CN110919903A - Tire cutting system - Google Patents

Abstract

A tire cutting system comprises a tire slitting device and a tire dicing device, wherein the tire slitting device comprises a slitting rack (1), a cutting assembly, a feeding assembly and a discharging groove (2), the cutting assembly comprises a pair of rubber cutting wheels (3), a first rotating shaft (4) and a second rotating shaft (5) which are matched with each other, the pair of rubber cutting wheels (3) which are matched with each other are respectively installed at one ends of the first rotating shaft (4) and the second rotating shaft (5), an A transmission gear (6) is arranged at the other end of the first rotating shaft (4), a B transmission gear (7) is arranged at the other end of the second rotating shaft (5), and the A transmission gear (6) is meshed with the B transmission gear (7); the advantages are that: the tire cutting is rapid, the tire can be cut into strips only by continuously sleeving the tire on the roller by one person, the tire strips are rapidly cut, and the cut tire pieces are small.

Description

Tire cutting system

Technical Field

The invention relates to the field of mechanical equipment, in particular to a tire cutting system.

Background

At present, with the continuous development of society and the increasing improvement of the living standard of people, an automobile is generally a main vehicle, the quantity of the waste tires generated in the way is multiplied, and therefore, the recycling of the waste tires is repeated in a star and a month, a large amount of resources can be saved, and the environmental pollution can be reduced. The conventional tire bead cutting device can ensure that one machine can normally operate only by matching two persons, and the tire sheet cut by the conventional tire bead slicing device is overlarge, so that the working strength for crushing subsequent tire sheets is increased, and the production efficiency of a factory is reduced.

Disclosure of Invention

The present invention is directed to a tire cutting system that overcomes the above-mentioned shortcomings.

The invention comprises a tire slitting device and a tire dicing device,

the tire slitting device comprises a slitting rack, a cutting component, a feeding component and a discharging groove,

the cutting assembly comprises a pair of rubber cutting wheels which are matched with each other for use, a first rotating shaft and a second rotating shaft, the pair of rubber cutting wheels which are matched with each other for use are respectively arranged at one ends of the first rotating shaft and the second rotating shaft, the other end of the first rotating shaft is provided with an A transmission gear, the other end of the second rotating shaft is provided with a B transmission gear, the A transmission gear is meshed with the B transmission gear, the second rotating shaft is driven to rotate by a motor and a speed reducer,

the feeding component comprises a roller rotating shaft and a roller, one side of the slitting rack is provided with a roller rotating shaft mounting seat, the end surface of one end of the roller rotating shaft mounting seat is an inclined surface, one end of the rotating shaft is fixedly arranged on the end surface of one end of the roller rotating shaft mounting seat and is vertical to the end surface of one end of the roller rotating shaft mounting seat, the roller is movably arranged at the other end of the roller rotating shaft through a bearing,

the feeding end of the discharge chute is fixedly arranged at one side of the slitting rack and is positioned between a pair of rubber cutting wheels which are mutually matched,

the tire block cutting device comprises a material cutting roller, a pair of transverse cutters A, a pair of transverse cutters B, an annular vertical cutter, a block cutting machine frame, a tire block cutting plate, a first feeding toothed roller and a second feeding toothed roller,

a pair of transverse cutters A are arranged on the outer wall of the cutting roller in a mirror image distribution manner, a pair of transverse cutters B are arranged on the outer wall of the cutting roller in a mirror image distribution manner, an annular vertical cutter is fixedly arranged on the outer wall of the cutting roller, the central line of the annular vertical cutter is superposed with the central line of the cutting roller, the annular vertical cutter is positioned between the transverse cutters A and the transverse cutters B, the annular vertical cutters are respectively vertical to the transverse cutters A and the transverse cutters B, transmission shafts are respectively arranged at two ends of the cutting roller, the transmission shafts at two ends of the cutting roller are respectively movably arranged on the cutting machine frame through bearings, and the rotation shafts at one end of the cutting roller are driven to rotate through a motor and a speed reducer,

the tire cutting plate is provided with a cutter groove matched with the annular vertical cutter for use, the tire cutting plate is arranged on the cutting frame and is positioned below the material cutting roller,

the first feeding tooth roller and the second feeding tooth roller are respectively and movably arranged on the dicing frame through bearings, a transmission shaft at one end of the first feeding tooth roller is provided with a transmission gear A, a transmission shaft at one end of the second feeding tooth roller is provided with a transmission gear B, the transmission gear A is meshed with the transmission gear B,

a transmission shaft at one end of the first feeding toothed roller is in transmission connection with the blanking roller through a chain and chain wheel mechanism,

one end of the dicing frame is provided with a feeding plate which is matched with the first feeding tooth roller and the second feeding tooth roller for use, the other end of the dicing frame is provided with a discharging hopper,

a pair of guide plates are arranged on the feeding plate,

the discharge end of the feeding plate is positioned between the first feeding tooth roller and the second feeding tooth roller,

the discharge hole of the discharge chute is communicated with the feed end of the feed plate.

