CN102490285B - Powdering crushing all-in-one machine for waste bias-ply tires - Google Patents

Abstract

A powdering crushing all-in-one machine for waste bias-ply tires is low in cost, simple to operate and capable of protecting the environment and comprises a lower fixing frame, an upper fixing frame and a machine case. The left portions of the lower fixing frame and the upper fixing frame are fixedly connected with through a support frame, the upper surface of the upper fixing frame is fixedly connected with a feed mechanism and an abrasive wheel which is arranged on the right of the feed mechanism, a worm delivery mechanism is arranged under the feed mechanism, the worm delivery mechanism is fixedly connected with the lower surface of the upper fixing frame, the upper surface of the lower fixing frame is fixedly connected with the abrasive wheel, the abrasive wheel mechanism is fixed between the upper fixing frame and the lower fixing frame through an abrasive wheel support, the abrasive wheel mechanism is arranged on the right lower of the worm delivery mechanism, a grain choosing barrel is arranged on the right of the abrasive wheel mechanism, and the grain choosing barrel is fixed between the upper fixing frame and the lower fixing frame through a grain choosing barrel support.

Description

Waste bias tires powder crushing process all-in-one

Technical field

The present invention relates to a kind of pulverizer, relate in particular to a kind of waste bias tires powder crushing process all-in-one.

Background technology

At present, there are every year a large amount of waste products to process, process a large amount of waste rubber products and can avoid to society and environment, again can recycling, this is the common object of pursuing of world.Developed at present many production methods, it is that conventional rubber reclaims approach that waste old is made to rubber powder, and wherein conventional have traditional normal temperature crushing up and a cryogenic freezing comminuting method; Tradition normal temperature crushing up adopts secondary to tie up and produces 0.3 rubber powder to 1.4mm particle diameter; Another kind is normal-temperature continuous comminuting method, produces the rubber powder of above-mentioned same particle diameter through coarse crushing, the broken two procedures of fine powder, and the shortcoming of said method is that rubber powder particle diameter is large, can not meet user's requirement, yield poorly, cost is high, the quality of production is unstable, is difficult to adapt to modernization industry production requirement.

Cryogenic freezing comminuting method, as US4863106 and the disclosed cryogenic freezing comminuting method of US5368040, employing liquid nitrogen is cold-producing medium, cryogenic temperature is-196 ℃, pulverizes and obtains the fine rubber powder of 0.075mm to 0.30mm fineness, wherein take 0.18mm to 0.22mm as main through impact mechanical, but the method apparatus expensive, investment is large, and production cost is high, and many difficulties is brought in the aspect such as start, production, maintenance, management.

Summary of the invention

The object of this invention is to provide the waste bias tires powder crushing process all-in-one of low, the simple to operate and environmental protection of a kind of cost.

For achieving the above object, the technical solution used in the present invention is: a kind of waste bias tires powder crushing process all-in-one, comprise lower fixed frame, upper holder and casing, the left part of lower fixed frame and upper holder is fixedly connected with by bracing frame, it is characterized in that: the upper surface of described upper holder is fixedly connected with feed mechanism and emery wheel mechanism, emery wheel mechanism is positioned at the right-hand of feed mechanism, feed mechanism below is designed with worm screw connecting gear, worm screw connecting gear is fixedly connected with the lower surface of upper holder, lower fixed frame upper surface is fixedly connected with disc-grinding mechanism, disc-grinding mechanism is fixed between upper holder and lower fixed frame by mill bearing, disc-grinding mechanism is positioned at the lower right of worm screw connecting gear, the right-hand choosing grain bucket that is designed with of disc-grinding mechanism, choosing grain bucket is fixed between lower fixed frame and upper holder by choosing grain bucket bearing.

In this structure, feed mechanism comprises frame, between frame, be connected with stationary roll and movable roll by bearing, between stationary roll and movable roll, be designed with gap, movable roll is positioned at stationary roll top, the two ends of movable roll are connected with adjustment structure, one end of stationary roll and movable roll is also overlapped the stationary roll gear and the movable roll gear that are meshed, the other end of stationary roll is connected with the first reduction box by belt, the first reduction box is connected with the first motor by shaft coupling, the right-hand member of frame is fixedly connected with pressing plate, pressing plate is corresponding with the gap location of stationary roll and movable roll, the right-hand member of frame is also fixedly connected with casing, pressing plate is positioned at casing.

In this structure, adjustment structure comprises slide block, has the axis hole with bearing on slide block, and the upper end of slide block is fixedly connected with lifting arm, the upper end design release handle of lifting arm, and release handle is threaded with frame, and the axle of movable roll is positioned at axis hole.

