CN216502013U - Suction feeding equipment - Google Patents

Abstract

The utility model is suitable for the technical field of metal packaging tins, and provides a material sucking and conveying device, which comprises: the device comprises a controller, a driving mechanism, a discharging guide groove, a material sucking telescopic mechanism, a feeding push-pull mechanism and a belt transmission mechanism; the controller is respectively connected with and controls the operation of the driving mechanism, the discharging guide groove, the material sucking telescopic mechanism and the feeding push-pull mechanism; the discharging guide groove is used for placing materials; the belt transmission mechanism is connected with the driving mechanism and is driven by the driving mechanism to perform transmission; the material sucking telescopic mechanism is provided with a material sucking structure, and the material sucking structure is driven by the belt transmission mechanism to perform telescopic motion in the vertical direction so as to suck the materials; the feeding push-pull mechanism is fixedly connected with the belt transmission mechanism and is driven by the belt transmission mechanism to perform push-pull movement in the horizontal direction, and materials absorbed by the material absorption structure are pushed to the rounding mechanism to be rounded. The synchronous action of material suction and material pushing is realized, and the problem of unstable material suction process can be avoided.

Description

Suction feeding equipment

Technical Field

The utility model belongs to the technical field of metal packaging tanks, and particularly relates to a material sucking and conveying device.

Background

At present, with the improvement of economic conditions and the upgrade of national consumption habits, the growth rate of high-end drinks is gradually increased year by year, and the metal can making industry enters a rapid development period. In the manufacturing process of the metal packaging tin, especially the welding efficiency of the welding equipment of the small-diameter iron packaging tin is high, and the high-speed output per minute can reach 400 tins.

And the main material of the metal packaging can in the production process is a tinplate material, the tinplate material needs to be conveyed to a rounding mechanism of a welding machine through a suction feeding mechanism before welding, and then subsequent processing is carried out.

SUMMERY OF THE UTILITY MODEL

The utility model provides suction feeding equipment, and aims to solve the problems that in the prior art, due to the fact that a material taking link and a feeding link are asynchronous, a feeding process is unstable, and faults are prone to occurring.

The utility model is realized in this way, a suction feeding device, comprising:

the device comprises a controller, a driving mechanism, a discharging guide groove, a material sucking telescopic mechanism, a feeding push-pull mechanism and a belt transmission mechanism;

the controller is respectively connected with and controls the operation of the driving mechanism, the discharging guide groove, the material sucking telescopic mechanism and the feeding push-pull mechanism;

the discharging guide groove is used for placing materials;

the belt transmission mechanism is connected with the driving mechanism and is driven by the driving mechanism to perform transmission;

the material sucking telescopic mechanism is provided with a material sucking structure, and the material sucking structure is driven by the belt transmission mechanism to perform telescopic motion in the vertical direction so as to suck the materials;

the feeding push-pull mechanism is fixedly connected with the belt transmission mechanism and is driven by the belt transmission mechanism to perform push-pull movement in the horizontal direction so as to push the materials sucked by the material suction structure to the rounding mechanism for rounding.

In one embodiment, the material suction telescopic mechanism comprises:

the material sucking lifting cam is movably connected with the belt transmission mechanism and driven by the belt transmission mechanism to rotate;

the first linear guide rail is fixedly connected with the material sucking lifting cam and driven by the material sucking lifting cam to perform telescopic motion in the vertical direction;

and the material sucking structure is fixedly assembled with the first linear guide rail to suck the material.

In one embodiment, the suction structure includes:

the mounting seat is fixedly assembled with the first linear guide rail;

a plurality of material sucking discs are arranged on the mounting seat;

and the vacuum cavity is fixedly assembled with the first linear guide rail and communicated with the material sucking disc.

In one embodiment, the material suction disc is connected with the mounting seat through a suction pipeline, a vacuum generator is arranged in the vacuum cavity, and the vacuum generator performs vacuum suction on the material suction disc through the suction pipeline.

In one embodiment, the material suction lifting cam is connected with the belt transmission mechanism through a first crank mechanism.

