CN104526515A - Profiled bar co-extrusion layer and bluish white layer separation mechanism - Google Patents

Abstract

The invention provides a profiled bar co-extrusion layer and bluish white layer separation mechanism. The profiled bar co-extrusion layer and bluish white layer separation mechanism comprises a machine frame, a feeding platform is arranged at one end of the upper end face of the machine frame, a grinding wheel mechanism used for grinding materials is arranged at the position, at the discharging end of the feeding platform, of the machine frame, the machine frame is further provided with a conveying platform and a gear grinding mechanism, the feeding platform is composed of a pair of L-shaped baffles and a base, the conveying platform is also composed of a pair of L-shaped baffles and a base, and the bases are arranged on the upper end face of the machine frame. The feeding platform and the conveying platform are adopted to avoid material excursion in the operating process, the grinding wheel mechanism grinds out a co-extrusion layer at the bottom face of materials, and the gear grinding mechanism is adopted to grind out co-extrusion layers on the two sides of materials, so that the co-extrusion layers and a bluish white layer of a profiled bar are separated, the effect is high, it is avoided that as the surface is not even enough in the manual removal process, burrs are generated and the surface layer of the bluish white layer is damaged, and the surface is more even after the co-extrusion layers are grinded out.

Description

The bluish white layer separating mechanism of a kind of profile shapes co-extrusion

Technical field

The present invention relates to profile shapes production field, be specifically related to the bluish white layer separating mechanism of a kind of profile shapes co-extrusion.

Background technology

Profile shapes processing co-extrusion profile shapes is out the profile shapes of coextruded layer and bluish white layer, and existing co-extrusion profile needs outer field coextruded layer to remove, and is reused by profile shapes, and existing removal profile shapes is manual to be ground off.The dynamics of hand can be caused so different and destroy the surface of the bluish white layer of profile shapes internal layer, production efficiency is lower simultaneously.

Summary of the invention

For above problems of the prior art, the invention provides the bluish white layer separating mechanism of a kind of profile shapes co-extrusion, make to improve efficiency, profile shapes surface is more smooth.

The present invention is achieved by the following technical solutions:

The bluish white layer separating mechanism of a kind of profile shapes co-extrusion, include frame, one end of the upper surface of described frame arranges feeding platform, described frame is positioned at the emery wheel mechanism of discharge end place setting for abrasive material of described feeding platform, described frame is also arranged conveying platform and gear abrasive material mechanism, described feeding platform is made up of a pair L-type baffle plate and base, described conveying platform is also made up of a pair L-type baffle plate and base, described base is arranged on the upper surface of described frame, the transverse plate part of described L-type baffle plate is fixed on the upper surface of described base, and form feeding-passage between longitudinal plate of described two L-type baffle plates,

Described emery wheel mechanism is made up of motor and grinding abrasive disk, described gear abrasive material mechanism is made up of a pair tooth emery wheel mechanism, described tooth emery wheel mechanism is made up of motor and gear, described motor is vertically arranged in described frame, the motor output end of described emery wheel mechanism is connected with described grinding abrasive disk, the motor output end of described tooth emery wheel mechanism is connected with described gear, and forms material passing passage between described two gears.

Further, described frame arranges cylinder feeding unit between described feeding platform and described emery wheel mechanism, described frame also all arranges cylinder feeding unit between described emery wheel mechanism and described conveying platform and between described conveying platform and described gear abrasive material mechanism, and the output described frame being positioned at described gear abrasive material mechanism also arranges cylinder feeding unit.

Further, described cylinder feeding unit includes the bracing frame being fixedly installed on described frame upper surface, support frame as described above top arranges cylinder, the gas bar bottom of described cylinder arranges fixed mount through support frame as described above, described fixed mount arranges upper pressure roller by roll shaft, described fixed mount bottom also arranges lower compression roller by roll shaft, and the top that the fixed mount side between described emery wheel mechanism and described conveying platform is positioned at described emery wheel mechanism arranges press mechanism on emery wheel.

Further, on described emery wheel, press mechanism is made up of pressure roller on pressure rack on emery wheel and emery wheel, on described emery wheel, pressure rack is arranged on the fixed mount side between described emery wheel mechanism and described conveying platform, and on described emery wheel, pressure roller to be arranged on described emery wheel in pressure rack by roll shaft.

Further, the outer wall of described lower compression roller is arranged at least one group of salient point, many groups salient point of described lower compression roller is uniformly distributed centered by the central shaft of described lower compression roller.

Beneficial effect of the present invention is: adopt feeding platform and conveying platform to avoid material skew operationally, the bottom surface coextruded layer of material grinds off by emery wheel mechanism, gear abrasive material mechanism is adopted to be ground off by the both sides coextruded layer of material, so just the coextruded layer of profile shapes can be separated with bluish white layer, make effect higher like this, the surface caused when simultaneously avoiding manual removal not evenly produces burr and damages bluish white layer top layer, grinds off coextruded layer more even.

