CN214297783U - Movable belt conveyor - Google Patents

Abstract

The utility model relates to a portable belt feeder, include: a first bracket; a drive roll; a driving roller; a belt; the baffle is arranged on the first support and comprises a bottom baffle and two side baffles, the two side baffles are respectively positioned on two long sides of the first support, the bottom baffle is positioned at the bottom end of the first support, and two sides of the bottom baffle are respectively connected with the two side baffles; the height adjusting device is used for adjusting the height of the top end of the first bracket; the vibration device is arranged on the first bracket and is in contact with the belt positioned below the first bracket; the roller comprises a first roller and a second roller, the first roller is arranged at the bottom end of the first support, and the second roller is arranged at the bottom of the height adjusting device. The utility model provides a belt feeder suitable for not co-altitude freight train uses this belt feeder can not cause the fodder to roll, and can will get rid of the dust impurity on the belt.

Description

Movable belt conveyor

Technical Field

The utility model relates to a about transportation equipment, indicate a portable belt feeder especially.

Background

The belt conveyor is generally used for conveying the feed to the trucks when the feed factory loads the feed, the belt conveyor can save labor and improve the loading speed, but the trucks are different in type and height, the conventional belt conveyor cannot meet the requirements of the trucks with different heights, the conventional belt conveyor can only convey the feed packaged by bags, for bulk feed, the problem that the feed rolls on a belt can occur due to small feed size and smooth surface, the loading is inconvenient, and in the feed production and loading processes, some dust impurities fall on the belt to pollute the next conveyed feed.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a main objective lies in providing a belt feeder suitable for not co-altitude freight train, uses this belt feeder can not cause the fodder to roll, and can will get rid of the dust impurity on the belt.

For solving the technical problem, the utility model discloses the technical scheme who takes lies in:

a movable belt conveyor, which is characterized by comprising:

a first bracket; the first support is in a cuboid shape, and the two ends of the long edge of the first support are respectively a bottom end and a top end;

the two driving rollers are respectively arranged at the bottom end and the top end of the first support, and the central axes of the two driving rollers are parallel;

the first power supply device is used for driving the driving roller to rotate;

the driving rollers are arranged on the first support in a rotating mode, the distance between the driving rollers is equal, and the central axes of the driving rollers are parallel to the central axes of the two driving rollers;

the belt is wound on the driving roller and the transmission roller;

the baffle is fixedly arranged on the first support and comprises two bottom baffles and two side baffles, the two side baffles are respectively positioned on two long sides of the first support, the bottom baffles are obliquely and upwards positioned at the bottom end of the first support, and two sides of the bottom baffles are respectively connected with the two side baffles;

the height adjusting device is used for adjusting the height of the top end of the first support;

the vibration device is fixedly arranged on the first support and is in contact with the belt below the first support;

the roller comprises a first roller and a second roller, the first roller is arranged at the bottom end of the first support, and the second roller is arranged at the bottom of the height adjusting device.

Further, the height adjusting device includes:

the second support is rotatably arranged at the bottom of the first support, the number of the second rollers is two, and the second rollers are rotatably arranged on two sides of the bottom of the second support;

the third support is rotatably arranged at the bottom of the second support and is arranged between the two second rollers;

the sliding groove is fixedly arranged at the bottom of the first support, the sliding groove is positioned above the second support, and the opening direction of the sliding groove is downward;

the first wire rope wheel is rotatably arranged on the second bracket;

the second wire rope wheel is rotatably arranged at the top end of the third bracket and is arranged in the sliding groove in a rolling manner;

the bidirectional motor is fixedly arranged on the second bracket and used for providing bidirectional driving torque;

the steel wire rope roller is connected with the bidirectional motor;

and one end of the steel wire rope is fixedly arranged on the third support, and the other end of the steel wire rope sequentially winds around the first steel wire rope wheel and the second steel wire rope wheel and is fixedly wound on the steel wire rope roller.

Further, the vibration device includes:

the second power supply device is fixedly arranged on the first bracket and used for supplying driving torque;

the eccentric wheel is rotatably arranged on the first bracket, and the second power supply device is connected with the eccentric wheel;

the bearing is arranged outside the eccentric wheel;

the buffer layer is fixedly arranged on the periphery of the bearing, and is in contact fit with the inner wall of the lower belt.

Furthermore, the number of the first power supply devices is two, and the two first power supply devices are respectively and correspondingly connected with the two driving rollers.

Further, the belt feeder still includes deviation correcting device, and deviation correcting device includes: the sand grip is circumferentially and fixedly arranged on the inner wall of the belt, and grooves matched with the sand grip in a clamping mode are formed in the driving roller and the transmission roller.

Further, the first power supply device is a bidirectional motor.

