CN115257143A

CN115257143A - Composite activated carbon cloth production line

Info

Publication number: CN115257143A
Application number: CN202210930265.6A
Authority: CN
Inventors: 王爱存
Original assignee: Jiangsu Gaoqi Machinery Co ltd
Current assignee: Jiangsu Gaoqi Machinery Co ltd
Priority date: 2022-08-03
Filing date: 2022-08-03
Publication date: 2022-11-01

Abstract

The invention relates to a composite activated carbon cloth production line, which belongs to the technical field of filter material processing equipment and comprises a first pneumatic lifting automatic constant tension unreeling device, a first cloth expander, a tension detection roller, a cloth guide roller, a pedal, a first hot melting glue spraying device, a first heating device, a first powder scattering device, a second hot melting glue spraying device, a second heating device, a second powder scattering device, a third hot melting glue spraying device, a third heating device, a third powder scattering device, a fourth hot melting glue spraying device, a fourth heating device, a compression roller group, a servo limiting device, a third cloth expander, a second scutching roller, a trimming device, an automatic shaft changing and reeling device, a cross cutter, a material receiving vehicle, a fourth cloth expander and a second lifting pneumatic automatic constant tension unreeling device. The production line of the invention adopts a multi-layer hot melting glue spraying and powder scattering process method, effectively ensures the effective bonding between the activated carbon and the base fabric and the surface cloth, and can adjust to the optimal position for glue spraying according to the process requirements.

Description

Composite activated carbon cloth production line

Technical Field

The invention relates to the technical field of filter material processing equipment, in particular to a composite activated carbon cloth production line.

Background

At present, three main processes for compounding activated carbon cloth are available: the first method is to spread the mixture of active carbon and hot melt powder on the base fabric, and compound the mixture with the shell fabric after the heating of the oven, and the process has the defects of insufficient uniformity of the active carbon and the hot melt powder, when the active carbon is thicker, the active carbon and the hot melt powder in the oven are heated slowly, and meanwhile, the upper temperature and the lower temperature are inconsistent, so that the bonding fastness between the active carbon is inconsistent, the production efficiency is lower, and the product quality can not be ensured. The second is that the base fabric is scattered with hot melting powder, then the activated carbon is scattered, then the hot melting powder is scattered, and finally the base fabric is heated by an oven and then is compounded with the shell fabric. The third is that spraying hot melt adhesive on the base fabric, then spraying active carbon, then spraying hot melt adhesive, finally compounding with the surface fabric. Therefore, how to produce the activated carbon cloth with different thicknesses, how to improve the quality of the product and how to improve the production efficiency are the problems which need to be solved urgently at present.

Disclosure of Invention

The invention provides a composite activated carbon cloth production line, which can effectively ensure the effective bonding between activated carbons and between the activated carbons and a base fabric and a surface cloth, is convenient to adjust to the optimal position according to the process requirements for glue spraying, reduces the loss of hot melt glue, and improves the utilization rate of the hot melt glue.

The scheme for solving the technical problems is as follows: the utility model provides a compound activated carbon cloth production line, including pneumatic lifting automatic constant tension unwinding device, the ware that rises, tension detection roller, fabric guide roll, the footboard, the hot melt spouts mucilage binding to put, a heating device, the dusting device, no. two hot melt spouts mucilage binding to put, no. two heating device, no. two dusting device, no. three hot melt spouts mucilage binding to put, no. three heating device, no. three dusting device, no. four hot melt spouts mucilage binding to put, no. four heating device, compression roller group, servo stop device, no. three ware that rises, no. two rollers that open width of cloth, side cut device, automatic axle change coiling mechanism, cross-cut knife, connect the skip, no. four ware that rises, no. two pneumatic lifting automatic constant tension unwinding device, its characterized in that: the left pneumatic lifting automatic constant tension unreeling device is provided with a cloth expander, a tension detection roller, a plurality of groups of cloth guide rollers, a pedal, a hot melting glue spraying device, a heating device, a powder scattering device, a hot melting glue spraying device and a heating device in sequence rightwards, and the right pneumatic lifting automatic constant tension unreeling device is provided with a cloth expander, a plurality of groups of cloth guides, a cloth expander, a cloth expanding roller and a cloth expanding roller in sequence leftwards and upwards and then downwards to a press roller group, and the press roller group is provided with a plurality of groups of cloth guide rollers, a side cutting device, an automatic shaft changing device, a transverse cutter and a material receiving vehicle in sequence rightwards.