The pair of rubber cutting wheels which are matched with each other for use are tooth-shaped circular knives.

An included angle α formed between the end surface of one end of the roller rotating shaft mounting seat and the side wall of the machine frame 1 is 10-25 degrees.

The feeding end of the discharge chute is provided with a groove for avoiding a pair of rubber cutting wheels which are matched with each other and is fixedly arranged on one side of the rack through a connecting plate.

A plurality of groups of tooth-shaped grooves are uniformly distributed at the annular blade of the rubber cutting wheel.

It is also a pair of cutter installation department, the both sides of cutter installation department are opened respectively and are had the cross-cut sword mounting groove, the one end of cutter installation department is equipped with the compressing disk, a pair of cutter installation department is mirror image distribution cover on the blank roller, and with through the key-type connection between the blank roller, a pair of A cross-cut sword is respectively through the detachable a pair of cross-cut sword mounting groove of installing at one of them cutter installation department of bolt, a pair of B cross-cut sword is respectively through the detachable a pair of cross-cut sword mounting groove of installing at another one of them cutter installation department of bolt, the terminal surface of a pair of B cross-cut sword and a pair of A cross-cut sword one end is laminated mutually with the lateral wall of annular vertical cut sword, the annular vertical cut sword overlaps on the blank roller, and be.

The tire cutting machine is characterized by further comprising a lead screw elevator, wherein two pairs of sliding grooves are formed in the cutting rack, a pair of sliding blocks matched with the sliding grooves of the cutting rack are arranged on two sides of the tire cutting plate respectively, the lead screw elevator is installed on the cutting rack through a supporting seat and located below the tire cutting plate, one end of a power output lead screw of the lead screw elevator is connected with the bottom of the tire cutting plate through a bearing and a bearing seat, and the lifting of the tire cutting plate is adjusted through the stretching of the power output lead screw of the lead screw elevator.

The invention has the advantages that: the tire cutting is rapid, the tire can be cut into strips only by continuously sleeving the tire on the roller by one person, the tire strips are rapidly cut, and the cut tire pieces are small.

Description of the drawings

FIG. 1 is a schematic structural view of a tire slitting device according to the present invention.

Fig. 2 is a schematic diagram of the structure of fig. 1 of the present invention.

FIG. 3 is a schematic top view of the concealed cutting assembly of FIG. 1 according to the present invention.

FIG. 4 is a schematic view of the rubber cutting wheel of the present invention.

FIG. 5 is a schematic view showing the structure of the tire dicer of the present invention.

Fig. 6 is a schematic structural diagram of the hidden rack of fig. 4 according to the present invention.

Fig. 7 is a schematic structural view of the stock cutting roll of the present invention.

Fig. 8 is a schematic structural diagram of the present invention.

Detailed Description

As shown in the attached drawings, the invention comprises a tire slitting device and a tire dicing device,

the tire slitting device comprises a slitting rack 1, a cutting component, a feeding component and a discharging groove 2,

the cutting assembly comprises a pair of rubber cutting wheels 3, a first rotating shaft 4 and a second rotating shaft 5 which are matched with each other, the pair of rubber cutting wheels 3 which are matched with each other are respectively arranged at one ends of the first rotating shaft 4 and the second rotating shaft 5, an A transmission gear 6 is arranged at the other end of the first rotating shaft 4, a B transmission gear 7 is arranged at the other end of the second rotating shaft 5, the A transmission gear 6 is meshed with the B transmission gear 7 and drives the second rotating shaft 5 to rotate through a motor and a speed reducer,

the feeding component comprises a roller rotating shaft 8 and a roller 9, one side of the slitting rack 1 is provided with a roller rotating shaft mounting seat 10, the end surface of one end of the roller rotating shaft mounting seat 10 is an inclined surface, one end of the rotating shaft 8 is fixedly arranged on the end surface of one end of the roller rotating shaft mounting seat 10 and is vertical to the end surface of one end of the roller rotating shaft mounting seat 10, the roller 9 is movably arranged at the other end of the roller rotating shaft 8 through a bearing,