In this structure, emery wheel mechanism comprises the second motor, the second motor connects the second reduction box by shaft coupling, the second reduction box is connected with bevel gear by axle, belt pulley is installed on axle, bevel gear is connected with short slab by axle, the hinged long slab of short slab, long slab and described casing are hinged, long slab is fixedly connected with vibratory sieve, vibratory sieve is positioned at the bottom of casing, vibratory sieve is left low right high dip shape, vibratory sieve below is designed with lautertuns, casing has discharging opening left, upper holder upper surface is also fixedly connected with bulky grain collecting vessel, bulky grain collecting vessel is corresponding with discharging opening, upper holder upper surface is also fixedly connected with grinding wheel axle bracing frame, on grinding wheel axle bracing frame, be connected with grinding wheel axle by bearing, on grinding wheel axle, cover has grinding wheel axle belt pulley, belt pulley is connected by belt with grinding wheel axle belt pulley, the left end of grinding wheel axle is fixedly connected with emery wheel, emery wheel is positioned at casing, emery wheel be centered close to pressing plate position on the lower side, emery wheel is circular slab, on emery wheel, have emery wheel hole, emery wheel projection has emery wheel thorn, emery wheel hole is corresponding with emery wheel thorn.

In this structure, worm screw connecting gear comprises the 3rd motor, and the 3rd motor is connected with the 3rd decelerator by shaft coupling, the 3rd decelerator is by belt connecting worm, worm screw is by fixing with the fixing holder of upper holder, and worm screw is positioned at casing, and worm screw is corresponding with described lautertuns.

In this structure, disc-grinding mechanism comprises the 4th motor, the 4th motor connects the 4th decelerator by shaft coupling, and the 4th decelerator connects mill spindle by belt, is flexibly connected mill on mill spindle, mill comprises movable grinding disc, movable grinding disc overcoat has fixed millstone, and fixed millstone is fixedly connected with upper holder with lower fixed frame by mill bearing, between movable grinding disc and fixed millstone, is designed with gap, movable grinding disc is hollow-core construction, and movable grinding disc outer surface and fixed millstone inner surface are designed with lines.

In this structure, choosing grain bucket is corresponding with mill, choosing grain bucket overcoat has casing, and mill spindle passes choosing grain bucket, and the traversing through end of mill spindle is connected with choosing grain bucket bracing strut by bearing, choosing grain bucket bracing strut is fixedly connected with lower fixed frame, the right part of mill spindle is connected with scraper plate, and scraper plate contacts with the bucket wall of choosing grain bucket, and the bucket wall of choosing grain bucket is netted, the right lower quadrant of choosing grain bucket has granule and goes out groove, and the right lower quadrant of the casing corresponding with choosing grain has bulky grain and goes out groove.

Advantageous effect of the present invention is: because the upper surface of the upper holder in the present invention is fixedly connected with feed mechanism and emery wheel mechanism, emery wheel mechanism is positioned at the right-hand of feed mechanism, feed mechanism below is designed with worm screw connecting gear, worm screw connecting gear is fixedly connected with the lower surface of upper holder, lower fixed frame upper surface is fixedly connected with disc-grinding mechanism, disc-grinding mechanism is fixed between upper holder and lower fixed frame by mill bearing, disc-grinding mechanism is positioned at the lower right of worm screw connecting gear, the right-hand choosing grain bucket that is designed with of disc-grinding mechanism, choosing grain bucket is fixed between lower fixed frame and upper holder by choosing grain bucket bearing, so use the present invention can effectively pulverize out qualified particle, cost is low, processing ease, result of use is good.

Accompanying drawing explanation

Fig. 1 is front view of the present invention;

Fig. 2 is left view of the present invention;

Fig. 3 is the emery wheel structural representation in the present invention;

Fig. 4 is A-A cut-away view in Fig. 1;

Fig. 5 is B-B cut-away view in Fig. 2.

In accompanying drawing: 1, release handle; 2, gear; 3, pressing plate; 4, casing; 5, emery wheel; 6, vibratory sieve; 7, grinding wheel axle; 8, lautertuns; 9, worm screw; 10, the second reduction box; 11, mill; 12, the second motor; 13, scraper plate; 14, choosing grain bucket; 15, bulky grain goes out groove; 16, granule goes out groove; 17, choosing grain bucket bracing strut; 18, choosing grain bucket bearing; 19, mill bearing; 20, lower fixed frame; 21, the 4th decelerator; 22, the 4th motor; 23, bracing frame; 24, the 3rd decelerator; 25, the 3rd motor; 26, upper holder; 27, bulky grain collecting vessel; 28, the first motor; 29, the first reduction box; 30, fixed gear; 31, frame; 32, movable roll; 33, stationary roll; 34, movable grinding disc; 35, fixed millstone.

