CN220906137U - Can splice formula belt conveyor - Google Patents

Abstract

The utility model relates to the technical field of cement processing gravel conveying, in particular to a splice-type belt conveying device, which comprises a driving bin, wherein one end of the inner wall of the driving bin is connected with a driving roll shaft, one end of the driving bin is fixedly provided with a blanking port, one side of the driving roll shaft is provided with a plurality of driven roll shafts in parallel, the other end of the driving bin is provided with a splice hole, the upper end and the lower end of the inner wall of the splice hole are respectively attached with a limit wedge, the center of the top of the limit wedge is fixedly provided with a reset spring, the two sides of the top of the limit wedge are fixedly provided with a dismounting ring, the improved splice-type belt conveying device can be dismounted and spliced by adding the splice hole, a splice plug, a splicing bin and the like, can adapt to conveying requirements of different distances, can realize quick dismounting and conveying, and can be increased by adding magic tapes, lengthening belts, hooks, shackles and the like, and the length of a conveyor belt can be adjusted; meanwhile, the protection plate can protect gravel from being scattered in the conveying process, and conveying efficiency is improved.

Description

Can splice formula belt conveyor

Technical Field

The utility model relates to the technical field of cement processing gravel conveying, in particular to a belt conveying device capable of being spliced.

Background

The cement is a powdery hydraulic inorganic cementing material, and can be hardened in air or water after being added with water and stirred to form slurry, and can firmly bond sand, stone and other materials together, the mixture of early lime and volcanic ash is very similar to the modern lime-volcanic ash cement, the concrete made of cemented broken stone by using the cement is high in strength after hardening, and can resist the erosion of fresh water or salt-containing water, the cement is processed from mining, crushing, transportation and storage, homogenization batching, raw meal grinding, sintering, clinker grinding, storage and final packaging delivery, and the gravel raw material is required to be conveyed into corresponding processing machines in the process, so that a conveying device is required to be used.

In cement processing production, can all use the gravel conveyer in a plurality of technology processes, mainly be used in the transportation of wet sand, dry sand and other solid materials, wherein most commonly used is belt, it has advantages such as consumption power is low, the transmission line adaptability is strong, at present widely used in industries such as mining, metallurgy, chemical industry, building, also mainly be used in the outdoor environment, use in the production of building material more in being used for the transportation of gravel, and current belt conveyor is when carrying the gravel, most be fixed integral type structure, it is comparatively fixed to the transportation distance, and it is comparatively difficult when transporting transfer and dismouting, simultaneously, belt conveyor can not cause the gravel to roll to both sides and cause the problem of conveying inefficiency at the transportation gravel, consequently, but propose concatenation formula belt conveyor.

The prior patent (publication number: CN 215542525U) discloses a building material sand screening device. The sand screening device comprises a body and a guide mechanism, wherein a conveying belt is obliquely arranged on the body, a screening mechanism is arranged above the starting end of the conveying belt, the guide mechanism comprises a guide plate used for guiding gravel in an impact mode, the guide plate is located above the stopping end of the conveying belt, and the guide plate is connected with the body. The transmission belt conveys the end screened out by the screening mechanism, when the gravel leaves from the transmission belt, the transmission belt gives the initial speed of the gravel, the gravel moves in a parabolic way in a direction far away from the transmission belt until being blocked by the guide plate and moves in a direction close to the ground under the guiding action of the guide plate, so that the area of the splashing of the gravel is reduced, the probability of sand lifting is reduced, and the harm to the health of staff is reduced. The inventors found that the following problems exist in the prior art in the process of implementing the present utility model: 1. most of the existing conveying devices are of integrated structures, are not suitable for transportation tasks at different distances, are difficult to disassemble and transport, and are time-consuming and labor-consuming; 2. the conveying device of the existing design often can spill the gravel on two sides of the conveying belt when conveying the gravel, so that the problem of sanitation is caused, and the conveying efficiency is reduced.

