CN214568609U - Conveying device - Google Patents

Abstract

The utility model relates to a conveying device belongs to conveying equipment's field, including the supporting seat, the supporting seat top is rotated and is connected with the support frame, the support frame top is equipped with first transport mechanism, first transport mechanism is including setting up the first conveyer belt on support frame upper portion, the direction of transfer perpendicular to support frame axis of rotation of first conveyer belt, the feed opening has been seted up in the below of the one end of support frame is kept away from in first conveyer belt to the support frame, be equipped with the supporting mechanism who supports and rotate the support frame between feed opening and the supporting seat. This application has the effect that makes things convenient for the powder storage, reduces artifical intensity of labour, improves work efficiency.

Description

Conveying device

Technical Field

The application relates to the field of conveying equipment, in particular to a conveying device.

Background

The history of the conveyor is long, and the ancient Chinese high-rotary-drum vehicle and the water-lifting overturning vehicle are rudiments of a modern bucket elevator and a scraper conveyor. Belt conveyors are the primary means of bulk material transport today. The conveyor can be divided into the following operation modes: a loading and repairing integrated conveyor, a belt conveyor, a screw conveyor, a bucket elevator, a roller conveyor, a plate chain conveyor, a mesh belt conveyor and a chain conveyor.

Chinese patent No. CN209988522U discloses a conveyor belt device for conveying powder, comprising a frame, a rotating motor, a driving roller, a driven roller, a belt and a filter box; the filter box is detachably connected with the rack and is positioned below the driving roller or the driven roller so as to receive and filter powder falling from the belt; both sides of the surface of the belt are provided with flanges which are flexible films and are arranged in a continuous S shape along the conveying direction. The utility model discloses a conveyer belt device for carrying powder sets up the flange that is continuous S shape along direction of delivery on the surface of belt, and the powder that is carried through the belt gets into down one process.

In view of the above related technologies, the inventor thinks that when the powder on the conveyor belt is conveyed to the storehouse for storage, the powder is moved to the same position, and extra manpower is needed to move the powder to other positions for storage, so that the subsequent powder conveying is not hindered, and the process is complex in operation, high in labor intensity and low in working efficiency.

SUMMERY OF THE UTILITY MODEL

For the powder storage of convenience, reduce artifical intensity of labour, improve work efficiency, this application provides a conveyor.

The application provides a conveyor adopts following technical scheme:

the utility model provides a conveying device, includes the supporting seat, the supporting seat top is rotated and is connected with the support frame, the support frame top is equipped with first conveying mechanism, first conveying mechanism is including setting up the first conveyer belt on support frame upper portion, the direction of transfer perpendicular to support frame axis of rotation of first conveyer belt, the feed opening has been seted up in the below of the one end of support frame is kept away from to first conveyer belt, be equipped with the supporting mechanism who supports and rotate the support frame between feed opening and the supporting seat.

Through adopting above-mentioned technical scheme, the powder support frame is close to the one end top whereabouts of axis of rotation, and fall first conveyer belt top, first conveyer belt drives the powder and removes towards keeping away from supporting seat one side, break away from first conveyer belt until the powder, and from the feed opening that passes the support frame, make the powder pile up, after the powder piles up the take the altitude, supporting mechanism drives support frame and first conveyer belt and rotates around support frame axis of rotation, make the feed opening shift position, thereby change the position that the powder piles up, make things convenient for the powder to pile up the transform of position from this, reduce the work of artifical removal powder, thereby reduce intensity of labour, and improve the work efficiency.

Optionally, baffles parallel to the conveying direction of the first conveyor belt are arranged on two sides of the first conveyor belt, and the baffles are arranged on the support frame.

Through adopting above-mentioned technical scheme, the baffle sets up in first conveyer belt both sides for powder on the first conveyer belt can not break away from first conveyer belt, keeps the stable conveying of first conveyer belt.

Optionally, the supporting mechanism includes a moving frame arranged at the lower part of the supporting frame, an arc-shaped guide rail is arranged below the moving frame, the circle center of the guide rail coincides with the rotation axis of the supporting frame, and a driving assembly for driving the moving frame to move along the guide rail is arranged at the lower end of the moving frame.