The specific embodiment

Below in conjunction with the drawings and specific embodiments, the invention will be further described:

The present invention is as Fig. 1, 2, 3, 4, shown in 5, a kind of waste bias tires powder crushing process all-in-one, comprise lower fixed frame 20, upper holder 26 and casing 4, the left part of lower fixed frame 20 and upper holder 26 is fixedly connected with by bracing frame 23, it is characterized in that: the upper surface of described upper holder 26 is fixedly connected with feed mechanism and emery wheel mechanism, emery wheel mechanism is positioned at the right-hand of feed mechanism, feed mechanism below is designed with worm screw connecting gear, worm screw connecting gear is fixedly connected with the lower surface of upper holder 26, lower fixed frame 20 upper surfaces are fixedly connected with disc-grinding mechanism, disc-grinding mechanism is fixed between upper holder 26 and lower fixed frame 20 by mill bearing 19, disc-grinding mechanism is positioned at the lower right of worm screw connecting gear, the right-hand choosing grain bucket 14 that is designed with of disc-grinding mechanism, choosing grain bucket 14 is fixed between lower fixed frame 20 and upper holder 26 by choosing grain bucket bearing 18.In the present embodiment, feed mechanism comprises frame 31, between frame 31, be connected with stationary roll 33 and movable roll 32 by bearing, between stationary roll 33 and movable roll 32, be designed with gap, movable roll 32 is positioned at stationary roll 33 tops, the two ends of movable roll 32 are connected with adjustment structure, one end of stationary roll 33 and movable roll 32 is also overlapped the stationary roll gear 30 and the movable roll gear 2 that are meshed, the other end of stationary roll 33 is connected with the first reduction box 29 by belt, the first reduction box 29 is connected with the first motor 28 by shaft coupling, the right-hand member of frame 31 is fixedly connected with pressing plate 3, pressing plate 3 is corresponding with the gap location of stationary roll 33 and movable roll 32, the right-hand member of frame 31 is also fixedly connected with casing 4, pressing plate is positioned at casing 4.In the present embodiment, adjustment structure comprises slide block, has the axis hole with bearing on slide block, and the upper end of slide block is fixedly connected with lifting arm, the upper end design release handle 1 of lifting arm, and release handle 1 is threaded with frame 31, and the axle of movable roll 32 is positioned at axis hole.In the present embodiment, emery wheel mechanism comprises the second motor 12, the second motor 12 connects the second reduction box 10 by shaft coupling, the second reduction box 10 is connected with bevel gear by axle, belt pulley is installed on axle, bevel gear is connected with short slab by axle, the hinged long slab of short slab, long slab and described casing are hinged, long slab is fixedly connected with vibratory sieve 6, vibratory sieve 6 is positioned at the bottom of casing, vibratory sieve 6 is left low right high dip shape, vibratory sieve 6 belows are designed with lautertuns 8, casing has discharging opening left, upper holder 26 upper surfaces are also fixedly connected with bulky grain collecting vessel 27, bulky grain collecting vessel 27 is corresponding with discharging opening, upper holder 26 upper surfaces are also fixedly connected with grinding wheel axle bracing frame, on grinding wheel axle bracing frame, be connected with grinding wheel axle 7 by bearing, on grinding wheel axle 7, cover has grinding wheel axle belt pulley, belt pulley is connected by belt with grinding wheel axle belt pulley, the left end of grinding wheel axle 7 is fixedly connected with emery wheel 5, emery wheel 5 is positioned at casing 4, emery wheel 5 be centered close to pressing plate 3 position on the lower side, emery wheel is circular slab, on emery wheel, have emery wheel hole, emery wheel projection has emery wheel thorn, emery wheel hole is corresponding with emery wheel thorn.In the present embodiment, worm screw connecting gear comprises the 3rd motor 25, the 3rd motor 25 is connected with the 3rd decelerator 24 by shaft coupling, the 3rd decelerator 24 is by belt connecting worm 9, worm screw 9 is by fixing with the fixing holder of upper holder 26, worm screw 9 is positioned at casing 4, and worm screw 9 is corresponding with described lautertuns 8.In the present embodiment, disc-grinding mechanism comprises the 4th motor 22, the 4th motor 22 connects the 4th decelerator 21 by shaft coupling, the 4th decelerator 21 connects mill spindle by belt, on mill spindle, be flexibly connected mill 11, mill 11 comprises movable grinding disc 34, movable grinding disc 34 overcoats have fixed millstone 35, fixed millstone 35 is fixedly connected with upper holder 26 with lower fixed frame 20 by mill bearing 19, between movable grinding disc 34 and fixed millstone 35, be designed with gap, movable grinding disc 34 is hollow-core construction, and movable grinding disc 34 outer surfaces and fixed millstone 35 inner surfaces are designed with lines.In the present embodiment, choosing grain bucket 14 is corresponding with mill 11, choosing grain bucket 14 overcoats have casing 4, mill spindle passes choosing grain bucket 14, the traversing through end of mill spindle is connected with choosing grain bucket bracing strut 17 by bearing, choosing grain bucket bracing strut 17 is fixedly connected with lower fixed frame 20, the right part of mill spindle is connected with scraper plate 13, scraper plate 13 contacts with the bucket wall of choosing grain bucket 14, the bucket wall of choosing grain bucket 14 is netted, the right lower quadrant of choosing grain bucket 14 has granule and goes out groove 16, and the right lower quadrant of the casing 4 corresponding with choosing grain has bulky grain and goes out groove 15.

