CN210303863U - Modified asphalt material splitting device - Google Patents

Abstract

The utility model relates to a modified asphalt material splitting device, which comprises a shell consisting of an upper shell and a lower shell, a drum screen and a bag cutting device which are arranged in the shell; the top of one end of the upper shell is provided with a feeding hole, and the bottom of the other end of the upper shell is provided with a discharging hopper; the rotary screen is arranged in the upper shell, and a large gear ring is arranged at the discharge end of the rotary screen; the upper shell at the discharge end of the drum screen is provided with a crushed bag discharge cover, the drum screen motor is arranged at the top of the crushed bag discharge cover, and the drum screen motor is connected with a large gear ring arranged at the discharge end of the drum screen through a chain; the bottom of the inner side of the lower shell is provided with a spiral conveying rod A. The utility model provides a simple structure has solved in the modified asphalt processing, and the raw materials wrapping bag is broken and the separation, can also solve the glutinous problem of raw materials, guarantees operational environment's clean and tidy, reduces workman's intensity of labour, improves the efficiency of work.

Description

Modified asphalt material splitting device

Technical Field

The utility model relates to a modified asphalt material split device belongs to conveyor technical field.

Background

In the processing of the modified asphalt, because the raw materials are all packaged by large packaging bags, in use, workers need to cut the packaging bags and pour the materials out for use, so that the problems that firstly, part of the materials are bonded together, the processing quality of the modified asphalt is influenced, secondly, the crushed packaging bags are inconvenient to recycle, the working environment is messy, and meanwhile, the materials are easy to fall into impurities; thirdly, the labor intensity of workers is high, and the working efficiency is not high.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a solve the problem that the wrapping bag in the modified asphalt course of working was indiscriminately put and was retrieved to and the problem of material bonding, provide a modified asphalt material split device, this modified asphalt material split device is used for the automatic conveyor of material, especially is used in modified asphalt's processing. The automatic material conveying device comprises a pair-roller extruder, a belt conveyor and a modified asphalt material splitting device.

The utility model provides an above-mentioned technical problem's technical scheme as follows: a modified asphalt material splitting device is characterized by comprising a shell consisting of an upper shell and a lower shell, a drum screen and a bag cutting device, wherein the drum screen and the bag cutting device are arranged in the shell; the top of one end of the upper shell is provided with a feeding hole, and the bottom of the other end of the upper shell is provided with a discharging hopper; the bag cutting device is arranged at the feed port end of the upper shell and comprises a pair of cutter shafts, the cutter shafts are arranged at the upper part of the feed port end of the upper shell in a staggered manner, two ends of each cutter shaft are arranged on bearings on the upper shell, one end of each cutter shaft penetrates out of the upper shell, the end part of each cutter shaft penetrating out of the upper shell is connected with a cutter shaft motor through a coupling, the cutter shaft motor is arranged on the outer side wall of the upper shell through a support, a plurality of crushing cutters are arranged on the cutter shafts through shaft sleeves, the number of the crushing cutters is generally 3-10, 4 crushing cutters are arranged on the best cutter shaft, 5 crushing cutters are arranged on the other cutter shaft, each crushing cutter is an annular steel plate or a square; the rotary screen is arranged in the upper shell, the feeding end of the rotary screen is close to the bag cutting device, two ends of the rotary screen are respectively provided with an annular groove-shaped rail, supporting wheels arranged on the inner side wall of the upper shell are supported on the rails, each rail is provided with four supporting wheels, the upper side and the lower side of the inner side wall of two sides of the upper shell are respectively provided with one supporting wheel, each rail is provided with 4 supporting wheels, so that 8 supporting wheels are arranged in the upper shell, the discharging end of the rotary screen exceeds the upper shell, and the discharging end of the rotary screen is provided with a large gear ring; the upper shell at the discharge end of the drum screen is provided with a crushed bag discharge cover, the crushed bag discharge cover is provided with an interface of which the side surface is butted with the upper shell and a crushed bag outlet at the bottom, a drum screen motor is arranged at the top of the crushed bag discharge cover, and the drum screen motor is connected with a large gear ring arranged at the discharge end of the drum screen through a chain; the inboard bottom installation screw conveyor A of casing down, screw conveyor A's axostylus axostyle both ends are passed through the bearing and are installed the both ends of casing under, and screw conveyor A's axostylus axostyle the tip of wearing out casing down passes through a coupling joint motor, and casing bottom sets up the discharge opening down, and the discharge opening is located the below of drum sieve discharge end.