Through adopting above-mentioned technical scheme, drive assembly drive removes the frame and removes along the guide rail, because the centre of a circle of guide rail and the axis of rotation coincidence of support frame for drive assembly drives the support frame and rotates, thereby makes feed opening position transform, adjusts the position that the powder is piled up from this.

Optionally, the driving assembly includes a guide wheel disposed at the lower end of the movable frame, an annular guide groove is disposed on a circumferential side wall of the guide wheel, the guide rail is inserted into the guide groove, and a driving member for driving the guide wheel to rotate is disposed on the movable frame.

Through adopting above-mentioned technical scheme, the guide rail is pegged graft in the guide way for the leading wheel can not break away from the guide rail, and when driving piece drive leading wheel rotated from this, the leading wheel removed along the guide rail, thereby drove the movable frame and remove above the guide rail.

Optionally, the driving member is set as a driving motor, and an output shaft of the driving motor is fixed on the guide wheel along an axis of the guide wheel.

Through adopting above-mentioned technical scheme, driving motor's output shaft rotates for the leading wheel rotates, thereby makes the leading wheel rotate on the guide rail.

Optionally, a second conveying mechanism is arranged below the support frame and comprises a fixing frame arranged below the support frame, a second conveying belt located below the first conveying belt is arranged on the upper portion of the fixing frame, one end of the second conveying belt is close to the feed opening, and a material guide assembly connected with the feed opening and the second conveying belt is arranged on the fixing frame.

Through adopting above-mentioned technical scheme, after the space under the feed opening is piled up by the powder, the guide subassembly will be followed the powder that the feed opening fell and conveyed on the second conveyer belt, and the second conveyer belt conveys the powder to another position once more to pile up the powder once more, can pile up the powder in a plurality of places from this.

Optionally, the material guiding assembly comprises a material guiding plate, the material guiding plate is arranged above one end, close to the feed opening, of the second conveying belt, one end of the guide plate is rotatably connected with the fixing frame, one end, far away from the fixing frame, of the guide plate is hinged to a hydraulic cylinder, and the hydraulic cylinder is hinged to the fixing frame at the same time.

Through adopting above-mentioned technical scheme, the pneumatic cylinder extension for the deflector is kept away from the one end rotation of mount, and is located the feed opening below, and on the powder fell and fall the stock guide from the feed opening, the powder fell on the second conveyer belt along the stock guide, when the pneumatic cylinder shrink, makes the stock guide no longer be located the feed opening below, and the powder in the feed opening is direct to the whereabouts from this to can not fall on the second conveyer belt.

Optionally, the horizontal section of the material guide plate is arranged in a V shape.

Through adopting above-mentioned technical scheme, the stock guide is the V-arrangement for the powder that falls onto the stock guide is towards the middle gathering of stock guide, makes the powder can not scatter, and the powder is concentrated to be fallen on the second conveyer belt from this.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the supporting mechanism drives the supporting frame and the first conveying belt to rotate around the rotating axis of the supporting frame, so that the position of the feed opening is transferred, and the powder accumulation position is replaced, the powder accumulation position is convenient to change, the work of manually moving the powder is reduced, the labor intensity is reduced, and the work efficiency is improved;

2. the second conveying mechanism is connected with the first conveying mechanism in a continuous mode, so that the powder can be conveyed to more positions, the powder can be accumulated in multiple places, and the powder storage and accumulation efficiency is improved.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present application.

Fig. 2 is a schematic structural view of the support mechanism.

Fig. 3 is a schematic structural view of the second conveyance mechanism.