Disclosure of utility model

The utility model aims to provide a belt conveying device capable of being spliced, so as to solve the problem that the integrated structure provided in the background art is difficult to disassemble and adjust and can be scattered on two sides of a conveying belt when gravel is conveyed. In order to achieve the above purpose, the present utility model provides the following technical solutions: the belt conveying device capable of being spliced comprises a driving bin, wherein one end of the inner wall of the driving bin is connected with a driving roll shaft, one end of the driving bin is fixedly provided with a blanking opening, one side of the driving roll shaft is provided with a plurality of driven roll shafts in parallel, and the other end of the driving bin is provided with a splicing hole;

Limiting wedges are respectively attached to the upper end and the lower end of the inner wall of the splicing hole, a reset spring is fixed at the center of the top of each limiting wedge, and dismounting rings are fixed at the two sides of the top of each limiting wedge;

One end of the driving bin is connected with a connecting bin, one end of the connecting bin is fixedly provided with a splicing plug, the other end of the connecting bin is connected with a feeding bin, a feeding hole is fixedly formed in the top of one end of the feeding bin, and a conveying belt is attached to the surface of the driving roller shaft.

Further preferably, a driving gear is fixed at one end of the driving roller shaft, one side of the surface of the driving gear is meshed with one side of the surface of the driving gear, the center of the driving gear penetrates through the axle center of the motor, the driving roller shaft and the driving gear form an integrated structure, and the driving roller shaft and the driving bin form a rotating structure through a bearing.

Further preferably, a magic tape is fixed on one end surface of the conveyor belt, an extension belt is connected with one end of the conveyor belt, a hook is fixed on one end surface of the conveyor belt, a hook ring is attached to one end of the hook, a plurality of protection plates are respectively fixed on two sides of the conveyor belt, an integrated structure is formed between the bottom of each protection plate and the conveyor belt, and a movable structure of overlapping attachment is formed between all the protection plates.

Further preferably, two sides of the surface of the splice plug are respectively attached to the surface of the limiting wedge, and a movable structure is formed between the splice plug and the limiting wedge.

Further preferably, the dismounting ring penetrates through the upper end and the lower end of the splicing hole, and the dismounting ring and the limiting wedge form an integrated structure, and meanwhile, an elastic telescopic structure is formed between the dismounting ring and the splicing hole through the reset spring.

Further preferably, the two ends of the extension belt are respectively fixed with a magic tape, and the extension belt forms a movable structure through the magic tape, the hook claw, the hook ring and the conveyor belt.

Compared with the prior art, the utility model has the beneficial effects that:

According to the utility model, the device can be freely disassembled and spliced by adding the splicing holes, the splicing plugs, the splicing bins and the like, so that the device is convenient for adapting to conveying works at different distances, and meanwhile, the beneficial effects of quick disassembly, transportation, transfer and the like can be realized.

According to the utility model, the length of the conveyor belt can be correspondingly adjusted according to the length of the increased connecting bin by adding the magic tape, the lengthened belt, the hook claw, the hook ring and the like; meanwhile, the protective skirt edges formed by independent protective plates are additionally arranged on the two sides of the conveying belt, so that gravel can be protected from random rolling in the conveying process, and the conveying efficiency is improved.

Drawings

FIG. 1 is a schematic diagram of an axial structure of the present utility model;

FIG. 2 is a schematic diagram of an explosive structure according to the present utility model;

FIG. 3 is a schematic view of a partially enlarged structure of a splice plug according to the present utility model;

FIG. 4 is a schematic view of a partial enlarged structure of a conveyor belt according to the present utility model;

FIG. 5 is a schematic view of a left-hand section of a conveyor belt according to the present utility model;

fig. 6 is a schematic view of a partial enlarged structure of a shielding plate according to the present utility model.

In the figure: 1. a driving bin; 2. driving a roll shaft; 201. a drive gear; 202. a drive gear; 203. a motor; 3. a feed opening; 4. a driven roll shaft; 5. a splice hole; 501. a limit wedge; 502. a return spring; 503. disassembling the ring; 6. a connecting bin; 7. a splice plug; 8. a feeding bin; 9. a feed inlet; 10. a conveyor belt; 1001. a magic tape; 1002. lengthening the belt; 1003. a claw; 1004. a shackle; 1005. and (5) protecting the plate.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which are obtained by a worker of ordinary skill in the art without creative efforts, are within the protection scope of the present utility model based on the embodiments of the present utility model.