On the basis of the technical scheme, the utility model discloses a reach the convenience of use and the stability of equipment, can also make following improvement to foretell technical scheme:

furthermore, an inclined material plate is arranged at the feed inlet end of the upper shell, a crushing knife edge is arranged on the material plate, and the material plate extends into the drum screen.

Furthermore, two side walls of the lower shell are obliquely arranged, and the bottom parts of the two side walls of the lower shell are provided with semicircular screw rod sleeves.

Further, the discharge opening of lower casing connect spiral delivery mechanism B, spiral delivery mechanism B include conveying sleeve, spiral conveying rod B installs in conveying sleeve, spiral conveying rod B's one end is connected with a motor, conveying sleeve's middle part sets up one and connects the material mouth, conveying sleeve's both ends respectively set up a discharge gate, conveying sleeve connects the material mouth to dock with the discharge opening of lower casing.

Furthermore, the shell is provided with four supporting legs. The legs are used to raise the housing.

Furthermore, the pair-roller extruder comprises a rack provided with universal wheels, wherein the front end of the rack is provided with a roller row, the rear end of the rack is provided with an upper roller row and a lower roller row through a side mounting plate, and the roller rows are connected with a motor; one end of the belt conveyor is positioned below the side mounting plate end of the double-roller extruder, and the other end of the belt conveyor is positioned at the feed inlet of the upper shell; the belt conveyor is arranged on the bracket.

The utility model has the advantages that: the utility model provides an automatic conveying device, the material loading is convenient, as long as put bagged raw materials on the pair roller extruder, conveying that just can be automatic, convey the bag device that cuts of modified asphalt material split device through band conveyer, cut broken behind the sack by broken sword, raw materials and broken sack separate in the drum sieve, the garrulous bag is collected the collection device that the cover assembles the back and fall into the below at the garrulous bag in, convenient follow-up processing, the material sieves the back, bolt conveying pole B is carried to the auger delivery pole A of casing bottom down, auger delivery pole B emits the material from the discharge opening at both ends through corotation and reversal. The effect of pair roller extruder is with the preliminary extrusion of the material of sack, has the effect of crushing separation to the material that the adhesion is in the same place, and the crushing sword can be to the further crushing separation of material when cutting the sack, and the drum sieve is in the screening, and the crushing that can be further, and the purpose that adopts the auger delivery pole is when carrying, broken material, also can realize the control of material quantity simultaneously. This application can improve operational environment when solving the separation problem of material wrapping bag after the breakage, reduces the raise dust, reduces workman's intensity of labour, improves the efficiency of work.

Drawings

Fig. 1 is a schematic overall structure diagram of an automatic material conveying device in the present application;

FIG. 2 is a schematic structural diagram of a modified asphalt material splitting device in FIG. 1;

FIG. 3 is a side view of the structure of FIG. 2;

FIG. 4 is a schematic view of the installation relationship of the bag cutting device.

The reference numbers are recorded as follows: 1-pair roller extruder, 1.1-frame, 1.2-side mounting plate, 2-belt conveyor, 3-modified asphalt material splitting device, 3.1-upper shell, 3.2-lower shell, 3.3-knife shaft, 3.4-knife shaft motor, 3.5-crushing knife, 3.6-drum screen, 3.7-rail, 3.8-supporting wheel, 3.9-crushed bag collecting cover, 3.10-spiral conveying rod A, 3.11-spiral conveying rod B, 3.12-drum screen motor, 3.13-conveying sleeve and 3.14-inclined plate.

Detailed Description

The principles and features of the present invention are described below in conjunction with the following drawings, the examples given are only intended to illustrate the present invention and are not intended to limit the scope of the present invention.