The present invention reclaims at waste and old Bias tyre especially, receives and utilize.

In the present invention, fore-and-aft distance between stationary roll and movable roll can be according to the size of rubber thickness, by operation release handle, regulate adjustment structure, and then adjusting movable roll is apart from the distance of the above-below direction of stationary roll, in the time being transferred to suitable distance, rubber is put between stationary roll and movable roll, send through pressing plate, until encountering emery wheel, pulverizes through preliminary rubber, after preliminary pulverizing, the satisfactory particle of a part is through vibratory sieve, the remaining undesirable particle bulky grain collecting vessel that bleeds is collected, satisfactory particle enters lautertuns, then by worm screw, satisfactory particle is sent between fixed millstone and movable grinding disc, worm screw feeding can steadily be delivered to satisfactory particle between fixed millstone and movable grinding disc, pulverize more fully, then by choosing grain bucket, granule being gone out to groove by granule discharges, bulky grain enters oversized particles and goes out groove discharge, the granule of discharging is final qualified particle.

Spacing between fixed millstone and movable grinding disc is diminished to discharge end gradually by feed end, finally keep one section of less spacing so that rubber fully grinds, movable grinding disc moves the distance between adjustable itself and fixed millstone along axle axle, thereby change the size of abrasive grains, and lines is conducive to satisfactory particle and enters and grind along mill.

In choosing grain bucket, have four scraper plates, supports fixingly between two adjacent scraper plates by rib, the head design of scraper plate becomes 30 degree angles, can make qualified particle to greatest extent selected grain barrel pass through.

The rubber of sending from pressing plate is the contact large position of emery wheel linear velocity directly, and emery wheel thorn becomes 60 degree angles with emery wheel, so that the cutting to rubber and pulverizing.

On vibratory sieve, be uniform-distribution with aperture, between aperture for 2mm is to 5mm.

Worm screw is used suitable conveying worm, can guaranteed efficiency again can not feed too many, prevents from producing and piling up at mill feeding port.

Emery wheel thorn becomes 60 degree angles with emery wheel, in the time that emery wheel is rotated counterclockwise, emery wheel thorn is just conducive to cutting and the pulverizing to rubber, and the rubber grain after pulverizing is discharged by the emery wheel right side by the aperture on emery wheel.

Vibratory sieve is rectangle iron plate, is uniformly distributed porosely on it, and the diameter in hole is that 2mm is to 5mm.

Choosing grain bucket is cylindrical iron sheet, and on bucket wall, being uniformly distributed diameter is the hole of 0.1mm to 0.3mm, so that qualified particle passes through.

Claims (5)

