CN111958941A - Continuous material guide type aluminum-plastic composite pipe cooling device - Google Patents

Abstract

The invention relates to the field of aluminum-plastic composite pipe production, in particular to continuous material guiding type aluminum-plastic composite pipe cooling equipment which comprises a horizontally arranged supporting and installing cylinder, wherein the right half section of the supporting and installing cylinder is horizontally and coaxially provided with an operation installing cylinder, a plurality of rotating arc-shaped plates are arranged at equal angles at two ends of the supporting and installing cylinder, one ends of the rotating arc-shaped plates are connected with the supporting and installing cylinder through a reset rotating shaft, the other ends of the rotating arc-shaped plates are respectively provided with a driving guide wheel, the upper end of the supporting and installing cylinder at the left side of the operation installing cylinder is horizontally provided with a water storage box, the device can continuously guide materials through a material guiding structure driven by continuous reading, and simultaneously is matched with uniform sweeping type atomization humidification, the evaporation efficiency is improved through an active air draft type structure, the cooling purpose is realized, and the cooling effect of the device is further improved through telescopic adjustment and, and the device can meet the cooling operation of the aluminum-plastic composite pipes with various diameters.

Description

Continuous material guide type aluminum-plastic composite pipe cooling device

Technical Field

The invention relates to the field of aluminum-plastic composite pipe production, in particular to continuous material guide type aluminum-plastic composite pipe cooling equipment.

Background

In the production process of the aluminum-plastic composite pipe, after the pipe is extruded from an extruder, the pipe is in a high-temperature molten state and needs to be cooled and shaped. In order to meet the requirement of high-speed extrusion, a vacuum forming machine is mostly adopted for quickly forming and cooling the pipe, the vacuum forming machine generally comprises a vacuum box and a cooling box which are provided with a sizing sleeve, and the temperature of the cooled pipe is required to be not more than 20 ℃. However, because the temperature of the extruded pipe is high and the temperature of the cooling water is low, the pipe is easy to generate overlarge internal stress due to quenching, the surface of the formed pipe is rough or the wall thickness of the formed pipe is uneven, and the manufactured product is easy to deform in the storage process. In addition, because the stay time of the pipe in the vacuum forming machine is short, the cooling speed is too high, and the pipe is often insufficiently cooled and is not stably formed.

Chinese patent (publication No. CN 209022432U) discloses an aluminum-plastic composite pipe cooling device, which can perform cooling operation during the production process of the aluminum-plastic composite pipe, but adopts an air blowing cooling structure, and has weak adaptability, and obvious disadvantages in continuous material guiding, active air draft cooling and adaptability adjustment.

Disclosure of Invention

The invention aims to provide continuous material guiding type aluminum-plastic composite pipe cooling equipment to solve the problems in the background technology.

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

a continuous guide type aluminum-plastic composite pipe cooling device comprises a horizontally arranged supporting installation cylinder, the right half section of the supporting installation cylinder is horizontally and coaxially provided with an operation installation cylinder, a plurality of rotating arc-shaped plates are arranged at equal angles at the two ends of the supporting installation cylinder, one end of each rotating arc-shaped plate is connected with the supporting installation cylinder through a reset rotating shaft, the other end of each rotating arc-shaped plate is provided with a driving guide wheel, the upper end of the supporting installation cylinder at the left side of the operation installation cylinder is horizontally provided with a water storage box, the middle position of the outer side of the operation installation cylinder is vertically provided with an annular guide cylinder, the operation installation cylinders at the two sides of the upper end of the annular guide cylinder are symmetrically and horizontally provided with active guide cylinders, the middle position of the operation installation cylinder is vertically provided with a rotating guide disc in a way of matching with the annular guide cylinder, the outer side of the rotating guide, the both ends of rotating the installation section of thick bamboo impartial angle is provided with a plurality of driving motor, driving motor all is provided with drive gear through the pivot, the operation installation section of thick bamboo inboard that drive gear corresponds all is provided with and turns to the ring gear, drive gear all with turn to the ring gear meshing, the inside of rotating the installation section of thick bamboo is equiangularly provided with a plurality of sections that flow equalize that shift, the section of thick bamboo average level that flow equalize that shifts sets up, the section of thick bamboo that flow equalize that shifts all communicates with the rotation guiding disk through telescopic pipe, the section of thick bamboo that flow equalize that shifts of telescopic pipe both sides all is provided with automatically controlled flexible post perpendicularly, the other end of automatically controlled flexible post.