Accompanying drawing explanation

Fig. 1 is structural representation of the present invention.

Fig. 2 is top view of the present utility model.

In figure: 1 is frame; 2 is feeding platform; 3 is emery wheel mechanism; 4 is conveying platform; 5 is gear abrasive material mechanism; 6 is L-type baffle plate; 7 is base; 8 is feeding-passage; 9 is motor; 10 is grinding abrasive disk; 11 is tooth emery wheel mechanism; 12 is gear; 13 is material passing passage; 14 is cylinder feeding unit; 15 is bracing frame; 16 is cylinder; 17 is fixed mount; 18 is roll shaft; 19 is upper pressure roller; 20 is lower compression roller; 21 is salient point; 22 is press mechanism on emery wheel; 23 is pressure rack on emery wheel; 24 is pressure roller on emery wheel.

Detailed description of the invention

In order to make object of the present invention, technical scheme and advantage clearly understand, below in conjunction with drawings and Examples, the present invention is further elaborated.Should be appreciated that specific embodiment described herein only in order to explain the present invention, be not intended to limit the present invention.

Please refer to Fig. 1 and Fig. 2, the invention provides a kind of profile shapes co-extrusion bluish white layer separating mechanism structure chart, include frame 1, one end of the upper surface of described frame 1 arranges feeding platform 2, described frame 1 is positioned at the emery wheel mechanism 3 of discharge end place setting for abrasive material of described feeding platform 2, described frame 1 is also arranged conveying platform 4 and gear abrasive material mechanism 5, described feeding platform 2 is made up of a pair L-type baffle plate 6 and base 7, described conveying platform 4 is also made up of a pair L-type baffle plate 6 and base 7, described base 7 is arranged on the upper surface of described frame 1, the transverse plate part of described L-type baffle plate 6 is fixed on the upper surface of described base 7, and form feeding-passage 8 between longitudinal plate of described two L-type baffle plates 6, material can be avoided operationally to produce skew,

Described emery wheel mechanism 3 is made up of motor 9 and grinding abrasive disk 10, described gear abrasive material mechanism 5 is made up of a pair tooth emery wheel mechanism 11, described tooth emery wheel mechanism 11 is made up of motor 9 and gear 12, described motor 9 is vertically arranged in described frame 1, motor 9 output of described emery wheel mechanism 3 is connected with described grinding abrasive disk 10, motor 9 output of described tooth emery wheel mechanism 11 is connected with described gear 12, and forms material passing passage 13 between described two gears 12, the coextruded layer of material both sides can be ground off.

Please refer to Fig. 1 and Fig. 2, preferably, described frame 1 arranges cylinder feeding unit 14 between described feeding platform 2 and described emery wheel mechanism 3, described frame 1 also all arranges cylinder feeding unit 14 between described emery wheel mechanism 3 and described conveying platform 4 and between described conveying platform 4 and described gear abrasive material mechanism 5, and the output described frame 1 being positioned at described gear abrasive material mechanism 5 also arranges cylinder feeding unit 14.

Please refer to Fig. 1 and Fig. 2, preferably, described cylinder feeding unit 14 includes the bracing frame 15 being fixedly installed on described frame 1 upper surface, support frame as described above 15 top arranges cylinder 16, the gas bar bottom of described cylinder 16 arranges fixed mount 17 through support frame as described above 15, described fixed mount 17 arranges upper pressure roller 19 by roll shaft 18, described fixed mount 1 bottom also arranges lower compression roller 20 by roll shaft 18, and the top that fixed mount 17 side between described emery wheel mechanism 3 and described conveying platform 4 is positioned at described emery wheel mechanism 3 arranges press mechanism 22 on emery wheel.

Please refer to Fig. 1 and Fig. 2, preferably, on described emery wheel, press mechanism 22 is made up of pressure roller 24 on pressure rack on emery wheel 23 and emery wheel, on described emery wheel, pressure rack 23 is arranged on fixed mount 17 side between described emery wheel mechanism 3 and described conveying platform 4, and on described emery wheel, pressure roller 24 to be arranged on described emery wheel in pressure rack 23 by roll shaft 18.

Please refer to Fig. 1, preferably, the outer wall of described lower compression roller 20 arranges at least one group of salient point 21, many groups salient point 21 of described lower compression roller 20 is uniformly distributed centered by the central shaft of described lower compression roller 20, salient point arranges the material end removing that can produce after grinding off coextruded layer, bluish white layer can also be made more smooth simultaneously.