1. a waste bias tires powder crushing process all-in-one, comprise lower fixed frame (20), upper holder (26) and casing (4), the left part of lower fixed frame (20) and upper holder (26) is fixedly connected with by bracing frame (23), it is characterized in that: the upper surface of described upper holder (26) is fixedly connected with feed mechanism and emery wheel mechanism, emery wheel mechanism is positioned at the right-hand of feed mechanism, feed mechanism below is designed with worm screw connecting gear, worm screw connecting gear is fixedly connected with the lower surface of upper holder (26), lower fixed frame (20) upper surface is fixedly connected with disc-grinding mechanism, disc-grinding mechanism is fixed between upper holder (26) and lower fixed frame (20) by mill bearing (19), disc-grinding mechanism is positioned at the lower right of worm screw connecting gear, the right-hand choosing grain bucket (14) that is designed with of disc-grinding mechanism, choosing grain bucket (14) is fixed between lower fixed frame (20) and upper holder (26) by choosing grain bucket bearing (18), described emery wheel mechanism comprises the second motor (12), the second motor (12) connects the second reduction box (10) by shaft coupling, the second reduction box (10) is connected with bevel gear by axle, belt pulley is installed on axle, bevel gear is connected with short slab by axle, the hinged long slab of short slab, long slab and described casing are hinged, long slab is fixedly connected with vibratory sieve (6), vibratory sieve (6) is positioned at the bottom of casing, vibratory sieve (6) is left low right high dip shape, vibratory sieve (6) below is designed with lautertuns (8), casing has discharging opening left, upper holder (26) upper surface is also fixedly connected with bulky grain collecting vessel (27), bulky grain collecting vessel (27) is corresponding with discharging opening, upper holder (26) upper surface is also fixedly connected with grinding wheel axle bracing frame, on grinding wheel axle bracing frame, be connected with grinding wheel axle (7) by bearing, the upper cover of grinding wheel axle (7) has grinding wheel axle belt pulley, belt pulley is connected by belt with grinding wheel axle belt pulley, the left end of grinding wheel axle (7) is fixedly connected with emery wheel (5), emery wheel (5) is positioned at casing (4), emery wheel (5) be centered close to pressing plate (3) position on the lower side, emery wheel is circular slab, on emery wheel, have emery wheel hole, emery wheel projection has emery wheel thorn, emery wheel hole is corresponding with emery wheel thorn, described disc-grinding mechanism comprises the 4th motor (22), the 4th motor (22) connects the 4th decelerator (21) by shaft coupling, the 4th decelerator (21) connects mill spindle by belt, on mill spindle, be flexibly connected mill (11), mill (11) comprises movable grinding disc (34), movable grinding disc (34) overcoat has fixed millstone (35), fixed millstone (35) is fixedly connected with upper holder (26) with lower fixed frame (20) by mill bearing (19), between movable grinding disc (34) and fixed millstone (35), be designed with gap, movable grinding disc (34) is hollow-core construction, movable grinding disc (34) outer surface and fixed millstone (35) inner surface are designed with lines.

2. waste bias tires powder crushing process all-in-one according to claim 1, it is characterized in that: described feed mechanism comprises frame (31), between frame (31), be connected with stationary roll (33) and movable roll (32) by bearing, between stationary roll (33) and movable roll (32), be designed with gap, movable roll (32) is positioned at stationary roll (33) top, the two ends of movable roll (32)-be connected with adjustment structure, one end of stationary roll (33) and movable roll (32) is also overlapped the stationary roll gear (30) and the movable roll gear (2) that are meshed, the other end of stationary roll (33) is connected with the first reduction box (29) by belt, the first reduction box (29) is connected with the first motor (28) by shaft coupling, the right-hand member of frame (31) is fixedly connected with pressing plate (3), pressing plate (3) is corresponding with the gap location of stationary roll (33) and movable roll (32), the right-hand member of frame (31) is also fixedly connected with casing (4), pressing plate is positioned at casing (4).

3. waste bias tires powder crushing process all-in-one according to claim 2, it is characterized in that: described adjustment structure comprises slide block, on slide block, have the axis hole with bearing, the upper end of slide block is fixedly connected with lifting arm, the upper end design release handle (1) of lifting arm, release handle (1) is threaded with frame (31), and the axle of movable roll (32) is positioned at axis hole.

4. waste bias tires powder crushing process all-in-one according to claim 1, it is characterized in that: described worm screw connecting gear comprises the 3rd motor (25), the 3rd motor (25) is connected with the 3rd decelerator (24) by shaft coupling, the 3rd decelerator (24) is by belt connecting worm (9), worm screw (9) is by fixing with the fixing holder of upper holder (26), worm screw (9) is positioned at casing (4), and worm screw (9) is corresponding with described lautertuns (8).

5. waste bias tires powder crushing process all-in-one according to claim 4, it is characterized in that: described choosing grain bucket (14) is corresponding with mill (11), choosing grain bucket (14) overcoat has casing (4), mill spindle passes choosing grain bucket (14), the traversing through end of mill spindle is connected with choosing grain bucket bracing strut (17) by bearing, choosing grain bucket bracing strut (17) is fixedly connected with lower fixed frame (20), the right part of mill spindle is connected with scraper plate (13), scraper plate (13) contacts with the bucket wall of choosing grain bucket (14), the bucket wall of choosing grain bucket (14) is netted, the right lower quadrant of choosing grain bucket (14) has granule and goes out groove (16), the right lower quadrant of the casing (4) corresponding with choosing grain has bulky grain and goes out groove (15).

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