CN207274083U - A kind of glass fiber filter paper composite production line - Google Patents

Abstract

The utility model discloses a kind of glass fiber filter paper composite production line, belong to compound glass fibre filter paper production equipment technology.The composite production line includes unwinding device, heating set composite and wrap-up；Unwinding device is arranged on the side of heating set composite, and wrap-up is arranged on the opposite side of heating set composite；Wherein, heating set composite includes preheating assembly, high temperature composite component and medium temperature Compound cooling component；First composite material, glass fiber filter paper and the second composite material by being unreeled into preheating assembly, high temperature composite component and medium temperature Compound cooling component successively on unwinding device, and it is preheated successively in preheating assembly, high temperature composite component and medium temperature Compound cooling component, high temperature is compound, medium temperature repoussage cooling bond after, be finally wound on the wrap-up.The composite production line is compact-sized, and rationally floor space is small, easy to operate, stable and reliable in work, and production efficiency is high, and production cost is low, and composite effect is good.

Description

Glass fiber filter paper composite production line

Technical Field

The utility model relates to a compound glass fiber filter paper production facility technical field, concretely relates to compound production line of glass fiber filter paper.

Background

The glass fiber air filter paper utilizes a microporous paper medium to filter air, and particle suspended matters are separated from the air, so that the aim of purifying the air is fulfilled. The currently widely used glass fiber filter paper generally consists of a single glass fiber filter paper layer, and the following defects exist due to structural defects in the air filtering process: due to the limitation of the single-layer filter paper, the paper medium is easily filled with particle suspended matters, so that the effective filtering time is short and the filtering speed is low. To solve this problem, various composite filter materials using glass fiber filter paper as a main filter material are commercially available, for example: in the composite filter material formed by sequentially compounding the fine non-woven fabric, the glass fiber filter paper and the coarse non-woven fabric, the fine non-woven fabric is an efficiency layer and plays a role in filtering particulate matters; the glass fiber filter paper is used as a main filter layer and plays a role in adsorbing suspended matters; the thick non-woven fabric is a supporting layer and plays a role in enhancing the stiffness of the material and keeping the folded shape. The composite filtering material is prepared by pressing and compounding three materials, namely fine non-woven fabric, glass fiber filtering paper and coarse non-woven fabric, by adopting a composite production line. The composite production line in the prior art has the advantages of complex structure, inconvenience in operation, high energy consumption, large occupied area, poor reliability, low production efficiency and high production cost.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model aims to provide a glass fiber filter paper composite production line, which has compact and reasonable structure, small occupied area, convenient operation, stable and reliable work, high production efficiency and low production cost.

In order to solve the above problem, the utility model discloses the technical scheme who adopts as follows:

a glass fiber filter paper composite production line comprises an unreeling device, a heating composite device and a reeling device; the unwinding device is arranged on one side of the heating and compounding device, and the winding device is arranged on the other side of the heating and compounding device; wherein,

the unwinding device comprises an unwinding base, a first unwinding assembly for unwinding a first composite material, a second unwinding assembly for unwinding glass fiber filter paper, and a third unwinding assembly for unwinding a second composite material, wherein the first unwinding assembly, the second unwinding assembly and the third unwinding assembly are fixedly arranged on the unwinding base from top to bottom respectively;

the heating composite device comprises a composite rack, three groups of preheating components, a high-temperature composite component and a medium-temperature composite cooling component, wherein the preheating components, the high-temperature composite component and the medium-temperature composite cooling component are arranged on the composite rack from left to right in sequence; the first composite material, the glass fiber filter paper and the second composite material are sequentially unreeled to the preheating assembly, the high-temperature composite assembly and the medium-temperature composite cooling assembly, and are sequentially subjected to preheating, high-temperature compounding, medium-temperature pressing, cooling and bonding in the preheating assembly, the high-temperature composite assembly and the medium-temperature composite cooling assembly, and finally wound on the winding device.

