CN217576869U - Material steering device and graphite particle conveying line - Google Patents

Abstract

The utility model relates to a material field of carrying discloses a material steering device and graphite particle transfer chain. The material steering device comprises a conveyor, and the conveyor is provided with a conveyor carrier roller and a conveyor belt; the frame is arranged above the conveyor and comprises a frame main body and a frame carrier roller assembly arranged on the frame main body, and the conveying belt runs around the frame carrier roller assembly; the material distribution mechanism is connected to the frame, and the material distribution direction of the material distribution mechanism is perpendicular to the conveying direction of the conveying belt; a first power unit electrically connected to the conveyor idler to be able to drive the conveyor belt in rotation by the conveyor idler, the conveyor belt being tensioned by the frame idler assembly and supported with a discharge end no lower than a material receiving face of the material distribution mechanism so that the material distribution mechanism is able to receive and distribute material conveyed by the conveyor belt in a direction perpendicular to a conveying direction of the conveyor belt.

Description

Material steering device and graphite particle conveying line

Technical Field

The utility model relates to a technical field is carried to the material, specifically relates to a material turns to device. On the basis, still relate to a graphite granule transfer chain.

Background

With the continuous development of science and technology, novel chemical materials are also continuously broken through, large-scale industrial manufacturers emerge like bamboo shoots in spring after rain, the demand of modern manufacturing industry on mechanical automation is higher and higher, and brand-new semi-automatic and automatic processing complete equipment begins to enter enterprises.

In the production process of products, the orderly and fast conveying of materials is important. Many materials need to be transported in a direction other than a straight line, depending on the processing requirements and the production site. At present, when materials and products are conveyed in a steering mode, the materials and the products are often limited by equipment, fields and the like, so that the conventional material conveying device cannot steer or is low in steering conveying efficiency.

In order to satisfy the automatic needs that turn to, current production line need set up and turn to the motor and turn to the conveyer belt, perhaps sets up rotating electrical machines, elevator motor, push rod motor and steering wheel etc. simultaneously, and its structure is general all comparatively complicated, and it is not only high in production cost, work efficiency is low, and maintains also comparatively difficultly to need occupy a large amount of production places, increased the demand of enterprise to factory building area.

Therefore, there is a need for a material diversion apparatus that solves at least some of the above problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the material that prior art exists and turning to conveying efficiency low problem, providing a material turns to the device, and this material turns to the device and has the advantage that can improve the material and turn to conveying efficiency.

In order to achieve the above object, an aspect of the present invention provides a material steering device, the material steering device including:

a conveyor having conveyor idlers and a conveyor belt running around the conveyor idlers;

the frame is arranged above the conveyor and comprises a frame main body and a frame carrier roller assembly arranged on the frame main body, and the conveying belt runs around the frame carrier roller assembly;

the material distribution mechanism is connected to the frame, and the material distribution direction of the material distribution mechanism is perpendicular to the conveying direction of the conveying belt; and (c) a second step of,

a first power unit electrically connected to the conveyor idler to be able to drive the conveyor belt to rotate via the conveyor idler, the conveyor belt being tensioned by the frame idler assembly and supported with a discharge end no lower than a material receiving face of the feed divider mechanism to enable the feed divider mechanism to receive and distribute material conveyed by the conveyor belt in a direction perpendicular to a conveying direction of the conveyor belt.

Optionally, the frame idler assemblies include a plurality of frame idlers, a first frame roller shaft and a second frame roller shaft, the first frame roller shaft is disposed above the frame idlers in parallel and at an interval on a side close to the distributing mechanism so that the conveyor belt conveys the material obliquely upward along the plurality of frame idlers, the second frame roller shaft is disposed below the first frame roller shaft at an interval on a side away from the distributing mechanism, and the conveyor belt sequentially passes around a side where the first frame roller shaft and the second frame roller shaft are away from each other.

