CN217369813U - Three-head traction device for aluminum profile forming - Google Patents

Abstract

The utility model provides a three-head traction device for aluminum profile forming, which comprises a frame and an aluminum profile traction track, wherein a double-track tractor and a synchronous cutting machine are respectively arranged on two sides of the aluminum profile traction track, so that a first traction mechanism and a second traction mechanism in the double-track tractor can respectively move on own independent tracks to alternatively pull aluminum profiles, thereby not only fully exerting the energy efficiency of an extruder, but also improving the production efficiency of the aluminum profiles; the synchronous cutting machine can keep the same movement speed when the cutting mechanism and the aluminum profile are dragged, and the longitudinal driving mechanism drives the cutter disc of the cutting mechanism to move to cut off the aluminum profile, so that the cutter disc does not move with the aluminum profile when being cut off, the production quality of the aluminum profile is ensured, and the service life of the cutter disc is also ensured.

Description

Three-head traction device for aluminum profile forming

Technical Field

The utility model relates to an aluminium alloy shaping pulling equipment field especially relates to a be used for fashioned three draw gear of aluminium alloy.

Background

With the rapid development of the aluminum profile industry, domestic excellent aluminum profile production enterprises attach more and more importance to the research on the industry market, particularly to the deep research on the development environment and the client demand trend of the enterprises. The single tractor in the prior art is in an intermittent working mode, the energy efficiency of an extruder cannot be fully exerted, and the production efficiency is low.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is that, prior art's single tractor is intermittent type formula working method, and the efficiency of extruder can not obtain full play, and production efficiency is low. The utility model provides a be used for fashioned three draw gear of aluminium alloy to solve above-mentioned problem.

The utility model provides a technical scheme that its technical problem adopted is: the utility model provides a be used for fashioned three draw gear of aluminium alloy, includes the frame, still includes: the aluminum profile traction track comprises a support frame, a plurality of rollers and a plurality of electric transmission belts, wherein the support frame is transversely installed on the rack and can move in the vertical direction; the double-track tractor comprises a first slide rail, a second slide rail, a first traction mechanism and a second traction mechanism, wherein the first slide rail and the second slide rail are fixedly arranged on the rack in an up-down mode respectively at the side edge of the support frame, the first slide rail and the second slide rail are both parallel to the transverse direction of the support frame, the first traction mechanism is arranged on the first slide rail and can drive an aluminum profile to move along the first slide rail, the second traction mechanism is arranged on the second slide rail and can drive the aluminum profile to move along the second slide rail, the first traction mechanism and the second traction mechanism are correspondingly arranged in the up-down mode, and the first traction mechanism and the second traction mechanism are identical in structure; synchronous cutter, synchronous cutter includes bottom actuating mechanism, cutting mechanism and vertical actuating mechanism, bottom actuating mechanism can drive cutting mechanism moves along the tensile direction of aluminium alloy, vertical actuating mechanism can drive cutting mechanism moves along the tensile vertical direction of aluminium alloy, cutting actuating mechanism can cut off the aluminium alloy of tensile completion.

Further: the first traction mechanism comprises a first rack, a first bottom plate, a first motor and a first sliding block, the first rack is fixed on the rack along the direction of the first sliding rail, the first motor and the first sliding block are both fixed on the first bottom plate, a first gear is arranged on an output shaft of the first motor, the first gear is meshed with the first rack, and the first sliding block is arranged on the first sliding rail in a sliding manner.

Further: the first traction mechanism further comprises a second sliding block, a third sliding rail, a second motor and a second rack, the third sliding rail is fixed on the first bottom plate, the second sliding block is arranged on the third sliding rail in a sliding mode, the second rack is fixed on the side edge of the lower end of the third sliding rail, the second motor is fixed on the second sliding block, an output shaft of the second motor penetrates through the second sliding block and is connected with a second gear, and the second gear is meshed with the second rack.