On the basis of the technical scheme, the invention can be improved as follows.

Further, the pneumatic lifting electric deviation rectifying automatic constant tension unreeling device comprises an unreeling base, a linear bearing pair, a deviation rectifying linear motor, an unreeling rack, an unreeling roller, a deviation rectifying roller, a rotating shaft, a swinging arm, a hinge fulcrum shaft, a cylinder, a magnetic powder brake, a locking cylinder, an air expansion shaft and a gear pair, wherein the unreeling rack is mounted on the unreeling base through a linear bearing pair support and is connected with the deviation rectifying linear motor, and the deviation rectifying linear motor acts to realize unreeling automatic deviation rectification. The unwinding machine frame is provided with a first unwinding roller, a deviation correcting roller, a rotating shaft, a hinged fulcrum shaft, a first magnetic powder brake, a locking cylinder and the like, the swing arm is arranged on the rotating shaft, the first cylinder is supported on the hinged fulcrum shaft, and a Y joint of the first cylinder is connected with the swing arm.

Further, the first hot-melting glue spraying device comprises a glue spraying frame, a negative pressure fan, a pipeline, a second cloth expanding device, an air suction opening, a screw rod pair, a dovetail pair, a hot-melting glue spraying head, a worm gear and worm pair, a hot-melting glue spraying head installation shaft, a supporting bearing, a lifting seat, a linear sliding block, a screw rod, a pressing plate, a linear shaft, a fixing support and a fixing seat.

Further, the automatic shaft-changing winding device comprises a winding frame, a third expanding roller, a second air cylinder, a push rod, a standby air expansion shaft, an inclined sliding seat, a notch, a guide seat, a winding roller, a bearing with a seat, chain transmission and a motor, wherein the third expanding roller, the second air cylinder, the push rod, the inclined sliding seat, the guide seat, the bearing with the seat and the motor are all installed on the winding frame, the winding roller is installed on the winding frame through the bearing with the seat in a supporting mode, the motor is connected with the winding roller through the chain transmission, the guide seat is installed between the two winding rollers, a Y joint of the second air cylinder is connected with the push rod, and when the second air cylinder pushes the push rod to ascend, the standby air expansion shaft on the push rod automatically rolls into the inclined sliding seat and enters the guide seat through the notch.

Furthermore, the air expansion shaft is connected with a first magnetic powder brake through a gear pair, and constant tension unreeling is realized through detection feedback of a tension detection roller.

Furthermore, no. two hot melt spouts mucilage binding to be put, no. three hot melt spouts mucilage binding to be put, no. four hot melt spouts mucilage binding to be put and spouts mucilage binding to be put the same with a hot melt.

Furthermore, the second heating device, the third heating device, the fourth heating device and the first heating device have the same structure.

Furthermore, no. two dusting device, no. three dusting device are the same with a dusting device structure.

The invention provides a composite activated carbon cloth production line, which has the following advantages:

1. the production line adopts a multi-layer hot melting glue spraying and powder scattering process method, so that the effective bonding among the activated carbon and the effective bonding between the activated carbon and the base fabric and the shell fabric are effectively ensured. The position, distance and angle of the hot melt adhesive spraying head for spraying the adhesive can be adjusted by adopting the hot melt adhesive spraying head which can be translated, lifted and rotated, and the position, distance and angle of the hot melt adhesive spraying head for spraying the adhesive can be adjusted to the optimal position according to the process requirements;

2. set up the negative pressure device that induced drafts below the hot melt spouts mucilage binding and put, make the hot melt adhesive not suspend in the air when spraying, directly spray the material, reduced the loss of hot melt adhesive, improved the utilization ratio of hot melt adhesive.