Further, the baffle still includes horizontal baffle, horizontal baffle is fixed to be set up at the surface of belt, and horizontal baffle's length is the same with the width of belt, and horizontal baffle both ends set up in the belt both sides, and horizontal baffle's quantity is a plurality of, and a plurality of horizontal baffle align to grid set up the surface at the belt.

The utility model has the advantages that:

the utility model discloses in, the side shield can avoid the fodder from the landing of belt both sides, and the bottom shield can avoid the fodder from the landing of bottom, and height adjusting device can adjust the height on first support top, is applicable to the freight train of co-altitude not, and vibrator can shake off the impurity that glues on the belt.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a front view of the present invention;

fig. 2 is a top view of the present invention;

FIG. 3 is a cross-sectional view of the deviation correcting device of the present invention;

FIG. 4 is a schematic view of the vibration device of the present invention;

fig. 5 is a schematic diagram of the wire winding of the steel wire rope of the present invention.

Description of the reference numerals

1. A first support, 11, a bottom end, 12, a top end,

2. a driving roller 3, a first power supply device 4, a driving roller 41, a groove 415 and a belt,

6. a baffle plate 61, a bottom baffle plate 62, a side baffle plate 63 and a transverse baffle plate,

7. a height adjusting device 71, a second bracket 72, a third bracket 73, a sliding chute 74, a first wire rope wheel 75, a second wire rope wheel 76, a bidirectional motor 77 and a wire rope,

8. a vibration device 81, a second power supply device 82, an eccentric wheel 83, a bearing 84, a buffer layer,

9. a roller 91, a first roller 92, a second roller,

01. and (4) raised strips.

Detailed Description

The technical solution in the embodiment of the present invention is clearly and completely described below with reference to the drawings in the embodiment of the present invention. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be implemented in other ways different from the specific details set forth herein, and one skilled in the art may similarly generalize the present invention without departing from the spirit of the present invention, and therefore the present invention is not limited to the specific embodiments disclosed below.

A mobile belt 415 machine, as shown in fig. 1-5, comprising:

a first support 1; the first support 1 is in a cuboid shape, and the two ends of the long edge of the first support 1 are respectively a bottom end 11 and a top end 12;

the number of the driving rollers 2 is two, the two driving rollers 2 are respectively arranged at the bottom end 11 and the top end 12 of the first support 1, and the central axes of the two driving rollers 2 are parallel;

the first power supply device 3 is used for driving the driving roller 2 to rotate;

the number of the transmission rollers 4 is multiple, the transmission rollers 4 are all rotatably arranged on the first support 1, the distances among the transmission rollers 4 are equal, and the central axes of the transmission rollers 4 and the central axes of the two driving rollers 2 are parallel to each other;

a belt 415, the belt 415 being wound around the driving roller 2 and the driving roller 4;

the baffle 6 is fixedly arranged on the first support 1, the baffle 6 comprises two bottom baffles 61 and two side baffles 62, the two side baffles 62 are respectively positioned on two long sides of the first support 1, the bottom baffle 61 is obliquely and upwards positioned at the bottom end 11 of the first support 1, and two sides of the bottom baffle 61 are respectively connected with the two side baffles 62;

the height adjusting device 7 is used for adjusting the height of the top end 12 of the first bracket 1;

the vibration device 8 is fixedly arranged on the first support 1, and the vibration device 8 is in contact with a belt 415 below the first support 1;

and the roller 9 comprises a first roller 91 and a second roller 92, the first roller 91 is arranged at the bottom end 11 of the first bracket 1, and the second roller 92 is arranged at the bottom of the height adjusting device 7.

The utility model discloses in, adjust 1 top 12 height of first support through height-adjusting device 7, remove belt 415 machine to the freight train next door, make the top 12 of first support 1 be located the freight train top, start first power and provide device 3, drive roll 2 and rotate, belt 415 rotates the driving roller and rotates thereupon, and the fodder that will need the loading is put in belt 415's bottom 11, and belt 415 drives the fodder rebound to top 12, falls into in the freight train after.

The utility model discloses in, side shield 62 can avoid the fodder from belt 415 both sides landing, and end shield 61 can avoid the fodder from the bottom landing, and height adjusting device 7 can adjust the height of 1 top 12 of first support, is applicable to the freight train of co-altitude not, and vibrator 8 can shake off the impurity that glues on belt 415.