Further: first drive mechanism still includes first backup pad, mount, third motor and pressing sword, the mount is fixed on the second slider, it is equipped with first pivot to rotate on the mount, the third motor is fixed on the mount, the output shaft of third motor with first pivot transmission is connected, the pressing sword is installed in the first pivot, first backup pad is fixed on the second slider and be located the below of pressing sword.

Further, the method comprises the following steps: the bottom driving mechanism comprises a second bottom plate, a fourth motor, a guide rail and a first transmission belt, the guide rail is fixed to the rack, the second bottom plate is arranged on the guide rail in a sliding mode, a first rotating wheel and a second rotating wheel are arranged on the rack in a rotating mode, the first transmission belt is installed on the first rotating wheel and the second rotating wheel, the fourth motor is fixed to the rack, an output shaft of the fourth motor is connected with the first rotating wheel, a fixing block is arranged at the lower end of the second bottom plate, and the fixing block is fixedly connected with the first transmission belt.

Further: cutting mechanism includes first support, blade disc, second drive belt and second pivot, first support slides and sets up the upper portion of second bottom plate left end, the upper end of first support is fixed with the fifth motor, the second pivot is rotated and is installed the side lower extreme of first support, the end fixing of second pivot is equipped with the third runner, the output shaft of fifth motor passes through the second drive belt with the third runner is connected, the blade disc is fixed to be set up in the second pivot, be equipped with the second backup pad on the second bottom plate, the second backup pad is established the aluminium alloy pulls orbital front end.

Further: the longitudinal driving mechanism comprises a connecting rod, a sixth motor, a second support and a lead screw, the second support is fixed at the right end of the second bottom plate, the lead screw is rotatably arranged on the second support, the sixth motor is fixed on the second support, an output shaft of the sixth motor is in transmission connection with the lead screw, one end of the connecting rod is fixed on the second support, and the other end of the connecting rod is in transmission connection with the lead screw.

Further: the connecting rod is provided with a through hole, and the second transmission belt penetrates through the through hole.

The utility model has the advantages that:

1. by arranging the first traction mechanism and the second traction mechanism on a production line, when the first traction mechanism is in traction work, the second traction mechanism enters a return stroke, and after the first traction mechanism finishes the traction work of one aluminum profile, the second traction mechanism can bear the traction work of the next aluminum profile, and the aluminum profiles can move on independent tracks respectively to alternatively traction the aluminum profiles, so that the energy efficiency of an extruder is fully exerted, and the production efficiency of the aluminum profiles is improved;

2. through setting up the second bottom plate, the fourth motor, guide rail and first drive belt, make the first runner of fourth motor drive rotate, first runner will drive the motion of first drive belt, first drive belt will drive the motion of second bottom plate along the guide rail through the fixed block again, install cutting mechanism on the second bottom plate, make cutting mechanism can follow the motion of second bottom plate, the rotational speed through regulation and control fourth motor makes cutting mechanism and aluminium alloy's rate of motion keep the same, the blade disc motion through vertical actuating mechanism drive cutting mechanism cuts off the aluminium alloy, make the blade disc when cutting off and the aluminium alloy between not taking place the drunkenness, the production quality of aluminium alloy has been guaranteed, the life of blade disc has also been guaranteed.

Drawings

The present invention will be further explained with reference to the drawings and examples.

Fig. 1 is a schematic view of the top view position structure of the present invention;

fig. 2 is a schematic structural view of the double-track tractor of the present invention;

fig. 3 is a front view of a first traction mechanism of the present invention;

fig. 4 is a top view of the first traction mechanism of the present invention;

fig. 5 is a side view of a first traction mechanism of the present invention;

FIG. 6 is a schematic view of the overall structure of the synchronous cutting machine of the present invention;

fig. 7 is a schematic structural view of the cutting mechanism of the present invention;

fig. 8 is a schematic structural view of the longitudinal driving mechanism of the present invention.

