CN112026042A - Hot melt adhesive melt stirring device for aluminum-plastic composite pipe production - Google Patents

Abstract

The invention relates to the field of aluminum-plastic composite pipe production, in particular to a hot melt adhesive melt stirring device for aluminum-plastic composite pipe production, which comprises a vertical shuttle-shaped mounting cylinder, wherein the upper end of the shuttle-shaped mounting cylinder is horizontally provided with a top mounting plate, the middle position of the upper end of the top mounting plate is vertically provided with a transmission mounting cylinder, the middle position of the lower end of the transmission mounting cylinder is vertically provided with a limit rotating groove, a limit rotating column is vertically arranged in cooperation with the limit rotating groove and penetrates through the limit rotating groove, the two ends of the top mounting plate are symmetrically provided with feed holes, the device has good torque through the transmission of a planetary bevel gear, the stable stirring is ensured, the materials are subjected to accelerated hot melting through two-stage hot melting stirring, the uniformity of the materials is remarkably improved through the combination of active material guiding and extrusion material guiding, the vacuum heat preservation and auxiliary heat preservation are matched, so that, the stirring quality of the hot melt adhesive melt is remarkably improved.

Description

Hot melt adhesive melt stirring device for aluminum-plastic composite pipe production

Technical Field

The invention relates to the field of aluminum-plastic composite pipe production, in particular to a hot melt adhesive melt stirring device for aluminum-plastic composite pipe production.

Background

The aluminum-plastic composite pipe is a water supply pipe which is the earliest substitute for a cast iron pipe, and basically comprises five layers, namely plastic, hot melt adhesive, aluminum alloy, hot melt adhesive and plastic from inside to outside. The aluminum-plastic composite pipe has better heat preservation performance, the inner wall and the outer wall are not easy to corrode, and the inner wall is smooth and has small resistance to fluid; and the installation and construction are convenient because the flexible plate can be bent at will. When the hot melt adhesive is processed, the raw materials are put into a reaction kettle for heating and mixing, the traditional reaction kettle is mixed and stirred through a stirring shaft, and a stirring paddle is of a blade type structure so as to mix and stir the hot melt adhesive; at present, when the blade type structure is used for stirring, the mixing speed and the effect of the hot melt adhesive melting material are not ideal enough, so that the production quality of the hot melt adhesive cannot be ensured; and the intelligent degree of the processing equipment is lower, the manpower and material resources are wasted, and the processing efficiency is lower.

Chinese patent (publication No. CN 110449066A) discloses a hot melt adhesive melt stirring device for processing and producing aluminum-plastic composite pipes, which can improve the above problems, but has significant defects in the structural design of stirring, so that the hot melt efficiency is low, the uniformity and fluidity of the hot melt adhesive are poor, and the quality and efficiency of normal production are affected.

Disclosure of Invention

The invention aims to provide a hot melt adhesive melt stirring device for producing an aluminum-plastic composite pipe, which aims to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

a hot melt adhesive melt stirring device for aluminum plastic composite pipe production comprises a vertical shuttle-shaped mounting barrel, wherein the upper end of the shuttle-shaped mounting barrel is horizontally provided with a top mounting plate, the middle position of the upper end of the top mounting plate is vertically provided with a transmission mounting barrel, the middle position of the lower end of the transmission mounting barrel is vertically provided with a limiting rotating groove, a limiting rotating column is vertically arranged by matching with the limiting rotating groove and penetrates through the limiting rotating groove, the two ends of the top mounting plate are symmetrically provided with feed holes, the barrel wall of the shuttle-shaped mounting barrel is internally provided with a vacuum heat insulation cavity, the lower end of the shuttle-shaped mounting barrel is vertically provided with a support mounting barrel, the lower end of the support mounting barrel is provided with a cambered surface mounting bottom plate, the middle position of the cambered surface mounting bottom plate is vertically provided with a guide mounting barrel, the cambered surface mounting bottom plate is provided with a discharge, sealed apron's other end cooperation cambered surface mounting plate is provided with fixed buckle, the lower extreme of spacing rotation post stretches into the guide installation section of thick bamboo, the cooperation of the spacing rotation post outside in the guide installation section of thick bamboo is provided with the spiral stock guide, the spacing rotation post outside that shuttle type installation section of thick bamboo second section corresponds is isometric and is provided with a plurality of rotation installing framves, the equidistant slope of inside of rotating the installing frame is provided with a plurality of hot melt electricity auxiliary heating posts, it is provided with the rotation scraper blade all to cooperate the shuttle type installation section of thick bamboo in the rotation installing frame outside, the spacing rotation post outside that shuttle type installation section of thick bamboo first section corresponds is isometric and evenly is provided with a plurality of people's rotation stirring post, the inner wall cooperation of shuttle type installation section of thick bamboo is rotated the stirring post dislocation and is provided with a plurality.

