CN217862214U - Rubber waste recycling device - Google Patents

Abstract

The utility model relates to a rubber waste recycling device which is used for receiving rubber waste discharged by a rubber calender and conveying the rubber waste to the feeding end of the rubber calender again for recycling, and comprises a frame and a waste guide mechanism arranged on one side of the frame; still including accepting the leading-in rubber waste material of waste material guide mechanism and inciting somebody to action the perpendicular defeated material mechanism of carrying that rubber waste material is perpendicular upwards carried, and accept the rubber waste material that the perpendicular defeated material mechanism carried and will rubber waste material evenly distributes the cloth mechanism of the feed end of rubber calender, the perpendicular defeated material mechanism will the preliminary pressfitting of rubber waste material. The utility model discloses can carry the rubber waste material to the feed end of rubber calender automatically again, and realize the circulation and retrieve, and can be used for the limited place in space, and have better result of use.

Description

Rubber waste recycling device

Technical Field

The utility model relates to a rubber waste retrieves technical field, especially relates to a rubber waste recycling device.

Background

The rubber calender is a device which is arranged by two or more than two rollers according to a heating mode and presses and extends rubber into a film or a thin film with certain thickness and surface shape. In the rubber calender working process, need cut the leftover bits of film or the film both sides that the suppression extended into, among the prior art, the leftover bits after the cutting are earlier collected via the garbage collection box of laying aside in rubber calender both sides, later transport to rubbing crusher department via the manual work, and the reprocessing after smashing is used, and makes the leftover bits recycle and use inconvenient.

SUMMERY OF THE UTILITY MODEL

The utility model provides a rubber waste recycling device can carry the rubber waste material to the feed end of rubber calender automatically again, and realizes recycling, and can be used for the limited place in space, and has better result of use.

The utility model adopts the technical proposal that: a rubber waste recycling device receives rubber waste discharged by a rubber calender and conveys the rubber waste to a feed end of the rubber calender again for recycling, and comprises a rack and a waste guide mechanism arranged on one side of the rack; still including accepting the leading-in rubber waste material of waste material guide mechanism and inciting somebody to action the perpendicular defeated material mechanism of rubber waste material perpendicular upwards carrying, and accept the rubber waste material that the mechanism of perpendicular defeated material carried, and inciting somebody to action the rubber waste material evenly arranges the cloth mechanism of the feed end of rubber calender, the mechanism of perpendicular defeated material will the preliminary pressfitting of rubber waste material.

As a further limitation to the above technical solution, the rubber calender further includes two sets of material cutting mechanisms disposed on both sides of the rubber calender and capable of feeding in the direction of the rubber calender to cut off waste rubber materials on both sides of the rubber calender.

As a further limitation to the above technical solution, the rubber waste material guiding device further includes two sets of scraping mechanisms respectively connected to the two sets of material cutting mechanisms and cooperating with the material cutting mechanisms to scrape the rubber waste material on the rubber calender, and each scraping mechanism guides the scraped rubber waste material into the waste material guiding mechanism.

As a further limitation to the above technical solution, the vertical material conveying mechanism includes two material conveying assemblies arranged on the rack in an overlapping manner with a gap, each material conveying assembly includes a motor and a driving roller in transmission connection with the motor; the conveying belt is wound between the driving roller and the driven rollers, and two ends of the two conveying belts are respectively arranged in a staggered mode.

As a further limitation to the above technical solution, the scrap material guiding mechanism includes a first material guiding portion installed on the rack, and the first material guiding portion includes two baffles symmetrically disposed on two sides of one end of the rack, and two guide rollers rotatably installed between the two baffles.

As a further limitation to the above technical solution, the waste material guiding mechanism further includes two sets of second guiding portions for respectively receiving the rubber waste material scraped by the scraping mechanism, and the second guiding portions guide the rubber waste material onto the conveyor belt between the two baffles.

As a further limitation to the above technical solution, the second material guiding portion includes mounting brackets with adjustable angles, and a material guiding assembly mounted between the mounting brackets; the material guiding device further comprises a material guiding belt wound on the material guiding assembly.

As a further limitation to the above technical scheme, the material distribution mechanism includes an installation frame and a material distribution belt installed in the installation frame, one side of the installation frame is connected with a linear module, the other side of the installation frame is connected with a linear guide rail, and the material distribution belt is driven by the linear module to uniformly distribute the rubber waste material at the feeding end of the rubber calender.