In one embodiment, the feed push-pull mechanism includes:

the feeding lifting cam is fixedly connected with the belt transmission mechanism and rotates under the driving of the belt transmission mechanism;

the second linear guide rail is fixedly connected with the feeding lifting cam and driven by the feeding lifting cam to perform telescopic motion in the horizontal direction;

and the pushing structure is fixedly assembled with the second linear guide rail and pushes the material to the rounding mechanism for rounding.

In one embodiment, the pushing structure includes:

the adjusting seat is fixedly assembled with the second linear guide rail;

the mounting fixing plate is fixedly assembled with the adjusting seat;

and the side, close to the material sucking telescopic mechanism, of the mounting and fixing plate pushes the materials to a material pushing block which is used for rounding processing on the rounding mechanism.

In one embodiment, the adjustment seat comprises:

a supporting plate is arranged on one side far away from the installation fixing plate; and

the mounting groove is sleeved on the second linear guide rail and fixedly assembled at a preset position of the second linear guide rail;

the supporting plate is connected with the feeding lifting cam through a second crank mechanism.

In one embodiment, the belt drive mechanism comprises:

the material suction power wheel is fixedly assembled with the material suction telescopic mechanism;

the pushing power wheel is fixedly assembled with the feeding push-pull mechanism;

the driving belt wheel is fixedly assembled on a power output shaft of the driving mechanism;

the driving belt wheel drives the material sucking power wheel and the material pushing power wheel to rotate through a belt, and synchronous motion of the material sucking telescopic mechanism and the material feeding push-pull mechanism is achieved.

In one embodiment, the belt drive mechanism includes:

and the tensioning wheel is arranged between the material suction power wheel and the driving belt wheel and is used for tensioning the belt.

In an embodiment of the present invention, there is provided a suction feeding apparatus, including: the device comprises a controller, a driving mechanism, a discharging guide groove, a material sucking telescopic mechanism, a feeding push-pull mechanism and a belt transmission mechanism; the controller is respectively connected with and controls the operation of the driving mechanism, the discharging guide groove, the material sucking telescopic mechanism and the feeding push-pull mechanism; the discharging guide groove is used for placing materials; the belt transmission mechanism is connected with the driving mechanism and is driven by the driving mechanism to perform transmission; the material sucking telescopic mechanism is provided with a material sucking structure, and the material sucking structure is driven by the belt transmission mechanism to perform telescopic motion in the vertical direction so as to suck the materials; the feeding push-pull mechanism is fixedly connected with the belt transmission mechanism and is driven by the belt transmission mechanism to perform push-pull movement in the horizontal direction so as to push the materials sucked by the material suction structure to the rounding mechanism for rounding. In this application, inhale material telescopic machanism along the vertical direction upward movement through belt drive mechanism drive, until absorbing behind the material of placing in the blowing guide way, under belt drive mechanism's drive, the downstream is to predetermineeing the position, it stops to adsorb the material to inhale the material structure, the material breaks away from and inhales the material structure, at this moment, pay-off push-and-pull institution is under belt drive mechanism's drive, to inhaling the position removal of material structure, and carry out the rounding with material propelling movement to rounding mechanism, the synchronization action of inhaling the material and pushing away the material has been realized, when effectively having solved among the prior art and having carried out pay-off respectively through double-cylinder and push away the material operation, the material of inhaling that brings is unstable, the problem of breaking down easily, avoid bringing the injury for equipment, the life of equipment has effectively been improved.

Drawings

FIG. 1 is a schematic structural diagram of a suction feeding device according to an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of specific components of a suction feeding device according to an embodiment of the present invention;

FIG. 3 is a front view of a sucking and feeding device provided by the present invention;

wherein, 1, a driving mechanism; 2. a discharging guide groove; 3. a material suction telescopic mechanism; 4. a feeding push-pull mechanism; 5. a belt drive mechanism; 6. installing a base; 31. a material sucking structure; 32. a material suction lifting cam; 33. a first linear guide rail; 34. a first crank mechanism; 311. a mounting seat; 312. a material suction disc; 313. a vacuum chamber; 314. a suction duct; 331. a supporting seat; 41. a feeding lifting cam; 42. a second linear guide; 43. A material pushing structure; 44. a second crank mechanism; 431. an adjusting seat; 432. mounting a fixed plate; 433. a pushing block; 4311. a support plate; 4312. mounting grooves; 51. a material suction power wheel; 52. a material pushing power wheel; 53. a driving pulley; 54. a belt; 55. a tension wheel.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the utility model and are not intended to limit the utility model.

