CN218139755U - Bracket mechanism of nanoscale antibacterial PE pipe extruder - Google Patents

Abstract

The utility model discloses an antibiotic PE tubular product extruder bracket mechanism of nanometer, including the chassis, the chassis is frame structure, the top of chassis is fixed with electric putter, electric putter's telescopic link top is fixed with the roof-rack, the roof-rack is frame structure, the top both sides of roof-rack are fixed with the bearing frame, the bearing frame rotates through the bearing and is connected with the step shaft, the middle part cover of step shaft is established and is fixed with the cylinder, the cylinder has the thin waist tubular structure of circular arc recess for outside circumference integrated into one piece. The utility model discloses a set up the electric putter who installs between chassis and roof-rack for when needs carry out altitude mixture control, only need control electric putter rise or descend can, need not to change the bracket, can the simplified operation, labour saving and time saving.

Description

Bracket mechanism of nanoscale antibacterial PE pipe extruder

Technical Field

The utility model relates to a PE tubular product production correlation equipment technical field especially relates to an antibiotic PE tubular product extruder bracket mechanism of nanometer.

Background

The forming process of the Polyethylene (PE) glass fiber reinforced composite water supply and drainage pipeline is to solidify glass fiber yarns in high-speed thermoplastic extrusion and to form the glass fiber reinforced composite water supply and drainage pipeline by drawing and extruding. It has light weight, hardness, non-conductivity, high mechanical strength, ageing resistance, high temperature resistance, corrosion resistance and the like. The nanometer level antibacterial PE pipe is prepared by adding nanometer level antibacterial white masterbatch into inner layer plastic of the original PE pipe and co-extruding and extruding the mixture to form the novel high density polyethylene pipe with antibacterial, sanitary and self-cleaning effects.

This kind of tubular product adopts the extruder to extrude when production, tubular product after extruding need outwards transport out through the bracket that can get up its bearing after cooling device cools off the shaping fast, prevent to block up the shaping that influences follow-up tubular product in the exit of extruder, so the bracket of bearing tubular product not only will be able to get up the tubular product bearing and prevent that tubular product from becoming curved under self action of gravity, still can guarantee to have less friction between tubular product and the bracket, so the bracket top can set up the gyro wheel, tubular product is placed in the gyro wheel top, thereby can be convenient for the tubular product motion.

However, the height of the existing bracket can not be adjusted, the outlet height of the extruder is determined, when the extrusion heads of different types are replaced to produce pipes of different types, the height of the outer wall of the lower side of the formed pipe from the ground can be changed due to the change of the diameter of the pipe, the height of the existing bracket can not be adjusted accordingly, only other brackets matched with the height of the existing bracket can be replaced, and the operation is troublesome, time-consuming and labor-consuming.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the defects existing in the prior art and providing a bracket mechanism of a nanoscale antibacterial PE pipe extruder.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides an antibiotic PE tubular product extruder bracket mechanism of nanometer, includes the chassis, the chassis is frame structure, the top of chassis is fixed with electric putter, electric putter's telescopic link top is fixed with the roof-rack, the roof-rack is frame structure, the top both sides of roof-rack are fixed with the bearing frame, the bearing frame rotates through the bearing and is connected with the step shaft, the middle part cover of step shaft is established and is fixed with the cylinder, the cylinder has the thin waist tubular structure of circular arc recess for outside circumference integrated into one piece.

As a further aspect of the present invention: the electric cabinet is fixed on the upper side of the underframe, a driver is fixed in the electric cabinet, the driver is electrically connected to the electric push rods, and the number of the drivers is the same as that of the electric push rods.

As a further aspect of the present invention: a panel is fixed on the front side of the electric cabinet, and a power switch, a descending button and an ascending button are fixed on the panel.

As a further aspect of the present invention: the descending button and the ascending button are electrically connected with the driver.

As a further aspect of the present invention: and a power supply block is fixed in the electric cabinet, and the power switch is electrically connected with the power supply block and the driver.

As the utility model discloses further scheme again: the double-shaft bearing is characterized in that sleeves are sleeved at two ends of the stepped shaft and arranged between the end face of the roller and the end face of the inner bearing ring in the bearing seat, machine-meter screws are connected to the side faces of the sleeves through threads, and the sleeves are fixed on the stepped shaft through the machine-meter screws.