As a preferred embodiment of the present invention, each unwinding assembly includes an unwinding frame, at least one guide roller, an unwinding air-expanding shaft and a magnetic powder brake, the unwinding frame is fixedly disposed on the unwinding base, the magnetic powder brake is disposed on one side of the unwinding frame, one end of the unwinding air-expanding shaft is connected to the magnetic powder brake, and the other end of the unwinding air-expanding shaft is rotatably disposed on the unwinding frame through a bearing; the guide roller is rotatably arranged on the unreeling base.

As the utility model discloses preferred embodiment, every group preheat the subassembly and include preheating roller and bowl, the bowl is fixed to be set up compound frame is close to on one side of unwinding device, preheating roller rotationally sets up in the bowl, be provided with the quartz capsule that is used for preheating between bowl and the preheating roller.

As a preferred embodiment of the present invention, the high-temperature composite assembly includes a high-temperature roller, a support roller, a first rotating brush, and a first reduction motor; the high-temperature roller and the supporting roller are oppositely arranged in the composite rack from top to bottom, and the first composite material, the glass fiber filter paper and the second composite material are sequentially unreeled between the high-temperature roller and the supporting roller; first rotation brush with the one end fixed connection of high temperature roller and drive high temperature roller rotate, first gear motor with the backing roll is connected and the drive the backing roll rotates.

Preferably, a stainless steel electric heating core rod is arranged inside the high-temperature roller.

As the utility model discloses preferred embodiment, high temperature composite component still includes the heat preservation exhaust hood, the heat preservation exhaust hood is removable to wash the ground setting and is in the periphery of high temperature roller.

As the utility model discloses preferred embodiment, the compound cooling module of medium temperature includes that medium temperature roller, chill roll, second rotate the brush and drive actuating cylinder, the medium temperature roller sets up in the compound frame and with the backing roll sets up relatively, the second rotate the brush with the medium temperature roller is connected and is driven the medium temperature roller and rotate, the chill roll sets up just be located in the compound frame under the medium temperature roller, drive actuating cylinder with the chill roll is connected and is driven the chill roll and rotate.

As a preferred embodiment of the present invention, the medium-temperature composite cooling assembly further comprises a heat-conducting oil expansion elevated tank disposed on the top of the composite frame; an oil-heating type core rod is arranged inside the medium temperature roller, and the heat conduction oil expansion elevated tank is communicated with the oil-heating type core rod through a pipeline; the cooling roller is a silica gel roller.

As a preferred embodiment of the present invention, the winding device comprises a winding base, a winding compression roller, a friction roller, a swing arm, a winding frame, a winding cylinder, a winding air expansion shaft and a second reduction motor; the rolling compression roller is rotatably arranged on one side, close to the heating and compounding device, of the rolling base, the lower end of the swing arm is movably arranged on the rolling base, and the friction roller is arranged between the rolling compression roller and the swing arm; the winding frame is fixedly arranged at the upper end of the swing arm, and the winding air expansion shaft is rotatably arranged in the winding frame through a bearing; the fixed end of the winding cylinder is fixedly connected with the winding base, and the telescopic end of the winding cylinder is fixedly connected with the middle part of the swing arm, so that the friction force between the winding air expansion shaft and the friction roller can be adjusted along with the size of the rewinding material; the second speed reducing motor drives the winding air expansion shaft to rotate; and a magnetic powder clutch is also arranged on the winding base and is connected with the winding air inflation shaft through a transmission assembly.

As the utility model discloses preferred embodiment, the utility model discloses still include the side cut device, the side cut device sets up between heating set composite and coiling mechanism, the side cut device includes vapour-pressure type circular knife, uide bushing and slitter edge winder, and the rewinding material process the slitter edge process of vapour-pressure type circular knife side cut back gained the uide bushing guides the slitter edge winder is convoluteed.