In the description of the present invention, it is to be understood that the terms "longitudinal", "radial", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1 to 3, in an embodiment of the present invention, there is provided a suction feeding apparatus, including: a controller (not shown in the figure), a driving mechanism 1, a discharging guide groove 2, a material sucking telescopic mechanism 3, a feeding push-pull mechanism 4 and a belt transmission mechanism 5; the controller is respectively connected with and controls the operation of the driving mechanism 1, the discharging guide groove 2, the sucking telescopic mechanism 3 and the feeding push-pull mechanism 4; the discharging guide groove 2 is used for placing materials; the belt transmission mechanism 5 is connected with the driving mechanism 1 and is driven by the driving mechanism 1 to perform transmission; the material sucking telescopic mechanism 3 is provided with a material sucking structure 31, and the material sucking structure 31 is driven by the belt transmission mechanism 5 to perform telescopic motion in the vertical direction so as to suck the material; the feeding push-pull mechanism 4 is fixedly connected with the belt transmission mechanism 5, and is driven by the belt transmission mechanism 5 to perform push-pull motion in the horizontal direction, so as to push the material sucked by the material suction structure 31 to a rounding mechanism (not shown in the figure) for rounding. In this application, inhale material telescopic machanism 2 along the vertical direction upward movement through belt drive mechanism 5 drive, until absorbing behind the material of placing in blowing guide way 2, under belt drive mechanism 5's drive, the downstream reaches preset position, inhale material structure 31 and stop to adsorb the material, the material breaks away from and inhales material structure 31, at this moment, pay-off push-and-pull institution 4 is under belt drive mechanism's drive, to inhaling the position removal of material structure 31, and carry out the rounding with the material propelling movement to rounding mechanism, the synchronization action of inhaling material and pushing material has been realized, when effectively having solved and carrying out pay-off respectively through double-cylinder among the prior art and pushing away the material operation, the material of inhaling brought is unstable, the problem of breaking down easily, avoid bringing the injury for equipment, effectively improved the life of equipment.

Wherein, the material can be tinplate which can be a raw material for manufacturing the metal can.

The driving mechanism 1 may be a driving motor, and the driving motor may be a servo motor.

Referring to fig. 1-3, in an embodiment of the present invention, the material sucking and retracting mechanism 3 and the driving mechanism 1 may be disposed on the mounting base 6 to support the material sucking and feeding device to avoid direct contact with the ground.

Referring to fig. 1-3, in an embodiment of the present invention, the controller is connected to the driving mechanism 1, and can control the operation state of the driving mechanism, so as to control the operation of the belt transmission mechanism 5, the discharging guide slot 2, the material sucking and retracting mechanism 3, and the material feeding and pushing mechanism 4.

Referring to fig. 1 to 3, in an embodiment of the present invention, the material suction telescoping mechanism 3 includes: the material sucking lifting cam 32 is movably connected with the belt transmission mechanism 5 and driven by the belt transmission mechanism 5 to rotate; a first linear guide rail 33 fixedly connected with the material suction lifting cam 32 and driven by the material suction lifting cam 32 to perform vertical telescopic motion; and the material suction structure 31 is fixedly assembled with the first linear guide rail 33 to suck the materials. Under the drive of the belt transmission mechanism 5, the material sucking lifting cam 32 transmits the motion to the first linear guide rail 33, so that the first linear guide rail 33 moves towards the position of the discharging device 2 in the vertical direction, and after the material sucking structure 31 sucks the material, the first linear guide rail 33 moves towards the direction far away from the discharging device 2 under the drive of the material sucking lifting cam 32 until the material sucking structure moves to the preset position, and the material sucking structure 31 finishes the adsorption and performs the circular reciprocating motion.

