CN217755645U - Conveying device with rotating unit - Google Patents

Abstract

The utility model relates to a conveying device with a rotating unit, belonging to the technical field of conveying belts; the conveying device with the rotating unit comprises a rotating conveying belt, a connecting frame, a rotating device, a feeding conveying belt, a discharging conveying belt and a guide chute, wherein the rotating conveying belt is installed on the rotating device through the connecting frame; the utility model discloses a set up rotatory conveyer belt in feeding conveyer belt below, install ejection of compact conveyer belt in rotatory conveyer belt below, along the rotation route installation baffle box of rotatory conveyer belt discharge end between each ejection of compact conveyer belt to with the leading-in ejection of compact conveyer belt of mineral aggregate, install rotatory conveyer belt on the swivel mount through linking the frame, the gyro wheel is installed to the swivel mount bottom, in order to guarantee that rotatory conveyer belt operates stably, simple structure is convenient for maintain.

Description

Conveying device with rotating unit

Technical Field

The utility model relates to a take rotary unit's conveyor belongs to conveyer belt technical field.

Background

In smelting production, in order to improve smelting efficiency and economic benefit, smelting amount is increased by using a plurality of smelting furnaces to operate simultaneously, at present, a plurality of mineral aggregate conveying belts are adopted to convey mineral aggregate raw materials to the smelting furnaces from a raw material storage place, and therefore the problems of complex conveying belt network, inconvenient feeding, difficult maintenance and the like exist.

SUMMERY OF THE UTILITY MODEL

In order to overcome the problem that exists among the background art, the utility model provides a take revolving unit's conveyor, through set up rotatory conveyer belt in feeding conveyer belt below, install ejection of compact conveyer belt in rotatory conveyer belt below, realized the purpose of feeding to a plurality of directions from a position material loading, along the rotation route installation baffle box of rotatory conveyer belt discharge end between each ejection of compact conveyer belt, and be higher than both ends in the middle of the baffle box, so that the leading-in ejection of compact conveyer belt of mineral aggregate that falls when rotating rotatory conveyer belt, install the fender workbin at the discharge end of feeding conveyer belt, so that the mineral aggregate accuracy falls on rotatory conveyer belt, install rotatory conveyer belt on the swivel mount by motor drive through linking the frame, the gyro wheel is installed to the swivel mount bottom, in order to guarantee that rotatory conveyer belt operates stably, moreover, the steam generator is simple in structure, and is convenient for maintenance.

In order to solve the above problem, the utility model discloses a following technical scheme realizes:

the conveying device with the rotating unit comprises a rotating conveying belt, a connecting frame, a rotating device, a feeding conveying belt, discharging conveying belts and a guide chute, wherein the rotating conveying belt is installed on the rotating device through the connecting frame, the feeding conveying belt is installed above the rotating conveying belt, the discharging conveying belts are installed below the rotating conveying belt in an array mode, and the guide chute is installed between the discharging conveying belts along the rotating path of the discharging end of the rotating conveying belt.

Preferably, the rotating device comprises a support, a motor, a reduction gearbox, a rotating frame and a transmission shaft, the rotating frame is connected with the rotating conveying belt through a connecting frame, the lower end of the supporting leg of the rotating frame is provided with a roller, the motor is mounted on the support and is connected with the rotating frame through the reduction gearbox and the transmission shaft, and the support is provided with a guide rail convenient for the roller to roll.

Preferably, the discharge end of the feeding conveyer belt is provided with a material blocking box for guiding mineral aggregate to fall on the rotary conveyer belt, and the material blocking box is of a box body structure with openings at the two ends and closed at the periphery.

Preferably, the guide chute is of an annular structure adapted to a rotating path of the discharging end of the rotating conveyor belt, so that the mineral aggregate can slide into the discharging conveyor belt conveniently, two ends of the guide chute are mounted on the rack of the discharging conveyor belt and extend into the discharging conveyor belt, and the middle of the guide chute is higher than the two ends.