The foregoing description is only an overview of the technical solutions of the present invention, and in order to make the technical solutions of the present invention more clearly understood and to make the technical solutions of the present invention practical in accordance with the contents of the specification, the following detailed description is given of preferred embodiments of the present invention with reference to the accompanying drawings. The detailed description of the present invention is given in detail by the following examples and the accompanying drawings.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the invention without limiting the invention. In the drawings:

fig. 1 is a schematic structural diagram of a composite activated carbon cloth production line according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a first pneumatic lifting automatic constant tension unreeling device in a composite activated carbon cloth production line according to an embodiment of the present invention;

fig. 3 is a schematic structural view of a side view angle of a first pneumatic lifting automatic constant tension unreeling device in a composite activated carbon cloth production line according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a first hot melt adhesive spraying device in a composite activated carbon cloth production line according to an embodiment of the present invention;

fig. 5 is a schematic structural view of an automatic shaft changing and winding device in a composite activated carbon cloth production line according to an embodiment of the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

1. the first pneumatic lifting automatic constant tension unreeling device; 1-1, unwinding a base; 1-2, a linear bearing pair; 1-3, correcting a linear motor; 1-4, unreeling the rack; 1-5, a first scutching roller; 1-6, a deviation rectifying roller; 1-7, a rotating shaft; 1-8, swing arm; 1-9, a hinge fulcrum shaft; 1-10, cylinder I; 1-11, magnetic powder brake; 1-12, locking the cylinder; 1-13, an inflatable shaft; 1-14, gear pair; 2. a cloth spreading device; 3. a tension detection roller; 4. a cloth guide roller; 5. a pedal; 6. a first hot melt glue spraying device; 6-1, spraying a glue rack; 6-2, a negative pressure fan; 6-3, pipelines; 6-4, a second cloth expander; 6-5, an air suction opening; 6-6, a screw pair; 6-7, dovetail pair; 6-8, hot melt glue spraying head; 6-9, a worm-and-gear pair; 6-10, mounting a shaft of the hot melt glue spraying head; 6-11, a support bearing; 6-12, a lifting seat; 6-13, a linear slide block; 6-14, a lead screw; 6-15, pressing plate; 6-16, a linear shaft; 6-17, fixing a bracket; 6-18, a fixed seat; 7. a first heating device; 8. a first powdering device; 9. a second hot melting glue spraying device; 10. a second heating device; 11. a second powder scattering device; 12. a third hot melting glue spraying device; 13. a third heating device; 14. a third powder scattering device; 15. a fourth hot melting glue spraying device; 16. a fourth heating device; 17. a compression roller set; 18. a servo limiting device; 19. a third cloth spreading device; 20. a second scutching roller; 21. a trimming device; 22. an automatic shaft-changing winding device; 22-1, a rolling rack; 22-2, a third scutching roller; 22-3, cylinder II; 22-4, a push rod; 22-5, a spare air expansion shaft; 22-6, a slant slide; 22-7, a notch; 22-8, a guide seat; 22-9, a wind-up roll; 22-10, a bearing with a seat; 22-11, chain drive; 22-12, a motor; 23. a transverse cutter; 24. a receiving vehicle; 25. a fourth cloth spreading device; 26. and a second pneumatic lifting automatic constant tension unreeling device.