Compared with the prior art, the beneficial effects of the utility model reside in that:

glass fiber filter paper composite production line through adopting the cooperation of technologies such as low temperature preheating, high temperature compound, medium temperature compound, normal atmospheric temperature cooling in proper order for composite glass fiber filter paper material's compound effectual, through the combination of modes such as electric heating, oil heating, quartz capsule heating, realize the freedom and the accurate control of roll body top layer temperature very enough well, guarantee the product stability, improve the product quality, avoid and reduce waste such as material, manual work, reduction in production cost. Through parts such as swing arm, rolling cylinder and magnetic powder clutch, make the utility model discloses can keep comparatively reasonable tension at the rolling in-process always. To sum up, the composite production line has the advantages of compact and reasonable structure, small occupied area, convenient operation, stable and reliable work, high production efficiency and low production cost.

Drawings

FIG. 1 is a schematic structural view of a glass fiber filter paper composite production line according to the present invention;

wherein, 1, an unwinding device; 11. unwinding the base; 12. a first unwinding assembly; 13. a second unwinding assembly; 14. a third unwinding assembly; 15. unwinding the frame; 16. a guide roller; 17. unwinding an air expansion shaft; 18. a magnetic powder brake; 2. heating the composite device; 21. a composite frame; 22. a preheating assembly; 221. a preheating roller; 222. a reflector; 23. a high temperature composite component; 231. a high temperature roll; 232. a support roller; 233. a first rotating brush; 234. a first reduction motor; 235. a heat preservation exhaust hood; 24. a medium-temperature composite cooling component; 241. a medium temperature roller; 242. a cooling roll; 243. a second rotating brush; 244. the heat conducting oil expands the head tank; 3. a winding device; 31. a winding base; 32. rolling a compression roller; 33. a rubbing roller; 34. swinging arms; 35. a winding frame; 36. a winding cylinder; 37. winding an air expansion shaft; 38. a second reduction motor; 39. magnetic powder clutch.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

As shown in fig. 1, a glass fiber filter paper composite production line according to the present invention includes an unwinding device 1, a heating and laminating device 2, and a winding device 3; the unwinding device 1 is arranged on one side of the heating and compounding device 2, and the winding device 3 is arranged on the other side of the heating and compounding device 2.

Specifically, the unwinding device 1 includes an unwinding base 11, a first unwinding assembly 12 for unwinding a first composite material, a second unwinding assembly 13 for unwinding a glass fiber filter paper, and a third unwinding assembly 14 for unwinding a second composite material. The first unreeling assembly 12, the second unreeling assembly 13 and the third unreeling assembly 14 are respectively and fixedly arranged on the unreeling base 11 from top to bottom. Each unwinding assembly comprises an unwinding frame 15, at least one guide roller 16, an unwinding air expansion shaft 17 and a magnetic powder brake 18. The unreeling frame 15 can be fixedly arranged on the unreeling base 11, and can also be slidably arranged on the unreeling base 11 through a moving trolley and a guide rail, so that the unreeling assembly can realize integral deviation. The magnetic powder brake 18 adopts full-automatic tension control, the magnetic powder brake 18 is arranged on one side of the unwinding frame 15, one end of the unwinding air expansion shaft 17 is connected with an output shaft of the magnetic powder brake 18, and the other end of the unwinding air expansion shaft is rotatably arranged on the unwinding frame 15 through a bearing; the guide rollers 16 are rotatably arranged on the unreeling base 11, the number of the guide rollers 16 is not limited, preferably 1-3, and a plurality of guide rollers 16 can meet different forms of cloth penetrating requirements. Preferably, the unreeling rack 15 is further provided with a reel-changing tension adjusting handwheel to ensure that the tail end of the material to be compounded can maintain a certain tension. Furthermore, each unreeling assembly is also provided with a deviation rectifier for rectifying deviation of the material to be compounded, and the deviation rectifier can be a photoelectric deviation rectifier or an air pressure or hydraulic deviation rectifier.