The utility model has the advantages that:

the utility model discloses a set up rotatory conveyer belt in feeding conveyer belt below, install ejection of compact conveyer belt in rotatory conveyer belt below, the purpose of feeding to a plurality of directions pay-off from a position material loading has been realized, along the rotation route installation baffle box of rotatory conveyer belt discharge end between each ejection of compact conveyer belt, and be higher than both ends in the middle of the baffle box, so that the leading-in ejection of compact conveyer belt of mineral aggregate that falls down when rotating rotary conveyer belt, install the fender workbin at feeding conveyer belt's discharge end, so that the mineral aggregate accuracy falls on rotatory conveyer belt, install rotatory conveyer belt on the swivel mount by motor drive through linking the frame, the gyro wheel is installed to the swivel mount bottom, in order to guarantee that rotatory conveyer belt operates stably, moreover, the steam generator is simple in structure, and is convenient for maintain.

Drawings

Fig. 1 is a schematic structural view of the present invention;

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

FIG. 3 is a schematic structural view of a rotating device according to the present invention;

fig. 4 is a side view of the rotating device of the present invention.

Description of reference numerals: 1-rotating conveyer belt, 2-connecting frame, 3-rotating device, 4-feeding conveyer belt, 5-discharging conveyer belt, 6-guide chute, 7-support, 8-motor, 9-reduction box, 10-rotating frame, 11-transmission shaft, 12-roller, 13-guide rail and 14-material blocking box.

Detailed Description

In order to make the objects, technical solutions, objectives and effects of the present invention obvious and understandable, preferred embodiments of the present invention will be described in detail below with reference to the accompanying drawings so that the skilled person can understand the preferred embodiments.

It should be noted that, in the description of the present invention, unless explicitly specified or limited, the terms "mounting," "connecting," and the like are to be understood in a broad sense, and may be fixed or detachable; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate.

The utility model discloses in, as shown in fig. 1-2, take conveyor of rotary unit includes rotary conveyor belt 1, even frame 2, rotary device 3, feeding web 4, ejection of compact conveyer belt 5, baffle box 6, rotary conveyor belt 1 installs on rotary device 3 through even frame 2, and feeding web 4 is installed to rotary conveyor belt 1 top, and rotary conveyor belt 1 below still the array install a plurality of ejection of compact conveyer belts 5, installs baffle box 6 along the rotation route of rotary conveyor belt 1 discharge end between each ejection of compact conveyer belt 5. Arrange the discharge end below at feeding conveyer belt 4 with rotatory conveyer belt 1 to at a plurality of ejection of compact conveyer belts 5 of 1 below array installation of rotatory conveyer belt, rotatory conveyer belt 1 is installed on rotary device 3 through even frame 2, drives rotatory conveyer belt 1 at the horizontal plane internal rotation by rotary device 3, has realized from a position material loading and to the purpose of a plurality of directions pay-off, in the concrete application, can install required quantity's ejection of compact conveyer belt 5 in 1 below of rotatory conveyer belt according to actual demand. In order to facilitate the introduction of mineral material falling during the rotation of the carousel 1 into the discharge conveyors 5, a chute 6 is provided between the discharge conveyors 5 along the rotation path of the discharge end of the carousel 1.