As a further scheme of the invention: the upper end of the limiting rotating column is horizontally provided with a rotating bevel gear, and a plurality of driving motors are arranged inside the transmission mounting cylinder at equal angles.

As a further scheme of the invention: the upper end of the driving motor is fixed at the top of the transmission mounting cylinder, the lower end of the driving motor is provided with a driving bevel gear through a rotating shaft, and the driving bevel gear is meshed with the rotating bevel gear.

As a further scheme of the invention: the lower side of the rotating bevel gear is provided with a rotating conducting ring in a matching mode with the limiting rotating column, and the bottom of the transmission mounting cylinder is provided with an annular conducting rail in a matching mode with the rotating conducting ring.

As a further scheme of the invention: the lower half section of the material guide mounting cylinder is provided with a plurality of material guide holes at equal angles.

As a further scheme of the invention: the material guide installation cylinder is provided with a plurality of groups of annular porous material extruding plates at equal vertical intervals, a plurality of material extruding holes are uniformly formed in the annular porous material extruding plates, and a plurality of heat-preservation electric auxiliary heating columns are arranged on the outer side of the material guide installation cylinder on the lower side of the support installation cylinder at equal angles.

As a still further scheme of the invention: the lower end of the shuttle-shaped mounting cylinder is provided with a plurality of supporting mounting columns at equal angles, and the lower ends of the supporting mounting columns are provided with supporting cushion blocks.

Compared with the prior art, the invention has the beneficial effects that: through the transmission of planet bevel gear for the device has good moment of torsion, guarantees going on steadily of stirring, through two-stage hot melt stirring, makes the material hot melt with higher speed, combines through initiative guide and extrusion guide, makes the degree of consistency of material show the promotion, and cooperation vacuum heat preservation and auxiliary heat keep warm, make the material can guarantee good mobility, show the quality that promotes the hot melt adhesive melt mixing.

Drawings

Fig. 1 is a schematic structural diagram of a hot melt adhesive melt stirring device for aluminum plastic composite pipe production.

Fig. 2 is an enlarged schematic view of a portion a of fig. 1.

Fig. 3 is an enlarged schematic view of the point b in fig. 1.

Fig. 4 is a schematic perspective view of an annular porous material extruding plate in a hot melt adhesive melt stirring device for aluminum-plastic composite pipe production.

1-supporting cushion block, 2-supporting mounting column, 3-supporting mounting cylinder, 4-rotating scraper, 5-hot melting electric auxiliary heating column, 6-rotating mounting frame, 7-limiting rotating column, 8-top mounting plate, 9-rotating bevel gear, 10-transmission mounting cylinder, 11-driving motor, 12-driving bevel gear, 13-feeding hole, 14-rotating stirring column, 15-fixed stirring column, 16-vacuum heat insulation cavity, 17-shuttle-shaped mounting cylinder, 18-annular conductive rail, 19-rotating conductive ring, 20-limiting rotating groove, 21-guide mounting cylinder, 22-heat preservation electric auxiliary heating column, 23-extruding hole, 24-annular porous extruding plate, 25-cambered surface mounting base plate, 26-guide hole, 27-fixed buckle, 27-hot melting electric auxiliary heating column, 6-rotating mounting frame, 7-limiting rotating column, 8-top mounting plate, 9-rotating bevel gear, 10-transmission mounting cylinder, 11-driving, 28-discharge hole, 29-sealing cover plate and 30-spiral material guide plate.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are illustrative and intended to be illustrative of the invention and are not to be construed as limiting the invention.

The following disclosure provides many different embodiments, or examples, for implementing different features of the invention. To simplify the disclosure of the present invention, the components and arrangements of specific examples are described below. Of course, they are merely examples and are not intended to limit the present invention. Furthermore, the present invention may repeat reference numerals and/or letters in the various examples. This repetition is for the purpose of simplicity and clarity and does not in itself dictate a relationship between the various embodiments and/or configurations discussed.