The heating and compounding device 2 comprises a compound rack 21, three groups of preheating components 22, a high-temperature compound component 23 and a medium-temperature compound cooling component 24, wherein the preheating components 22, the high-temperature compound component 23 and the medium-temperature compound cooling component 24 are sequentially arranged on the compound rack 21 from left to right. The three groups of preheating assemblies 22 are sequentially arranged on one side of the composite rack 21 close to the unreeling device 1 from top to bottom, and the positions of the preheating assemblies are matched with the three unreeling assemblies. The first composite material with the heat-sensitive adhesive, the glass fiber filter paper and the second composite material with the heat-sensitive adhesive are sequentially unreeled to the preheating component 22, the high-temperature composite component 23 and the medium-temperature composite cooling component 24 from the first unreeling component 12, the second unreeling component 13 and the third unreeling component 14 respectively, and are sequentially preheated, high-temperature compounded, medium-temperature pressed, bonded and cooled at normal temperature in the preheating component 22, the high-temperature composite component 23 and the medium-temperature composite cooling component 24, and then are finally wound on the winding device 3.

Specifically, each group of preheating assemblies 22 comprises a preheating roller 221 and a reflecting cover 222, the reflecting cover 222 is fixedly arranged on one side of the composite rack 21 close to the unreeling device 1, the preheating roller 221 is rotatably arranged in the reflecting cover 222, and a quartz tube for preheating is arranged between the reflecting cover 222 and the preheating roller 221; the composite material to be compounded is preheated by the preheating assembly 22 to prevent the composite material to be compounded from wrinkling due to sudden temperature changes so that the product reject rate is increased.

Specifically, the high-temperature composite assembly 23 includes a high-temperature roller 231, a support roller 232, a first rotating brush 233, and a first reduction motor 234. The high-temperature roller 231 and the supporting roller 232 are oppositely arranged in the composite rack 21 from top to bottom, the first composite material, the glass fiber filter paper and the second composite material are sequentially unreeled between the high-temperature roller 231 and the supporting roller 232, and the gap between the high-temperature roller 231 and the supporting roller 232 can be adjusted according to the thickness of the material to be composited; the first rotating brush 233 is fixedly coupled to one end of the high temperature roller 231 and drives the high temperature roller 231 to rotate, and the first reduction motor 234 is coupled to the backup roller 232 and drives the backup roller 232 to rotate. Preferably, the high temperature roller 231 is made of alloy steel capable of resisting 380 ± 15 ℃, a plurality of stainless steel electric heating core rods are arranged in the high temperature roller 231, and the high temperature roller 231 can quickly reach the required temperature by adopting an electric heating mode on one hand and can also be convenient for accurately controlling the temperature on the other hand. Preferably, the high temperature composite assembly 23 further comprises a heat insulating exhaust hood 235, and the heat insulating exhaust hood 235 is detachably disposed on the periphery of the high temperature roller 231 to prevent other components of the heating composite device 2 from being damaged due to over-high temperature caused by poor heat dissipation.

Specifically, the medium-temperature composite cooling assembly 24 includes a medium-temperature roller 241, a cooling roller 242, a second rotating brush 243, and a driving cylinder. The medium temperature roller 241 is arranged on the composite frame 21 and is opposite to the supporting roller 232, the material compounded by the high temperature composite assembly 23 passes through the space between the medium temperature roller 241 and the supporting roller 232 for secondary compounding, and the gap between the medium temperature roller 241 and the supporting roller 232 can be adjusted according to the thickness of the composite material. The second rotating brush 243 is connected to the middle temperature roller 241 and drives the middle temperature roller 241 to rotate, the cooling roller 242 is disposed on the composite frame 21 and located right below the middle temperature roller 241, and the driving cylinder is connected to the cooling roller 242 and drives the cooling roller 242 to rotate. The medium-temperature composite cooling assembly 24 further comprises a heat-conducting oil expansion elevated tank 244 arranged on the top of the composite rack 21; an oil-heating type core rod is arranged inside the middle temperature roller 241, and the heat conduction oil expansion high-level groove 244 is communicated with the oil-heating type core rod through a pipeline; preferably, the cooling roller 242 is a silica gel roller that can withstand 250 ℃.

