CN217705075U - Oil glue compounding device for high-performance composite fiber - Google Patents

Abstract

The utility model discloses a high performance is oil glue set composite for composite fiber, including chassis and rubber coating subassembly, chassis left end fixedly connected with motor, and the chassis left part is provided with the conveyer belt, be used for the rubber coating subassembly sets up in the conveyer belt middle part, the rubber coating subassembly includes underframe, backing plate, glues box, shower nozzle, pressure spring, slider, leveling roller, gag lever post and limiting plate, fixed surface is connected with the backing plate in the underframe, and the fixed surface glues the box on the underframe, underframe inner wall upper surface left part fixedly connected with shower nozzle, and underframe inner wall upper surface right part front and back bilateral symmetry fixedly connected with pressure spring, pressure spring lower extreme fixedly connected with slider, and rotate between the slider and be connected with the leveling roller, the inboard laminating of pressure spring is provided with the gag lever post. The utility model discloses a cooperation between each part for can collect unnecessary glue solution when carrying out the rubber coating to the material, avoid the glue solution to drip on the device.

Description

Oil-glue compounding device for high-performance composite fiber

Technical Field

The utility model relates to a high performance composite fiber technical field specifically is high performance composite fiber is with gluey set composite of oil.

Background

The composite fiber is one of multi-component fibers, two or more than two polymer fibers which are not mixed exist on the same fiber section and can be called as the composite fiber, and in the processing and spinning processes of the high-performance composite fiber, a glue and oil composite device is needed to be used for compounding textiles together, so that the characteristics of the textiles are enhanced.

As in application No.: CN201721363877.2, the utility model discloses a novel glue compounding machine, which comprises supporting legs, the landing leg top is provided with into the cloth holder, it is provided with into the membrane frame to advance cloth holder left side, it is provided with the film guide roller to advance membrane frame left side inner wall, the coating frame surface is provided with the rubber coating device, rubber coating frame top right side is installed and is led the membrane wheel, it is provided with the roll frame to advance cloth holder bottom, compound guide pulley is installed in roll frame left side, the bull wheel roll is installed to roll frame central point, it is provided with the rolling frame to advance cloth holder bottom, the position that the rolling frame leaned on the left side is provided with two cold water rollers that the structure is the same, rolling frame left side upper surface is provided with the hydraulic press, the hydraulic press top is connected with the support, the rolling roller is installed on the support right side, the utility model discloses make compound material more have the rubber coating even, compound leveling, do not have tensile deformation, do not blister, do not corrugate, soft, the gas permeability is splendid, the neat advantage of rolling.

The oil-glue compound machine similar to the above application has the following disadvantages at present: when the surface of the material is coated with glue, the redundant glue solution may drip onto the device.

In view of the above, the present inventors have studied and improved the conventional structure and defects, and have proposed an oil-glue composite apparatus for high-performance composite fibers.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a high performance composite fiber is with gluey set composite to solve the problem that provides in the above-mentioned background art.

In order to achieve the above purpose, the utility model provides a following technical scheme: high performance composite fiber is with oil glue set composite, including chassis and rubber coating subassembly, chassis left end fixedly connected with motor, and the chassis left part is provided with the conveyer belt, is used for the rubber coating subassembly sets up in the conveyer belt middle part, the rubber coating subassembly includes underframe, backing plate, glues box, shower nozzle, pressure spring, slider, leveling roller, gag lever post and limiting plate, lower fixed surface is connected with the backing plate in the underframe, and underframe upper surface is connected with glues the box, underframe inner wall upper surface left part fixedly connected with shower nozzle, and underframe inner wall upper surface right part front and back bilateral symmetry fixedly connected with pressure spring, pressure spring lower extreme fixedly connected with slider, and rotate between the slider and be connected with the leveling roller, the inboard laminating of pressure spring is provided with the gag lever post, and gag lever post upper end fixedly connected with limiting plate.

Furthermore, the slider passes through pressure spring and underframe elastic connection, and gag lever post and slider fixed connection, gag lever post and underframe sliding connection, the underframe upper wall is run through and is glued the box and be connected to the shower nozzle upper end.