As a further scheme of the invention: the water storage tank is characterized in that a water inlet pipe is arranged at the upper right end of the water storage tank, and a water pump is arranged at the lower left end of the water storage tank.

As a further scheme of the invention: an annular flow equalizing cavity is arranged in the wall of the supporting and installing barrel below the water storage tank, the water pump is communicated with the annular flow equalizing cavity, a plurality of atomizing spray heads are uniformly arranged on the inner side of the annular flow equalizing cavity, and the atomizing spray heads all extend out of the supporting and installing barrel.

As a further scheme of the invention: the middle position of the active guide cylinder is horizontally provided with a guide motor through a guide mounting frame, and the guide motor is provided with a plurality of guide impellers through a rotating shaft.

As a further scheme of the invention: the two sides of the rotary flow guide disc are matched with the operation installation barrel to be provided with guide rotating rings, and the operation installation barrel is matched with the guide rotating rings to be provided with guide rotating grooves.

As a further scheme of the invention: the middle position of the guide rotating groove is provided with a rotating conducting ring, and the guide rotating ring is matched with the rotating conducting ring and is provided with a rotating conducting groove.

As a still further scheme of the invention: the upper end of the flexible conduit is communicated with the deflection flow equalizing barrel through the electromagnetic valve, and the lower half section of the flexible conduit is provided with a plurality of flow guide holes.

Compared with the prior art, the invention has the beneficial effects that: through reading the driven guide structure for the device carries out continuous guide, cooperates even sweep formula atomizing humidification simultaneously, and the structure through the initiative air-draft type of making promotes evaporation efficiency, realizes efficient cooling purpose, adjusts through flexible regulation and rotation simultaneously, further hoisting device's cooling effect, and the device can satisfy the cooling operation of multiple diameter aluminium-plastic composite pipe.

Drawings

Fig. 1 is a schematic structural diagram of a continuous material guiding type aluminum-plastic composite pipe cooling device.

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

Fig. 3 is a schematic perspective view of a rotary guide plate in a continuous material guiding type aluminum-plastic composite pipe cooling device.

1-driving guide wheel, 2-rotating arc plate, 3-resetting rotating shaft, 4-supporting mounting cylinder, 5-operating mounting cylinder, 6-deflection flow equalizing cylinder, 7-driving gear, 8-steering gear ring, 9-driving motor, 10-rotating mounting cylinder, 11-driving flow equalizing cylinder, 12-electric control telescopic column, 13-guide impeller, 14-guide mounting frame, 15-guide motor, 16-water inlet pipe, 17-water storage tank, 18-water pump, 19-annular flow equalizing cavity, 20-atomizing spray head, 21-rotating conductive ring, 22-rotating conductive groove, 23-annular flow equalizing cylinder, 24-porous annular cylinder, 25-guiding rotating groove, 26-guiding rotating ring, 27-rotating flow guiding disc, 28-telescopic guide pipe, 29-electromagnetic valve, 30-flexible conduit, 31-diversion hole.