Wherein, the preset position can be a position where the feeding push-pull mechanism 4 can push the material.

Referring to fig. 1 to 3, in an embodiment of the present invention, the suction structure 31 includes: a mounting seat 311 fixedly assembled with the first linear guide 33; a plurality of material sucking discs 312 are arranged on the mounting seat 311; and the vacuum cavity 313 is fixedly assembled with the first linear guide 33, and the vacuum cavity 313 is communicated with the material sucking disc 312.

Further, the material suction disc 312 is connected with the mounting seat 311 through a suction pipe 314, a vacuum generator is arranged in the vacuum cavity 312, and the vacuum generator performs vacuum suction on the material suction disc 31 through the suction pipe 314.

Referring to fig. 1-3, in an embodiment of the present application, a supporting seat 331 is disposed on the first linear guide 33, and the supporting seat 331 is fixedly assembled with the mounting seat 311, so as to fixedly assemble the first linear guide 33 with the supporting seat 331.

The supporting base 331 and the mounting base 311 can be fixed and assembled together by screws, welding, and the like.

Referring to fig. 1 to fig. 3, in an implementation scenario of the present invention, a mounting groove is disposed on the mounting seat 311, the material suction tray 312 is disposed on the mounting groove through a suction pipe 314, the suction pipes 314 may be all communicated with the vacuum cavity 313, for example, each suction pipe may be communicated through a communication pipe and communicated with the vacuum cavity 313, and further, under operation of a vacuum generator disposed in the vacuum cavity, the material suction tray 312 is sucked into a vacuum suction cup through the suction pipe 314, so as to achieve material suction, when the material suction telescopic mechanism 3 sucks a material and moves to a preset position to a side away from the material, the vacuum generator stops working, and at this time, the material suction tray 312 stops sucking, so that the feeding push-pull mechanism 4 pushes the material to the rounding mechanism.

The number of the suction trays 312 may be 2, or may also be multiple, and the suction trays may be specifically set according to actual situations, which is not limited in this application.

Referring to fig. 1-3, in one embodiment of the present invention, the suction lifting cam 32 is connected to the belt transmission mechanism 5 through a first crank mechanism 34.

Referring to fig. 1 to 3, in an embodiment of the present invention, a feeding lifting cam 41 fixedly connected to the belt transmission mechanism 5 and driven by the belt transmission mechanism 5 to rotate; a second linear guide rail 42 fixedly connected with the feeding lifting cam 41 and driven by the feeding lifting cam 41 to perform telescopic motion in the horizontal direction; and the pushing structure 43 is fixedly assembled with the second linear guide rail 42 and pushes the material to the rounding mechanism for rounding. Under the drive through belt drive mechanism 5, pay-off lifting cam 41 rotates to drive second linear guide 42 and to being close to inhale the direction motion of material telescopic machanism 3, until will inhale the material propelling movement that material structure 31 absorbs and carry out the rounding processing back on the rounding mechanism, under belt drive mechanism 5's drive, drive second linear guide 42 through pay-off lifting cam 41 and to keeping away from inhale the direction motion of material telescopic machanism 3, and the reciprocal work of circulation.

Referring to fig. 1 to 3, in an embodiment of the present invention, the pushing structure 43 includes: an adjusting seat 431 fixedly assembled with the second linear guide 42; a mounting and fixing plate 432 fixedly assembled with the adjusting seat 431; and a material pushing block 433 which is arranged on one side of the mounting and fixing plate 432 close to the material sucking and stretching mechanism 3 and used for pushing the materials to a rounding mechanism to be rounded. Specifically, the adjusting seat 431 and the mounting and fixing plate 432 can be perpendicular to each other, and the adjusting seat 431 can be driven by the second linear guide rail 42 to drive the pushing block 433 on the mounting and fixing plate 432 to reciprocate, so that the material can be pushed.

Wherein, the adjusting seat 431 can adjust the fixing position on the second linear guide 42, so as to adjust the distance between the material pushing block 433 and the material.

Wherein, the adjusting seat 431 and the second linear guide 42 can be connected by a locking screw (not shown in the figure), which facilitates the detachment and the position adjustment.

