth 81 is continuously conveyed to the pressing mechanism, the first glue spraying mechanism 21, the first powder spreading mechanism 31, the second glue spraying mechanism 22, the second powder spreading mechanism 32 and the third glue spraying mechanism 23 can form a glue layer and an activated carbon layer which are sequentially superposed on the bottom cloth 81.

The bottom cloth 81 is kept horizontal in the passing process, and the bottom cloth 81 can be kept horizontal in the passing process by adjusting the heights of the first unreeling mechanism and the pressing mechanism on the rack.

The utility model discloses in, through the cooperation of first gluey mechanism of spouting, dusting mechanism and the mechanism of toasting, can add the activated carbon layer on bottom cloth 81 layer by layer, the thickness on the activated carbon layer of adding at every turn is thinner, can combine with bottom cloth 81 better, and joint strength is better.

In addition, a mixture of rubber powder and activated carbon can be added into the powder scattering mechanism, the rubber spraying mechanism does not work, a layer of activated carbon powder mixed with the rubber powder is scattered on the bottom layer cloth 81 by the first powder scattering mechanism 31, then the rubber powder in the activated carbon layer is melted by the first baking mechanism 41, so that the activated carbon powder is bonded on the bottom layer cloth 81 to form an activated carbon layer, a layer of activated carbon powder mixed with the rubber powder is scattered on the activated carbon layer by the second powder scattering mechanism 32, the activated carbon powder in the activated carbon layer is bonded on the bottom layer cloth 81 by the second baking mechanism 42, then the top layer cloth 82 is bonded on the bottom layer cloth 81 by the second unwinding mechanism, and the top layer cloth 82 and the bottom layer cloth 81 are bonded by the pressing machine to form the composite activated carbon cloth.

Obtain the one deck thicker activated carbon layer through the thin activated carbon layer of many times formation for activated carbon layer is better with bottom cloth 81's joint strength, makes the utility model discloses a structure is more stable.

One of them kind of embodiment, first unwinding mechanism includes the first unwinding roller 1 that the level set up, bottom layer cloth 81 convolute in first unwinding roller 1, second unwinding mechanism includes the second unwinding roller 5 that the level set up, top layer cloth 82 convolute in second unwinding roller 5, just second unwinding roller 5 is located the top of first unwinding roller 1, winding mechanism includes the wind-up roll 7 that the level set up.

First unwinding roller 1, second unwinding roller 5 and wind-up roll 7 pass through actuating mechanism and rotationally set up in the frame, and the actuating mechanism driver is at the uniform velocity and rotates, and wherein actuating mechanism can be the motor, sets up second unwinding roller 5 in the top of bottom cloth 81 and set up in the top of first unwinding roller 1 in order to guarantee that top cloth 82 can laminate the top of bottom cloth 81, with the active carbon pressfitting between bottom cloth 81 and top cloth 82.

In one embodiment, the pressing mechanism includes an upper pressing roller 61 and a lower pressing roller 62 which are arranged up and down, and the upper pressing roller 61 and the lower pressing roller 62 are arranged horizontally.

The width of the gap between the upper press roll 61 and the lower press roll 62 is the preset thickness of the activated carbon cloth, and a heating device can be arranged in the upper press roll 61 and/or the lower press roll 62 to heat the activated carbon cloth between the upper press roll 61 and the lower press roll 62, so that the glue layer is molten, and the top layer cloth 82 and the bottom layer cloth 81 are pressed and bonded together; wherein the heating means may be a heating wire provided inside the hollow upper press roll 61 or the lower press roll 62.

In one embodiment, the first baking mechanism 41 includes a first protective cover disposed around the bottom layer 81 and a first heating device disposed under the bottom layer 81, and the first heating device is located in the first protective cover.

First protection casing cover is established around bottom cloth 81, covers bottom cloth 81 and the heating device of first heating device top in first protection casing for first heating device is better to the heating effect of the glue film on bottom cloth 81 and the bottom cloth 81, thereby has the effect of energy saving.

In one embodiment, the second baking mechanism 42 includes a second protective cover disposed around the bottom layer 81 and a second heating device disposed under the bottom layer 81, and the second heating device is located in the second protective cover.

The second protection casing cover is established around bottom cloth 81, covers bottom cloth 81 and the heating device of second heating device top in the second protection casing for second heating device is better to the heating effect of the glue film on bottom cloth 81 and the bottom cloth 81, thereby has the effect of energy saving.

One of the embodiments, still be provided with first group's flat baffle and second group's flat baffle in the frame, first group's flat baffle and second group's flat baffle are located bottom layer cloth 81's top, first group's flat baffle is located between first dusting mechanism 31 and the first mechanism 41 that toasts, the second group's flat baffle is located second dusting mechanism 32 with between the second toasts the mechanism 42, first group's flat baffle and second group's flat baffle are followed bottom layer cloth 81's width direction sets up, and the first both ends of dialling flat baffle and second group's flat baffle with bottom layer cloth 81's edge parallel and level or surpass bottom layer cloth 81's edge.

The first flat baffle of dialling and the horizontal setting of second flat baffle, the first flat baffle of dialling and the second is dialled the clearance between flat baffle and bottom cloth 81 and can be set up according to the thickness on the required activated carbon layer of activated carbon cloth, wherein, the second dial flat baffle with clearance height between bottom cloth 81 and the required thickness on activated carbon layer of activated carbon cloth are always, and the height in clearance between first flat baffle of dialling and the bottom cloth 81 is the second and dials the half of flat baffle and the half of clearance height between bottom cloth 81.