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 3, in the embodiment of the present invention, a continuous material guiding type aluminum-plastic composite pipe cooling apparatus includes a horizontally disposed supporting installation cylinder 4, a working installation cylinder 5 is horizontally and coaxially disposed on a right half section of the supporting installation cylinder 4, a plurality of rotating arc plates 2 are disposed at equal angles at two ends of the supporting installation cylinder 4, one end of each rotating arc plate 2 is connected to the supporting installation cylinder 4 through a reset rotating shaft 3, the other end of each rotating arc plate 2 is provided with a driving guide wheel 1, a water storage tank 17 is horizontally disposed at an upper end of the supporting installation cylinder 4 on a left side of the working installation cylinder 5, a water inlet pipe 16 is disposed at a right upper end of the water storage tank 17, a water pump 18 is disposed at a left lower end of the water storage tank 17, an annular flow equalizing chamber 19 is disposed in a wall of the supporting installation cylinder 4 below the water storage tank 17, the water pump 18 is communicated with the annular flow equalizing, the atomizing nozzle 20 extends out of the supporting installation cylinder 4, the middle position of the outer side of the operation installation cylinder 5 is vertically provided with an annular guide cylinder 23, the operation installation cylinders 5 at the two sides of the upper end of the annular guide cylinder 23 are symmetrically and horizontally provided with active guide cylinders 11, the middle position of the active guide cylinder 11 is horizontally provided with a guide motor 15 through a guide installation frame 14, the guide motor 15 is provided with a plurality of guide impellers 13 through a rotating shaft, the middle position of the operation installation cylinder 5 is vertically provided with a rotating guide disc 27 in cooperation with the annular guide cylinder 23, the two sides of the rotating guide disc 27 are provided with guide rotating rings 26 in cooperation with the operation installation cylinder 5, the operation installation cylinder 5 is provided with guide rotating grooves 25 in cooperation with the guide rotating rings 26, the middle position of the guide rotating grooves 25 is provided with rotating conductive rings 21, the guide rotating rings 26 are provided with rotating conductive grooves 22 in cooperation with the rotating conductive rings 21, the outer side of the, the inner side of the rotary flow guide plate 27 is provided with a rotary installation cylinder 10, the two ends of the rotary installation cylinder 10 are provided with a plurality of driving motors 9 at equal angles, the driving motors 9 are all provided with driving gears 7 through rotating shafts, the inner sides of the operation installation cylinders 5 corresponding to the driving gears 7 are all provided with steering gear rings 8, the driving gears 7 are all meshed with the steering gear rings 8, a plurality of deflection flow equalizing cylinders 6 are arranged at equal angles inside the rotary installation cylinder 10, the deflection flow equalizing cylinders 6 are all horizontally arranged, the deflection flow equalizing cylinders 6 are all communicated with the rotary flow guide plate 27 through telescopic pipes 28, the deflection flow equalizing cylinders 6 on the two sides of the telescopic pipes 28 are both vertically provided with electrically controlled telescopic columns 12, the other ends of the electrically controlled telescopic columns 12 are all fixed on the inner wall of the rotary installation cylinder 10, the other sides of the deflection flow equalizing cylinders 6 are all provided with a plurality of flexible, the lower half of the flexible conduit 30 is provided with a plurality of diversion holes 31.

The aluminum-plastic composite pipe is inserted between the supporting and installing cylinders 4, the aluminum-plastic composite pipe can continuously and stably move for guiding materials along with the rotation of the driving guide wheel 1, firstly, the water pump 18 is started, water in the water storage tank 17 is pressurized and then guided into the annular flow equalizing cavity 19, then the water is guided out through each atomizing nozzle 20, the local uniform humidification is realized, along with the progress of the material guiding, the aluminum-plastic composite pipe moves to the area of the operation installing cylinder 5, the driving motor 9 is started, the driving gear 7 is matched with the steering gear ring 8 for meshing transmission, the rotation of the rotating installing cylinder 10 is realized, at the moment, the guiding rotating ring 26 is matched with the guiding rotating groove 25 for guiding rotation, the stable rotation of the guide disc 27 is rotated, the guide motor 15 is started, the guide impeller 13 is started to rotate at high speed, the air in the annular guide cylinder 23 is guided out, and the external air enters the rotating guide disc 27 through the guide holes, and finally, the water vapor enters the annular guide cylinder 23 through the porous annular cylinder 24 and is led out from the active guide cylinder 11, so that the water vapor outside the aluminum-plastic composite pipe is led out quickly, and the aim of quickly cooling is fulfilled.

Example two

On the basis of the first embodiment, the rotation guide disc 27 is always kept stable in power supply in the rotation process through the cooperation of the rotation conductive ring 21 and the rotation conductive groove 22, the deflection of the deflection flow equalizing cylinder 6 is realized through the control of the telescopic guide pipe 28 and the cooperation of the telescopic guide pipe, the distance between the deflection flow equalizing cylinder and the aluminum-plastic composite pipe is controlled, the flexible guide pipe 30 is directly contacted with the aluminum-plastic composite pipe, and the cooling efficiency is improved.