Optionally, the material distribution mechanism includes a material distribution mechanism main body, a material distribution roller shaft connected to the material distribution mechanism main body, and a material distribution belt arranged around the material distribution roller shaft in an end-to-end manner, an axial direction of the material distribution roller shaft is perpendicular to a conveying direction of the conveyor belt, and the material distribution belt can receive and distribute the material conveyed by the conveyor belt along the conveying direction perpendicular to the conveyor belt.

Optionally, the material steering device includes a steering mechanism, one end of the steering mechanism is connected to the first frame roller shaft, the other end of the steering mechanism is connected to the distribution roller shaft, and the first frame roller shaft drives the distribution roller shaft to rotate through the steering mechanism.

Optionally, the steering mechanism is configured as a right angle steering with a helical bevel gear set to connect to the first frame roller shaft and the splitter roller shaft at two ends perpendicular to each other, respectively.

Optionally, the material steering device includes a second power unit, the frame includes a roller unit mounted at the bottom of the frame body, and the second power unit is electrically connected to the roller unit to drive the frame and the material distribution mechanism to move horizontally relative to the conveyor along the conveying direction of the conveying belt.

Optionally, the roller unit includes a plurality of sets of roller assemblies arranged at intervals along the moving direction of the frame, each set of roller assemblies includes a roller shaft and rollers arranged at two ends of the roller shaft, and the second power unit is electrically connected to the roller shaft.

Optionally, the conveyor comprises two side plates arranged in parallel and at an interval, the conveyor idler is connected between the two side plates, and the roller is located on the upper surfaces of the side plates.

Optionally, the frame body includes a front frame body and a rear frame body, the material distribution mechanism is disposed between the front frame body and the rear frame body, the frame carrier roller assembly is connected to the front frame body, and/or a support plate for supporting the conveyor belt is disposed on the front frame body.

The utility model discloses another aspect provides a graphite particle transfer chain, graphite particle transfer chain includes that foretell material turns to device and storage storehouse, graphite particle on the conveyer belt passes through feed mechanism carry extremely in the storage storehouse.

Through the technical scheme, the material distributing direction of the material distributing mechanism is perpendicular to the conveying direction of the conveying belt, the first power unit drives the conveying belt to rotate through the conveyor carrier roller, and the conveying belt is tensioned and supported by the frame carrier roller assembly to form a material receiving surface of which the discharging end is not lower than the material distributing mechanism, so that the material distributing mechanism can receive and distribute materials conveyed by the conveying belt along the conveying direction perpendicular to the conveying belt, and the moving direction of the materials on the conveying belt is changed. This material turns to device can make the material can fall into next process or storage storehouse, can form a complete set link up multichannel process, design scientific and reasonable, and the practicality is strong.

Drawings

FIG. 1 is a front view of the material turning device of the present invention;

FIG. 2 is an isometric view of the material diverter of the present invention with the conveyor and belt hidden;

FIG. 3 is a top view of the material turning device with the conveyor and the conveyor belt hidden;

fig. 4 is a bottom view of the middle material turning device with the conveyor and the conveyer belt hidden.

Description of the reference numerals

10-a conveyor; 11-conveyor idler; 20-a frame; 211-front frame body; 212-a rear frame body; 213-a support plate; 22-frame idler assemblies; 221-frame carrier rollers; 222-a first frame roller shaft; 223-a second frame roller shaft; 231-roller shaft; 232-a roller; 30-a material distributing mechanism; 31-a material distributing mechanism body; 32-distributing roller shaft; 40-a conveyor belt; 50-a steering mechanism; 60-a second power unit.

Detailed Description

The following detailed description of the embodiments of the present invention will be made with reference to the accompanying drawings. It is to be understood that the description of the embodiments herein is for purposes of illustration and explanation only and is not intended to limit the invention. In the present invention, unless otherwise specified, the use of the terms "upper" and "lower" generally refer to the orientation as shown in the drawings.