Further, both sides symmetry fixedly connected with branch around the chassis middle part, and branch upper end fixedly connected with push down the spring, push down spring upper end fixedly connected with loose piece, and push down the inboard laminating of spring and be provided with the slide bar, slide bar and loose piece fixed connection, and slide bar and branch gomphosis sliding connection.

Further, between the branch, all rotate between the loose piece and be connected with the heating element who is used for heating the material, heating element includes warming mill, heating chamber, bottom plate, heating pipe and shrouding, warming mill surface symmetry has seted up the heating chamber, and heats the intracavity gomphosis and be connected with the bottom plate, bottom plate the place ahead fixedly connected with heating pipe, and heating pipe front end fixedly connected with shrouding.

Further, heating element still includes card chamber, draw-in groove, card hole, jump ring, kelly and fixture block, the shrouding has been seted up to the symmetry all around and has been blocked the chamber, and blocks chamber the place ahead and has seted up the draw-in groove, the card chamber is kept away from one side of shrouding and has been seted up the card hole, and blocks intracavity fixedly connected with jump ring, the jump ring is close to the one end fixedly connected with kelly in card hole, and kelly front side fixedly connected with fixture block.

Furthermore, the chassis right part is provided with and is used for refrigerated cooling module, cooling module includes cooler bin, air-cooler and air intake, chassis right part fixedly connected with cooler bin, and cooler bin top fixedly connected with air-cooler, the air intake has been seted up to the cooler bin upper surface, and air intake and air-cooler intercommunication.

Further, cooling unit still includes wind channel and air outlet, the air intake below is provided with the wind channel, and the wind channel is close to cooling box inner wall one side and is provided with the air outlet, the air outlet distributes about the cooling box equidistance, and the air outlet is tubaeform.

The utility model provides a high performance is glued composite set with oil for composite fiber possesses following beneficial effect:

1. the utility model discloses a setting of rubber coating subassembly, when carrying out the rubber coating to the lining cloth, the shower nozzle can spray the glue solution in the glue box to the material surface, and the leveling roller can compress tightly on the material surface under compression spring's effect, can smear the glue solution evenly on the material surface when leveling the material, and the gag lever post can restrict the leveling roller, avoids its incline, and the backing plate can provide the support for the material, and after being extruded by the leveling roller, unnecessary glue solution can be collected by the underframe, avoids the glue solution to drip on the device;

2. the utility model discloses a heating element's setting for after the glue solution is scribbled to the material, another layer material bonding back, the heating roller of upper and lower both sides can extrude the material under the effect of spring pushes down, the heating pipe can make the heating roller heat the material through the heating chamber, thereby compounds the material, and the kelly can restrict the shrouding through the draw-in groove, thereby fixes the heating pipe, also can avoid heating pipe slippage from heating the intracavity when sealing heating chamber;

3. the utility model discloses a cooling module's setting for when passing through in the material after compound completion is followed the cooler bin, the air-cooler can blow in cold wind in to the wind channel through the air intake, thereby cools off the material through the air outlet, and the air outlet of tubaeform makes the air current diffusion, avoids the too big material that leads to of wind pressure to corrugate, also can evenly cool down the material simultaneously.

Drawings

Fig. 1 is a schematic sectional front view of the present invention;

fig. 2 is an enlarged schematic structural view of a point a in fig. 1 according to the present invention;

fig. 3 is a schematic view of the three-dimensional structure of the bottom frame of the present invention.

In the figure: 1. a chassis; 2. a motor; 3. a conveyor belt; 4. a gluing component; 401. a bottom frame; 402. a base plate; 403. a glue box; 404. a spray head; 405. a compression spring; 406. a slider; 407. a leveling roller; 408. a limiting rod; 409. a limiting plate; 5. a strut; 6. pressing down the spring; 7. a loose block; 8. a slide bar; 9. a heating assembly; 901. a heating roller; 902. a heating chamber; 903. a base plate; 904. heating a tube; 905. closing the plate; 906. a card cavity; 907. a card slot; 908. clamping holes; 909. a clamp spring; 910. a clamping rod; 911. a clamping block; 10. a cooling assembly; 1001. a cooling tank; 1002. an air cooler; 1003. an air inlet; 1004. an air duct; 1005. and (7) air outlet.

