CN217621633U - Vertical location tire biax shredder - Google Patents

Abstract

The utility model discloses a vertical positioning tire double-shaft shredder, which relates to the field of shredder equipment and comprises a tire positioning mechanism, wherein the tire positioning mechanism is used for positioning a tire before the tire is shredded; the tire positioning mechanism comprises a plurality of rollers, the rollers are distributed on two sides, and tire channels allowing tires to pass through are formed between the rollers on the two sides at intervals. This vertical location tire biax shredder can improve the efficiency of tearing the tire.

Description

Vertical location tire biax shredder

Technical Field

The utility model relates to a shredder equipment field, concretely relates to vertical location tire biax shredder.

Background

Material recycling is the collection process of processing and recycling waste materials generated during human activities. When the size of the waste material is large, the waste material is not beneficial to recycling, and the waste material with large size is generally required to be shredded or crushed to be made into the material with small size, so that the recycling of the material is easier. The shredder is generally used in the process of material recovery, after throwing into the shredder with the great waste material of size, the shredder just can shred the material, finally obtains the material that accords with the size of a dimension, at present at the in-process of retrieving the tire, needs to shred the tire, but, at present at the in-process of tire shredding, because the diameter of tire is great, when transversely throwing into, the tire can hardly be shredded by the interlock, shredding inefficiency.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model aims to provide a vertical positioning tire biaxial shredder which can improve the efficiency of shredding tires.

The utility model discloses a following technical scheme realizes:

a vertical positioning tire double-shaft shredder comprises a tire positioning mechanism, a tire positioning mechanism and a tire shredder, wherein the tire positioning mechanism is used for positioning a tire before the tire is shredded; the tire positioning mechanism comprises a plurality of rollers, the rollers are distributed on two sides, and tire channels allowing tires to pass through are formed between the rollers on the two sides at intervals.

Preferably, the tire positioning mechanism comprises an adjusting mechanism, the roller is arranged on the adjusting mechanism, and the adjusting mechanism is used for adjusting the position of the roller.

Preferably, the tire positioning mechanism comprises a driving mechanism, the driving mechanism is connected with the roller, and the driving mechanism is used for driving the roller to rotate.

Preferably, the roller is provided with a plurality of racks which are distributed in an array mode around the central axis of the roller.

Preferably, one side of the rack, which is far away from the roller, is arranged in an arc shape.

Preferably, the feeding device comprises a machine shell, wherein a feeding hole is formed in the machine shell, a feeding space is formed in the machine shell, the feeding hole is communicated with the feeding space, the feeding hole is located right above the feeding space, the roller is located in the feeding space, and the roller is arranged on two sides in the feeding space.

Preferably, two rollers are arranged, blocking pieces are arranged on two sides above the feeding space and correspond to the rollers one by one, and guide surfaces inclining downwards are arranged at the tops of the blocking pieces.

Preferably, the two rollers are located at the same height.

Preferably, the shredding roller shaft is located inside the feeding space, the shredding roller shaft is provided with two and is a first shredding roller shaft and a second shredding roller shaft respectively, and the crossed shredding positions of the first shredding roller shaft and the second shredding roller shaft are located below the positions between the rollers on the two sides.

Preferably, a discharge port is formed in the housing and located right below the space between the first shredding roller shaft and the second shredding roller shaft.

Compared with the prior art, the beneficial effects of the utility model reside in that: the utility model discloses a vertical location tire biax shredder is through being provided with tire positioning mechanism, because the interval between the cylinder of both sides has formed the tire passageway, set the width of tire passageway to the diameter that is less than the tire in advance and be greater than the thickness of tire, the tire gets into the in-process of tire passageway, the tire can be vertical or be close vertical state under the cylinder location of both sides, at last the tire falls to the shredding position under the effect of gravity and tears the piece, thereby prevent that the tire from transversely dropping into to the shredding position influence interlock shredding, the efficiency of shredding has been improved. In addition, because the rollers can rotate, positioning the tire by the rollers is more beneficial to enabling the tire to fall.

Drawings

Fig. 1 is a schematic structural view of a vertical positioning tire double-shaft shredder according to an embodiment of the present invention.

Fig. 2 is a schematic view of a drum according to an embodiment of the present invention.

Fig. 3 is an external schematic view of a vertical positioning double-shaft tire shredder according to an embodiment of the present invention.

Fig. 4 is an enlarged view of a in fig. 3.

Reference numerals are as follows: 1. a housing; 2. a tire positioning mechanism; 3. a shredding roll shaft; 4. a drum; 5. a tire passageway; 6. an adjustment mechanism; 7. a feed inlet; 8. a feed space; 9. a stopper; 10. a guide surface; 11. a first shredding roller; 12. a second shredding roller; 13. a discharge port; 14. a drive mechanism; 15. a rack.

Detailed Description

The technical solution provided by the utility model is explained in more detail below with reference to fig. 1-4.

As shown in fig. 1-4, the embodiment of the utility model provides a vertical location tire biax shredder, including casing 1, tire positioning mechanism 2 and shredding roller 3 set up on casing 1.

The tire positioning mechanism 2 is used for positioning the tire before the tire is shredded; the tire positioning mechanism 2 comprises two rollers 4, the two rollers 4 are distributed on two sides, and a tire channel 5 allowing a tire to pass through is formed between the two rollers 4. The tire positioning mechanism 2 comprises an adjusting mechanism 6, the roller 4 is arranged on the adjusting mechanism 6, and the adjusting mechanism 6 is used for adjusting the position of the roller 4. Through being provided with adjustment mechanism 6, the size of the tire that can shred as required presets the distance between two cylinders 4 for the width of tire passageway 5 sets to the diameter that is less than the tire and is greater than the thickness of tire, thereby prevents that the tire from transversely dropping into to the position of shredding influence interlock shredding, has improved the efficiency of shredding.