As shown in fig. 1, an aspect of the present invention provides a material steering device, which includes: a conveyor 10, the conveyor 10 having conveyor idlers 11 and a conveyor belt 40 running around the conveyor idlers 11; a frame 20, the frame 20 being mounted above the conveyor 10 and including a frame body and a frame idler assembly 22 mounted to the frame body, the conveyor belt 40 running around the frame idler assembly 22; the material distributing mechanism 30 is connected to the frame 20, and the material distributing direction of the material distributing mechanism 30 is perpendicular to the conveying direction of the conveying belt 40; and a first power unit electrically connected to the conveyor idler 11 to be able to drive the conveyor belt 40 to rotate by the conveyor idler 11, the conveyor belt 40 being tensioned by the frame idler assembly 22 and supported with its discharge end no lower than the material receiving face of the material dividing mechanism 30 so that the material dividing mechanism 30 is able to receive and distribute material conveyed by the conveyor belt 40 in a direction perpendicular to the conveying direction of the conveyor belt 40.

The utility model discloses in, feed mechanism 30's the direction of delivery of branch material direction perpendicular to conveyer belt 40, first power pack passes through conveyor bearing roller 11 drive conveyer belt 40 and rotates to conveyer belt 40 is not less than feed mechanism 30's material receiving face for the discharge end by frame bearing roller subassembly 22 tensioning and support, so that this feed mechanism 30 can receive and distribute the material of being carried by conveyer belt 40 along the direction of delivery of perpendicular to conveyer belt 40, and then changes the direction of motion of material on the conveyer belt 40. This material turns to device can make the material can fall into next procedure or storage storehouse, can form a complete set link up multichannel process, design scientific and reasonable, and the practicality is strong.

Specifically, as shown in fig. 1 to 4, the frame idler assemblies 22 comprise a plurality of frame idlers 221, first frame idler shafts 222, and second frame idler shafts 223, the first frame idler shafts 222 being disposed above the frame idlers 221 in parallel and spaced apart to enable the conveyor belt 40 to convey material obliquely upward along the plurality of frame idlers 221 on a side of the feed divider 30, the second frame idler shafts 223 being disposed below the first frame idler shafts 222 in parallel and spaced apart to a side of the feed divider 30, the conveyor belt 40 in turn passing around a side of the first frame idler shafts 222 and the second frame idler shafts 223 that are away from each other. In one embodiment, the first frame roller shaft 222 and the second frame roller shaft 223 have an outer diameter equal to and greater than the outer diameter of the frame idler 221. The conveyor belt 40 can drive the frame rollers 221, the first frame roller shafts 222, and the second frame roller shafts 223 to rotate synchronously during operation.

Further, the distributing mechanism 30 includes a distributing mechanism body 31, a distributing roller shaft 32 connected to the distributing mechanism body 31, and a distributing belt disposed end to end around the distributing roller shaft 32, the distributing roller shaft 32 has an axial direction perpendicular to the conveying direction of the conveying belt 40, and the distributing belt is capable of receiving and distributing the material conveyed by the conveying belt 40 along the conveying direction perpendicular to the conveying direction of the conveying belt 40. Wherein it is understood that the distributing mechanism 30 may include two main distributing roller shafts respectively located at both ends of the distributing mechanism body 31, and an auxiliary distributing roller shaft between the two main distributing roller shafts, and the diameter of the auxiliary distributing roller is smaller than the outer diameter of the main distributing roller shaft.