As a further limitation to the above technical solution, each of the material cutting mechanisms includes an air cylinder mounted on the mounting bracket, and a cutter mounted on the air cylinder via a mounting block group.

As a further limitation to the above technical solution, each scraping mechanism includes a bracket mounted on the mounting block set, and a scraper mounted on the bracket, and a distal end of the scraper extends above the material guide belt.

The utility model discloses a rubber waste recycling device, through the frame, lay in the waste material guide mechanism of frame one side, accept the leading-in rubber waste material of waste material guide mechanism, and with the perpendicular defeated material mechanism of the perpendicular upwards transport of rubber waste material, and accept the rubber waste material of the perpendicular defeated material mechanism transport, and evenly lay the setting of the cloth mechanism of the feed end of rubber calender with the rubber waste material, can accept the rubber waste material of rubber calender unloading, and carry the rubber waste material to the feed end of rubber calender to circulate again automatically and retrieve, can realize the perpendicular transport of rubber waste material in the limited space simultaneously, and be applicable to the limited place in space and use.

Drawings

FIG. 1 is a diagram showing a state of the recycling device for rubber waste of the present invention;

FIG. 2 is a schematic view of an assembly structure of the rubber waste recycling device of the present invention;

FIG. 3 is an enlarged view of a portion of FIG. 2;

FIG. 4 is a schematic view of an assembly structure of the vertical feeding mechanism, the distributing mechanism and the first material guiding portion of the present invention;

FIG. 5 is a partial enlarged view of FIG. 4 at B;

fig. 6 is a schematic view of an assembly structure of the material cutting mechanism, the material scraping mechanism and the second material guiding portion of the present invention;

FIG. 7 is an enlarged view of a portion of FIG. 6 at C;

fig. 8 is a schematic view of a partial assembly structure of the material cutting mechanism and the material scraping mechanism of the present invention.

In the figure:

1-frame, 11-vertical section, 12-horizontal section, 21-first material guiding part, 211-baffle, 212-guide roller, 22-second material guiding part, 221-material guiding belt mounting plate, 222-hoisting plate, 223-circular arc groove, 224-material guiding component, 225-material guiding belt, 3-vertical material conveying mechanism, 31-motor, 32-driving roller, 33-driven roller, 34-first material conveying belt, 35-second material conveying belt, 4-material distributing mechanism, 41-mounting frame, 42-material distributing belt, 43-linear module, 44-linear guide rail, 5-material cutting mechanism, 51-air cylinder, 52-mounting block group, 53-cutting knife, 6-material scraping mechanism, 61-support, 62-scraping plate and 7-rubber calender.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Examples

As shown in fig. 1 to 8, a rubber waste recycling device receives rubber waste discharged from a rubber calender 7 and conveys the rubber waste to a feeding end of the rubber calender 7 for recycling, and the rubber waste recycling device comprises a frame 1 and a waste guide mechanism arranged on one side of the frame 1; still including accepting the leading-in rubber waste material of waste material guide mechanism and with the perpendicular defeated material mechanism 3 of rubber waste material perpendicular upwards carrying to and accept the rubber waste material of perpendicular defeated material mechanism 3 transport and evenly distribute the rubber waste material in the cloth mechanism 4 of the feed end of rubber calender 7, the perpendicular defeated material mechanism 3 is with the preliminary pressfitting of rubber waste material.

Specifically, as shown in fig. 1 and 2 in combination with fig. 6, in order to facilitate cutting of the rubber waste after rolling by the rubber calender 7, the rubber waste recycling device further includes two sets of cutting mechanisms 5 which are disposed on both sides of the rubber calender 7 and can feed in the direction of the rubber calender 7 to cut off the rubber waste on both sides of the rubber calender 7. In order to facilitate the automatic removal of the rubber waste adhered to the roller of the rubber calender 7, the rubber waste recycling device further comprises two groups of scraping mechanisms 6 which are respectively connected to the two groups of cutting mechanisms 5 and used for scraping the rubber waste on the rubber calender 7 by matching the cutting mechanisms 5, and the rubber waste guiding mechanisms are respectively used for guiding the rubber waste after scraping by the scraping mechanisms 6.