As the utility model discloses further scheme again: the bottom surface of the underframe is integrally formed with an installation cylinder, and the bottom end of the installation cylinder is connected with a footing through threads.

As a further aspect of the present invention: and a threading hole is integrally formed at the bottom of the rear side of the electric cabinet.

The beneficial effects of the utility model are that:

1. the utility model discloses a set up the electric putter who installs between chassis and roof-rack for when needs carry out altitude mixture control, only need control electric putter rise or descend can, need not to change the bracket, can the simplified operation, labour saving and time saving.

2. The utility model discloses a thin waist shape cylinder that sets up the rubber material not only can be convenient for tubular product and move on the bracket with the ground, can also prevent tubular product lateral shifting, prevents tubular product surface fish tail.

3. The utility model discloses a footing is adjusted in the setting for the device can carry out the leveling to the device through the degree of depth of adjusting footing screw in installation section of thick bamboo when first installation, makes the device can be applicable to not smooth enough factory building ground.

Drawings

FIG. 1 is a schematic view of the overall structure of a bracket mechanism of a nanoscale antibacterial PE pipe extruder provided by the present invention;

FIG. 2 is a schematic diagram of an internal structure of an electric cabinet of a bracket mechanism of a nanoscale antibacterial PE pipe extruder provided by the utility model;

FIG. 3 is an exploded view of the drum mounting of a bracket mechanism of a nanoscale antibacterial PE pipe extruder provided by the present invention;

fig. 4 is a schematic diagram of a sleeve structure of the bracket mechanism of the nanometer-scale antibacterial PE pipe extruder provided by the utility model.

In the figure: 1-underframe, 2-electric cabinet, 3-power switch, 4-descending button, 5-ascending button, 6-panel, 7-footing, 8-mounting cylinder, 9-electric push rod, 10-sleeve, 11-roller, 12-top frame, 13-bearing seat, 14-driver, 15-power block, 16-threading hole, 17-step shaft and 18-machine meter screw.

Detailed Description

The technical solution of the present patent will be described in further detail with reference to the following embodiments.

A bracket mechanism of a nanoscale antibacterial PE pipe extruder comprises an underframe 1, wherein the underframe 1 is of a frame structure.

In order to enable the height adjustment of the bracket to be conveniently carried out; the top of chassis 1 is fixed with electric putter 9, electric putter 9's telescopic link top is fixed with roof-rack 12, roof-rack 12 is frame construction, the top both sides of roof-rack 12 are fixed with bearing frame 13, bearing frame 13 rotates through the bearing and is connected with step shaft 17, step shaft 17's middle part cover is established and is fixed with cylinder 11, for preventing that the tubular product surface after the shaping is by the fish tail, the preferred rubber material that is of cylinder 11's material, in order to prevent tubular product skew to both sides in the motion process, cylinder 11 has the thin waist tubular structure of circular arc recess for outside circumference integrated into one piece.

Through setting up electric putter 9 for when producing other model tubular product, only need control electric putter 9 and rise or descend just can adjust the height of bracket, can drive the roof-rack 12 that its top is fixed when electric putter 9 carries out concertina movement and reciprocate, and then can adjust cylinder 11 lift the height, and then can adapt to the height of current production tubular product, thereby need not to change the bracket, reach the purpose of simplified operation, labour saving and time saving.

To complete the control of the electric push rod 9; an electric cabinet 2 is fixed on the upper side of the underframe 1, a driver 14 is fixed in the electric cabinet 2, the driver 14 can be specifically selected according to the working condition of the electric push rod, no particular limitation is imposed in this embodiment, the driver 14 is electrically connected to the electric push rods 9, the number of the drivers 14 is the same as that of the electric push rods 9, and each electric push rod 9 is electrically connected to a corresponding driver 14; a panel 6 is fixed on the front side of the electric cabinet 2, a power switch 3, a descending button 4 and an ascending button 5 are fixed on the panel 6, and the descending button 4 and the ascending button 5 are electrically connected to a driver 14.

