CN220595974U - Conveyer belt for small and micro articles capable of preventing scattering - Google Patents

Abstract

The utility model discloses a conveyer belt for small and micro articles capable of preventing scattering, which comprises a conveyer belt main body which is used for carrying articles and is driven by a driving assembly; the conveying belt main body is connected with a stabilizing assembly, one advancing end of the conveying belt of the stabilizing assembly is connected to the conveying belt main body, and the other end of the stabilizing assembly is suspended and covered at the connecting end of the latter stabilizing assembly and is connected through an elastic belt body; the surface of the stabilizing component is provided with stabilizing helical teeth which incline upwards in the advancing direction of the conveying belt and separating teeth which are distributed at intervals; according to the utility model, the stabilizing components are arranged on the traditional conveying belt and are mutually combined to form a storage cavity with a wavy surface, so that when small micro-objects are conveyed, the objects fall into the concave position, and under the limiting effect, the objects are ensured to be stably conveyed forwards, and are prevented from sliding backwards; meanwhile, the separation teeth and the stabilizing helical teeth are arranged on the stabilizing component, so that the articles are prevented from sliding to two sides.

Description

Conveyer belt for small and micro articles capable of preventing scattering

Technical Field

The utility model belongs to the technical field of conveying belts, and particularly relates to a conveying belt for small and micro-objects capable of preventing scattering.

Background

Conveyor belts, also known as conveyor belts, are rubber and fiber, metal composite articles used in belt conveyor belts to carry and transport materials, or plastic and fabric composite articles. The conveyer belt is widely applied to occasions with shorter conveying distance and smaller conveying capacity in industries such as cement, coking, metallurgy, chemical industry, steel and the like. In practical work, the phenomenon of material rolling is common, especially in the process of conveying materials by a belt with a large inclination angle and a long distance, and the problem is more difficult to avoid.

In actual operation, the following three methods are generally adopted for adjustment, so that the scattering of materials is avoided;

1. large-inclination-angle belt conveyor adopting large groove angle

When the conveyer belt forms the deep slot, produce the extrusion between conveyer belt and the material, frictional force grow has increased the adaptation inclination angle of material cross section and conveyer, improves conveying ability to reduce the material roll off.

2. Gangue blocking device arranged along whole length of conveyor

In the long-term use process, the friction force of the conveying belt is reduced, so that people injury accidents are caused by instable downward rolling, and the gangue blocking device can reduce the phenomenon.

3. Protective net for machine body

The conveyor side generally leaves pedestrian space, but considering that the potential hazards of hurting people when large materials roll down, the machine body part is also necessary to add a machine body protection net, and the machine body protection net is similar to the full length of the conveyor, but only the gangue blocking plate is replaced by a baffle net.

Generally, the three methods can largely avoid scattering materials, but the effect is not satisfactory for small micro-objects. Chinese patent with publication No. CN218752908U discloses a wire rope conveyor belt for avoiding scattering of materials, which utilizes the characteristics of wire rope to set up an inwardly concave conveying channel, while small and micro articles can be avoided scattering to two sides when transporting small and micro articles, but when working on a conveyor belt with a larger inclination, the limitation of backward rolling of small and micro articles still cannot be realized, the practicality is poor in practical application, and the scattering of small and micro articles cannot be limited from multiple parties.

Accordingly, there is a need for a conveyor belt that overcomes the above problems and prevents small micro-objects from falling apart during the conveying process.