Detailed Description

As shown in fig. 1 and 3, the oil-glue composite device for high performance composite fiber comprises a chassis 1 and a gluing component 4, wherein a motor 2 is fixedly connected to the left end of the chassis 1, a conveyor belt 3 is arranged at the left part of the chassis 1, the gluing component 4 for gluing is arranged at the middle part of the conveyor belt 3, the gluing component 4 comprises a bottom frame 401, a backing plate 402, a glue box 403, a spray head 404, a compression spring 405, a slide block 406, a leveling roller 407, a limiting rod 408 and a limiting plate 409, the backing plate 402 is fixedly connected to the inner lower surface of the bottom frame 401, the glue box 403 is fixedly connected to the upper surface of the bottom frame 401, the spray head 404 is fixedly connected to the left part of the upper surface of the inner wall of the bottom frame 401, the compression spring 405 is symmetrically and fixedly connected to the front and back sides of the right part of the upper surface of the inner wall of the bottom frame 401, the slide block 406 is fixedly connected to the lower end of the compression spring 405, the leveling roller 407 is rotatably connected between the slide blocks 406, the inner side of the compression spring 405 is provided with the limiting rod 408, and the upper end of the limit rod 408 is fixedly connected with a limit plate 409, the slide block 406 is elastically connected with the bottom frame 401 through a compression spring 405, the limit rod 408 is fixedly connected with the slide block 406, the limit rod 408 is slidably connected with the bottom frame 401, the upper end of the spray head 404 penetrates through the upper wall of the bottom frame 401 to be connected with the glue box 403, through the arrangement of the gluing component 4, when lining cloth is glued, the spray head 404 can spray glue liquid in the glue box 403 to the surface of a material, the leveling roller 407 can be pressed on the surface of the material under the action of the compression spring 405, the glue liquid can be evenly smeared on the surface of the material while leveling the material, the limit rod 408 can limit the leveling roller 407 to avoid the deviation of the glue liquid, the backing plate 402 can provide support for the material, and after being extruded by the leveling roller 407, the redundant glue liquid can be collected by the bottom frame 401, so that the glue liquid is prevented from dripping on the device.

As shown in figures 1 and 2, the front side and the rear side of the middle part of the chassis 1 are symmetrically and fixedly connected with supporting rods 5, the upper ends of the supporting rods 5 are fixedly connected with lower pressing springs 6, the upper ends of the lower pressing springs 6 are fixedly connected with movable blocks 7, and the inner side of the lower pressure spring 6 is provided with a slide bar 8 in a fitting manner, the slide bar 8 is fixedly connected with the movable blocks 7, the slide bar 8 is connected with the support bars 5 in a fitting and sliding manner, heating components 9 for heating materials are rotatably connected between the support bars 5 and between the movable blocks 7, each heating component 9 comprises a heating roller 901, a heating cavity 902, a bottom plate 903, a heating pipe 904 and a sealing plate 905, the surface of the heating roller 901 is symmetrically provided with the heating cavity 902, a bottom plate 903 is embedded and connected in the heating cavity 902, a heating pipe 904 is fixedly connected in front of the bottom plate 903, a sealing plate 905 is fixedly connected with the front end of the heating pipe 904, the heating assembly 9 further comprises a clamping cavity 906, a clamping groove 907, a clamping hole 908, a clamping spring 909, a clamping rod 910 and a clamping block 911, the periphery of the sealing plate 905 is symmetrically provided with the clamping cavity 906, a clamping groove 907 is arranged in front of the clamping cavity 906, a clamping hole 908 is arranged on one side of the clamping cavity 906 far away from the sealing plate 905, a clamp spring 909 is fixedly connected in the clamp cavity 906, one end of the clamp spring 909 close to the clamp hole 908 is fixedly connected with a clamp rod 910, a clamp block 911 is fixedly connected at the front side of the clamp rod 910, by the arrangement of the heating assembly 9, after the glue solution is coated on the material and another layer of material is bonded, the heating rollers 901 on the upper and lower sides can extrude the material under the action of the pressing spring 6, the heating pipe 904 can heat the material by the heating rollers 901 through the heating cavity 902, so as to compound the materials, and the clamping rod 910 can limit the sealing plate 905 through the clamping groove 907, so as to fix the heating pipe 904, the heating cavity 902 is closed while the heating pipe 904 is prevented from slipping out of the heating cavity 902 during heating.