In order to secure the drum 11 in the middle of the stepped shaft 17 and prevent the stepped shaft 17 from axially shifting with respect to the bearing in the bearing housing 13; the double-end cover of step shaft 17 is equipped with sleeve pipe 10, sleeve pipe 10 sets up between the terminal surface of cylinder 11 and the terminal surface of bearing inner race in the bearing frame 13, the side of sleeve pipe 10 has machine rice screw 18 through threaded connection, sleeve pipe 10 is fixed in on the step shaft 17 through machine rice screw 18.

In order to provide the driver 14 and the electric push rod 9 with matched working voltage; a power supply block 15 is fixed in the electric cabinet 2, and the power switch 3 is electrically connected with the power supply block 15 and the driver 14; to facilitate the connection of the wires; the bottom of the rear side of the electric cabinet 2 is integrally provided with a threading hole 16.

To facilitate the leveling of the device as a whole; the bottom surface of the underframe 1 is integrally formed with a mounting cylinder 8, and the bottom end of the mounting cylinder 8 is connected with a footing 7 through threads.

The working principle is as follows: when the device is used, the device is firstly placed on the extrusion side of the extruder along the extrusion direction of the extruder, then the device is leveled through the rotating bottom feet 7, then the device is powered on, the power switch 3 is pressed down, and the lifting of the electric push rod 9 is controlled through the lifting button 5 or the descending button 4 according to the required height so as to adjust the height of the bracket;

when carrying out altitude mixture control, can drive the roof-rack 12 that its top is fixed when electric putter 9 carries out concertina movement and reciprocate, and then can adjust cylinder 11 lift the height, and then can adapt to the height of current production tubular product to need not to change the bracket, reach the purpose of simplified operation, labour saving and time saving.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (8)

1. The utility model provides an antibiotic PE tubular product extruder bracket mechanism of nanometer, includes chassis (1), its characterized in that, chassis (1) is frame structure, the top of chassis (1) is fixed with electric putter (9), the telescopic link top of electric putter (9) is fixed with roof-rack (12), roof-rack (12) are frame structure, the top both sides of roof-rack (12) are fixed with bearing frame (13), bearing frame (13) rotate through the bearing and are connected with shoulder shaft (17), the middle part cover of shoulder shaft (17) is established and is fixed with cylinder (11), cylinder (11) have the thin waist tubular structure of circular arc recess for outside circumference integrated into one piece.

2. The nanoscale antibacterial PE pipe extruder bracket mechanism according to claim 1, wherein an electric cabinet (2) is fixed on the upper side of the underframe (1), a driver (14) is fixed in the electric cabinet (2), the driver (14) is electrically connected to the electric push rods (9), and the number of the drivers (14) is the same as that of the electric push rods (9).

3. The nanometer grade antibacterial PE pipe extruder bracket mechanism according to claim 2, characterized in that a panel (6) is fixed on the front side of the electric cabinet (2), and a power switch (3), a descending button (4) and an ascending button (5) are fixed on the panel (6).

4. The nano-scale antibacterial PE pipe extruder carriage mechanism according to claim 3, wherein the descending button (4) and the ascending button (5) are electrically connected to the driver (14).

5. The nanometer grade antibacterial PE pipe extruder carriage mechanism according to claim 4, wherein a power supply block (15) is fixed in the electric cabinet (2), and the power switch (3) is electrically connected to the power supply block (15) and the driver (14).

6. The bracket mechanism of the nanoscale antibacterial PE pipe extruder according to claim 5, wherein sleeves (10) are sleeved at two ends of the stepped shaft (17), the sleeves (10) are arranged between the end face of the roller (11) and the end face of the inner bearing ring of the bearing seat (13), machine-meter screws (18) are connected to the side faces of the sleeves (10) through threads, and the sleeves (10) are fixed on the stepped shaft (17) through the machine-meter screws (18).

7. The nanometer antibacterial PE pipe extruder bracket mechanism according to claim 6, wherein a mounting cylinder (8) is integrally formed on the bottom surface of the bottom frame (1), and a bottom end of the mounting cylinder (8) is connected with a foot (7) through a thread.

8. The bracket mechanism of the nanometer antibacterial PE pipe extruder as claimed in claim 7, wherein a threading hole (16) is integrally formed at the bottom of the rear side of the electric cabinet (2).

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