A modified asphalt material splitting device (see figures 1-4) comprises a shell consisting of an upper shell 3.1 and a lower shell 3.2, a rotary screen and a bag cutting device which are arranged in the shell; the top of one end of the upper shell 3.1 is provided with a feeding hole, and the bottom of the other end is provided with a discharging hopper; the bag cutting device is arranged at the feed port end of the upper shell and comprises a pair of cutter shafts 3.3, the cutter shafts 3.3 are arranged at the upper part of the feed port end of the upper shell 3.1 in a staggered manner, two ends of each cutter shaft 3.3 are arranged on bearings on the upper shell 3.1, one end of each cutter shaft 3.3 penetrates out of the upper shell 3.1, the end part of each cutter shaft 3.3 penetrating out of the upper shell 3.1 is connected with a cutter shaft motor 3.4 through a coupler, each cutter shaft motor 3.4 is arranged on the outer side wall of the upper shell 3.1 through a support, a plurality of crushing cutters 3.5 are arranged on the cutter shafts 3.3 through shaft sleeves, the number of the crushing cutters is generally 3-10, 4 crushing cutters are arranged on the best cutter shaft, 5 crushing cutters are arranged on the other cutter shaft, each crushing cutter shaft is an annular steel plate or a square steel plate welded on each shaft; the trommel 3.6 is arranged in the upper shell 3.1, the feeding end of the trommel 3.6 is close to the bag cutting device, two ends of the trommel 3.6 are respectively provided with an annular groove-shaped rail 3.7, supporting wheels 3.8 arranged on the inner side wall of the upper shell 3.1 are supported on the rails 3.7, each rail 3.7 is provided with four supporting wheels 3.8, the upper part and the lower part of the inner side wall of the two sides of the upper shell 3.1 are respectively provided with one supporting wheel 3.8, each rail is provided with 4 supporting wheels, so that the inner shell is internally provided with 8 supporting wheels altogether, the discharging end of the trommel 3.6 exceeds the upper shell 3.1, and the discharging end of the trommel 3.6 is provided with a large gear ring; a crushed bag discharging cover 3.9 is arranged on an upper shell 3.1 at the discharging end of the drum screen 3.6, the crushed bag discharging cover 3.9 is provided with a port with a side surface butted with the upper shell 3.1 and a crushed bag outlet at the bottom, a drum screen motor 3.12 is arranged at the top of the crushed bag discharging cover 3.9, and the drum screen motor 3.12 is connected with a big gear ring arranged at the discharging end of the drum screen 3.6 through a chain; the inboard bottom installation screw conveyor pole A3.10 of lower casing 3.3, the axostylus axostyle both ends of screw conveyor pole A3.10 are passed through the bearing and are installed at the both ends of casing 3.2 down, and the tip that the axostylus axostyle of screw conveyor pole A3.10 wore out lower casing 3.2 passes through a coupling joint motor, and lower casing 3.2 bottom sets up the discharge opening, and the discharge opening is located the below of drum sieve 3.6 discharge end.

An inclined material plate is arranged at the feed inlet end of the upper shell 3.1, a crushing knife edge is arranged on the material plate, and the material plate extends into the rotary screen 3.6.

The two side walls of the lower shell 3.2 are obliquely arranged, and the bottom parts of the two side walls of the lower shell 3.2 are provided with semicircular screw rod sleeves.

The discharge opening of lower casing 3.2 connect spiral delivery mechanism B, spiral delivery mechanism B include conveying sleeve 3.13, spiral conveying pole B3.11 is installed in conveying sleeve 3.13, spiral conveying pole B3.11's one end is connected with a motor, conveying sleeve 3.13's middle part sets up one and connects the material mouth, conveying sleeve 3.13's both ends respectively set up a discharge gate, conveying sleeve connects material mouth and lower casing 3.2's discharge opening butt joint.

The shell is provided with four supporting legs. The legs are used to raise the housing.