Detailed Description

The principles and features of the present invention will be described with reference to the accompanying fig. 1-5, which are given by way of illustration only and are not intended to limit the scope of the invention. The invention is described in more detail in the following paragraphs by way of example with reference to the accompanying drawings. Advantages and features of the present invention will become apparent from the following description and from the claims. It is to be noted that the drawings are in a very simplified form and are not to precise scale, which is merely for the purpose of facilitating and distinctly claiming the embodiments of the present invention.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When a component is referred to as being "connected" to another component, it can be directly connected to the other component or intervening components may also be present. When a component is referred to as being "disposed on" another component, it can be directly on the other component or intervening components may also be present. The terms "vertical," "horizontal," "left," "right," and the like are used herein for purposes of illustration only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

As shown in the attached drawings 1-5 of the specification, a composite activated carbon cloth production line comprises a pneumatic lifting automatic constant tension unreeling device 1, a cloth expander 2, a tension detection roller 3, a cloth guide roller 4, a pedal 5, a hot melting glue spraying device 6, a heating device 7, a powder scattering device 8, a second hot melting glue spraying device 9, a second heating device 10, a second powder scattering device 11, a third hot melting glue spraying device 12, a third heating device 10, a third powder scattering device 14, a fourth hot melting glue spraying device 15, a fourth heating device 16, a press roll group 17, a servo limiting device 18, a third cloth expander 19, a second scutching roll 20, a trimming device 21, an automatic shaft changing and reeling device 22, a transverse cutter 23, a material receiving vehicle 24, a fourth cloth expander 25 and a second pneumatic lifting automatic constant tension device 26, and is characterized in that: the leftmost pneumatic lifting automatic constant tension unreeling device 1 is provided with a first cloth expander 2, a tension detection roller 3, a plurality of groups of cloth guide rollers 4, a pedal 5, a first hot melt glue spraying device 6, a first heating device 7, a first powder scattering device 8, a second hot melt glue spraying device 9, a second heating device 10, a second powder scattering device 11, a third hot melt glue spraying device 12, a third heating device 10, a third powder scattering device 14, a fourth hot melt glue spraying device 15 and a fourth heating device 16 in turn right to a press roller group 17, the rightmost pneumatic lifting automatic constant tension unreeling device 26 is provided with a fourth cloth expander 25, a plurality of groups of cloth guides 4, a third cloth expander 19 and a second expanding roller 20 in turn left and right to the press roller group 17, and the press roller group 17 is provided with a plurality of groups of cloth guide rollers 4, a trimming device 21, an automatic shaft changing and reeling device 22, a transverse cutter 23 and a material receiving vehicle 24 in turn right.

Preferably, the pneumatic lifting electric deviation rectifying automatic constant tension unreeling device 1 comprises an unreeling base 1-1, a linear bearing pair 1-2, a deviation rectifying linear motor 1-3, an unreeling rack 1-4, a first tentering roller 1-5, a deviation rectifying roller 1-6, a rotating shaft 1-7, a swing arm 1-8, a hinged fulcrum shaft 1-9, a first air cylinder 1-10, a first magnetic powder brake 1-11, a locking air cylinder 1-12, an air expansion shaft 1-13 and a gear pair 1-14, wherein the unreeling rack 1-4 is supported and installed on the unreeling base 1-1 through the linear bearing pair 1-2 and is connected with the deviation rectifying linear motor 1-3, and the deviation rectifying linear motor 1-3 is used for realizing automatic deviation rectifying of unreeling. The unwinding machine frame 1-4 is provided with a first scutching roller 1-5, a deviation rectifying roller 1-6, a rotating shaft 1-7, a hinged fulcrum shaft 1-9, a first magnetic powder brake 1-11, a locking cylinder 1-12 and the like, a swing arm 1-8 is arranged on the rotating shaft 1-7, a first cylinder 1-10 is supported on the hinged fulcrum shaft 1-9, a Y joint of the first cylinder 1-10 is connected with the swing arm 1-8, and automatic winding lifting is realized through lifting of the cylinder 1-10. The air expansion shafts 1-13 are connected with the magnetic powder brakes 1-11 through gear pairs 1-14, and constant tension unreeling is realized through detection feedback of the tension detection roller 3.