During work, the outer coextruded layer of co-extrusion profile faces down and between the longitudinal plate from two L-type baffle plates 6, forms feeding-passage 8 be transported between upper lower compression roller, and upper pressure roller is undertaken by cylinder, and regulating moves up and down compresses material, and then polished off by the bottom surface of grinding abrasive disk by the bluish white layer of coextruded layer, then carried by the cylinder feeding unit between emery wheel mechanism 3 and conveying platform 4, then feeding unit carries out material to carry, prevent material sideslip when carrying, cylinder feeding unit again between conveying platform 4 and gear abrasive material mechanism is carried, material passing passage 13 material that formed is connected with described gear 12 through out-of-date again through motor 9 output of tooth emery wheel mechanism 11, two gears 12 rotate and the outer coextruded layer frosted of profile shapes both sides are fallen, cylinder feeding unit 14 finally by the output of gear abrasive material mechanism 5 transfers out, so just the coextruded layer of profile shapes can be separated with bluish white layer, make effect higher like this, the surface caused when simultaneously avoiding manual removal not evenly produces burr and damages bluish white layer top layer, grind off coextruded layer more even.

The present invention adopts feeding platform and conveying platform to avoid material skew operationally, the bottom surface coextruded layer of material grinds off by emery wheel mechanism, gear abrasive material mechanism is adopted to be ground off by the both sides coextruded layer of material, so just the coextruded layer of profile shapes can be separated with bluish white layer, make effect higher like this, the surface caused when simultaneously avoiding manual removal not evenly produces burr and damages bluish white layer top layer, grinds off coextruded layer more even.

The foregoing is only preferred embodiment of the present invention, not in order to limit the present invention, all any amendments done within the spirit and principles in the present invention, equivalent replacement and improvement etc., all should be included within protection scope of the present invention.

Claims (5)

1. the bluish white layer separating mechanism of profile shapes co-extrusion, it is characterized in that: include frame (1), one end of the upper surface of described frame (1) arranges feeding platform (2), the discharge end place described frame (1) being positioned at described feeding platform (2) arranges the emery wheel mechanism (3) being used for abrasive material, described frame (1) is also arranged conveying platform (4) and gear abrasive material mechanism (5), described feeding platform (2) is made up of a pair L-type baffle plate (6) and base (7), described conveying platform (4) is also made up of a pair L-type baffle plate (6) and base (7), described base (7) is arranged on the upper surface of described frame (1), the transverse plate part of described L-type baffle plate (6) is fixed on the upper surface of described base (7), and form feeding-passage (8) between longitudinal plate of described two L-type baffle plates (6),

Described emery wheel mechanism (3) is made up of motor (9) and grinding abrasive disk (10), described gear abrasive material mechanism (5) is made up of a pair tooth emery wheel mechanism (11), described tooth emery wheel mechanism (11) is made up of motor (9) and gear (12), described motor (9) is vertically arranged in described frame (1), motor (9) output of described emery wheel mechanism (3) is connected with described grinding abrasive disk (10), motor (9) output of described tooth emery wheel mechanism (11) is connected with described gear (12), and form material passing passage (13) between described two gears (12).

2. the bluish white layer separating mechanism of a kind of profile shapes co-extrusion according to claim 1, it is characterized in that: described frame (1) is positioned between described feeding platform (2) and described emery wheel mechanism (3) and cylinder feeding unit (14) is set, described frame (1) is positioned between described emery wheel mechanism (3) and described conveying platform (4) and between described conveying platform (4) and described gear abrasive material mechanism (5) and cylinder feeding unit (14) is also all set, the output described frame (1) being positioned at described gear abrasive material mechanism (5) also arranges cylinder feeding unit (14).

3. the bluish white layer separating mechanism of a kind of profile shapes co-extrusion according to claim 2, it is characterized in that: described cylinder feeding unit (14) includes the bracing frame (15) being fixedly installed on described frame (1) upper surface, support frame as described above (15) top arranges cylinder (16), the gas bar bottom of described cylinder (16) arranges fixed mount (17) through support frame as described above (15), described fixed mount (17) arranges upper pressure roller (19) by roll shaft (18), described fixed mount (1) bottom also arranges lower compression roller (20) by roll shaft (18), the top that fixed mount (17) side between described emery wheel mechanism (3) and described conveying platform (4) is positioned at described emery wheel mechanism (3) arranges press mechanism on emery wheel (22).

4. the bluish white layer separating mechanism of a kind of profile shapes co-extrusion according to claim 3, it is characterized in that: on described emery wheel, press mechanism (22) is made up of pressure roller (24) on pressure rack on emery wheel (23) and emery wheel, on described emery wheel, pressure rack (23) is arranged on fixed mount (17) side between described emery wheel mechanism (3) and described conveying platform (4), and on described emery wheel, pressure roller (24) to be arranged on described emery wheel in pressure rack (23) by roll shaft (18).

5. the bluish white layer separating mechanism of a kind of profile shapes co-extrusion according to claim 3, it is characterized in that: the outer wall of described lower compression roller (20) is arranged at least one group of salient point (21), many groups salient point (21) of described lower compression roller (20) is uniformly distributed centered by the central shaft of described lower compression roller (20).