In order to facilitate the circular conveying of rubber waste in a limited space, a vertical conveying mechanism 3 is provided, specifically, as shown in fig. 2 to 4, the vertical conveying mechanism 3 includes two groups of conveying assemblies overlapped on the frame 1 with gaps, each group of conveying assemblies includes a motor 31, a driving roller 32 in transmission connection with the motor 31, a plurality of driven rollers 33 arranged in parallel with the driving roller 32 at intervals, and a plurality of conveyor belts wound between the driving roller 32 and the driven rollers 33, and two ends of the two conveyor belts are respectively arranged in a staggered manner. Rubber waste enters the gap between the two material conveying assemblies for preliminary pressing.

Specifically, the rack 1 has a vertical section 11 and two horizontal sections 12 respectively formed at two ends of the vertical section 11, the arrangement of the two horizontal sections 12 is determined according to actual use occasions, which may be strict horizontal sections 12 or horizontal sections 12 with a certain inclination angle, the two conveyor belts are arranged along the rack 1 in a profiling manner, specifically, the conveyor belt overlapped at the rear of the vertical section 11 is a first conveyor belt 34, the other conveyor belt is a second conveyor belt 35, the horizontal section of the first conveyor belt 34 at the feed end is located below the horizontal section of the second conveyor belt 35, the horizontal section of the first conveyor belt 34 at the discharge end is longer in length, the horizontal section of the first conveyor belt 34 at the discharge end is located above the horizontal section of the second conveyor belt 35, and the horizontal section of the second conveyor belt 35 is longer in length.

As shown in fig. 2 and fig. 4, the waste material guiding mechanism includes a first material guiding portion 21 installed on the frame 1, the first material guiding portion 21 includes two baffles 211 symmetrically disposed at two sides of one end of the frame 1, and two guide rollers 212 rotatably installed between the two baffles 211, specifically, the two baffles 211 are symmetrically disposed at two sides of a horizontal section at a feeding end of the first material conveying belt 34, and the two guide rollers 212 are located above the horizontal section at the feeding end of the first material conveying belt 34.

In order to achieve better material guiding effect, the waste material guiding mechanism further includes two sets of second material guiding portions 22 for respectively receiving the rubber waste materials scraped by the scraping mechanism 6, and the second material guiding portions 22 guide the rubber waste materials onto the conveyor belt between the two baffles 211, i.e. onto the horizontal section at the feeding end of the first material conveying belt 34. In order to achieve a better material guiding effect, the inclination angle of the second material guiding portion 22 is adjustable, specifically, the second material guiding portion 22 includes mounting brackets 61 with adjustable angles, a material guiding assembly 224 installed between the mounting brackets 61, and a material guiding belt 225 wound around the material guiding assembly 224. As shown in fig. 6 and 7, the mounting bracket 61 includes a material guiding belt mounting plate 221, and a hoisting plate 222 which is mounted with the material guiding belt mounting plate 221 in an angle adjustable manner, specifically, an arc groove 223 is formed on the hoisting plate 222, the material guiding belt mounting plate 221 is slidably mounted in the arc groove 223 via a bolt, the material guiding assembly 224 includes a driving roller and a driven roller which are mounted on the material guiding belt mounting plate 221, the material guiding belt 225 is wound between the driving roller and the driven roller, and the material guiding assembly 224 further includes a power assembly which drives the driving roller to rotate. Specifically, for the convenience of hoisting, a hoisting rod is inserted into the hoisting plate 222, and two ends of the hoisting rod can be detachably mounted on the rubber calender 7 through the base body.

For the convenience of cutting, as shown in fig. 1 and fig. 6 in combination with fig. 8, each material cutting mechanism 5 includes an air cylinder 51 mounted on the mounting bracket 61, and a cutting knife 53 mounted on the air cylinder 51 via a mounting block group 52, specifically, the air cylinder 51 is mounted on the hoisting plate 222, and the air cylinder 51 can push the mounting block group 52 to move forward and backward in the direction of the rubber calender 7, and drive the cutting knife 53 to move forward and backward in the direction of the rubber calender 7. Each scraping mechanism 6 comprises a bracket 61 mounted on the mounting block set 52, and a scraper 62 mounted on the bracket 61, wherein the end of the scraper 62 extends above the guide belt 225, i.e. the scraper 62 has an inclination, so that the scraped rubber waste enters the guide belt 225 along the scraper 62.