The pushing block 433 can be fixedly assembled with an end of the fixed mounting seat 432 near the material sucking structure 31, for example, by bolts, fixing pins, etc.

Referring to fig. 1-3, in an embodiment of the present invention, the adjusting seat 431 includes: a support plate 4311 is arranged at one side far away from the mounting and fixing plate 432; and the cover is established on second linear guide 42, and the mounting groove 4312 of the preset position fixed assembly of second linear guide 42 is provided with a plurality of mounting holes on this second linear guide 42, mounting groove 4312 cover is established on this second linear guide 42 to can slide to preset position on second linear guide 42, and the fixed assembly of seat and second linear guide 42 is realized to mounting such as mounting hole accessible bolt that sets up on it.

The preset position can be determined according to the positions of the material pushing block 433 and the material sucking disc 312, which is not limited in this application.

Referring to fig. 1-3, in an embodiment of the present invention, the supporting plate 4311 is connected to the feeding lifting cam 41 through a second crank mechanism 44.

Referring to fig. 1 to 3, in an embodiment of the present invention, the belt drive mechanism 5 includes: a material sucking power wheel 51 fixedly assembled with the material sucking telescopic mechanism 3; a pushing power wheel 52 fixedly assembled with the feeding push-pull mechanism 4; a driving pulley 53 fixedly assembled with a power output shaft of the driving mechanism 1; the driving belt wheel 53 drives the material suction power wheel 51 and the material pushing power wheel 52 to rotate through a belt 54, so that the synchronous motion of the material suction telescopic mechanism 3 and the material feeding push-pull mechanism 4 is realized.

Specifically, the material sucking power wheel 51 is connected with the material sucking lifting cam 32, the material pushing power wheel 52 is connected with the material feeding lifting cam 41, the material sucking power wheel 51, the material pushing power wheel 52 and the driving belt wheel 53 are connected through a belt 54, when the driving mechanism 1 works, the driving belt wheel 53 fixedly assembled on the power output shaft rotates to drive the belt 54 to rotate, the material sucking power wheel 51 and the material pushing power wheel 52 are driven to rotate through the belt 54, and then the material sucking power wheel 51 is used for realizing the lifting material taking work of the material feeding telescopic mechanism 3 and the reciprocating material pushing work of the material feeding push-pull structure 4, so that the material feeding telescopic mechanism 3 and the material feeding push-pull structure 4 can synchronously move, the instability of a material sucking process is avoided, the damage to equipment is avoided, and the service life of the equipment is effectively prolonged.

Referring to fig. 1 to 3, in an embodiment of the present invention, the belt transmission mechanism 5 includes: and a tension pulley 55 provided between the suction power pulley 51 and the driving pulley 53 to tension the belt 54. The tensioning wheel 55 can tension the belt 54, so that the belt 54 can be pressed on the material suction power wheel 51, the material pushing power wheel 52 and the driving pulley 53 with proper pressure, the phenomenon that the belt 54 slips due to too small tensioning of the belt 54 is avoided, and meanwhile, the phenomenon that the belt 54 is damaged due to too large tensioning force can also be avoided.

In the embodiment of the utility model, the belt transmission mechanism drives the material suction telescopic mechanism to move upwards along the vertical direction until the material placed in the material placing guide groove is sucked, the material suction telescopic mechanism moves downwards to the preset position under the driving of the belt transmission mechanism, the material suction structure stops adsorbing the material, and the material is separated from the material suction structure.

The above description is intended to be illustrative of the preferred embodiment of the present invention and should not be taken as limiting the utility model, but rather, the intention is to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the utility model.