the feeding end of the discharging chute 2 is fixedly arranged at one side of the slitting rack 1 and is positioned between a pair of rubber cutting wheels 3 which are matched with each other,

the tire block cutting device comprises a material cutting roller 21, a pair of A transverse cutters 22, a pair of B transverse cutters 37, an annular vertical cutter 23, a block cutting frame 24, a tire block cutting plate 25, a first feeding toothed roller 26 and a second feeding toothed roller 27,

a pair of A transverse cutters 22 are arranged on the outer wall of the cutting roller 21 in a mirror image distribution manner, a pair of B transverse cutters 37 are arranged on the outer wall of the cutting roller 21 in a mirror image distribution manner, an annular vertical cutter 23 is fixedly arranged on the outer wall of the cutting roller 21, the central line of the annular vertical cutter 23 is superposed with the central line of the cutting roller 21, the annular vertical cutter 23 is positioned between the A transverse cutter 22 and the B transverse cutter 37, the annular vertical cutter 23 is respectively vertical to the A transverse cutter 22 and the B transverse cutter 37, two ends of the cutting roller 21 are respectively provided with a transmission shaft, the transmission shafts at two ends of the cutting roller 21 are respectively movably arranged on the cutting frame 24 through bearings and drive a rotating shaft at one end of the cutting roller 21 to rotate through a motor and a speed reducer,

the tire cutting plate 25 is provided with a cutter groove 36 matched with the annular vertical cutter 23, the tire cutting plate 25 is arranged on the cutting frame 24 and is positioned below the cutting roller 21,

the first feeding tooth roller 26 and the second feeding tooth roller 27 are respectively and movably arranged on the dicing frame 24 through bearings, a transmission shaft at one end of the first feeding tooth roller 26 is provided with an A transmission gear 28, a transmission shaft at one end of the second feeding tooth roller 27 is provided with a B transmission gear 29, the A transmission gear 28 is meshed with the B transmission gear 29,

the transmission shaft at one end of the first feeding toothed roller 26 is in transmission connection with the cutting roller 21 through a chain and chain wheel mechanism 32,

one end of the dicing frame 24 is provided with a feeding plate 30 used in cooperation with the first feeding toothed roller 26 and the second feeding toothed roller 27, the other end of the dicing frame 24 is provided with a discharge hopper 31,

the feed plate 30 is provided with a pair of guide plates 35,

the discharge end of the feed plate 30 is positioned between the first feed toothed roller 26 and the second feed toothed roller 27,

the discharge hole of the discharge chute 2 is communicated with the feed end of the feed plate 30.

The pair of rubber cutting wheels 3 which are matched with each other for use are tooth-shaped circular knives.

An included angle α formed between the end surface of one end of the roller rotating shaft mounting seat 10 and the side wall of the frame 1 is 10-25 degrees.

The feeding end of the discharge chute 2 is provided with a groove 11 for avoiding a pair of rubber cutting wheels 3 which are matched with each other and fixedly arranged on one side of the frame 1 through a connecting plate.

A plurality of groups of tooth-shaped grooves 13 are uniformly distributed at the annular blade of the rubber cutting wheel.

It also has a pair of cutter mounting parts 40, both sides of the cutter mounting part 40 are respectively provided with a transverse cutter mounting groove, one end of the cutter mounting part 40 is provided with a pressing disc 41, the pair of cutter mounting parts 40 are arranged on the cutting roller 21 in a mirror image distribution, and is connected with the material cutting roller 21 through a key, a pair of A transverse cutters 22 are respectively and detachably arranged in a pair of transverse cutter mounting grooves of one cutter mounting part 40 through bolts 42, a pair of B transverse cutters 37 are respectively and detachably arranged in a pair of transverse cutter mounting grooves of the other cutter mounting part 40 through bolts 42, the end surfaces of one ends of the pair of B transverse cutters 37 and the pair of A transverse cutters 22 are jointed with the side wall of the annular vertical cutter 23, the annular vertical cutter 23 is sleeved on the material cutting roller 21, and is located between the pressing disks 41 of the pair of cutter mounting portions 40, and the pair of pressing disks 41 clamp the annular vertical cutter 23 to the stock cutting roll 21 by the bolts 42.

The tire block cutting machine is characterized by further comprising a lead screw lifter 38, two pairs of sliding grooves are formed in the block cutting machine frame 24, a pair of sliding blocks matched with the sliding grooves of the block cutting machine frame 24 are arranged on two sides of the tire block cutting plate 25 respectively, the lead screw lifter 38 is installed on the block cutting machine frame 24 through a supporting seat and located below the tire block cutting plate 25, one end of a power output lead screw of the lead screw lifter 38 is connected with the bottom of the tire block cutting plate 25 through a bearing and a bearing seat, and the lifting of the tire block cutting plate 25 is adjusted through the stretching of the power output lead screw of the lead screw lifter 38.