Specifically, the winding device 3 includes a winding base 31, a winding press roller 32, a friction roller 33, a swing arm 34, a winding frame 35, a winding cylinder 36, a winding air shaft 37, and a second reduction motor 38. The winding device 3 combines central winding and friction winding, can satisfy the narrow material of winding through the combination of two kinds of winding modes, can not be bitten under the tighter circumstances. Wherein, the center rolling is realized through rolling inflatable shaft 37 and second gear motor 38, and the friction rolling is realized through rolling cylinder 36 drive swing arm 34 and rolling inflatable shaft 37 compress tightly friction roller 33, and specific connected mode is as follows: the rolling compression roller 32 is rotatably arranged on one side of the rolling base 31 close to the heating and compounding device 2, the lower end of the swing arm 34 is movably arranged on the rolling base 31, and the friction roller 33 is arranged between the rolling compression roller 32 and the swing arm 34; the winding frame 35 is fixedly arranged at the upper end of the swing arm 34, and the winding air expansion shaft 37 is rotatably arranged in the winding frame 35 through a bearing; the fixed end of the winding cylinder 36 is fixedly connected with the winding base 31, and the telescopic end is fixedly connected with the middle part of the swing arm 34, so that the friction force between the winding air expansion shaft 37 and the friction roller 33 can be adjusted along with the size of the rewinding material; the second speed reduction motor 38 drives the winding air expansion shaft 37 to rotate. The winding base 31 is also provided with a magnetic powder clutch 39, and the magnetic powder clutch 39 is connected with the winding air expansion shaft 37 through a transmission component. When the diameter of the rewinding material is increased and the linear speed is higher than the composite linear speed, the magnetic powder clutch 39 can reduce the speed of the winding air expansion shaft 37 to be the same as the composite linear speed, so that the rewinding material is ensured to have reasonable tension.

Preferably, the utility model discloses still include the side cut device, this side cut device sets up between heating set composite 2 and coiling mechanism 3, and the side cut device includes vapour-pressure type circular knife, uide bushing and slitter edge winder, and the slitter edge that the both ends of rewinding material obtained after vapour-pressure type circular knife is cut edge guides the slitter edge winder through the uide bushing and winds.

The above embodiments are only preferred embodiments of the present invention, and the protection scope of the present invention cannot be limited thereby, and any insubstantial changes and substitutions made by those skilled in the art based on the present invention are all within the protection scope of the present invention.

Claims (10)

1. The utility model provides a compound production line of glass fiber filter paper which characterized in that: comprises an unreeling device, a heating and compounding device and a reeling device; the unwinding device is arranged on one side of the heating and compounding device, and the winding device is arranged on the other side of the heating and compounding device; wherein,

the unwinding device comprises an unwinding base, a first unwinding assembly for unwinding a first composite material, a second unwinding assembly for unwinding glass fiber filter paper, and a third unwinding assembly for unwinding a second composite material, wherein the first unwinding assembly, the second unwinding assembly and the third unwinding assembly are fixedly arranged on the unwinding base from top to bottom respectively;

the heating composite device comprises a composite rack, three groups of preheating components, a high-temperature composite component and a medium-temperature composite cooling component, wherein the preheating components, the high-temperature composite component and the medium-temperature composite cooling component are arranged on the composite rack from left to right in sequence; the first composite material, the glass fiber filter paper and the second composite material are sequentially unreeled to the preheating assembly, the high-temperature composite assembly and the medium-temperature composite cooling assembly, and are sequentially subjected to preheating, high-temperature compounding, medium-temperature pressing, cooling and bonding in the preheating assembly, the high-temperature composite assembly and the medium-temperature composite cooling assembly, and finally wound on the winding device.

