CN207567396U - A kind of superhigh molecular weight polyethylene fibers production heating unit - Google Patents

Abstract

The utility model discloses a kind of superhigh molecular weight polyethylene fibers production heating units, including device body, described device ontology is cavity structure, one side roof part of device body is equipped with glove bucket, the bottom of glove bucket is connected with conduit, the bottom of conduit is equipped with the baffle of covering conduit, the side of baffle approaching device ontology is connected with the first screw rod, the outside screw of first screw rod is socketed with first gear, one end of first screw rod is welded with maneuvering board, the side of maneuvering board slidably connects supporting rod, described device ontology is also equipped with the first motor on the side outer wall of glove bucket, the second gear engaged with first gear is installed on the output shaft of the first motor, the bottom of first motor is equipped with conveying pipeline, described device ontology is separately installed with the second motor and third motor on the side outer wall far from glove bucket.The utility model is designed reasonably realizes the purpose of automatic additive, and heating effect is good, effectively improves the production efficiency of polyethylene fibre.

Description

A kind of superhigh molecular weight polyethylene fibers production heating unit

Technical field

The utility model is related to polyethylene fibre production technical field more particularly to a kind of superhigh molecular weight polyethylene fibers Production heating unit.

Background technology

Polyethylene (PE) is most common plastic polymer in the world, year consumption rate more than annual 50000000000 pounds, more than 70% Porex products use polyethylene.As unit of the linearity molecular structure-CH2-CH2- repeated, PE is a kind of hypocrystalline polymerization Object, obdurability are enhanced before tension failure.It is, in general, that PE is a kind of firm lightweight thermoplastic material, possess Fabulous chemical resistance.Aperture diameter using the product of normal polyethylene trade mark production is usually 7-150 microns, but these are marked Title value can increase to 300 microns by special mixture.There are two types of different for high-performance polyethylene fibres in the world at present Production Technology route:One is high volatile solvent (decahydronaphthalene) dry gel spinning technique using Dyneema as representative Route (abbreviation dry route), another is that low voc solvent (mineral oil, white oil etc.) wet method using Spectra as representative is coagulated Glue spinning technique route (abbreviation wet route).

Existing superhigh molecular weight polyethylene fibers production heating unit is simple in structure, and heating effect is poor, take compared with It is long, manually additive is needed in heating process, cost is higher, influences production efficiency, and there are certain restricted.

Utility model content

The purpose of this utility model is and a kind of super high molecular weight proposed in order to solve shortcoming in the prior art Polyethylene fibre production heating unit.

To achieve these goals, the utility model employs following technical solution：

A kind of superhigh molecular weight polyethylene fibers production heating unit, including device body, described device ontology is sky Cavity configuration, a side roof part of device body are equipped with glove bucket, and the bottom of glove bucket is connected with conduit, and the bottom of conduit, which is equipped with, to be covered The baffle of lid conduit, the side of baffle approaching device ontology are connected with the first screw rod, and the outside screw of the first screw rod is socketed with One gear, one end of the first screw rod are welded with maneuvering board, and the side of maneuvering board slidably connects the support parallel with the first screw rod Bar, described device ontology are also equipped with the first motor on the side outer wall of glove bucket, are installed on the output shaft of the first motor There is the second gear engaged with first gear, the bottom of first motor is equipped with conveying pipeline, and one end of wherein conveying pipeline is located at The underface of conduit, the other end of conveying pipeline extend to the inside of device body, side of the described device ontology far from glove bucket Be separately installed with the second motor and third motor on outer wall, described device ontology be internally provided with heating regulating mechanism and mixing is stirred Mechanism is mixed, wherein heating regulating mechanism is located at the surface that mechanism is mixed, heating regulating mechanism includes being connected to device sheet The fixed transverse rod and the second screw rod of body both sides inner wall, one end of the second screw rod and the output axis connection of the second motor, fixed transverse rod And second connection between screw rod there are two adjustable plates, the bottom of adjustable plate is mounted on heating tube.

Preferably, the mixing mechanism includes rotating bar, and rotating bar horizontally rotates the both sides for being connected to device body Between inner wall, one end of rotating bar and the output axis connection of third motor, the periphery of rotating bar is welded with multiple hangs down with rotating bar Straight stirring rod, and stirring rod is located at the lower section of heating tube.

Preferably, described device ontology is opened up on the side inner wall of glove bucket there are two the groove being arranged above and below, Further groove, the second screw rod and rotating bar are T-shaped structure, and bearing, and the second screw rod and rotating bar difference are equipped in groove It is rotatablely connected by bearing and device body.

Preferably, second screw rod is bidirectional helical bar, and a portion screw thread is threadedly coupled with an adjustable plate, separately A part of screw thread is threadedly coupled with another adjustable plate.

Preferably, the fixed transverse rod is fixedly connected between the both sides inner wall of device body, and fixed transverse rod is two, and Isosceles triangular structure is formed between two fixed transverse rods and the second screw rod.