Preferably, the first hot-melt glue-spraying device 6 comprises a glue-spraying rack 6-1, a negative pressure fan 6-2, a pipeline 6-3, a second cloth expander 6-4, an air suction opening 6-5, a screw rod pair 6-6, a dovetail pair 6-7, a hot-melt glue-spraying head 6-8, a worm gear and worm pair 6-9, a hot-melt glue-spraying head mounting shaft 6-10, a supporting bearing 6-11, a lifting seat 6-12, a linear sliding block 6-13, a screw rod 6-14, a pressing plate 6-15, a linear shaft 6-16, a fixed support 6-17 and a fixed support 6-18, wherein the negative pressure fan 6-2 is arranged on the glue-spraying rack 6-1, the air suction opening 6-15 is arranged on the fixed support 6-17, the fan 6-2 is connected with the air suction opening 6-5 through the pipeline 6-3, the fixed support 6-17 is arranged on a dovetail pair 6-7 provided with a screw pair 6-6, a linear shaft 6-16 is fixed on the fixed support 6-17 through a fixed seat and the like 6-18, a lifting seat 6-12 is provided with a linear slide block 6-13 and supported on the linear shaft 6-16, the upper part of the linear shaft 6-16 is provided with a pressure plate 6-15 and is connected with the lifting seat 6-12 through a screw 6-14, a hot melt glue spraying head mounting shaft 6-10 provided with a hot melt glue spraying head 6-8 is supported on the lifting seat 6-12 through a supporting bearing 6-11, the hot melt glue spraying head mounting shaft 6-10 is connected with a worm gear worm pair 6-9, and the hot melt glue spraying head 6-8 is rotated by rotating a worm of the worm gear worm pair 6-9, the lifting seat and the hot melt glue spraying head 6-8 are lifted by adjusting the lead screws 6-14, the dovetail pair 6-7 is adjusted by the lead screw pair 6-6, the hot melt glue spraying head 6-8 is translated, lifted and rotated, and the negative pressure air fan 6-2 is arranged below the hot melt glue spraying head 6-8, so that the hot melt glue is not suspended in the air when being sprayed and is directly sprayed to materials, the loss of the hot melt glue is reduced, and the utilization rate of the hot melt glue is improved.

Preferably, the automatic shaft-changing winding device 22 comprises a winding rack 22-1, a third expander roller 22-2, a second air cylinder 22-3, a push rod 22-4, a standby air expansion shaft 22-5, an inclined slide seat 22-6, a notch 22-7, a guide seat 22-8, a winding roller 22-9, a belt seat bearing 22-10, a chain drive 22-11, a motor 22-12, a third expander roller 22-2, a second air cylinder 22-3, a push rod 22-4, an inclined slide seat 22-6, a guide seat 22-8, a belt seat bearing 22-10 and a motor 22-12 which are all arranged on the winding rack 22-1, the winding roller 22-9 is supported and arranged on the winding rack 22-1 through the belt seat bearing 22-10, the motor 22-12 is connected with the winding roller 22-9 through the chain drive 22-11, the guide seat 22-8 is arranged between the two winding rollers 22-9, a Y joint of the second air cylinder 22-3 is connected with the push rod 22-4, when the second air cylinder 22-3 pushes the push rod 22-4, the slide seat 22-7 on the chain drive 22-4 and the inclined slide seat 22-7 enters the notch 22-7 and enters the guide seat 22-4 automatically.

Preferably, the air expansion shafts 1-13 are connected with the first magnetic powder brake 1-11 through gear pairs 1-14, and constant-tension unwinding is realized through detection feedback of the tension detection roller 3.

Preferably, no. two hot melt spouts mucilage binding to be put 9, no. three hot melt spouts mucilage binding to be put 12, no. four hot melt spouts mucilage binding to be put 15 and a hot melt spouts mucilage binding to be put 6 the same structure, and multiunit hot melt spouts mucilage binding to be put and spout gluey height and angle of glue head all can be adjusted according to the characteristic of active carbon and dusting volume to reach the best and spout gluey effect.

Preferably, the second heating device 10, the third heating device 13 and the fourth heating device 16 have the same structure as the first heating device 7.

Preferably, the second powdering device 11 and the third powdering device 14 have the same structure as the first powdering device 8.