In the figure, 1, a rack, 2, a support frame, 3, a roller, 4, an electric transmission belt, 5, a first sliding rail, 6, a second sliding rail, 7, a first rack, 8, a first bottom plate, 9, a first motor, 10, a first slider, 11, a first gear, 12, a second slider, 13, a third sliding rail, 14, a second motor, 15, a second rack, 16, a second gear, 17, a fixing frame, 18, a third motor, 19, a pressing knife, 20, a first rotating shaft, 21, a second bottom plate, 22, a fourth motor, 23, a guide rail, 24, a first transmission belt, 25, a first rotating wheel, 26, a second rotating wheel, 27, a fixing block, 28, a first support frame, 29, a cutter head, 30, a second transmission belt, 31, a second rotating shaft, 32, a fifth motor, 33, a third rotating wheel, 34, a second support plate, 35, a sixth motor, 36, a second support frame, 37, a lead screw, 38, a through hole, 39, a second rotating shaft, a third rotating wheel, 35, a sixth motor, a fourth rotating shaft, a fourth rotating wheel, a fourth, First supporting plate, 40, connecting rod.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the accompanying drawings are exemplary only for explaining the present invention, and should not be construed as limiting the present invention. On the contrary, the embodiments of the invention include all changes, modifications and equivalents coming within the spirit and terms of the claims appended hereto.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "axial", "radial", "circumferential", and the like, indicate orientations and positional relationships based on the orientations and positional relationships shown in the drawings, and are used only for convenience in describing and simplifying the present invention, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

Furthermore, the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art. In addition, in the description of the present invention, "a plurality" means two or more unless otherwise specified.

Any process or method descriptions in flow charts or otherwise described herein may be understood as representing modules, segments, or portions of code which include one or more executable instructions for implementing specific logical functions or steps of the process, and the scope of the preferred embodiments of the present invention includes other implementations in which functions may be executed out of order from that shown or discussed, including substantially concurrently or in reverse order, depending on the functionality involved, as would be understood by those reasonably skilled in the art of the embodiments of the present invention.

As shown in fig. 1, the utility model provides a be used for fashioned three draw gear of aluminium alloy, including frame 1, still include: the aluminum profile traction track comprises a support frame 2, a plurality of rollers 3 and a plurality of electric transmission belts 4, wherein the support frame 2 is transversely installed on the rack 1, the support frame 2 can move in the vertical direction, the rollers 3 rotate and are uniformly and longitudinally arranged on the support frame 2, and the electric transmission belts 4 are longitudinally and uniformly arranged and fixedly arranged on the rack 1 in the support frame 2; the during operation, the tractor pulls the end with the aluminium alloy from the initial position of production line, and the aluminium alloy passes through running roller 3 on the support frame 2 to be supported, and running roller 3 is the soft roller that the wearability is good, avoids pulling the in-process friction impaired, when pulling the end, and support frame 2 supports the aluminium alloy by electric conveyor with the downstream, and electric conveyor rotates drive aluminium alloy longitudinal movement and leaves support frame 2, and support frame 2 shifts up the return, waits to support next batch traction's aluminium alloy.

As shown in fig. 2, the double-track tractor includes a first slide rail 5, a second slide rail 6, a first traction mechanism and a second traction mechanism, the first slide rail 5 and the second slide rail 6 are respectively fixed to the frame 1 at upper and lower positions on the side of the support frame 2, the first slide rail 5 and the second slide rail 6 are both parallel to the transverse direction of the support frame 2, the first traction mechanism is disposed on the first slide rail 5 and can drive the aluminum profile to move along the first slide rail 5, the second traction mechanism is disposed on the second slide rail 6 and can drive the aluminum profile to move along the second slide rail 6, the first traction mechanism and the second traction mechanism are disposed at upper and lower positions correspondingly, and the first traction mechanism and the second traction mechanism have the same structure; the upper tractor and the lower tractor move on independent tracks respectively to alternately draw the aluminum profile, so that the energy efficiency of the extruder is fully exerted, and the production efficiency of the aluminum profile is improved.