Preferably, the conveying pipeline is formed for vertical tube and inclined tube, and wherein vertical tube is located at the underface of conduit, one end of inclined tube It extends in device body, and level height residing for the side of inclined tube approaching device ontology is less than inclined tube close to the side of vertical tube institute Locate level height.

The beneficial effects of the utility model are：Two gears is driven to rotate successively by the first motor so that the first screw rod Maneuvering board side-to-side movement under the orientation of screw thread rotation power and supporting rod is driven, and then facilitates control baffle occlusion catheter, it is real The now purpose of automatic additive reduces artificial running cost, while can be fast using regulating mechanism and mixing mechanism is heated Speed heating polyethylene fibre, the position of heating can freely adjust, and effectively improve the production efficiency of polyethylene fibre, this practicality is new Type reasonable design, it is easy to operate, realize the purpose of automatic additive, and heating effect is good, the position of heating can freely adjust It is whole, effectively improve the production efficiency of polyethylene fibre.

Description of the drawings

Fig. 1 be the utility model proposes a kind of superhigh molecular weight polyethylene fibers production heating unit side view anatomy Structure diagram；

Fig. 2 be the utility model proposes a kind of superhigh molecular weight polyethylene fibers production heating unit A place amplification Structure diagram.

In figure：1 device body, 2 glove buckets, 3 conduits, 4 baffles, 5 first screw rods, 6 first gears, 7 maneuvering boards, 8 supports Bar, 9 first motors, 10 second gears, 11 conveying pipelines, 12 second motors, 13 third motors, 14 fixed transverse rods, 15 second screw rods, 16 adjustable plates, 17 heating tubes, 18 rotating bars, 19 stirring rods.

Specific embodiment

The following is a combination of the drawings in the embodiments of the present utility model, and the technical scheme in the embodiment of the utility model is carried out It clearly and completely describes, it is clear that the described embodiments are only a part of the embodiments of the utility model rather than whole Embodiment.

With reference to Fig. 1-2, a kind of superhigh molecular weight polyethylene fibers production heating unit, including device body 1, device sheet Body 1 is cavity structure, and a side roof part of device body 1 is equipped with glove bucket 2, and the bottom of glove bucket 2 is connected with conduit 3, conduit 3 Bottom be equipped with covering conduit 3 baffle 4, the side of 4 approaching device ontology 1 of baffle is connected with the first screw rod 5, the first screw rod 5 Outside screw be socketed with first gear 6, one end of the first screw rod 5 is welded with maneuvering board 7, and the side of maneuvering board 7 is slidably connected There is the supporting rod 8 parallel with the first screw rod 5, device body 1 is also equipped with the first motor 9 on the side outer wall of glove bucket 2, The second gear 10 engaged with first gear 6 is installed, the bottom of the first motor 9 is equipped with conveying on the output shaft of the first motor 9 Pipe 11, wherein one end of conveying pipeline 11 are located at the underface of conduit 3, and the other end of conveying pipeline 11 extends to the interior of device body 1 Portion, device body 1 are separately installed with the second motor 12 and third motor 13, device body 1 on the side outer wall far from glove bucket 2 Be internally provided with heating regulating mechanism and be mixed mechanism, wherein heating regulating mechanism be located at be mixed mechanism just on Side, heating regulating mechanism include 14 and second screw rod 15 of fixed transverse rod for being connected to 1 both sides inner wall of device body, the second screw rod 15 One end and the second motor 12 output axis connection, between 14 and second screw rod 15 of fixed transverse rod connection there are two adjustable plate 16, The bottom of adjustable plate 16 is mounted on heating tube 17.

In the present embodiment, mechanism is mixed and includes rotating bar 18, rotating bar 18, which horizontally rotates, is connected to device body 1 Between the inner wall of both sides, one end of rotating bar 18 and the output axis connection of third motor 13, the periphery of rotating bar 18 are welded with multiple The stirring rod 19 vertical with rotating bar 18, and stirring rod 19 is located at the lower section of heating tube 17, device body 1 is close to glove bucket 2 It is opened up on the inner wall of side there are two the groove being arranged above and below, further groove, the second screw rod 15 and rotating bar 18 are T-shaped knot Structure is equipped with bearing, and the second screw rod 15 and rotating bar 18 are rotatablely connected respectively by bearing and device body 1 in groove, and Two screw rods 15 are bidirectional helical bar, and a portion screw thread is threadedly coupled with an adjustable plate 16, another part screw thread with it is another A adjustable plate 16 is threadedly coupled, and fixed transverse rod 14 is fixedly connected between the both sides inner wall of device body 1, and fixed transverse rod 14 is two It is a, and isosceles triangular structure is formed between two 14 and second screw rods 15 of fixed transverse rod, conveying pipeline 11 is vertical tube and inclined tube structure Into wherein vertical tube is located at the underface of conduit 3, and one end of inclined tube is extended in device body 1, and inclined tube approaching device ontology 1 Side residing for level height be less than inclined tube close to level height residing for the side of vertical tube.