Further, the material turning device includes a turning mechanism 50, one end of the turning mechanism 50 is connected to the first frame roller shaft 222, and the other end is connected to the distributing roller shaft 32, and the first frame roller shaft 222 drives the distributing roller shaft 32 to rotate through the turning mechanism 50. In one embodiment, the steering mechanism 50 is configured as a right angle steering gear having a helical bevel gear set to connect to the first frame roller shaft 222 and the splitter roller shaft 32 at opposite ends perpendicular to each other, respectively. Wherein, the conveyor belt 40 drives the first frame roller shaft 222 to rotate, the first frame roller shaft 222 drives the spiral bevel gear set to rotate, and the spiral bevel gear set drives the material-separating roller shaft 32 to rotate. The utility model discloses in, the direction of motion of material is converted into longitudinal direction by transverse direction (the left and right directions in fig. 1) on with conveyer belt 40 through the right angle steering gear to need not extra power unit, simplified feed mechanism 30 driving system's design.

The utility model discloses in, the material turns to the device and includes second power pack 60, frame 20 including install in the gyro wheel unit of frame main part bottom, second power pack 60 electricity link to the gyro wheel unit in order to drive frame 20 and feed mechanism 30 along the relative conveyer 10 horizontal migration of direction of delivery of conveyer belt 40. Wherein the second power unit 60 may be configured as a reduction motor.

Further, the roller unit includes a plurality of sets of roller assemblies spaced apart along the moving direction of the frame 20, each set of roller assemblies includes a roller shaft 231 and rollers 232 disposed at both ends of the roller shaft 231, and the second power unit 60 is electrically connected to the roller shaft 231. In one embodiment, the frame body includes a front frame body 211 and a rear frame body 212, the material separating mechanism 30 is disposed between the front frame body 211 and the rear frame body 212, the frame roller assembly 22 is connected to the front frame body 211, and/or a support plate 213 for supporting the conveyor belt 40 is disposed on the front frame body 211. In an embodiment of the present invention, the roller unit includes two sets of roller assemblies, one set is disposed on the front frame body 211, the other set is disposed on the rear frame body 212, and the second power unit 60 is electrically connected to the roller shaft 231 located on the rear frame body 212, so as to control the forward and backward movement of the frame 20 and the material distribution mechanism 30. The supporting plate 213 is a plate-shaped structure that is concave downward, and is used to assist in supporting the conveying belt 40, so as to prevent the material on the conveying belt 40 from being too heavy and affecting the conveying efficiency of the material.

In addition, the conveyor 10 includes two side plates disposed in parallel and at an interval, the conveyor idler 11 is connected between the two side plates, and the roller 232 is located on the upper surfaces of the side plates. The utility model discloses in, through setting up gyro wheel unit and electricity link to the second power pack 60 of roller shaft 231 for frame 20 and feed mechanism 30 can walk on conveyer 10, have shortened the material turns to device's walking time, and then has saved production time, has improved production efficiency.

The utility model discloses another aspect provides a graphite particle transfer chain, graphite particle transfer chain includes that foretell material turns to device and storage storehouse, and the graphite particle on the conveyer belt 40 is carried extremely through feed mechanism 30 in the storage storehouse. As an embodiment, the graphite particle conveying line may be provided with a plurality of storage bins along the conveying direction of the conveyor 10, and the graphite particles on the conveying belt 40 are conveyed to different storage bins by the second power unit 60. The utility model provides a graphite particle transfer chain turns to the device with the material and is the same for the advantage that prior art has, no longer gives unnecessary details here.

The preferred embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited thereto. In the technical idea scope of the present invention, it is possible to provide the technical solution of the present invention with a plurality of simple modifications, including combining each specific technical feature in any suitable manner, and in order to avoid unnecessary repetition, the present invention does not provide additional description for various possible combinations. These simple variations and combinations should also be considered as disclosed in the present invention, all falling within the scope of protection of the present invention.