The working mode is that the tire bead strip cutting machine is started, the tire bead 12 needing to be cut is sleeved on the roller 9, a worker slightly pushes the tire bead 12 with a hand, the tire bead 12 is cut into strips through the pair of rubber cutting wheels 3 which are used in a matched mode, an included angle α formed between the end face of one end of the roller rotating shaft mounting seat 10 and the side wall of the strip cutting rack 1 is 25-35 degrees, so that the included angle of 25-35 degrees is formed between the roller 9 and the rubber cutting wheels 3, when the tire bead 12 is cut, the cut tire strips are gradually thickened through thin strips, the thickness is always kept after the tire strips reach the standard thickness, when the tire bead 12 is to be cut, the tire strips are thinned until the tire cutting is finished, the cut tire strips are output through the discharging groove 2, the pair of rubber cutting wheels 3 which are used in a matched mode are tooth-shaped circular knives, and the tooth-shaped circular knives have the functions of cutting and automatic feeding when the tire is cut, so that the cutting effect.

An included angle α formed between the end face of one end of the roller rotating shaft mounting seat 10 and the side wall of the frame 1 is 10-25 degrees, the angle α is changed by replacing the mounting seat 10 to cut strip materials with different widths, a motor of the tire bead slicing device is started, the motor and a speed reducer drive the cutting roller 21 to rotate, the cutting roller 21 drives the first feeding toothed bar 26 to rotate through a chain and chain wheel mechanism, the first feeding toothed bar 26 drives the B transmission gear 29 to rotate through the A transmission gear 28, the B transmission gear 29 drives the second feeding toothed bar 27 to rotate together,

the tire strips cut by the tire strip cutting machine are sent between the first feeding tooth rod 26 and the second feeding tooth rod 27 through the feeding plate 30, are sent to the tire strip cutting plate 25 after being leveled by the first feeding tooth rod 26 and the second feeding tooth rod 27, are broken from the middle through the annular vertical cutter 23, are cut off through the pair of A transverse cutters 22 and the pair of B transverse cutters 37, and are output through the discharging hopper 31. The knife grooves 36 enable the pair of annular vertical cutting blades 23 to have better cutting effect. When the bead slicing device is installed, the cutting gap between the tire slicing plate 25 and the vertical cutter of the material cutting roller 21 can be finely adjusted by adjusting the height of the screw in the screw lifter 38.

When the cutters wear, the bolts 42 can be unscrewed, and the damaged cutters removed and replaced with new ones.

Claims (7)

1. A tire cutting system is characterized by comprising a tire strip cutting device and a tire block cutting device,

the tire slitting device comprises a slitting rack (1), a cutting component, a feeding component and a discharging groove (2),

the cutting assembly comprises a pair of rubber cutting wheels (3) which are matched with each other for use, a first rotating shaft (4) and a second rotating shaft (5), the pair of rubber cutting wheels (3) which are matched with each other for use are respectively arranged at one ends of the first rotating shaft (4) and the second rotating shaft (5), an A transmission gear (6) is arranged at the other end of the first rotating shaft (4), a B transmission gear (7) is arranged at the other end of the second rotating shaft (5), the A transmission gear (6) is meshed with the B transmission gear (7), and the second rotating shaft (5) is driven to rotate through a motor and a speed reducer,

the feeding assembly comprises a roller rotating shaft (8) and a roller (9), one side of the slitting rack (1) is provided with a roller rotating shaft mounting seat (10), the end surface of one end of the roller rotating shaft mounting seat (10) is an inclined surface, one end of the rotating shaft (8) is fixedly arranged on the end surface of one end of the roller rotating shaft mounting seat (10) and is vertical to the end surface of one end of the roller rotating shaft mounting seat (10), the roller (9) is movably arranged at the other end of the roller rotating shaft (8) through a bearing,

the feed end of the discharge chute (2) is fixedly arranged at one side of the slitting rack (1) and is positioned between a pair of rubber cutting wheels (3) which are matched with each other,

the tire block cutting device comprises a material cutting roller (21), a pair of transverse cutters A (22), a pair of transverse cutters B (37), an annular vertical cutter (23), a block cutting frame (24), a tire block cutting plate (25), a first feeding toothed roller (26) and a second feeding toothed roller (27),