The utility model discloses in, as shown in fig. 3-4, rotary device 3 includes support 7, motor 8, reducing gear box 9, swivel mount 10, transmission shaft 11, swivel mount 10 is connected with rotatory conveyer belt 1 through even putting up 2, and the gyro wheel 12 is installed to the landing leg lower extreme of swivel mount 10, install motor 8 on the support 7, motor 8 is connected with swivel mount 10 through reducing gear box 9 and transmission shaft 11, is equipped with the rolling guide rail 13 of gyro wheel 12 of being convenient for on the support 7. The rotation of rotary device 3 is provided with power by motor 8, motor 8 installs on support 7, and the output shaft of motor 8 is connected with reducing gear box 9, is connected reducing gear box 9 and swivel mount 10 through transmission shaft 11, and motor 8 provides the swivel mount 10 with the rotation torque through reducing gear box 9 and transmission shaft 11, makes swivel mount 10 drive rotatory conveyer belt 1 through even frame 2 and rotates in the horizontal plane that uses transmission shaft 11 as the center to carry the mineral aggregate to each ejection of compact conveyer belt 5. In order to ensure the stable operation of the rotary conveyor belt 1, the rollers 12 are arranged at the lower ends of the supporting legs of the rotary frame 10, so that the supporting function can be realized on one hand, and the rotary conveyor belt 1 can be conveniently and stably rotated on the other hand; in order to prevent the rollers 12 from being displaced, the brackets 7 are provided with guide rails 13 for facilitating the rolling of the rollers 12, thereby further ensuring the stable operation of the rotary conveyor 1. The control motor 8 rotates at a constant speed or intermittently rotates, so that the rotary conveyer belt 1 can be controlled to rotate at a constant speed or stop above a certain discharge conveyer belt 5, and the purpose of feeding to each discharge conveyer belt 5 or continuously feeding to a certain discharge conveyer belt 5 at a constant speed is achieved.

The utility model discloses in, as shown in fig. 1-4, the fender workbin 14 that is used for guiding the mineral aggregate to fall on rotary conveyor belt 1 is installed to the discharge end of feeding conveyor belt 4, and keeps off workbin 14 and be the box structure of sealing both ends open-ended all around. The rotary conveying belt 1 rotates in a horizontal plane with a transmission shaft 11 in the rotating device 3 as a center, the discharging end of the feeding conveying belt 4 is located right above the position of the transmission shaft 11, and mineral aggregates on the feeding conveying belt 4 fall on the rotating center of the rotary conveying belt 1 so as to meet the requirement that the feeding conveying belt 4 can stably supply materials in the rotating process of the rotary conveying belt 1. In order to prevent the mineral aggregate from splashing in the falling process, the discharge end of the feeding conveyer belt 4 is provided with the material blocking box 14, and the material blocking box 14 is of a box body structure with the periphery closed and two ends open so as to ensure that the mineral aggregate accurately and stably falls on the rotary conveyer belt 1.

In the utility model, as shown in fig. 1-2, the material guiding groove 6 is an annular structure adapted to the rotation path of the discharging end of the rotary conveyer belt 1, so that the mineral aggregate slides into the discharging conveyer belt 5, the two ends of the material guiding groove 6 are installed on the frame of the discharging conveyer belt 5 and extend into the discharging conveyer belt 5, and the middle of the material guiding groove 6 is higher than the two ends. In order to guide the mineral aggregate falling off when the rotary conveyer belt 1 rotates into the discharging conveyer belts 5, a material guide chute 6 is arranged between the discharging conveyer belts 5, and the material guide chute 6 is of an annular structure matched with the rotating path of the discharging end of the rotary conveyer belt 1. In order to prevent mineral aggregate from accumulating in the material guide groove 6, two ends of the material guide groove 6 are installed on the frame of the discharging conveyer belt 5 and extend into the discharging conveyer belt 5, and the middle of the material guide groove 6 is higher than the two ends, so that the mineral aggregate can automatically slide onto the discharging conveyer belts 5 on the two sides.