As shown in fig. 6, synchronous cutter includes bottom actuating mechanism, cutting mechanism and vertical actuating mechanism, bottom actuating mechanism can drive cutting mechanism moves along the tensile direction of aluminium alloy, vertical actuating mechanism can drive cutting mechanism moves along the tensile vertical direction of aluminium alloy, cutting actuating mechanism can cut off the aluminium alloy of tensile completion, when the tractor stretches the aluminium alloy to the terminal position of workstation, bottom actuating mechanism will drive cutting mechanism and remove, and when cutting mechanism's translation rate is the same with the stretching speed of aluminium alloy, vertical actuating mechanism will drive cutting mechanism's cutterhead 29 vertical migration and cut off the aluminium alloy, then bottom actuating mechanism will cutting mechanism pull back the primary importance, awaits the cutting off work of next batch aluminium alloy.

As shown in fig. 3, 4 and 5, the first traction mechanism includes a first rack 7, a first bottom plate 8, a first motor 9 and a first slider 10, the first rack 7 is fixed on the frame 1 along the direction of the first slide rail 5, the first motor 9 and the first slider 10 are both fixed on the first bottom plate 8, a first gear 11 is arranged on an output shaft of the first motor 9, the first gear 11 is engaged with the first rack 7, the first slider 10 is slidably disposed on the first slide rail 5, and when the first traction mechanism works, the first motor 9 drives the first gear 11 to rotate so as to drive the first bottom plate 8 to move along the direction of the first rack 7.

The first traction mechanism further comprises a second sliding block 12, a third sliding rail 13, a second motor 14 and a second rack 15, the third sliding rail 13 is fixed on the first bottom plate 8, the second sliding block 12 is slidably arranged on the third sliding rail 13, the second rack 15 is fixed on the side edge of the lower end of the third sliding rail 13, the second motor 14 is fixed on the second sliding block 12, an output shaft of the second motor 14 penetrates through the second sliding block 12 and is connected with a second gear 16, the second gear 16 is meshed with the second rack 15, the second motor 14 drives the second gear 16 to rotate on the second rack 15 to drive the second sliding block 12 to move along the third sliding rail 13, and therefore parts of the first traction mechanism and the second traction mechanism can be staggered mutually.

The first traction mechanism further comprises a first supporting plate 39, a fixing frame 17, a third motor 18 and a pressing knife 19, the fixing frame 17 is fixed on the second sliding block 12, a first rotating shaft 20 is arranged on the fixing frame 17 in a rotating mode, the third motor 18 is fixed on the fixing frame 17, an output shaft of the third motor 18 is in transmission connection with the first rotating shaft 20, the pressing knife 19 is installed on the first rotating shaft 20, the first supporting plate 39 is fixed on the second sliding block 12 and located below the pressing knife 19, after an aluminum profile extruder passes through a die, the aluminum profile extruder is placed on the first supporting plate 39, the third motor 18 drives the first rotating shaft 20 to rotate to drive the pressing knife 19 to rotate, the aluminum profile is fixed on the first supporting plate 39, and then the aluminum profile is pulled to move to the tail end of the production line along the first sliding rail 5 under the driving of the first motor 9, after the first traction mechanism finishes traction work, the second traction mechanism starts traction work of the next batch of aluminum profiles at the front end of the production line.

As shown in fig. 6, the bottom driving mechanism includes a second base plate 21, a fourth motor 22, a guide rail 23 and a first driving belt 24, the guide rail 23 is fixed on the frame 1, the second bottom plate 21 is slidably arranged on the guide rail 23, a first rotating wheel 25 and a second rotating wheel 26 are rotatably arranged on the frame 1, the first transmission belt 24 is arranged on the first rotating wheel 25 and the second rotating wheel 26, the fourth motor 22 is fixed on the frame 1, an output shaft of the fourth motor 22 is connected with the first rotating wheel 25, the lower end of the second bottom plate 21 is provided with a fixed block 27, the fixed block 27 is fixedly connected with the first transmission belt 24, the fourth motor 22 drives the first rotating wheel 25 to rotate, the first rotating wheel 25 drives the first transmission belt 24 to move, and the first transmission belt 24 drives the second bottom plate 21 to move along the guide rail 23 through the fixed block 27.