The pair-roller extruder 1 comprises a rack 1.1 provided with universal wheels, wherein the front end of the rack 1.1 is provided with a roller row, the rear end of the rack 1.1 is provided with an upper roller row and a lower roller row through a side mounting plate 1.2, and the roller rows are connected with a motor; one end of the belt conveyor 2 is positioned below the end of the side mounting plate 1.2 of the double-roller extruder 1, and the other end of the belt conveyor 2 is positioned at the feed inlet of the upper shell 3.1; the belt conveyor 2 is arranged on the bracket.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included within the protection scope of the present invention.

Claims (5)

1. A modified asphalt material splitting device is characterized by comprising a shell consisting of an upper shell (3.1) and a lower shell (3.2), a rotary screen and a bag cutting device, wherein the rotary screen and the bag cutting device are arranged in the shell; the top of one end of the upper shell (3.1) is provided with a feeding hole, and the bottom of the other end is provided with a discharging hopper; the bag cutting device is arranged at the feed port end of the upper shell and comprises a pair of cutter shafts (3.3), the cutter shafts (3.3) are arranged on the upper part of the feed port end of the upper shell (3.1) in a staggered manner, two ends of each cutter shaft (3.3) are arranged on bearings on the upper shell (3.1), one end of each cutter shaft (3.3) penetrates through the upper shell (3.1), the end part of each cutter shaft (3.3) penetrating through the upper shell (3.1) is connected with a cutter shaft motor (3.4) through a coupler, each cutter shaft motor (3.4) is arranged on the outer side wall of the upper shell (3.1) through a support, a plurality of crushing cutters (3.5) are arranged on the cutter shafts (3.3) through shaft sleeves, and the crushing cutters (3.4) on the two cutter shafts (3.3) are arranged in; the rotary screen (3.6) is arranged in the upper shell (3.1), two ends of the rotary screen (3.6) are respectively provided with an annular groove-shaped rail (3.7), supporting wheels (3.8) arranged on the inner side wall of the upper shell (3.1) are supported on the rails (3.7), each rail (3.7) is provided with four supporting wheels (3.8), the upper part and the lower part of the inner side wall of the two sides of the upper shell (3.1) are respectively provided with one supporting wheel (3.8), the discharge end of the rotary screen (3.6) exceeds the upper shell (3.1), and the discharge end of the rotary screen (3.6) is provided with a large gear ring; the upper shell (3.1) at the discharge end of the drum screen (3.6) is provided with a crushed bag discharge cover (3.9), the crushed bag discharge cover (3.9) is provided with a port with the side surface butted with the upper shell (3.1) and a crushed bag outlet at the bottom, the drum screen motor (3.12) is arranged at the top of the crushed bag discharge cover (3.9), and the drum screen motor (3.12) is connected with a large gear ring arranged at the discharge end of the drum screen (3.6) through a chain; the bottom of lower casing (3.3) inboard is installed auger delivery pole A (3.10), and the axostylus axostyle both ends of auger delivery pole A (3.10) are passed through the bearing and are installed at the both ends of casing (3.2) down, and the tip that the axostylus axostyle of auger delivery pole A (3.10) wore out casing (3.2) down passes through a coupling joint motor, and lower casing (3.2) bottom sets up the discharge opening, and the discharge opening is located the below of drum sieve (3.6) discharge end.

2. The modified asphalt material splitting device according to claim 1, wherein an inclined material plate (3.14) is arranged at the feed inlet end of the upper shell (3.1), a crushing knife edge is arranged on the material plate, and the material plate extends into the rotary screen (3.6).

3. The modified asphalt material splitting device according to claim 1, wherein two side walls of the lower shell (3.2) are obliquely arranged, and the bottom of the two side walls of the lower shell (3.2) is provided with a semicircular screw rod sleeve.

4. The modified asphalt material splitting device according to claim 1, wherein a discharge port of the lower casing (3.2) is connected with a screw conveyer B, the screw conveyer B comprises a conveying sleeve (3.13), a screw conveying rod B (3.11) is installed in the conveying sleeve (3.13), one end of the screw conveying rod B (3.11) is connected with a motor, a material receiving port is arranged in the middle of the conveying sleeve (3.13), and a material discharge port is arranged at each of two ends of the conveying sleeve (3.13).

5. The modified asphalt material splitting device of claim 1, wherein the housing is provided with four legs.

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