Further, the height adjusting device 7 includes:

the second bracket 71 is rotatably arranged at the bottom of the first bracket 1, the number of the second rollers 92 is two, and the two second rollers 92 are rotatably arranged at two sides of the bottom of the second bracket 71;

the third bracket 72 is rotatably arranged at the bottom of the second bracket 71, and the third bracket 72 is arranged between the two second rollers 92;

the sliding groove 73 is fixedly arranged at the bottom of the first support 1, the sliding groove 73 is positioned above the second support 71, and the opening direction of the sliding groove 73 is downward;

a first wire sheave 74, the first wire sheave 74 being rotatably provided on the second bracket 71;

the second wire rope wheel 75 is rotatably arranged at the top end of the third bracket 72, and the second wire rope wheel 75 is arranged in the sliding groove 73 in a rolling manner;

a bidirectional motor 76 fixedly disposed on the second bracket 71 for providing a bidirectional driving torque;

a wire rope roller connected to the bidirectional motor 76;

and one end of the steel wire rope 77 is fixedly arranged on the third bracket 72, and the other end of the steel wire rope 77 sequentially bypasses the first steel wire rope pulley 74 and the second steel wire rope pulley 75 and is wound and fixed on the steel wire rope roller.

In the utility model, when the height adjusting device 7 is used to heighten the top end 12 of the first support 1, the two-way motor 76 is started to drive the steel wire rope roller to rotate, the steel wire rope 77 is wound on the steel wire rope roller, the steel wire rope 77 drives the second steel wire rope pulley 75 to slide in the chute 73, the distance between the first steel wire rope pulley 74 and the second steel wire rope pulley 75 is reduced, the first support 1 rotates by taking the bottom end 11 of the first support 1 as a shaft, the position of the top end 12 of the first support 1 is raised, and the distance between the first idler wheel 91 and the second idler wheel 92 is reduced; when the top end 12 of the first support 1 is lowered by using the height adjusting device 7, the bidirectional motor 76 is started to rotate in the opposite direction, the steel wire rope roller rotates in the opposite direction, the steel wire rope 77 wound on the steel wire rope roller is separated from the steel wire rope roller, the first support 1 gives downward gravity to the third support 72, the distance between the first steel wire rope roller 74 and the second steel wire rope roller 75 is increased, the first support 1 rotates by taking the bottom end 11 of the first support 1 as a shaft, the position of the top end 12 of the first support 1 is lowered, and the purpose of lifting or lowering the top end 12 of the first support 1 is achieved.

Further, the vibration device 8 includes:

the second power supply device 81 is fixedly arranged on the first bracket 1 and used for supplying driving torque;

the eccentric wheel 82 is rotatably arranged on the first bracket 1, and the second power supply device 81 is connected with the eccentric wheel 82;

the bearing 83, the bearing 83 is set up outside the eccentric wheel 82;

the cushion layer 84, the cushion layer 84 is fixedly arranged on the outer periphery side of the bearing 83, and the cushion layer 84 is in contact fit with the inner wall of the lower belt 415.

The utility model discloses in, start second power supply unit 81, drive eccentric wheel 82 and rotate, make belt 415 receive the power that comes from the eccentric wheel 82 is different, eccentric wheel 82 drives belt 415 shake promptly, eccentric wheel 82 slew velocity is far greater than the rotatory speed of belt 415, the setting up of bearing 83 can make the friction between eccentric wheel 82 and the bearing 83 be stiction, reduce the wearing and tearing of belt 415 inner wall, the buffer layer 84 in the eccentric wheel 82 outside also can reduce the wearing and tearing of belt 415 inner wall.

Further, the number of the first power supply devices 3 is two, and the two first power supply devices 3 are respectively and correspondingly connected with the two driving rollers 2.

The utility model discloses in, use two first power to provide device 3 can increase every first power and provide device 3's life, when one of them power provides the device and breaks down, can continue work with another one, guarantee the normal loading of fodder.

Further, belt 415 machine still includes deviation correcting device, and deviation correcting device includes: the convex strip 01 is circumferentially and fixedly arranged on the inner wall of the belt 415, and a groove 41 matched with the convex strip 01 in a clamping mode is formed in the driving roller 2 and the transmission roller 4.

The utility model discloses in, belt 415 rotates the in-process, and the sand grip 01 on the belt 415 inner wall is located the recess 41 of drive roll 2 and driving roller all the time, can avoid belt 415's offset.

Further, the first power supply device 3 is a bidirectional motor 76.

The utility model discloses in, two-way motor 76 can make drive roll 2 drive belt 415 clockwise rotation or anticlockwise rotation, both can transfer the fodder loading, also can transfer the fodder on the car to ground.

Further, baffle 6 still includes horizontal baffle 63, horizontal baffle 63 is fixed to be set up in the surface of belt 415, and the length of horizontal baffle 63 is the same with the width of belt 415, and horizontal baffle 63 both ends set up in belt 415 both sides, and the quantity of horizontal baffle 63 is a plurality of, and a plurality of horizontal baffles 63 align to grid sets up the surface at belt 415.

The utility model discloses in, horizontal baffle 63 can block the fodder, avoids the fodder along belt 415 landing, improves conveying efficiency.