a pair of A transverse cutters (22) are arranged on the outer wall of the cutting roller (21) in a mirror image distribution manner, a pair of B transverse cutters (37) are arranged on the outer wall of the cutting roller (21) in a mirror image distribution manner, an annular vertical cutter (23) is fixedly arranged on the outer wall of the cutting roller (21), the central line of the annular vertical cutter (23) is superposed with the central line of the cutting roller (21), the annular vertical cutter (23) is positioned between the A transverse cutter (22) and the B transverse cutter (37), the annular vertical cutter (23) is respectively vertical to the A transverse cutter (22) and the B transverse cutter (37), two ends of the cutting roller (21) are respectively provided with a transmission shaft, the transmission shafts at two ends of the cutting roller (21) are respectively movably arranged on the cutting frame (24) through bearings, and drive a rotating shaft at one end of the cutting roller (21) to rotate through a motor and a speed reducer,

the tire cutting plate (25) is provided with a cutter groove (36) matched with the annular vertical cutter (23) for use, the tire cutting plate (25) is arranged on the cutting frame (24) and is positioned below the cutting roller (21),

a first feeding toothed roller (26) and a second feeding toothed roller (27) are respectively and movably arranged on the dicing rack (24) through bearings, a transmission shaft at one end of the first feeding toothed roller (26) is provided with an A transmission gear (28), a transmission shaft at one end of the second feeding toothed roller (27) is provided with a B transmission gear (29), the A transmission gear (28) is meshed with the B transmission gear (29),

a transmission shaft at one end of the first feeding toothed roller (26) is in transmission connection with the material cutting roller (21) through a chain and chain wheel mechanism (32),

one end of the cutting frame (24) is provided with a feeding plate (30) which is matched with the first feeding gear roller (26) and the second feeding gear roller (27) for use, the other end of the cutting frame (24) is provided with a discharging hopper (31),

a pair of guide plates (35) are arranged on the feeding plate (30),

the discharge end of the feed plate (30) is positioned between the first feeding toothed roller (26) and the second feeding toothed roller (27),

the discharge hole of the discharge chute (2) is communicated with the feed end of the feed plate (30).

2. A tyre cutting system as claimed in claim 1, characterized in that the pair of cooperating rubber cutting wheels (3) is a toothed circular knife.

3. A tyre cutting system as claimed in claim 1, wherein the end face of one end of the roller spindle mount (10) forms an angle α of 10-25 ° with the side wall of the frame (1).

4. The tire cutting system according to claim 1, characterized in that the feed end of the discharge chute (2) is provided with a groove (11) for avoiding a pair of rubber cutting wheels (3) which are used in cooperation with each other, and is fixedly arranged at one side of the frame (1) through a connecting plate.

5. A tyre cutting system as claimed in claim 1, wherein a plurality of sets of toothed grooves (13) are provided annularly on the annular cutting edge of the rubber cutting wheel.

6. The tire cutting system according to claim 1, characterized in that it further comprises a pair of cutter mounting parts (40), the two sides of the cutter mounting parts (40) are respectively provided with a transverse cutter mounting groove, one end of the cutter mounting part (40) is provided with a pressing disc (41), the pair of cutter mounting parts (40) are distributed on the cutting roller (21) in a mirror image manner and are connected with the cutting roller (21) through a key, the pair of A transverse cutters (22) are respectively and detachably mounted in the pair of transverse cutter mounting grooves of one of the cutter mounting parts (40) through bolts (42), the pair of B transverse cutters (37) are respectively and detachably mounted in the pair of transverse cutter mounting grooves of the other cutter mounting part (40) through bolts (42), the end faces of one ends of the pair of B transverse cutters (37) and the pair of A transverse cutters (22) are attached to the side wall of the annular vertical cutter (23), the annular vertical cutter (23) is sleeved on the cutting roller (21) and positioned between the pressing disks (41) of the pair of cutter mounting parts (40), and the annular vertical cutter (23) is clamped on the cutting roller (21) through the pair of pressing disks (41) through bolts (42).

7. The tire cutting system according to claim 1, further comprising a screw elevator (38), wherein the dicing frame (24) is provided with two pairs of sliding grooves, two sides of the tire dicing plate (25) are respectively provided with a pair of sliding blocks used in cooperation with the sliding grooves of the dicing frame (24), the screw elevator (38) is mounted on the dicing frame (24) through a support seat and located below the tire dicing plate (25), one end of a power output screw of the screw elevator (38) is connected with the bottom of the tire dicing plate (25) through a bearing and a bearing seat, and the lifting of the tire dicing plate (25) is adjusted through the expansion and contraction of the power output screw of the screw elevator (38).

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