Example one

Referring to fig. 1 to 4, in the embodiment of the present invention, a hot melt adhesive melt stirring device for aluminum-plastic composite pipe production includes a vertical shuttle-shaped mounting cylinder 17, a top mounting plate 8 is horizontally disposed at an upper end of the shuttle-shaped mounting cylinder 17, a transmission mounting cylinder 10 is vertically disposed at a middle position of an upper end of the top mounting plate 8, a limit rotating groove 20 is vertically disposed at a middle position of a lower end of the transmission mounting cylinder 10, a limit rotating column 7 is vertically disposed in cooperation with the limit rotating groove 20, the limit rotating column 7 penetrates through the limit rotating groove 20, a rotating bevel gear 9 is horizontally disposed at an upper end of the limit rotating column 7, a plurality of driving motors 11 are equiangularly disposed inside the transmission mounting cylinder 10, upper ends of the driving motors 11 are all fixed at a top of the transmission mounting cylinder 10, driving bevel gears 12 are disposed at lower ends of the driving motors 11 through rotating shafts, the driving bevel gears 12, a rotary conducting ring 19 is arranged at the lower side of the rotary bevel gear 9 in a matching way with the limiting rotary column 7, an annular conducting rail 18 is arranged at the bottom of the transmission installation cylinder 10 in a matching way with the rotary conducting ring 19, feeding holes 13 are symmetrically arranged at two ends of the top installation plate 8, a vacuum heat insulation cavity 16 is arranged in the cylinder wall of the shuttle-shaped installation cylinder 17, a support installation cylinder 3 is vertically arranged at the lower end of the shuttle-shaped installation cylinder 17, a cambered surface installation bottom plate 25 is arranged at the lower end of the support installation cylinder 3, a guide installation cylinder 21 is vertically arranged at the middle position of the cambered surface installation bottom plate 25, a discharge hole 28 is arranged at the lower end of the cambered surface installation bottom plate 25 in a matching way with the guide installation cylinder 21, a sealing cover plate 29 is arranged at the discharge hole 28 through a rotating shaft, a fixing buckle 27 is arranged at the other end of the sealing cover plate 29 in a matching way with the cambered surface installation bottom, the lower half section of the guide installation cylinder 21 is provided with a plurality of guide holes 26 at equal angles, a plurality of groups of annular porous extruding plates 24 are vertically arranged between the guide installation cylinder 21 and the support installation cylinder 3 at equal intervals, a plurality of extruding holes 23 are uniformly arranged on the annular porous extruding plates 24, a plurality of heat-insulating electric auxiliary heating columns 22 are arranged at equal angles on the outer side of the guide installation cylinder 21 at the lower side of the support installation cylinder 3, a plurality of rotating installation frames 6 are arranged at equal angles on the outer side of the limiting rotating columns 7 corresponding to the lower half section of the shuttle-shaped installation cylinder 17, a plurality of hot-melting electric auxiliary heating columns 5 are obliquely arranged at equal intervals in the rotating installation frames 6, the outer side of the rotating installation frames 6 is provided with rotating scraping plates 4 in a matching way with the shuttle-shaped installation cylinder 17, a plurality of rotating stirring columns 14 are uniformly arranged at equal angles on the outer side of the limiting rotating columns 7 corresponding to the upper half section of the shuttle-shaped installation cylinder 17, the, the fixed stirring column 15 and the rotating stirring column 14 are both V-shaped structures, the lower end of the shuttle-shaped mounting cylinder 17 is provided with a plurality of supporting mounting columns 2 at equal angles, and the lower ends of the supporting mounting columns 2 are provided with supporting cushion blocks 1.

By leading the material into the shuttle-shaped mounting cylinder 17 from the feeding hole 13, the driving motor 11 is started, the driving bevel gear 12 and the rotating bevel gear 9 are driven to be in meshing transmission, synchronous rotation of the limit rotating column 7 is realized, the limit rotating column 7 rotates together with the rotating stirring column 14, the material is guided downwards, the mounting frame 6 is rotated simultaneously, the hot-melting electric auxiliary heating column 5 is in contact with the material and rotates and stirs, hot melting of the material is realized, the temperature inside the vacuum heat insulation cavity 16 is less in dissipation, when the material in the shuttle-shaped mounting cylinder 17 is completely hot-melted, the spiral material guide plate 30 leads the material above the hot-melting electric auxiliary heating column into the material guide mounting cylinder 21, and finally the sealing cover plate 29 is rotated, the material is led out, and hot-melting stirring operation is.

Example two

On the basis of embodiment one, when spiral stock guide 30 is rotatory, close sealed apron 29, make the material follow the leading-in cambered surface mounting plate 25 of guide hole 26, when the material of hot melt is full of the upward guide of cambered surface mounting plate 25, need loop through the porous crowded flitch of multiunit, extrude through crowded material hole 23, get back to guide installation section of thick bamboo 21 again, repeat the above-mentioned step, promote the degree of consistency of fused material, inside heat preservation electricity auxiliary heating post 22 simultaneously, make the material can remain good mobility throughout, guarantee the steady operation of device, derive at last, rotate conducting ring 19 and the cooperation of cyclic annular conductor rail 18, make the inside power supply safety and stability of device.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, various embodiments or examples and features of different embodiments or examples described in this specification can be combined and combined by one skilled in the art without contradiction.