2. The glass fiber filter paper composite production line according to claim 1, characterized in that: each unwinding assembly comprises an unwinding frame, at least one guide roller, an unwinding air expansion shaft and a magnetic powder brake, the unwinding frame is fixedly arranged on the unwinding base, the magnetic powder brake is arranged on one side of the unwinding frame, one end of the unwinding air expansion shaft is connected with the magnetic powder brake, and the other end of the unwinding air expansion shaft is rotatably arranged on the unwinding frame through a bearing; the guide roller is rotatably arranged on the unreeling base.

3. The glass fiber filter paper composite production line according to claim 1, characterized in that: each group of preheating assembly comprises a preheating roller and a reflecting cover, the reflecting cover is fixedly arranged on one side, close to the unreeling device, of the composite rack, the preheating roller is rotatably arranged in the reflecting cover, and a quartz tube used for preheating is arranged between the reflecting cover and the preheating roller.

4. The glass fiber filter paper composite production line according to claim 1, characterized in that: the high-temperature composite assembly comprises a high-temperature roller, a supporting roller, a first rotating electric brush and a first speed reducing motor; the high-temperature roller and the supporting roller are oppositely arranged in the composite rack from top to bottom, and the first composite material, the glass fiber filter paper and the second composite material are sequentially unreeled between the high-temperature roller and the supporting roller; first rotation brush with the one end fixed connection of high temperature roller and drive high temperature roller rotate, first gear motor with the backing roll is connected and the drive the backing roll rotates.

5. The glass fiber filter paper composite production line according to claim 4, characterized in that: and a stainless steel electric heating core rod is arranged inside the high-temperature roller.

6. The glass fiber filter paper composite production line according to claim 4 or 5, characterized in that: the high-temperature composite assembly further comprises a heat-preservation exhaust hood, and the heat-preservation exhaust hood is detachably arranged on the periphery of the high-temperature roller.

7. The glass fiber filter paper composite production line according to claim 4, characterized in that: the medium-temperature composite cooling assembly comprises a medium-temperature roller, a cooling roller, a second rotating electric brush and a driving cylinder, the medium-temperature roller is arranged on the composite rack and is arranged opposite to the supporting roller, the second rotating electric brush is connected with the medium-temperature roller and drives the medium-temperature roller to rotate, the cooling roller is arranged on the composite rack and is positioned under the medium-temperature roller, and the driving cylinder is connected with the cooling roller and drives the cooling roller to rotate.

8. The glass fiber filter paper composite production line according to claim 7, characterized in that: the heat conducting oil expansion elevated tank is arranged on the top of the compound machine frame; an oil-heating type core rod is arranged inside the medium temperature roller, and the heat conduction oil expansion elevated tank is communicated with the oil-heating type core rod through a pipeline; the cooling roller is a silica gel roller.

9. The glass fiber filter paper composite production line according to claim 1, characterized in that: the winding device comprises a winding base, a winding compression roller, a friction roller, a swing arm, a winding frame, a winding air cylinder, a winding air expansion shaft and a second speed reduction motor; the rolling compression roller is rotatably arranged on one side, close to the heating and compounding device, of the rolling base, the lower end of the swing arm is movably arranged on the rolling base, and the friction roller is arranged between the rolling compression roller and the swing arm; the winding frame is fixedly arranged at the upper end of the swing arm, and the winding air expansion shaft is rotatably arranged in the winding frame through a bearing; the fixed end of the winding cylinder is fixedly connected with the winding base, and the telescopic end of the winding cylinder is fixedly connected with the middle part of the swing arm, so that the friction force between the winding air expansion shaft and the friction roller can be adjusted along with the size of the rewinding material; the second speed reducing motor drives the winding air expansion shaft to rotate; and a magnetic powder clutch is also arranged on the winding base and is connected with the winding air inflation shaft through a transmission assembly.

10. The glass fiber filter paper composite production line according to claim 1, characterized in that: the edge cutting device is arranged between the heating and compounding device and the winding device; the edge cutting device comprises an air pressure type circular knife, a guide sleeve and a slitter edge winding machine, and the slitter edge obtained after the rewinding material is subjected to edge cutting by the air pressure type circular knife is guided to the slitter edge winding machine through the guide sleeve to be wound.