As shown in fig. 7, the cutting mechanism includes a first support 28, a cutter disc 29, a second transmission belt 30 and a second rotating shaft 31, the first support 28 is slidably disposed on the upper portion of the left end of the second base plate 21, a fifth motor 32 is fixed on the upper end of the first support 28, the second rotating shaft 31 is rotatably disposed at the lower end of the first support 28, a third rotating wheel 33 is fixedly disposed at the end of the second rotating shaft 31, an output shaft of the fifth motor 32 is connected with the third rotating wheel 33 through the second transmission belt 30, the cutter disc 29 is fixedly disposed on the second rotating shaft 31, a second support plate 34 is disposed on the second base plate 21, the second support plate 34 is disposed at the front end of the aluminum profile traction track, the fifth motor 32 drives the third rotating wheel 33 to rotate through the second transmission belt 30, the third rotating wheel 33 drives the second rotating shaft 31 to rotate to drive the cutter disc 29 to rotate, the second support plate 34 will be used to support under the aluminum profile, which is cut by the rotating cutter head 29.

As shown in fig. 8, the longitudinal driving mechanism includes a connecting rod 40, a sixth motor 35, a second bracket 36 and a lead screw 37, the second bracket 36 is fixed at the right end of the second bottom plate 21, the lead screw 37 is rotatably disposed on the second bracket 36, the sixth motor 35 is fixed on the second bracket 36, an output shaft of the sixth motor 35 is in transmission connection with the lead screw 37, one end of the connecting rod 40 is fixed on the second bracket 36, the other end of the connecting rod 40 is in transmission connection with the lead screw 37, the sixth motor 35 drives the lead screw 37 to rotate to drive the connecting rod 40 to move along the axial direction of the lead screw 37, and then drives the cutting mechanism to move towards the aluminum profile, so as to cut off the aluminum profile.

The connecting rod 40 is provided with a through hole 38, and the second transmission belt 30 passes through the through hole 38, so that the connecting rod 40 and the second transmission belt 30 do not interfere with each other.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

In light of the foregoing, it will be apparent to those skilled in the art from this disclosure that various changes and modifications can be made without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the description, and must be determined according to the scope of the claims.

Claims (8)

1. The utility model provides a be used for fashioned three draw gear of aluminium alloy, includes frame (1), its characterized in that still includes:

the aluminum profile traction track comprises a support frame (2), a plurality of rollers (3) and a plurality of electric transmission belts (4), the support frame (2) is transversely installed on the rack (1), the support frame (2) can move in the vertical direction, the rollers (3) are rotated, uniformly and longitudinally arranged on the support frame (2), and the electric transmission belts (4) are longitudinally and uniformly arranged and fixedly arranged on the rack (1) in the support frame (2);

the double-track tractor comprises a first sliding rail (5), a second sliding rail (6), a first traction mechanism and a second traction mechanism, wherein the first sliding rail (5) and the second sliding rail (6) are fixedly arranged on the rack (1) in an up-down position respectively on the side edge of the support frame (2), the first sliding rail (5) and the second sliding rail (6) are both parallel to the transverse direction of the support frame (2), the first traction mechanism is arranged on the first sliding rail (5) and can drive an aluminum profile to move along the first sliding rail (5), the second traction mechanism is arranged on the second sliding rail (6) and can drive the aluminum profile to move along the second sliding rail (6), the first traction mechanism and the second traction mechanism are correspondingly arranged in an up-down position, and the first traction mechanism and the second traction mechanism are identical in structure;

synchronous cutter, synchronous cutter includes bottom actuating mechanism, cutting mechanism and vertical actuating mechanism, bottom actuating mechanism can drive cutting mechanism follows the tensile direction motion of aluminium alloy, vertical actuating mechanism can drive cutting mechanism follows the tensile vertical direction motion of aluminium alloy, cutting actuating mechanism can cut off the aluminium alloy of tensile completion.