The specific working principle and the using method of the invention are as follows: the first pneumatic lifting automatic constant tension unreeling device 1 and the second pneumatic lifting automatic constant tension unreeling device 26 can drive materials to be driven from left to right, the materials are subjected to hot melting glue spraying, heating, active carbon powder scattering, hot melting glue spraying, heating, then compounding with right materials, and finally trimming and rolling. Each hot melt glue spraying device can adjust the position of the glue spraying head and the height and angle of the glue spraying according to the characteristics and the dusting amount of the activated carbon so as to achieve the optimal glue spraying effect.

The foregoing is merely a preferred embodiment of the invention and is not intended to limit the invention in any manner; the present invention may be readily implemented by those of ordinary skill in the art as illustrated in the accompanying drawings and described above; however, those skilled in the art should appreciate that they can readily use the disclosed conception and specific embodiments as a basis for designing or modifying other structures for carrying out the same purposes of the present invention without departing from the scope of the invention as defined by the appended claims; meanwhile, any equivalent changes, modifications and evolutions made to the above embodiments according to the substantial technology of the present invention are still within the protection scope of the technical solution of the present invention.

Claims

1. The utility model provides a compound activated carbon cloth production line, including pneumatic lifting automatic constant tension unwinding device (1), a cloth expander (2), tension detection roller (3), fabric guide roll (4), footboard (5), hot melt spouts mucilage binding and put (6), a heating device (7), a dusting device (8), no. two hot melt spouts mucilage binding and put (9), no. two heating device (10), no. two dusting device (11), no. three hot melt spouts mucilage binding and put (12), no. three heating device (10), no. three dusting device (14), no. four hot melt spouts mucilage binding and put (15), no. four heating device (16), compression roller group (17), servo stop device (18), no. three cloth expander (19), no. two opening roller (20), side cut device (21), trade a coiling mechanism (22), cross cutter (23), receiving vehicle (24), no. four cloth expander (25), no. two pneumatic lifting automatic constant tension unwinding device (26), its characterized in that: the pneumatic lifting automatic constant-tension unreeling device (1) on the leftmost side is provided with a cloth expander (2), a tension detection roller (3), a plurality of groups of cloth guide rollers (4), a pedal (5), a hot-melt glue spraying device (6), a heating device (7), a powder scattering device (8), a second hot-melt glue spraying device (9), a second heating device (10), a second powder scattering device (11), a third hot-melt glue spraying device (12), a third heating device (10), a third powder scattering device (14), a fourth hot-melt glue spraying device (15) and a fourth heating device (16) in sequence rightwards to a press roller group (17), the pneumatic lifting automatic constant-tension unreeling device (26) on the rightmost side is provided with a fourth cloth expander (25), a plurality of groups of cloth guides (4), a third cloth expander (19) and a second opening roller (20) in sequence leftwards, and then downwards to the press roller group (17), and the press roller group (17) is provided with a plurality of groups of cloth guide rollers (4) rightwards, an automatic rolling device (21), an automatic roll changing device (22) and a material receiving cutter (23).

2. The composite activated carbon cloth production line as claimed in claim 1, wherein the pneumatic lifting electric deviation rectifying automatic constant tension unreeling device (1) comprises an unreeling base (1-1), a linear bearing pair (1-2), a deviation rectifying linear motor (1-3), an unreeling rack (1-4), a first tentering roller (1-5), a deviation rectifying roller (1-6), a rotating shaft (1-7), a swing arm (1-8), a hinged fulcrum shaft (1-9), a first air cylinder (1-10), a first magnetic powder brake (1-11), a locking air cylinder (1-12), an air expanding shaft (1-13) and a gear pair (1-14), wherein the unreeling rack (1-4) is supported and mounted on the unreeling base (1-1) through the linear bearing pair (1-2) and is connected through the deviation rectifying linear motor (1-3), and the deviation rectifying linear motor (1-3) is used for realizing automatic deviation rectification of unreeling. The unwinding machine frame (1-4) is provided with a first scutching roller (1-5), a deviation rectifying roller (1-6), a rotating shaft (1-7), a hinged fulcrum shaft (1-9), a first magnetic powder brake (1-11), a locking air cylinder (1-12) and the like, a swing arm (1-8) is arranged on the rotating shaft (1-7), a first air cylinder (1-10) is supported on the hinged fulcrum shaft (1-9), and a Y joint of the first air cylinder (1-10) is connected with the swing arm (1-8).