Disclosure of Invention

In order to solve the problem that scattering of small micro-objects cannot be limited in multiple directions in the conveying process, the utility model designs a scattering-preventing conveying belt for the small micro-objects, which comprises a conveying belt main body for bearing the objects and driven by a driving assembly;

the conveying belt main body is connected with a stabilizing assembly, one advancing end of the conveying belt of the stabilizing assembly is connected to the conveying belt main body, and the other end of the stabilizing assembly is suspended and covered at the connecting end of the latter stabilizing assembly and is connected through an elastic belt body;

the surface of the stabilizing component is provided with stabilizing helical teeth which incline upwards in the advancing direction of the conveying belt and separating teeth which are distributed at intervals;

further, the main body of the stabilizing component is a metal sheet, one advancing end of the conveying belt is inclined downwards, the stabilizing helical teeth and the separating teeth are arranged on the upper surface of the main body, the other end of the main body is in a horizontal state, and the upper surface of the main body is provided with a bulge;

further, one advancing end of the conveyer belt with the separation teeth is connected to the metal sheet through an elastic element, and the other end of the conveyer belt with the separation teeth is rotationally connected to the heavy metal sheet through a rotating shaft;

further, one advancing end of the conveyer belt with the separation teeth is lower than the other advancing end, and the upper surface of the conveyer belt with the separation teeth is fixedly provided with a bulge;

further, one advancing end of the conveyer belt with the stable helical teeth is inclined upwards, the outer side edge of the conveyer belt is connected with the metal sheet through the elastic belt body, and the other end of the conveyer belt with the stable helical teeth is fixedly connected with the metal sheet;

further, the outer layer of the stable helical tooth is a rubber layer, a metal strip is arranged in the rubber layer, and the metal strip is fixedly connected to the metal sheet;

further, the conveyer belt of stabilizing assembly advances one end and rotates through the pivot and connect on the conveyer belt main part, stabilizing assembly's sheetmetal bottom is fixed to be equipped with the spring reed.

The beneficial effects of the utility model are as follows:

according to the utility model, the stabilizing components are arranged on the traditional conveying belt and are mutually combined to form a storage cavity with a wavy surface, so that when small micro-objects are conveyed, the objects fall into the concave position, and under the limiting effect, the objects are ensured to be stably conveyed forwards, and are prevented from sliding backwards; meanwhile, separation teeth and stabilizing helical teeth are avoided being arranged on the stabilizing assembly, the separation teeth play a role in transverse limiting, the avoided articles slide down to two sides, the stabilizing helical teeth increase the resistance of the articles to roll backwards, and the articles are further stabilized and prevented from scattering.

Drawings

In order to more clearly illustrate the technical solution of the embodiments of the present utility model, the drawings used for describing the embodiments will be briefly described below.

FIG. 1 is a schematic view of the overall structure of a conveyor belt for small micro-articles that is resistant to scattering;

FIG. 2 is a side view of a shatter-resistant conveyor belt for small micro-objects;

FIG. 3 is a schematic view of a stabilizing assembly and its attendant structure for a conveyor belt for small, shatter-resistant micro-objects;

FIG. 4 is an enlarged partial schematic view of the portion 3 of FIG. 2;

fig. 5 is an enlarged partial schematic view of fig. 4 at a portion 4.

In the drawings, the list of components represented by the various numbers is as follows:

the conveyer belt comprises a conveyer belt main body, a 2-stable component, a 21-metal sheet, 211-bulges, 22-elastic reeds, 23-rotating shafts, 24-stable helical teeth, 241-rubber layers, 242-elastic belt bodies, 25-separation teeth and 251-elastic elements.

Detailed Description

In order to solve the problems of unstable transportation and easy scattering of small and medium-sized articles in the prior art, the utility model provides an anti-scattering conveyer belt for small and medium-sized articles, which comprises a conveyer belt main body 1 for bearing articles and driven by a driving assembly;

in the utility model, a stable component 2 is connected to a conveyer belt main body 1, one advancing end of a conveyer belt of the stable component 2 is connected to the conveyer belt main body 1, and the other end of the conveyer belt is suspended and covered on the connecting end of the later stable component 2 and is connected through an elastic belt body 242; the sequential covering of the stabilizing component 2 and the addition of the elastic belt body 242 complement the gap of the covering part, thus forming a continuous seamless wave bearing surface, and small micro articles are placed in the grooves, so that the articles can be stably driven to move forwards by the conveying belt in the horizontal conveying process or the inclined angle conveying process, and the articles are prevented from rolling backwards in the conveying process;