2. The three-head traction device for aluminum profile forming according to claim 1, wherein the first traction mechanism comprises a first rack (7), a first bottom plate (8), a first motor (9) and a first slider (10), the first rack (7) is fixed on the frame (1) along the direction of the first slide rail (5), the first motor (9) and the first slider (10) are both fixed on the first bottom plate (8), an output shaft of the first motor (9) is provided with a first gear (11), the first gear (11) is engaged with the first rack (7), and the first slider (10) is slidably arranged on the first slide rail (5).

3. The three-head traction device for aluminum profile forming according to claim 2, wherein the first traction mechanism further comprises a second sliding block (12), a third sliding rail (13), a second motor (14) and a second rack (15), the third sliding rail (13) is fixed on the first bottom plate (8), the second sliding block (12) is slidably arranged on the third sliding rail (13), the second rack (15) is fixed on the side of the lower end of the third sliding rail (13), the second motor (14) is fixed on the second sliding block (12), the output shaft of the second motor (14) penetrates through the second sliding block (12) and is connected with a second gear (16), and the second gear (16) is meshed with the second rack (15).

4. The three-head traction device for aluminum profile forming according to claim 3, wherein the first traction mechanism further comprises a first support plate (39), a fixed frame (17), a third motor (18) and a pressing knife (19), the fixed frame (17) is fixed on the second slide block (12), a first rotating shaft (20) is rotatably arranged on the fixed frame (17), the third motor (18) is fixed on the fixed frame (17), an output shaft of the third motor (18) is in transmission connection with the first rotating shaft (20), the pressing knife (19) is installed on the first rotating shaft (20), and the first support plate (39) is fixed on the second slide block (12) and located below the pressing knife (19).

5. The three-head traction device for aluminum profile forming as claimed in claim 1, the bottom driving mechanism comprises a second bottom plate (21), a fourth motor (22), a guide rail (23) and a first transmission belt (24), the guide rail (23) is fixed on the frame (1), the second bottom plate (21) is arranged on the guide rail (23) in a sliding way, a first rotating wheel (25) and a second rotating wheel (26) are rotatably arranged on the frame (1), the first drive belt (24) being mounted on the first and second pulleys (25, 26), the fourth motor (22) is fixed on the frame (1), the output shaft of the fourth motor (22) is connected with the first rotating wheel (25), the lower end of the second bottom plate (21) is provided with a fixed block (27), and the fixed block (27) is fixedly connected with the first transmission belt (24).

6. The aluminum profile forming three-head traction device is characterized in that the cutting mechanism comprises a first support (28), a cutter head (29), a second transmission belt (30) and a second rotating shaft (31), the first support (28) is slidably arranged at the upper part of the left end of the second bottom plate (21), a fifth motor (32) is fixed at the upper end of the first support (28), the second rotating shaft (31) is rotatably arranged at the lower side end of the first support (28), a third rotating wheel (33) is fixedly arranged at the end part of the second rotating shaft (31), an output shaft of the fifth motor (32) is connected with the third rotating wheel (33) through the second transmission belt (30), the cutter head (29) is fixedly arranged on the second rotating shaft (31), a second support plate (34) is arranged on the second bottom plate (21), the second supporting plate (34) is arranged at the front end of the aluminum profile traction track.

7. The three-head traction device for aluminum profile forming according to claim 6, wherein the longitudinal driving mechanism comprises a connecting rod (40), a sixth motor (35), a second bracket (36) and a lead screw (37), the second bracket (36) is fixed at the right end of the second bottom plate (21), the lead screw (37) is rotatably arranged on the second bracket (36), the sixth motor (35) is fixed on the second bracket (36), an output shaft of the sixth motor (35) is in transmission connection with the lead screw (37), one end of the connecting rod (40) is fixed on the second bracket (36), and the other end of the connecting rod (40) is in transmission connection with the lead screw (37).

8. The three-head traction device for aluminum profile forming according to claim 7, wherein the connecting rod (40) is provided with a through hole (38), and the second transmission belt (30) passes through the through hole (38).

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