As shown in fig. 1, a cooling module 10 for cooling is arranged on the right portion of a chassis 1, the cooling module 10 includes a cooling box 1001, an air cooler 1002 and an air inlet 1003, the cooling box 1001 is fixedly connected to the right portion of the chassis 1, the air cooler 1002 is fixedly connected to the upper side of the cooling box 1001, the air inlet 1003 is formed in the upper surface of the cooling box 1001, the air inlet 1003 is communicated with the air cooler 1002, the cooling module 10 further includes an air duct 1004 and an air outlet 1005, the air duct 1004 is arranged below the air inlet 1003, air outlets 1005 are arranged on one side, close to the inner wall of the cooling box 1001, of the air duct 1004, the air outlets 1005 are equidistantly distributed with respect to the cooling box 1001, the air outlets 1005 are horn-shaped, through the arrangement of the cooling module 10, when a material after being compounded passes through the cooling box 1001, the air cooler 1002 can blow cold air into the air duct 1004 through the air inlet 1003, so as to cool the material through the air outlets 1005, the horn-shaped air outlets 1005 diffuse air flow, thereby preventing the material from wrinkling caused by too large air pressure, and simultaneously, and also can be cooled uniformly.

In summary, when the oil-glue compound device for high-performance compound fibers is used, firstly, according to the structure shown in fig. 1, fig. 2 and fig. 3, the motor 2 is started, the motor 2 drives the conveyer belt 3 to run through the belt and the belt pulley, the material is placed on the conveyer belt 3, the conveyer belt 3 conveys the material, the spray head 404 can spray the glue solution in the glue box 403 to the surface of the material, the leveling roller 407 can be pressed to the surface of the material under the action of the pressing spring 405, the glue solution can be evenly smeared on the surface of the material while leveling the material, the limiting rod 408 can limit the leveling roller 407 to avoid the deviation thereof, the backing plate 402 can provide support for the material, after being squeezed by the leveling roller 407, the redundant glue solution can be collected by the bottom frame 401 to avoid the glue solution from dropping on the device, when the smeared material moves to the left of the heating assembly 9, another layer of material is covered on the glue solution, the heating rollers 901 on the upper side and the lower side can extrude materials under the action of the pressing springs 6, the heating pipe 904 can enable the heating rollers 901 to heat the materials through the heating cavity 902, so that the materials are compounded, the clamping rods 910 can limit the sealing plate 905 through the clamping grooves 907, so that the heating pipe 904 is fixed, the heating pipe 904 can be prevented from slipping off from the heating cavity 902 in the heating process while the heating cavity 902 is sealed, when the compounded materials pass through the cooling box 1001, the air cooler 1002 can blow cold air into the air duct 1004 through the air inlet 1003, so that the materials are cooled through the air outlet 1005, the air flow is diffused through the horn-shaped air outlet 1005, the wrinkling of the materials caused by the overlarge air pressure is avoided, the materials can be uniformly cooled, when the heating pipe is damaged, the clamping blocks 911 only need to slide in the clamping grooves 907, and the clamping rods 910 can be pulled out of the clamping holes 908, the sealing plate 905 is removed and the heating tube 904 is then withdrawn from the heating chamber 902 through the sealing plate 905 for repair or replacement, and the base plate 903 may engage the sealing plate 905 to prevent the heating tube 904 from contacting the walls of the heating chamber 902.