Be provided with feed inlet 7 on casing 1, 1 inside feeding space 8 that is provided with of casing, feed inlet 7 and feeding space 8 intercommunication, feed inlet 7 is located feeding space 8 directly over, cylinder 4 is located feeding space 8, cylinder 4 sets up in 8 inside both sides in feeding space, after 7 drops into the tire from feed inlet, the tire will get into tire passageway 5 under the effect of gravity, tire passageway 5 corrects the state of tire, in order to prevent that the tire from dropping into to shredding position department with horizontal state.

Two rollers 4 are arranged, blocking pieces 9 are arranged on two sides above the feeding space 8, the blocking pieces 9 correspond to the rollers 4 one by one, and guide surfaces 10 inclining downwards are arranged at the tops of the blocking pieces 9. By providing the stopper 9, the guide surface 10 on the stopper 9 functions to guide the tire, the guide surface 10 guiding the tire to the tire passage 5.

The two rollers 4 are located at the same height. By setting the two rollers 4 to the same height, the tire tunnel 5 is more stable against the state correction of the tire.

Inside the shredding roller shaft was located feed space 8, the shredding roller shaft was provided with two, was first shredding roller shaft 11 and second shredding roller shaft 12 respectively, and the crossing shredding position of first shredding roller shaft 11 and second shredding roller shaft 12 was located the below of the position between both sides cylinder 4. After the tire passes through the tire passage 5, the tire may fall down to a shredding position where the first shredding roller 11 and the second shredding roller 12 intersect, improving the shredding efficiency of the tire.

The casing 1 is provided with a discharge port 13, and the discharge port 13 is located right below between the first shredding roller shaft 11 and the second shredding roller shaft 12. Because the material after being shredded mostly is from the whereabouts between first shredding roller 11 and the second shredding roller 12, when the tire through the shredding back of first shredding roller 11 and second shredding roller 12, the tire can follow and fall to discharge gate 13 department between first shredding roller 11 and the second shredding roller 12, more is favorable to being discharged from discharge gate 13 by the material after being shredded, has accelerated ejection of compact time, prevents that the condition of jam from taking place.

The tire positioning mechanism 2 comprises a driving mechanism 14, the driving mechanism 14 is connected with the roller 4, and the driving mechanism 14 is used for driving the roller 4 to rotate. The driving mechanism 14 comprises two motors, the two motors are respectively connected with the two rollers 4, the rollers 4 have a rotating function, and in the process of putting tires into the tire channel 5, the tires can be further pushed to a shredding position under the rotating action of the rollers 4, so that the situation of blockage is prevented.

The roller 4 is provided with a plurality of racks 15, and the racks 15 are distributed around the central axis of the roller 4 in an array manner. By providing the rack 15, the grip of the drum 4 on the tire can be improved, thereby preventing the tire from slipping. The rack 15 is arranged in an arc shape at one side far away from the roller 4. Because rack 15 keeps away from one side of cylinder 4 will be with the tire contact, the one side of keeping away from cylinder 4 with rack 15 is the arc form setting, can prevent that rack 15 from pricking the tire and leading to the condition of tire card on cylinder 4 to appear.

The above embodiments are only preferred embodiments of the present invention, and the protection scope of the present invention cannot be limited thereby, and any insubstantial changes and substitutions made by those skilled in the art on the basis of the present invention are all within the protection scope of the present invention.

Claims (10)

1. The utility model provides a vertical location tire biax shredder which characterized in that: the tire positioning mechanism is used for positioning the tire before the tire is shredded; the tire positioning mechanism comprises a plurality of rollers, the rollers are distributed on two sides, and tire channels allowing tires to pass through are formed between the rollers on the two sides at intervals.

2. The vertically oriented tire bi-axial shredder of claim 1, wherein: the tire positioning mechanism comprises an adjusting mechanism, the roller is arranged on the adjusting mechanism, and the adjusting mechanism is used for adjusting the position of the roller.

3. The vertically oriented tire bi-axial shredder of claim 2, wherein: the tire positioning mechanism comprises a driving mechanism, the driving mechanism is connected with the roller, and the driving mechanism is used for driving the roller to rotate.

4. The vertically oriented tire bi-axial shredder of claim 1, wherein: the roller is provided with a plurality of racks which are distributed in an array mode around the central axis of the roller.

5. The vertically oriented tire bi-axial shredder of claim 4, wherein: one side of the rack far away from the roller is arranged in an arc shape.

6. The vertically oriented tire bi-axial shredder of claim 1, wherein: the automatic feeding device comprises a housing, be provided with the feed inlet on the casing, the inside feeding space that is provided with of casing, feed inlet and feeding space intercommunication, the feed inlet is located feeding space directly over, and the cylinder is located feeding space, and the cylinder setting is in the inside both sides of feeding space.

7. The vertically oriented tire bi-axial shredder of claim 6, wherein: the two rollers are arranged, blocking pieces are arranged on two sides above the feeding space and correspond to the rollers one to one, and downward-inclined guide surfaces are arranged at the tops of the blocking pieces.

8. The vertically oriented tire bi-axial shredder of claim 7, wherein: the two rollers are located at the same height.

9. The vertically oriented tire bi-axial shredder of claim 6, wherein: inside the shredding roller shaft is located the feeding space, the shredding roller shaft is provided with two, is first shredding roller shaft and second shredding roller shaft respectively, the crossing shredding position of first shredding roller shaft and second shredding roller shaft is located the below of the position between the cylinder of both sides.

10. The vertically oriented tire bi-axial shredder of claim 9, wherein: be provided with the discharge gate on the casing, the discharge gate is located first shredding roller and second shredding roller between under.

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