In addition, for the activated carbon cloth requiring a thicker activated carbon layer, several sets of glue spraying mechanism, powder scattering mechanism and baking mechanism may be added to achieve the purpose of firmly bonding the thicker activated carbon layer to the bottom layer cloth 81.

In one embodiment, the lower ends of the first leveling baffle and the second leveling baffle are disposed to be inclined toward the traveling direction of the bottom layer cloth 81.

Activated carbon powder scattered on the bottom cloth 81 is pressed on the bottom cloth 81 when the first leveling baffle and the second leveling baffle which are obliquely arranged are leveled, so that the combination of the activated carbon powder and the bottom cloth 81 is more compact, and the filtering effect of the activated carbon cloth is better.

In one embodiment, the glue spraying mechanism includes a glue cavity 211 with an opening at the upper end and a nozzle 212 disposed at the bottom of the glue cavity 211, and the nozzle 212 is in communication with the glue cavity 211.

The nozzle 212 can draw the glue in the glue cavity out of the glue cavity 211 and uniformly spray the glue on the surface of the bottom layer cloth 81, wherein the nozzle 212 adopts the nozzle 212 for spraying the glue in the prior art.

In one embodiment, a closed thermal insulation cavity 213 is disposed on a side wall of the glue cavity 211, and a water inlet and a water outlet are disposed on two sides of the thermal insulation cavity 213 respectively.

The heat preservation chamber 213 encircles the setting of gluing chamber 211 for hold hot water, the water inlet and the delivery port on it are used for hydrothermal entering and discharging respectively, heat for the glue in gluing chamber 211 to form heat exchange circulation system, in order to prevent that the glue solidification in gluing chamber 211 can't spout.

In one embodiment, the powder spreading mechanism is a cavity with an opening at the upper end, and a powder spreading port is arranged below the powder spreading mechanism and arranged along the width direction of the bottom cloth 81.

The width of the dusting port is small, so that the activated carbon powder can be uniformly discharged through the dusting port and uniformly fall on the bottom cloth 81.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. The utility model provides a compound activated carbon cloth processingequipment, its characterized in that, includes the frame, first unwinding mechanism, first gluey mechanism, first dusting mechanism, first stoving mechanism, second glue spraying mechanism, second dusting mechanism, second stoving mechanism, third glue spraying mechanism, pressing mechanism, second unwinding mechanism and winding mechanism have set gradually in the frame, be provided with bottom cloth on the first unwinding mechanism, bottom cloth process first glue spraying mechanism, first dusting mechanism, first stoving mechanism, second glue spraying mechanism, second dusting mechanism, second stoving mechanism, third glue spraying mechanism enter into pressing mechanism, be provided with top cloth on the second unwinding mechanism, top cloth by second unwinding mechanism is drawn into pressing mechanism and is laminated with the top of top cloth.

2. The composite activated carbon fabric processing device according to claim 1, wherein the first unwinding mechanism comprises a first unwinding roller horizontally arranged, the bottom fabric is wound around the first unwinding roller, the second unwinding mechanism comprises a second unwinding roller horizontally arranged, the top fabric is wound around the second unwinding roller, the second unwinding roller is located above the first unwinding roller, and the winding mechanism comprises a winding roller horizontally arranged.

3. The composite activated carbon fabric processing device according to claim 2, wherein the pressing mechanism comprises an upper pressing roller and a lower pressing roller which are arranged up and down, and the upper pressing roller and the lower pressing roller are horizontally arranged.

4. The composite activated carbon fabric processing apparatus of claim 2, wherein the first baking mechanism comprises a first protective hood disposed around the bottom fabric and a first heating device disposed under the bottom fabric, and the first heating device is located in the first protective hood.

5. The composite activated carbon fabric processing apparatus of claim 2, wherein the second baking mechanism comprises a second protective hood disposed around the bottom fabric and a second heating device disposed under the bottom fabric, and the second heating device is located in the second protective hood.

6. The composite activated carbon cloth processing device according to claim 1, wherein a first leveling baffle and a second leveling baffle are further arranged on the machine frame, the first leveling baffle and the second leveling baffle are located above the bottom cloth, the first leveling baffle is located between the first powdering mechanism and the first baking mechanism, the second leveling baffle is located between the second powdering mechanism and the second baking mechanism, the first leveling baffle and the second leveling baffle are arranged in the width direction of the bottom cloth, and two ends of the first leveling baffle and the second leveling baffle are flush with the edge of the bottom cloth or exceed the edge of the bottom cloth.

7. The composite activated carbon cloth processing device according to claim 6, wherein the lower ends of the first leveling baffle and the second leveling baffle are arranged obliquely toward the traveling direction of the bottom cloth.

8. The composite activated carbon cloth processing device according to claim 1, wherein the glue spraying mechanism comprises a glue cavity with an open upper end and a nozzle arranged at the bottom of the glue cavity, and the nozzle is communicated with the glue cavity.

9. The apparatus for processing composite activated carbon cloth according to claim 8, wherein a closed thermal insulation chamber is disposed on a side wall of the glue chamber, and a water inlet and a water outlet are disposed on two sides of the thermal insulation chamber respectively.

10. The composite activated carbon cloth processing device according to claim 1, wherein the powdering mechanism is in a cavity shape with an open upper end, and a powdering port is arranged below the powdering mechanism and arranged along the width direction of the bottom cloth.

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