Claims (10)

1. A material-turning device, comprising:

a conveyor (10), said conveyor (10) having conveyor idlers (11) and a conveyor belt (40) running around the conveyor idlers (11);

the frame (20), the frame (20) is installed above the conveyer (10), and comprises a frame main body and a frame roller assembly (22) installed on the frame main body, and the conveyer belt (40) runs around the frame roller assembly (22);

the material distributing mechanism (30) is connected to the frame (20), and the material distributing direction of the material distributing mechanism (30) is perpendicular to the conveying direction of the conveying belt (40); and (c) a second step of,

a first power unit electrically connected to the conveyor idler (11) to be able to drive the conveyor belt (40) to rotate by the conveyor idler (11), the conveyor belt (40) being tensioned by the frame idler assembly (22) and supported with a discharge end no lower than a material receiving face of the feed divider mechanism (30) such that the feed divider mechanism (30) is able to receive and distribute material conveyed by the conveyor belt (40) in a conveying direction perpendicular to the conveyor belt (40).

2. The material steering apparatus according to claim 1, wherein the frame idler assemblies (22) comprise a plurality of frame idler rollers (221), a first frame roller shaft (222), and a second frame roller shaft (223), the first frame roller shaft (222) being disposed in parallel spaced relation above the frame idler rollers (221) on a side proximate the feed mechanism (30) such that the conveyor belt (40) conveys material obliquely upwardly along the plurality of frame idler rollers (221), the second frame roller shaft (223) being disposed in parallel spaced relation below the first frame roller shaft (222) on a side distal from the feed mechanism (30), the conveyor belt (40) in turn passing around the side distal from each other of the first frame roller shaft (222) and the second frame roller shaft (223).

3. The material diverting device according to claim 2, characterized in that the distributing mechanism (30) comprises a distributing mechanism body (31), distributing roller shafts (32) connected to the distributing mechanism body (31), and a distributing belt arranged end to end around the distributing roller shafts (32), the axial direction of the distributing roller shafts (32) being perpendicular to the conveying direction of the conveying belt (40), the distributing belt being able to receive and distribute the material conveyed by the conveying belt (40) in a direction perpendicular to the conveying direction of the conveying belt (40).

4. The material steering apparatus according to claim 3, wherein the material steering apparatus comprises a steering mechanism (50), one end of the steering mechanism (50) is connected to the first frame roller shaft (222), and the other end is connected to the distributing roller shaft (32), and the first frame roller shaft (222) drives the distributing roller shaft (32) to rotate through the steering mechanism (50).

5. The material turning device according to claim 4, characterized in that the turning mechanism (50) is configured as a right angle diverter with a set of helical bevel gears to connect to the first frame roller shaft (222) and the distribution roller shaft (32) at two ends perpendicular to each other, respectively.

6. The material steering arrangement according to claim 1, characterized in that the material steering arrangement comprises a second power unit (60), the frame (20) comprising a roller unit mounted at the bottom of the frame body, the second power unit (60) being electrically connected to the roller unit to be able to drive the frame (20) and the material dividing mechanism (30) to move horizontally in the conveying direction of the conveyor belt (40) relative to the conveyor (10).

7. The material steering arrangement according to claim 6, wherein the roller unit comprises a plurality of sets of roller assemblies spaced apart in a moving direction of the frame (20), each set of roller assemblies comprising a roller shaft (231) and rollers (232) disposed at both ends of the roller shaft (231), the second power unit (60) being electrically connected to the roller shaft (231).

8. The material turning device according to claim 7, wherein the conveyor (10) comprises two side plates arranged in parallel and spaced apart, the conveyor idlers (11) being connected between the two side plates, the rollers (232) being located on upper surfaces of the side plates.

9. The material steering device according to claim 1, wherein the frame body comprises a front frame body (211) and a rear frame body (212), the material distributing mechanism (30) is arranged between the front frame body (211) and the rear frame body (212), the frame idler assemblies (22) are connected to the front frame body (211), and/or a support plate (213) for supporting the conveyor belt (40) is arranged on the front frame body (211).

10. Graphite particle conveying line, characterized in that it comprises a material diverting device according to any of claims 1-9 and a storage bin, into which graphite particles on the conveying belt (40) are conveyed by the material distributing mechanism (30).

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