The utility model discloses a working process:

starting each conveyer belt, starting the motor 8, enabling the motor 8 to drive the rotating frame 10 to rotate through the reduction gearbox 9 and the transmission shaft 11, and enabling the rotating frame 10 to drive the rotating conveyer belt 1 to rotate in a horizontal plane taking the transmission shaft 11 as a center through the connecting frame 2; to feeding conveyer belt 4 material loading, make the mineral aggregate drop on rotary conveyor belt 1 through the material blocking box 14 of feeding conveyer belt 4 discharge end, rotate by rotary conveyor belt 1 and transport the mineral aggregate to each ejection of compact conveyer belt 5 on, baffle box 6 transports the leading-in ejection of compact conveyer belt 5 of the mineral aggregate that the in-process dropped with rotary conveyor belt 1 on, transports the mineral aggregate to each smelting furnace by ejection of compact conveyer belt 5 at last. The rotating conveyor belt 1 can be controlled to rotate at a constant speed or stop above a certain discharging conveyor belt 5 by controlling the motor 8 to rotate at a constant speed or intermittently rotate, so that the feeding to each discharging conveyor belt 5 or the feeding to a certain discharging conveyor belt 5 is realized at a constant speed.

The utility model discloses a set up rotary conveyor belt below feeding conveyor belt, install ejection of compact conveyer belt below rotary conveyor belt, the purpose of from a position material loading to the pay-off of a plurality of directions has been realized, along the rotation route installation baffle box of rotary conveyor belt discharge end between each ejection of compact conveyer belt, and be higher than both ends in the middle of the baffle box, so that the leading-in ejection of compact conveyer belt of mineral aggregate that falls when rotating rotary conveyor belt, install the fender workbin at feeding conveyor belt's discharge end, so that the mineral aggregate accuracy falls on rotary conveyor belt, install rotary conveyor belt on the swivel mount by motor drive through linking the frame, the gyro wheel is installed to the swivel mount bottom, in order to guarantee that rotary conveyor belt operates stably, moreover, the steam generator is simple in structure, and is convenient for maintain.

Finally, the above preferred embodiments are only intended to illustrate the technical solution of the present invention and not to limit it, and although the present invention has been described in detail through the above preferred embodiments, it should be understood by those skilled in the art that various changes in form and details may be made therein without departing from the scope of the present invention as defined by the appended claims.

Claims (4)

1. A conveyor with rotary units is characterized in that: the conveying device with the rotating unit comprises a rotating conveying belt (1), a connecting frame (2), a rotating device (3), a feeding conveying belt (4), discharging conveying belts (5) and a guide chute (6), wherein the rotating conveying belt (1) is installed on the rotating device (3) through the connecting frame (2), the feeding conveying belt (4) is installed above the rotating conveying belt (1), a plurality of discharging conveying belts (5) are installed below the rotating conveying belt (1) in an array mode, and the guide chute (6) is installed between the discharging conveying belts (5) along the rotating path of the discharging end of the rotating conveying belt (1).

2. A conveying apparatus with a rotating unit according to claim 1, characterized in that: rotating device (3) include support (7), motor (8), reducing gear box (9), swivel mount (10), transmission shaft (11), swivel mount (10) are connected with rotatory conveyer belt (1) through even frame (2), and gyro wheel (12) are installed to the landing leg lower extreme of swivel mount (10), install motor (8) on support (7), motor (8) are connected with swivel mount (10) through reducing gear box (9) and transmission shaft (11), are equipped with on support (7) and are convenient for gyro wheel (12) rolling guide rail (13).

3. A conveying apparatus with a rotating unit according to claim 1, characterized in that: the material blocking box is characterized in that a material blocking box (14) used for guiding mineral materials to fall on the rotary conveying belt (1) is installed at the discharging end of the feeding conveying belt (4), and the material blocking box (14) is of a box body structure with openings at the two ends sealed all around.

4. A conveying apparatus with a rotary unit according to claim 1, wherein: the guide chute (6) is of an annular structure matched with a rotating path of the discharging end of the rotary conveying belt (1), so that mineral materials can slide into the discharging conveying belt (5), two ends of the guide chute (6) are installed on a rack of the discharging conveying belt (5) and extend into the discharging conveying belt (5), and the middle of the guide chute (6) is higher than the two ends.

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