In order to facilitate automatic arrangement of the rubber waste conveyed to the feeding end of the rubber calender 7 by the vertical conveying mechanism 3 and facilitate direct calendering, as shown in fig. 2 to 5, the distributing mechanism 4 includes an installation frame 41 and a distributing belt 42 installed in the installation frame 41, one side of the installation frame 41 is connected to a linear module 43, and the other side is connected to a linear guide rail 44, the distributing belt 42 is driven by the linear module 43 to distribute the rubber waste uniformly at the feeding end of the rubber calender 7, specifically, the linear module 43 is installed at one side of the frame 1 at the second conveying belt 35, the installation frame 41 is connected to the linear module 43 via a connecting plate, the other side of the frame 1 at the second conveying belt 35 is formed with a sliding rail, the linear guide rail 44 is slidably installed in the sliding rail, and the linear guide rail 44 is also connected to the installation frame 41 via another connecting plate.

Specifically, rubber calender 7 during operation, cylinder 51 drives cutter 53 and feeds to rubber calender 7 direction, and under the rubber waste material excision that will need the excision, scraper 62 carries out automatic scraping, via the leading-in guide strip 225 of scraper 62, and carry in order to the horizontal segment 12 of the feed end department of first defeated material area 34, after carrying out the vertical feed through first conveyer belt and second conveyer belt, fall into cloth area 42, and even cloth in rubber calender 7's feed end under the drive of sharp module 43.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be covered by the present invention within the technical scope of the present invention, and the technical solution obtained by replacing or changing the technical idea of the present invention with equivalents.

Claims (10)

1. The utility model provides a rubber waste recycling device accepts the rubber waste of rubber calender unloading, and will rubber waste convey again to the feed end of rubber calender circulates and retrieves its characterized in that: comprises a frame and a waste material guide mechanism arranged on one side of the frame; still including accepting the leading-in rubber waste material of waste material guide mechanism and inciting somebody to action the perpendicular defeated material mechanism of carrying that rubber waste material is perpendicular upwards carried, and accept the rubber waste material that the perpendicular defeated material mechanism carried and will rubber waste material evenly distributes the cloth mechanism of the feed end of rubber calender, the perpendicular defeated material mechanism will the preliminary pressfitting of rubber waste material.

2. The rubber waste recycling device of claim 1, wherein: the rubber calender is characterized by further comprising two groups of material cutting mechanisms which are arranged on two sides of the rubber calender and can feed the rubber calender in the direction of the rubber calender to cut off rubber waste materials on two sides of the rubber calender.

3. The rubber waste recycling device according to claim 2, wherein: the rubber waste material scraping mechanism is characterized by further comprising two groups of scraping mechanisms which are respectively connected to the two groups of material cutting mechanisms and matched with the material cutting mechanisms to scrape the rubber waste material on the rubber calender, and the scraping mechanisms are used for guiding the scraped rubber waste material into the waste material guiding mechanism.

4. The rubber waste recycling device according to claim 3, wherein: the vertical material conveying mechanism comprises two groups of material conveying assemblies which are overlapped on the rack with gaps, and each group of material conveying assemblies comprises a motor and a driving roller which is in transmission connection with the motor; the conveying belt is wound between the driving roller and the driven rollers, and two ends of the two conveying belts are respectively arranged in a staggered mode.

5. The rubber waste recycling device of claim 4, wherein: the waste material guide mechanism comprises a first guide part arranged on the rack, and the first guide part comprises two baffles symmetrically arranged on two sides of one end of the rack and two guide rollers rotatably arranged between the two baffles.

6. The rubber waste recycling device of claim 5, wherein: the waste material guiding mechanism further comprises two groups of second guiding parts which are used for respectively receiving the rubber waste materials scraped by the scraping mechanism, and the second guiding parts are used for guiding the rubber waste materials to the conveying belt between the two baffles.

7. The rubber waste recycling device of claim 6, wherein: the second material guiding part comprises mounting brackets with adjustable angles and material guiding components mounted between the mounting brackets; the material guiding device further comprises a material guiding belt wound on the material guiding assembly.

8. The rubber waste recycling device according to claim 4, wherein: the cloth mechanism includes the installation frame, and install in cloth area in the installation frame, one side of installation frame is connected with sharp module, the opposite side is connected with linear guide, the cloth area will under the drive of sharp module the even cloth of rubber waste in the feed end of rubber calender.

9. The recycling device of rubber waste as claimed in claim 7, wherein: each blanking mechanism comprises an air cylinder arranged on the mounting bracket and a cutter arranged on the air cylinder through a mounting block group.

10. The recycling device of rubber waste as claimed in claim 9, wherein: each scraping mechanism comprises a support arranged on the mounting block group and a scraping plate arranged on the support, and the tail end of the scraping plate extends into the upper part of the guide belt.

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