Claims (10)

1. The suction feeding device is characterized by comprising:

the device comprises a controller, a driving mechanism (1), a discharging guide groove (2), a material sucking telescopic mechanism (3), a feeding push-pull mechanism (4) and a belt transmission mechanism (5);

the controller is respectively connected with and controls the operation of the driving mechanism (1), the discharging guide groove (2), the material sucking and stretching mechanism (3) and the feeding push-pull mechanism (4);

the discharging guide groove (2) is used for placing materials;

the belt (54) transmission mechanism (5) is connected with the driving mechanism (1) and is driven by the driving mechanism (1) to perform transmission;

the material sucking telescopic mechanism (3) is provided with a material sucking structure (31), and the material sucking structure (31) is driven by the belt (54) transmission mechanism (5) to perform telescopic motion in the vertical direction so as to suck the materials;

the feeding push-pull mechanism (4) is fixedly connected with the belt transmission mechanism (5) and is driven by the belt transmission mechanism (5) to perform push-pull movement in the horizontal direction so as to push the materials sucked by the material suction structure (31) to the rounding mechanism for rounding.

2. The suction feeder apparatus according to claim 1, characterized in that the suction telescopic mechanism (3) comprises:

the material sucking lifting cam (32) is movably connected with the belt transmission mechanism (5) and driven by the belt transmission mechanism (5) to rotate;

the first linear guide rail (33) is fixedly connected with the material sucking lifting cam (32) and is driven by the material sucking lifting cam (32) to perform telescopic motion in the vertical direction;

and the material suction structure (31) is fixedly assembled with the first linear guide rail (33) to suck the materials.

3. Suction feeder apparatus according to claim 2, characterized in that the suction structure (31) comprises:

a mounting seat (311) fixedly assembled with the first linear guide rail (33);

a plurality of material sucking discs (312) are arranged on the mounting seat (311);

and the vacuum cavity (313) is fixedly assembled with the first linear guide rail (33), and the vacuum cavity (313) is communicated with the suction disc (312).

4. The suction feeding device as claimed in claim 3, wherein the suction tray (312) is connected with the mounting seat (311) through a suction pipe (314), and a vacuum generator is arranged in the vacuum cavity (313), and the vacuum generator performs vacuum suction on the suction tray (312) through the suction pipe (314).

5. A suction feeder apparatus according to claim 3, characterized in that the suction lifting cam (32) is connected to the belt drive (5) by means of a first crank mechanism (34).

6. Suction feeder device according to claim 1, characterised in that said feed push-pull mechanism (4) comprises:

the feeding lifting cam (41) is fixedly connected with the belt transmission mechanism (5) and rotates under the driving of the belt transmission mechanism (5);

the second linear guide rail (42) is fixedly connected with the feeding lifting cam (41) and is driven by the feeding lifting cam (41) to do telescopic motion in the horizontal direction;

and the pushing structure (43) is fixedly assembled with the second linear guide rail (42) and pushes the materials to the rounding mechanism for rounding.

7. Suction feeder device according to claim 6, characterised in that said pushing structure (43) comprises:

an adjusting seat (431) fixedly assembled with the second linear guide rail (42);

a mounting and fixing plate (432) fixedly assembled with the adjusting seat (431);

and a material pushing block which is arranged on one side of the mounting fixing plate (432) close to the material sucking telescopic mechanism (3) and pushes the materials to the rounding mechanism for rounding.

8. The suction feeder apparatus according to claim 7, wherein the adjustment seat (431) comprises:

a supporting plate (4311) is arranged on one side far away from the mounting and fixing plate (432); and

the mounting groove (4312) is sleeved on the second linear guide rail (42) and fixedly assembled at a preset position of the second linear guide rail (42);

the supporting plate (4311) is connected with the feeding lifting cam (41) through a second crank mechanism (44).

9. The suction feeder apparatus according to claim 1, wherein the belt drive mechanism (5) comprises:

the material suction power wheel (51) is fixedly assembled with the material suction telescopic mechanism (3);

a pushing power wheel (52) fixedly assembled with the feeding push-pull mechanism (4);

a driving belt wheel (53) fixedly assembled with a power output shaft of the driving mechanism (1);

the driving belt wheel (53) drives the material sucking power wheel (51) and the material pushing power wheel (52) to rotate through a belt (54), so that synchronous motion of the material sucking telescopic mechanism (3) and the material feeding push-pull mechanism (4) is realized.

10. The suction feeder apparatus according to claim 9, wherein the belt drive (5) comprises:

and a tension pulley (55) provided between the suction power pulley (51) and the drive pulley (53) to tension the belt.

Images