3. The composite activated carbon cloth production line according to claim 1, wherein the first hot-melt glue spraying device (6) comprises a glue spraying rack (6-1), a negative pressure fan (6-2), a pipeline (6-3), a second cloth expander (6-4), an air suction opening (6-5), a screw rod pair (6-6), a dovetail pair (6-7), a hot-melt glue spraying head (6-8), a worm gear pair (6-9), a hot-melt glue spraying head mounting shaft (6-10), a supporting bearing (6-11), a lifting seat (6-12), a linear sliding block (6-13), a screw rod (6-14), a pressing plate (6-15), a linear shaft (6-16), a fixed support (6-17) and a fixed seat (6-18), the negative pressure fan (6-2) is arranged on the glue spraying machine frame (6-1), the air suction opening (6-15) is arranged on the fixed support (6-17), the negative pressure fan (6-2) is connected with the air suction opening (6-5) through the pipeline (6-3), the fixed support (6-17) is arranged on the dovetail pair (6-7) provided with the screw rod pair (6-6), the linear shaft (6-16) is fixed on the fixed support (6-18) through the fixing seat and the like (6-18) 17 On the lifting seat (6-12), a linear sliding block (6-13) is arranged on the lifting seat and supported on a linear shaft (6-16), and a pressing plate (6-15) is arranged on the upper part of the linear shaft (6-16) and is connected with the lifting seat (6-12) through a screw rod (6-14).

4. The composite activated carbon cloth production line as recited in claim 1, wherein the automatic shaft-changing winding device (22) comprises a winding rack (22-1), a third expander roll (22-2), a second cylinder (22-3), a push rod (22-4), a standby air expansion shaft (22-5), an inclined slide seat (22-6), a notch (22-7), a guide seat (22-8), a winding roller (22-9), a belt seat bearing (22-10), a chain drive (22-11), a motor (22-12), the third expander roll (22-2), the second cylinder (22-3), the push rod (22-4), the inclined slide seat (22-6), the guide seat (22-8), a belt seat bearing (22-10), and the motor (22-12) are all mounted on the winding rack (22-1), the winding roller (22-9) is supported and mounted on the winding rack (22-1) through the belt seat bearing (22-10), the motor (22-12) is connected with the second cylinder (22-9) through the push rod (22-11), and the guide seat bearing (22-9) is connected with the Y-4) through the chain drive (22-10), when the second cylinder (22-3) pushes the push rod (22-4) to ascend, the standby air expansion shaft (22-5) on the push rod (22-4) automatically rolls into the inclined sliding seat (22-6) and enters the guide seat (22-8) through the notch (22-7).

5. The composite activated carbon cloth production line as claimed in claim 2, wherein the inflatable shafts (1-13) are connected with a first magnetic powder brake (1-11) through gear pairs (1-14), and constant-tension unreeling is realized through detection feedback of the tension detection roller (3).

6. The composite activated carbon cloth production line as set forth in claim 1, wherein the second hot-melt glue-spraying device (9), the third hot-melt glue-spraying device (12), the fourth hot-melt glue-spraying device (15) and the first hot-melt glue-spraying device (6) have the same structure.

7. The production line of composite activated carbon cloth according to claim 1, characterized in that the second heating device (10), the third heating device (13) and the fourth heating device (16) are the same as the first heating device (7).

8. The production line of composite activated carbon cloth according to claim 1, characterized in that the second powdering device (11), the third powdering device (14) and the first powdering device (8) have the same structure.