Description of reference numerals: 1. a supporting seat; 2. a support frame; 3. a first conveying mechanism; 31. a first conveyor belt; 32. a baffle plate; 33. a feeding port; 4. a support mechanism; 41. a movable frame; 42. a guide rail; 43. connecting the shell; 44. a guide wheel; 45. a guide groove; 46. a drive motor; 5. a second transport mechanism; 51. a second conveyor belt; 52. a fixed mount; 53. a material guiding assembly; 531. a material guide plate; 532. and a hydraulic cylinder.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses a conveying device. Referring to fig. 1, the conveying device comprises a supporting seat 1, a horizontal supporting frame 2 is arranged above the supporting seat 1, one end of the supporting frame 2 is rotatably connected with the upper portion of the supporting seat 1, the other end of the supporting frame 2 is far away from the supporting seat 1, and a first conveying mechanism 3 is arranged on the supporting frame 2. The first conveying mechanism 3 comprises a first conveying belt 31 fixed on the support frame 2, the first conveying belt 31 is also horizontal and parallel to the support frame 2, baffle plates 32 parallel to the first conveying belt 31 are arranged on two sides of the first conveying belt 31, and the baffle plates 32 are fixed on the support frame 2. One end of the first conveyor belt 31 is located above the rotation point of the support frame 2 and the support base 1, a feed opening 33 is formed in the support frame 2 below the other end of the first conveyor belt 31, and a support mechanism 4 is arranged between the feed opening 33 and the support base 1.

The side of the feed opening 33 remote from the first conveyor belt 31 is provided as an inclined surface, and the inclined surface gradually approaches the first conveyor belt 31 from top to bottom.

Referring to fig. 1 and 2, the supporting mechanism 4 includes a moving frame 41 fixed on the lower surface of the supporting frame 2, an arc-shaped guide rail 42 is arranged below the moving frame 41, and the center of circle of the guide rail 42 coincides with the rotation axis of the supporting frame 2. A connecting shell 43 is fixed at the lower end of the moving frame 41, a guide wheel 44 is rotatably connected in the connecting shell 43, and a guide groove 45 for inserting the guide rail 42 is formed in the guide wheel 44, so that the guide wheel 44 rotates along the guide rail 42 through the guide groove 45. A drive motor 46 is fixed to the outside of the coupling housing 43, an output shaft of the drive motor 46 is fixedly connected to the guide wheel 44, and an output shaft of the drive motor 46 coincides with the axis of the guide wheel 44.

After the powder falls on the first conveyor belt 31, the first conveyor belt 31 conveys the powder to one side of the feed opening 33, the powder falls into the feed opening 33 after being separated from the first conveyor belt 31, part of the powder falls on the inclined plane along the feed opening 33 due to inertia, the powder slides downwards along the inclined plane and falls from the feed opening 33, and the powder is accumulated below. When the powder is accumulated to a certain height, the driving motor 46 drives the guide wheel 44 to rotate, so as to drive the moving frame 41 to move along the guide rail 42, and the supporting frame 2 is rotated, so that the position of the discharging opening 33 is changed, and the powder storage position is adjusted.

Referring to fig. 1 and 3, a second conveying mechanism 5 is arranged below the support frame 2, the second conveying mechanism 5 can be connected with the first conveying mechanism 3, and when the storage position of the powder corresponding to the first conveying mechanism 3 is occupied, the second conveying mechanism 5 conveys the powder to another position for storage.

The second conveying mechanism 5 comprises a second conveying belt 51 positioned right below the support frame 2, the second conveying belt 51 is parallel to the first conveying belt 31 and penetrates through the movable frame 41, a fixed frame 52 is fixed on the outer side of the second conveying belt 51, and the second conveying belt 51 is fixedly connected with the movable frame 41 through the fixed frame 52. The second conveyor belt 51 has one end near the feed opening 33 and the other end between the support base 1 and the guide rail 42. One end of the second conveyor belt 51 close to the feed opening 33 is provided with a material guiding assembly 53, the material guiding assembly 53 conveys the powder falling from the feed opening 33 onto the second conveyor belt 51, and the powder is conveyed by the second conveyor belt 51 close to the support seat 1, so that the powder is accumulated between the guide rail 42 and the support seat 1.

The material guiding assembly 53 comprises a material guiding plate 531 arranged above the second conveyor belt 51, the lower end of the material guiding plate 531 is rotatably connected with the fixing frame 52, hydraulic cylinders 532 are hinged to two sides of the upper end of the material guiding plate 531, and the hydraulic cylinders 532 are hinged to the fixing frame 52 at the same time. The hydraulic cylinder 532 is extended so that the guide plate 531 rotates and is positioned below the feed opening 33, whereby the powder falls from the feed opening 33 onto the guide plate 531 and slides down along the guide plate 531 onto the second conveyor belt 51. When the hydraulic cylinder 532 contracts, the guide plate 531 rotates reversely, so that the guide plate 531 is no longer located below the blanking plate.