While embodiments of the invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Claims (7)

1. A hot melt adhesive melt stirring device for aluminum plastic composite pipe production comprises a vertical shuttle-shaped installation barrel (17), wherein the upper end of the shuttle-shaped installation barrel (17) is horizontally provided with a top installation plate (8), the middle position of the upper end of the top installation plate (8) is vertically provided with a transmission installation barrel (10), the middle position of the lower end of the transmission installation barrel (10) is vertically provided with a limit rotating groove (20), and a limit rotating column (7) is vertically arranged by matching with the limit rotating groove (20), the device is characterized in that the limit rotating column (7) penetrates through the limit rotating groove (20), the two ends of the top installation plate (8) are symmetrically provided with feed holes (13), the barrel wall of the shuttle-shaped installation barrel (17) is internally provided with a vacuum heat insulation cavity (16), the lower end of the shuttle-shaped installation barrel (17) is vertically provided with a support installation barrel (3), and the lower end of the support installation barrel (3, a guide mounting cylinder (21) is vertically arranged in the middle of the arc surface mounting base plate (25), a discharge hole (28) is formed in the lower end of the arc surface mounting base plate (25) matched with the guide mounting cylinder (21), a sealing cover plate (29) is arranged at the discharge hole (28) through a rotating shaft, a fixing buckle (27) is arranged at the other end of the sealing cover plate (29) matched with the arc surface mounting base plate (25), the lower end of a limiting rotating column (7) extends into the guide mounting cylinder (21), a spiral guide plate (30) is arranged at the outer side of the limiting rotating column (7) in the guide mounting cylinder (21) in a matched mode, a plurality of rotating mounting frames (6) are arranged at equal angles on the outer side of the limiting rotating column (7) corresponding to the lower half section of the shuttle-shaped mounting cylinder (17), a plurality of hot-melting electric auxiliary heating columns (5) are obliquely arranged at equal intervals in the rotating mounting frames (6), and rotating scraping plates (4) are, the outer sides of the limiting rotating columns (7) corresponding to the upper half section of the shuttle-shaped mounting cylinder (17) are uniformly provided with a plurality of rotating stirring columns (14) at equal angles, the inner wall of the shuttle-shaped mounting cylinder (17) is matched with the rotating stirring columns (14) and is provided with a plurality of fixed stirring columns (15) in a staggered mode, and the fixed stirring columns (15) and the rotating stirring columns (14) are of V-shaped structures.

2. The hot melt adhesive melt stirring device for the production of the aluminum-plastic composite pipe is characterized in that the upper end of the limiting rotating column (7) is horizontally provided with a rotating bevel gear (9), and the inside of the transmission mounting cylinder (10) is provided with a plurality of driving motors (11) at equal angles.

3. The hot melt adhesive melt stirring device for the production of the aluminum-plastic composite pipe as claimed in claim 2, wherein the upper ends of the driving motors (11) are all fixed on the top of the transmission mounting cylinder (10), the lower ends of the driving motors (11) are all provided with driving bevel gears (12) through rotating shafts, and the driving bevel gears (12) are all meshed with the rotating bevel gears (9).

4. The hot melt adhesive melt stirring device for the production of the aluminum-plastic composite pipe is characterized in that the lower side of the rotating bevel gear (9) is provided with a rotating conductive ring (19) in cooperation with the limiting rotating column (7), and the bottom of the transmission mounting cylinder (10) is provided with an annular conductive rail (18) in cooperation with the rotating conductive ring (19).

5. The hot melt adhesive melt stirring device for the production of the aluminum-plastic composite pipe is characterized in that the lower half section of the material guiding installation cylinder (21) is provided with a plurality of material guiding holes (26) at equal angles.

6. The hot melt adhesive melt stirring device for the production of the aluminum-plastic composite pipe is characterized in that a plurality of groups of annular porous extrusion plates (24) are vertically and equally spaced between the guide mounting cylinder (21) and the support mounting cylinder (3), a plurality of extrusion holes (23) are uniformly formed in each annular porous extrusion plate (24), and a plurality of heat-insulating electric auxiliary heating columns (22) are arranged on the outer side of the guide mounting cylinder (21) on the lower side of the support mounting cylinder (3) at equal angles.

7. The hot melt adhesive melt stirring device for the production of the aluminum-plastic composite pipe is characterized in that a plurality of supporting and mounting columns (2) are arranged at equal angles at the lower end of the shuttle-shaped mounting cylinder (17), and supporting cushion blocks (1) are arranged at the lower ends of the supporting and mounting columns (2).

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