Referring to fig. 1 to 6, the present utility model provides a technical solution: the belt conveying device capable of being spliced comprises a driving bin 1, wherein one end of the inner wall of the driving bin 1 is connected with a driving roll shaft 2, one end of the driving bin 1 is fixedly provided with a blanking opening 3, one side of the driving roll shaft 2 is provided with a plurality of driven roll shafts 4 in parallel, and the other end of the driving bin 1 is provided with a splicing hole 5;

Limiting wedges 501 are respectively attached to the upper end and the lower end of the inner wall of the splicing hole 5, a reset spring 502 is fixed in the center of the top of each limiting wedge 501, and dismounting rings 503 are fixed on two sides of the top of each limiting wedge 501;

One end of the driving bin 1 is connected with a connecting bin 6, one end of the connecting bin 6 is fixedly provided with a splicing plug 7, the other end of the connecting bin 6 is connected with a feeding bin 8, one end top of the feeding bin 8 is fixedly provided with a feeding hole 9, and the surface of the driving roll shaft 2 is attached with a conveying belt 10.

In this embodiment, as shown in fig. 1 and 2, one end of the driving roller shaft 2 is fixed with a driving gear 201, one side of the surface of the driving gear 201 is meshed with one side of the surface of a driving gear 202, the center of the driving gear 202 penetrates through the axle center of a motor 203, the driving roller shaft 2 and the driving gear 201 form an integral structure, and the driving roller shaft 2 and the driving bin 1 form a rotating structure through a bearing, so that the structure can provide stable transmission power for the device and can drive the conveyor belt 10 to run forwards.

In this embodiment, as shown in fig. 1, 4, 5 and 6, a magic tape 1001 is fixed on one end surface of a conveyor belt 10, an extension belt 1002 is connected to one end of the conveyor belt 10, a hook claw 1003 is fixed on one end surface of the conveyor belt 10, a hook ring 1004 is attached to one end of the hook claw 1003, multiple protection plates 1005 are respectively fixed on two sides of the conveyor belt 10, an integral structure is formed between the bottom of each protection plate 1005 and the conveyor belt 10, and all the protection plates 1005 form an overlapped and attached movable structure.

In this embodiment, as shown in fig. 3, two sides of the surface of the splice plug 7 are respectively attached to the surface of the limiting wedge 501, and a movable structure is formed between the splice plug 7 and the limiting wedge 501, which is convenient for the limiting wedge 501 to provide a stable limiting effect for the splice plug 7, and simultaneously, the limiting effect of the limiting wedge 501 on the splice plug 7 can be relieved under the assistance of the dismounting ring 503 and the reset spring 502.

In this embodiment, as shown in fig. 3, the disassembling ring 503 penetrates through the upper and lower ends of the splicing hole 5, and the disassembling ring 503 and the limiting wedge 501 form an integral structure, and meanwhile, the disassembling ring 503 forms an elastic telescopic structure with the splicing hole 5 through the reset spring 502, so that the disassembling and separating or splicing assembly among the feeding bin 8, the driving bin 1 and the connecting bin 6 can be facilitated.

In this embodiment, as shown in fig. 4 and 5, two ends of the extension belt 1002 are respectively fixed with a hook and loop 1001, and the extension belt 1002 forms a movable structure through the hook and loop 1001, the hook and loop 1003, the hook and loop 1004 and the conveyor belt 10, and the structure can lengthen or shorten the length of the conveyor belt 10 so as to adapt to the requirements of different conveying distances.

The application method and the advantages of the utility model are as follows: this but concatenation formula belt conveyor, when using, the working process is as follows:

As shown in fig. 1, 2, 3, 4, 5 and 6, the connection bin 6 is firstly arranged between the driving bin 1 and the feeding bin 8, a stable conveying frame is formed by connecting a splicing plug 7 at one end of the connection bin 6 with a splicing hole 5 at one end of the driving bin 1 and connecting a splicing hole 5 at the other end of the connection bin 6 with a splicing plug 7 at one end of the feeding bin 8, then a conveyor belt 10 is covered on the surfaces of the driving roll shaft 2 and the driven roll shaft 4, an extension belt 1002 with proper length is selected, and the extension belt 1002 and the conveyor belt 10 are firmly connected end to end through a magic tape 1001, a hook 1003, a hook 1004 and the like to form a firmly closed conveyor belt 10; starting the motor 203, driving the driving roll shaft 2 to rotate through the driving gear 202 and the driving gear 201, and further driving the conveyor belt 10 to start to move forwards along the driving roll shaft 2 and the driven roll shaft 4; at this time, gravel raw materials are added into the feed inlet 9, fall onto the surface of the conveyor belt 10 and are conveyed to the feed opening 3 at the other end of the device, and in the conveying process, the protection plates 1005 at the two sides of the conveyor belt 10 can block the gravel from rolling towards the two sides, so that the gravel can not be scattered, and the conveying efficiency is improved; the device can also be through the dismantlement ring 503 at both ends about the pull splice hole 5 for spacing wedge 501 extrudees reset spring 502, releases spacing wedge 501 to the spacing effect of concatenation plug 7, and then dismantle the separation between feeding storehouse 8, drive storehouse 1 and linking storehouse 6, be convenient for adjust the conveying distance or shift the transportation.

The foregoing has shown and described the basic principles, principal features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the above-described embodiments, and that the above-described embodiments and descriptions are only preferred embodiments of the present utility model, and are not intended to limit the utility model, and that various changes and modifications may be made therein without departing from the spirit and scope of the utility model as claimed. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (6)

1. Can splice formula belt conveyor, including drive storehouse (1), its characterized in that: one end of the inner wall of the driving bin (1) is connected with a driving roll shaft (2), one end of the driving bin (1) is fixedly provided with a discharging opening (3), one side of the driving roll shaft (2) is provided with a plurality of driven roll shafts (4) in parallel, and the other end of the driving bin (1) is provided with a splicing hole (5);

limiting wedges (501) are respectively attached to the upper end and the lower end of the inner wall of the splicing hole (5), a reset spring (502) is fixed at the center of the top of each limiting wedge (501), and dismounting rings (503) are fixed at the two sides of the top of each limiting wedge (501);

One end of drive storehouse (1) is connected with links up storehouse (6), the one end of linking storehouse (6) is fixed with concatenation plug (7), the other end of linking storehouse (6) is connected with feeding storehouse (8), the one end top of feeding storehouse (8) is fixed with feed inlet (9), the laminating of the surface of drive roller (2) has conveyer belt (10).

2. The splice belt conveyor of claim 1, wherein: one end of the driving roll shaft (2) is fixed with a driving gear (201), one side of the surface of the driving gear (201) is meshed with one side of the surface of the driving gear (202), the center of the driving gear (202) penetrates through the axle center of the motor (203), the driving roll shaft (2) and the driving gear (201) form an integrated structure, and the driving roll shaft (2) and the driving bin (1) form a rotating structure through a bearing.

3. The splice belt conveyor of claim 1, wherein: one end surface mounting of conveyer belt (10) is equipped with magic subsides (1001), the one end of conveyer belt (10) is connected with extension area (1002), the one end surface mounting of conveyer belt (10) is equipped with knuckle (1003), the one end laminating of knuckle (1003) has shackle (1004), the both sides of conveyer belt (10) are fixed with polylith guard plate (1005) respectively, constitute integrated structure between the bottom of guard plate (1005) and conveyer belt (10), and constitute the movable structure of laminating between all guard plates (1005).

4. The splice belt conveyor of claim 1, wherein: the two sides of the surface of the splice plug (7) are respectively attached to the surface of the limiting wedge (501), and a movable structure is formed between the splice plug (7) and the limiting wedge (501).

5. The splice belt conveyor of claim 1, wherein: the disassembly ring (503) penetrates through the upper end and the lower end of the splicing hole (5), the disassembly ring (503) and the limiting wedge (501) form an integrated structure, and meanwhile, the disassembly ring (503) and the splicing hole (5) form an elastic telescopic structure through a reset spring (502).

6. A splice belt conveyor as in claim 3 wherein: the two ends of the lengthened belt (1002) are respectively fixed with a magic tape (1001), and the lengthened belt (1002) forms a movable structure through the magic tape (1001), the hook claw (1003), the hook ring (1004) and the conveyor belt (10) at the same time.