Claims (7)

1. High performance composite fiber is with oily mucilage binding set composite, including chassis (1) and rubber coating subassembly (4), its characterized in that, chassis (1) left end fixedly connected with motor (2), and chassis (1) left part is provided with conveyer belt (3), is used for rubber coating subassembly (4) set up in conveyer belt (3) middle part, rubber coating subassembly (4) are including underframe (401), backing plate (402), glue box (403), shower nozzle (404), pressure spring (405), slider (406), leveling roller (407), gag lever post (408) and limiting plate (409), lower surface fixedly connected with backing plate (402) in underframe (401), and underframe (401) upper surface fixedly connected with glues box (403), underframe (401) inner wall upper surface left part fixedly connected with shower nozzle (404), and underframe (401) inner wall upper surface right part front and back bilateral symmetry fixedly connected with pressure spring (405), pressure spring (405) lower extreme fixedly connected with slider (406), and rotate leveling roller (407) between slider (401), pressure spring (405) inboard fixed connection with gag lever post (408), and limiting plate (409) upper end (409) are provided with limiting plate (408).

2. The oil-glue compounding device for the high-performance composite fibers is characterized in that the sliding block (406) is elastically connected with the bottom frame (401) through a compression spring (405), the limiting rod (408) is fixedly connected with the sliding block (406), the limiting rod (408) is slidably connected with the bottom frame (401), and the upper end of the spray head (404) penetrates through the upper wall of the bottom frame (401) and is connected with the glue box (403).

3. The oil-glue compounding device for the high-performance composite fibers is characterized in that supporting rods (5) are symmetrically and fixedly connected to the front side and the rear side of the middle of the chassis (1), a pressing spring (6) is fixedly connected to the upper end of each supporting rod (5), a movable block (7) is fixedly connected to the upper end of each pressing spring (6), a sliding rod (8) is attached to the inner side of each pressing spring (6), each sliding rod (8) is fixedly connected with each movable block (7), and each sliding rod (8) is connected with each supporting rod (5) in an embedded and sliding mode.

4. The oil-glue compounding device for the high-performance composite fibers is characterized in that heating assemblies (9) used for heating materials are rotatably connected between the supporting rods (5) and between the movable blocks (7), each heating assembly (9) comprises a heating roller (901), a heating cavity (902), a bottom plate (903), a heating pipe (904) and a sealing plate (905), the heating cavities (902) are symmetrically formed in the surfaces of the heating rollers (901), the bottom plates (903) are embedded in the heating cavities (902), the heating pipes (904) are fixedly connected in front of the bottom plates (903), and the sealing plates (905) are fixedly connected to the front ends of the heating pipes (904).

5. The oil-glue compounding device for the high-performance composite fibers, according to claim 4, wherein the heating assembly (9) further comprises a clamping cavity (906), a clamping groove (907), a clamping hole (908), a clamping spring (909), a clamping rod (910) and a clamping block (911), the clamping cavity (906) is symmetrically formed in the periphery of the sealing plate (905), the clamping groove (907) is formed in the front of the clamping cavity (906), the clamping hole (908) is formed in one side, away from the sealing plate (905), of the clamping cavity (906), the clamping spring (909) is fixedly connected in the clamping cavity (906), the clamping rod (910) is fixedly connected to one end, close to the clamping hole (908), of the clamping spring (909), and the clamping block (911) is fixedly connected to the front side of the clamping rod (910).

6. The high-performance composite fiber oil-cement composite device according to claim 1, wherein a cooling assembly (10) for cooling is arranged on the right portion of the chassis (1), the cooling assembly (10) comprises a cooling box (1001), an air cooler (1002) and an air inlet (1003), the cooling box (1001) is fixedly connected to the right portion of the chassis (1), the air cooler (1002) is fixedly connected to the upper portion of the cooling box (1001), the air inlet (1003) is formed in the upper surface of the cooling box (1001), and the air inlet (1003) is communicated with the air cooler (1002).

7. The high-performance composite fiber oil and glue compounding device according to claim 6, wherein the cooling assembly (10) further comprises an air duct (1004) and an air outlet (1005), the air duct (1004) is disposed below the air inlet (1003), the air outlet (1005) is disposed on one side of the air duct (1004) close to the inner wall of the cooling box (1001), the air outlets (1005) are equidistantly distributed with respect to the cooling box (1001), and the air outlets (1005) are trumpet-shaped.

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