In addition, the material guide plate 531 is arranged to be a V-shaped plate, so that the powder is converged along the middle of the V-shaped material guide plate 531 after falling onto the material guide plate 531, thereby reducing the scattering of the powder.

The implementation principle of the conveying device in the embodiment of the application is as follows: the powder falls onto the first conveyor belt 31, the first conveyor belt 31 conveys the powder into the feed opening 33, the powder falls from the feed opening 33 and is accumulated below the feed opening 33, after the powder is accumulated to a certain height, the drive motor 46 drives the guide wheel 44 to rotate, so that the movable frame 41 moves along the guide rail 42, the support frame 2 is driven to rotate, the feed opening 33 moves, and the powder is accumulated again;

after the powder is fully stacked below the feed opening 33, the hydraulic cylinder 532 extends to enable the material guide plate 531 to rotate and be located below the feed opening 33, after the powder falls onto the material guide plate 531 from below the feed opening 33, the powder slides downwards along the material guide plate 531 and falls onto the second conveyor belt 51, and the powder is conveyed to a position between the guide rail 42 and the support seat 1 by the second conveyor belt 51 to be stacked.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. A conveyor apparatus, characterized by: including supporting seat (1), supporting seat (1) top is rotated and is connected with support frame (2), support frame (2) top is equipped with first transport mechanism (3), first transport mechanism (3) are including setting up first conveying belt (31) on support frame (2) upper portion, the direction of delivery perpendicular to support frame (2) axis of rotation of first conveying belt (31), feed opening (33) have been seted up in the below of the one end of support frame (1) is kept away from in first conveying belt (31) to support frame (2), be equipped with between feed opening (33) and supporting seat (1) and support mechanism (4) that support frame (2) were supported and rotated.

2. A conveyor apparatus as in claim 1 wherein: baffle plates (32) parallel to the conveying direction of the first conveying belt (31) are arranged on two sides of the first conveying belt (31), and the baffle plates (32) are arranged on the support frame (2).

3. A conveyor apparatus as in claim 1 wherein: the supporting mechanism (4) comprises a moving frame (41) arranged on the lower portion of the supporting frame (2), an arc-shaped guide rail (42) is arranged below the moving frame (41), the circle center of the guide rail (42) coincides with the rotating axis of the supporting frame (2), and a driving assembly for driving the moving frame (41) to move along the guide rail (42) is arranged at the lower end of the moving frame (41).

4. A conveyor apparatus as claimed in claim 3, wherein: the driving assembly comprises a guide wheel (44) arranged at the lower end of the moving frame (41), an annular guide groove (45) is formed in the circumferential side wall of the guide wheel (44), the guide rail (42) is inserted into the guide groove (45), and a driving piece for driving the guide wheel (44) to rotate is arranged on the moving frame (41).

5. A conveyor apparatus as claimed in claim 4, wherein: the driving piece is provided as a driving motor (46), and an output shaft of the driving motor (46) is fixed on the guide wheel (44) along the axis of the guide wheel (44).

6. A conveyor apparatus as in claim 1 wherein: support frame (2) below is equipped with second transport mechanism (5), second transport mechanism (5) are including setting up mount (52) in support frame (2) below, mount (52) upper portion is equipped with second conveyer belt (51) that are located first conveyer belt (31) below, second conveyer belt (51) one end is close to feed opening (33), be equipped with guide subassembly (53) of connecting feed opening (33) and second conveyer belt (51) on mount (52).

7. A conveyor apparatus as claimed in claim 6, wherein: the material guiding assembly (53) comprises a material guiding plate (531), the material guiding plate (531) is arranged above one end, close to the feed opening (33), of the second conveying belt (51), one end of the material guiding plate (531) is rotatably connected with the fixing frame (52), one end, far away from the fixing frame (52), of the material guiding plate (531) is hinged to a hydraulic cylinder (532), and the hydraulic cylinder (532) is hinged to the fixing frame (52) simultaneously.

8. A conveyor apparatus as claimed in claim 7, wherein: the horizontal section of the material guide plate (531) is arranged to be V-shaped.

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