The foregoing description is only of the preferred embodiments of the present invention, and it should be understood that the described embodiments are only some embodiments of the present invention, and not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Claims (7)

1. A movable belt conveyor, which is characterized by comprising:

a first bracket (1); the first support (1) is in a cuboid shape, and the two ends of the long side of the first support (1) are respectively a bottom end (11) and a top end (12);

the number of the driving rollers (2) is two, the two driving rollers (2) are respectively arranged at the bottom end (11) and the top end (12) of the first support (1), and the central axes of the two driving rollers (2) are parallel;

the first power supply device (3) is used for driving the driving roller (2) to rotate;

the number of the transmission rollers (4) is multiple, the transmission rollers (4) are all rotatably arranged on the first support (1), the distances among the transmission rollers (4) are equal, and the central axes of the transmission rollers (4) and the central axes of the two driving rollers (2) are parallel to each other;

a belt (415), wherein the belt (415) is wound on the driving roller (2) and the transmission roller (4);

the baffle (6) is fixedly arranged on the first support (1), the baffle (6) comprises two bottom baffles (61) and two side baffles (62), the two side baffles (62) are respectively positioned on two long edges of the first support (1), the bottom baffles (61) are obliquely and upwards positioned at the bottom end (11) of the first support (1), and two sides of the bottom baffles (61) are respectively connected with the two side baffles (62);

the height adjusting device (7) is used for adjusting the height of the top end (12) of the first support (1);

the vibration device (8) is fixedly arranged on the first support (1), and the vibration device (8) is in contact with a belt (415) positioned below the first support (1);

the roller (9) comprises a first roller (91) and a second roller (92), the first roller (91) is arranged at the bottom end (11) of the first support (1), and the second roller (92) is arranged at the bottom of the height adjusting device (7).

2. A mobile belt conveyor according to claim 1, characterized in that said height adjustment means (7) comprise:

the second bracket (71) is rotatably arranged at the bottom of the first bracket (1), the number of the second rollers (92) is two, and the two second rollers (92) are rotatably arranged at two sides of the bottom of the second bracket (71);

the third bracket (72) is rotatably arranged at the bottom of the second bracket (71), and the third bracket (72) is arranged between the two second rollers (92);

the sliding groove (73) is fixedly arranged at the bottom of the first support (1), the sliding groove (73) is positioned above the second support (71), and the opening direction of the sliding groove (73) is downward;

a first wire rope wheel (74), wherein the first wire rope wheel (74) is rotatably arranged on the second bracket (71);

the second wire rope wheel (75), the second wire rope wheel (75) is rotatably arranged at the top end of the third bracket (72), and the second wire rope wheel (75) is arranged in the sliding groove (73) in a rolling manner;

the bidirectional motor (76) is fixedly arranged on the second bracket (71) and is used for providing bidirectional driving torque;

the steel wire rope roller is connected with the bidirectional motor (76);

and one end of the steel wire rope (77) is fixedly arranged on the third support (72), and the other end of the steel wire rope (77) sequentially bypasses the first steel wire rope wheel (74) and the second steel wire rope wheel (75) and is wound and fixed on the steel wire rope roller.

3. A mobile belt conveyor according to claim 1, characterized in that said vibrating device (8) comprises:

the second power supply device (81), the second power supply device (81) is fixedly arranged on the first bracket (1) and is used for supplying driving torque;

the eccentric wheel (82), the eccentric wheel (82) is rotatably arranged on the first bracket (1), and the second power supply device (81) is connected with the eccentric wheel (82);

the bearing (83), the bearing (83) is set up outside the eccentric wheel (82);

and the buffer layer (84) is fixedly arranged on the outer peripheral side of the bearing (83), and the buffer layer (84) is in contact fit with the inner wall of the lower belt (415).

4. A mobile belt conveyor according to claim 1, characterized in that the number of the first power supply devices (3) is two, and two first power supply devices (3) are respectively and correspondingly connected with the two driving rollers (2).

5. A mobile belt conveyor as in claim 1 wherein the belt (415) machine further comprises a deviation correcting device comprising: the belt conveyor is characterized in that the convex strips (01) are circumferentially and fixedly arranged on the inner wall of the belt (415), and grooves (41) matched with the convex strips (01) in a clamping mode are formed in the driving roller (2) and the transmission roller (4).

6. A mobile belt conveyor according to claim 1 or 4, wherein said first power supply means (3) is a bi-directional motor (76).

7. The movable belt conveyor of claim 1, wherein the baffle (6) further comprises a transverse baffle (63), the transverse baffle (63) is fixedly arranged on the outer surface of the belt (415), the length of the transverse baffle (63) is equal to the width of the belt (415), two ends of the transverse baffle (63) are arranged on two sides of the belt (415), the number of the transverse baffles (63) is multiple, and the plurality of transverse baffles (63) are uniformly arranged on the outer surface of the belt (415).

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