based on the above, in the present utility model, the surface of the stabilizing assembly 2 is provided with stabilizing helical teeth 24 inclined upward toward the advancing direction of the conveyor belt, and spaced apart teeth 25; when the inclination angle of the transport is large, the simple wave-shaped surface cannot meet the continuous and stable forward transport, and at this time, under the action of the stabilizing helical teeth 24, a supporting force is given to the rear part of the article, so that the article is prevented from rolling backwards, and the stability of the movement direction of the article is maintained; in addition, the article is required to stably run, and the transverse limitation is also included, at this time, the separation teeth 25 are limited based on the transverse limitation of the article, a storage space is formed between the two rows of separation teeth 25, and the article is limited to roll towards two sides; compared with the prior art, the utility model realizes multidirectional stable and limited transportation, improves the stability of small micro-objects in the transportation process, and avoids excessive scattering.

As shown in fig. 1 to 5, the present utility model provides the following preferred embodiments.

Example 1

Based on the above, the present embodiment provides a preferred implementation form of the stabilizing assembly 2;

in this embodiment, the main body of the stabilizing component 2 is a metal sheet 21, one end of the advancing conveyor belt is inclined downwards, the stabilizing helical teeth 24 and the separating teeth 25 are arranged on the upper surface, the other end is in a horizontal state, and the upper surface is provided with a protrusion 211; the metal sheet 21 is provided with an inclined end and a horizontal end, and a recess is formed between the inclined end and the horizontal end when the horizontal end covers the inclined end of the metal sheet 21 at the next stage, so that a bearing groove for stably conveying small micro objects is formed; in this embodiment, the horizontal end of the metal sheet 21 is further provided with a protrusion 211 to raise the friction of the article falling on this portion, thereby preventing the article from rolling backward during transportation.

In the present embodiment, one end of the belt advancing of the dividing teeth 25 is connected to the metal sheet 21 through the elastic member 251, and the other end is rotatably connected to the metal sheet 21 through the rotating shaft 23; the separation teeth 25 divide the transverse space into a plurality of compartments for storing small and micro articles, and limit the articles to slide to two sides so as to avoid scattering the articles; the movable connection of the separation teeth 25 can ensure that when the conveyor belt carries the articles forwards, one end of the separation teeth 25 is pulled up under the gravity friction of the articles so as to promote the limit heights of the two sides of the separation teeth and increase the transportation stability of the articles.

In this embodiment, the advancing end of the conveyer belt with the stabilizing helical teeth 24 is inclined upwards, and the outer edge is connected with the metal sheet 21 through the elastic belt body 242, and the other end is fixedly connected with the metal sheet 21; the arrangement of the elastic belt body 242 prevents small micro objects from being clamped into the stabilizing helical teeth 24, and the advancing end is higher than the arrangement of the other end, so that the elastic belt body gradually bulges under the action of gravity and friction force of objects in the process of carrying the objects for transportation, so that the limit moment and the limit range of the rear end of the elastic belt body are gradually increased, and the elastic belt body plays a role in adjusting in the process of movement to strengthen the transportation stability of the whole conveying belt.

Example 2

Based on the above embodiment 1, in order to improve the rigidity of the stabilizing helical teeth 24 and avoid damage to the conveyed articles, in this embodiment, the outer layer of the stabilizing helical teeth 24 is a rubber layer 241, and a metal strip is disposed inside and fixedly connected to the metal sheet 21.

Example 3

The present embodiment is different from the above embodiment 1 in that the belt advancing end of the partition tooth 25 is lower than the other end, and the upper surface thereof is fixedly provided with a protrusion 211; therefore, when the conveyer belt is not used for transporting small and micro articles, the tendency of the articles to roll backwards is limited, and the transportation stability of the articles is guaranteed.