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 continuous material guiding type aluminum-plastic composite pipe cooling device comprises a horizontally arranged supporting and installing cylinder (4), wherein an operation installing cylinder (5) is horizontally and coaxially arranged on the right half section of the supporting and installing cylinder (4), a plurality of rotating arc-shaped plates (2) are arranged at equal angles at two ends of the supporting and installing cylinder (4), one ends of the rotating arc-shaped plates (2) are connected with the supporting and installing cylinder (4) through a reset rotating shaft (3), and driving guide wheels (1) are arranged at the other ends of the rotating arc-shaped plates (2), the continuous material guiding type aluminum-plastic composite pipe cooling device is characterized in that a water storage box (17) is horizontally arranged at the upper end of the supporting and installing cylinder (4) at the left side of the operation installing cylinder (5), an annular guide cylinder (23) is vertically arranged at the middle position of the outer side of the operation installing cylinder (5), and driving guide cylinders (11) are symmetrically and horizontally, a rotary guide disc (27) is vertically arranged at the middle position of the operation installation cylinder (5) in a way of being matched with the annular guide cylinder (23), a porous annular cylinder (24) is arranged at the outer side of the rotary guide disc (27) and extending into the annular guide cylinder (23), a rotary installation cylinder (10) is arranged at the inner side of the rotary guide disc (27), a plurality of driving motors (9) are arranged at equal angles at the two ends of the rotary installation cylinder (10), each driving motor (9) is provided with a driving gear (7) through a rotating shaft, the inner sides of the operation installation cylinders (5) corresponding to the driving gears (7) are provided with steering gear rings (8), the driving gears (7) are all meshed with the steering gear rings (8), a plurality of deflection flow equalizing cylinders (6) are arranged at equal angles in the rotary installation cylinder (10), the deflection flow equalizing cylinders (6) are all horizontally arranged, and the deflection flow equalizing cylinders (6) are all communicated with the, the deflection flow equalizing cylinder (6) at two sides of the telescopic guide pipe (28) is vertically provided with an electric control telescopic column (12), the other end of the electric control telescopic column (12) is fixed on the inner wall of the rotary mounting cylinder (10), and the other side of the deflection flow equalizing cylinder (6) is provided with a plurality of flexible guide pipes (30) in an array mode.

2. The continuous guide type aluminum-plastic composite pipe cooling device as claimed in claim 1, wherein the water inlet pipe (16) is arranged at the upper right end of the water storage tank (17), and the water pump (18) is arranged at the lower left end of the water storage tank (17).

3. The continuous material guiding type aluminum-plastic composite pipe cooling device as claimed in claim 1 or 2, wherein an annular flow-equalizing chamber (19) is arranged in the wall of the support mounting cylinder (4) below the water storage tank (17), the water pump (18) is communicated with the annular flow-equalizing chamber (19), a plurality of atomizing nozzles (20) are uniformly arranged on the inner side of the annular flow-equalizing chamber (19), and the atomizing nozzles (20) all extend out of the support mounting cylinder (4).

4. The continuous guide type aluminum-plastic composite pipe cooling device as claimed in claim 1, wherein the middle position of the active guide cylinder (11) is horizontally provided with a guide motor (15) through a guide mounting frame (14), and the guide motor (15) is provided with a plurality of guide impellers (13) through rotating shafts.

5. The continuous guide type aluminum-plastic composite pipe cooling device as claimed in claim 1, wherein the two sides of the rotary guide disc (27) are provided with guide rotating rings (26) in cooperation with the operation mounting cylinder (5), and the operation mounting cylinder (5) is provided with guide rotating grooves (25) in cooperation with the guide rotating rings (26).

6. The continuous guide type aluminum-plastic composite pipe cooling device as claimed in claim 5, wherein the rotary conducting rings (21) are arranged in the middle of the guide rotary grooves (25), and the rotary conducting grooves (22) are arranged on the guide rotary rings (26) and the rotary conducting rings (21).

7. The continuous guide type aluminum-plastic composite pipe cooling device as claimed in claim 1, wherein the upper ends of the flexible guide pipes (30) are communicated with the deflection flow equalizing cylinder (6) through electromagnetic valves (29), and the lower half sections of the flexible guide pipes (30) are provided with a plurality of guide holes (31).

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