In the present embodiment, during work, either-rotation motor can be used in the first motor 9 and the second motor 12, wherein the first motor 9, Second gear 10 and first gear 6 is driven to rotate successively by the first motor 9 so that the first screw rod 5 drives maneuvering board 7 in screw thread Side-to-side movement under the orientation of rotary power and supporting rod 8, so facilitate control baffle 4 whether occlusion catheter 3, needing additive During material, the material in glove bucket 2 is added at conduit 3 in conveying pipeline 11, is finally entered in device body 1, realizes automatic addition The purpose of material reduces artificial running cost, while can quickly heat poly- second using heating regulating mechanism and mechanism being mixed Alkene fiber drives the second screw rod 15 to rotate using the second motor 12 so that two adjustable plates 16 are in the rotary power of screw thread and solid It under the orientation for determining cross bar 14, mutually draws close or detaches, facilitate the different level position for adjusting heating tube 17, cost can reduced In the case of, the different location in device body 1 is heated, effectively improves the production efficiency of polyethylene fibre.

The preferable specific embodiment of the above, only the utility model, but the scope of protection of the utility model is not This is confined to, in the technical scope that any one skilled in the art discloses in the utility model, according to this practicality Novel technical solution and its utility model design are subject to equivalent substitution or change, should all cover the protection model in the utility model Within enclosing.

Claims (6)

1. a kind of superhigh molecular weight polyethylene fibers production heating unit, including device body (1), which is characterized in that described Device body (1) is cavity structure, and a side roof part of device body (1) is equipped with glove bucket (2), and the bottom of glove bucket (2) connects It is connected to conduit (3), the bottom of conduit (3) is equipped with the baffle (4) of covering conduit (3), and the one of baffle (4) approaching device ontology (1) Side is connected with the first screw rod (5), and the outside screw of the first screw rod (5) is socketed with first gear (6), one end of the first screw rod (5) Maneuvering board (7) is welded with, the side of maneuvering board (7) slidably connects the supporting rod (8) parallel with the first screw rod (5), the dress It puts ontology (1) and is also equipped with the first motor (9) on the side outer wall of glove bucket (2), pacify on the output shaft of the first motor (9) Equipped with the second gear (10) engaged with first gear (6), the bottom of first motor (9) is equipped with conveying pipeline (11), wherein One end of conveying pipeline (11) is located at the underface of conduit (3), and the other end of conveying pipeline (11) extends to the interior of device body (1) Portion, described device ontology (1) are separately installed with the second motor (12) and third motor on the side outer wall far from glove bucket (2) (13), being internally provided with for described device ontology (1) heats regulating mechanism and mechanism is mixed, wherein heating regulating mechanism is located at The surface of mechanism is mixed, heating regulating mechanism includes the fixed transverse rod (14) for being connected to device body (1) both sides inner wall With the second screw rod (15), one end of the second screw rod (15) and the output axis connection of the second motor (12), fixed transverse rod (14) and the There are two adjustable plates (16) for connection between two screw rods (15), and the bottom of adjustable plate (16) is mounted on heating tube (17).

A kind of 2. superhigh molecular weight polyethylene fibers production heating unit according to claim 1, which is characterized in that institute State be mixed mechanism include rotating bar (18), rotating bar (18) horizontally rotate be connected to device body (1) both sides inner wall it Between, one end of rotating bar (18) and the output axis connection of third motor (13), the periphery of rotating bar (18) are welded with multiple and turn The vertical stirring rod (19) of lever (18), and stirring rod (19) is positioned at the lower section of heating tube (17).

A kind of 3. superhigh molecular weight polyethylene fibers production heating unit according to claim 1, which is characterized in that institute State the groove being arranged above and below there are two being opened up on the side inner wall of the close glove bucket (2) of device body (1), further groove, second Screw rod (15) and rotating bar (18) are T-shaped structure, and bearing, and the second screw rod (15) and rotating bar (18) are equipped in groove It is rotatablely connected respectively by bearing and device body (1).

A kind of 4. superhigh molecular weight polyethylene fibers production heating unit according to claim 1, which is characterized in that institute The second screw rod (15) is stated as bidirectional helical bar, a portion screw thread is threadedly coupled with an adjustable plate (16), another part spiral shell Line is threadedly coupled with another adjustable plate (16).

A kind of 5. superhigh molecular weight polyethylene fibers production heating unit according to claim 1, which is characterized in that institute It states fixed transverse rod (14) to be fixedly connected between the both sides inner wall of device body (1), fixed transverse rod (14) is two, and two solid Determine to form isosceles triangular structure between cross bar (14) and the second screw rod (15).

A kind of 6. superhigh molecular weight polyethylene fibers production heating unit according to claim 1, which is characterized in that institute It states conveying pipeline (11) to form for vertical tube and inclined tube, wherein vertical tube is located at the underface of conduit (3), and one end of inclined tube extends to device In ontology (1), and level height residing for the side of inclined tube approaching device ontology (1) is less than inclined tube close to water residing for the side of vertical tube Flat height.