Example 4

In the embodiment, the advancing end of the conveying belt of the stabilizing component 2 is rotatably connected to the conveying belt main body 1 through a rotating shaft 23, and an elastic reed 22 is fixedly arranged at the bottom of a metal sheet 21 of the stabilizing component 2; the movable range of the stabilizing assembly 2 when the stabilizing assembly is pressed by bearing objects is increased by rotating the hinged form stabilizing assembly 2, the range of the wave bearing surface formed by covering and overlapping the stabilizing assembly 2 along with the gravity change of the bearing objects is larger, the effect of limiting the objects according to local conditions is achieved, and the adaptability and the stability of the whole conveying belt to different bearing objects are enhanced.

In summary, the stabilizing components 2 are arranged on the traditional conveying belt, the stabilizing components 2 are mutually combined to form a storage cavity with a wavy surface, when small micro-objects are conveyed, the objects fall into the concave position, and under the limiting effect, the objects are ensured to be stably conveyed forwards, and are prevented from sliding backwards; meanwhile, the separation teeth 25 and the stabilizing helical teeth 24 are avoided being arranged on the stabilizing component 2, the separation teeth 25 play a role in transverse limiting, the avoided articles slide down to two sides, the stabilizing helical teeth 24 increase the resistance of the articles rolling backwards, and the articles are further stabilized and prevented from scattering.

The above disclosed preferred embodiments of the utility model are merely intended to help illustrate the utility model. The preferred embodiments are not exhaustive or to limit the utility model to the precise form disclosed.

Claims (7)

1. The conveyer belt for small and fine articles capable of preventing scattering comprises a conveyer belt main body (1) for carrying articles and driven by a driving assembly;

the conveyer belt is characterized in that the conveyer belt main body (1) is connected with a stabilizing component (2), one advancing end of a conveyer belt of the stabilizing component (2) is connected to the conveyer belt main body (1), and the other end of the conveyer belt is suspended and covered at the connecting end of the later stabilizing component (2) and is connected through an elastic belt body (242);

the surface of the stabilizing component (2) is provided with stabilizing helical teeth (24) which incline upwards towards the advancing direction of the conveying belt and separating teeth (25) which are distributed at intervals.

2. The conveyer belt for small and fine articles preventing scattering according to claim 1, characterized in that the main body of the stabilizing component (2) is a metal sheet (21), one advancing end of the conveyer belt is inclined downwards, the stabilizing helical teeth (24) and the separating teeth (25) are arranged on the upper surface, the other end is in a horizontal state, and the upper surface is provided with a bulge (211).

3. The conveyer belt for small and fine articles preventing scattering according to claim 2, characterized in that the advancing end of the conveyer belt of the separation teeth (25) is connected to the metal sheet (21) by an elastic element (251), and the other end is rotatably connected to the heavy metal sheet (21) by a rotating shaft (23).

4. A conveyor belt for small and fine articles preventing scattering according to claim 3, characterized in that the conveyor belt of said dividing teeth (25) advances with one end lower than the other and is fixedly provided with protrusions (211) on its upper surface.

5. The conveyer belt for small and fine articles preventing scattering according to claim 1, characterized in that the advancing end of the conveyer belt with the stabilizing helical teeth (24) is inclined upwards, and the outer side edge is connected with the metal sheet (21) through the elastic belt body (242), and the other end is fixedly connected with the metal sheet (21).

6. The conveyer belt for small and fine articles preventing scattering according to claim 5, characterized in that the outer layer of the stabilizing helical teeth (24) is a rubber layer (241), the inside is provided with a metal strip, and the metal strip is fixedly connected to the metal sheet (21).

7. The conveyer belt for small and fine articles preventing scattering according to claim 1, characterized in that the advancing end of the conveyer belt of the stabilizing component (2) is rotatably connected to the main conveyer belt body (1) through a rotating shaft (23), and an elastic reed (22) is fixedly arranged at the bottom of a metal sheet (21) of the stabilizing component (2).