CN110884870A

CN110884870A - Parallel transition device applied to connection of conveying belts

Info

Publication number: CN110884870A
Application number: CN201911086730.7A
Authority: CN
Inventors: 丁传标; 王文焱; 赵一保; 张生亮; 丁传虎
Original assignee: Anhui Supernatural Power Transport Machinery Co Ltd
Current assignee: Anhui Supernatural Power Transport Machinery Co Ltd
Priority date: 2019-11-08
Filing date: 2019-11-08
Publication date: 2020-03-17
Anticipated expiration: 2039-11-08
Also published as: CN110884870B

Abstract

The invention relates to a parallel transition device applied to connection of conveying belts, which comprises an installation frame, wherein a plurality of moving parts capable of laterally stretching and translating are installed on a side plate of the installation frame, the moving parts are sequentially staggered with each other to form an inclined channel for connecting two conveying belts staggered from head to tail, the adjacent moving parts are mutually connected in a sliding manner, and a transmission part for conveying materials is protruded on the upper surface of each moving part. According to the invention, the plurality of moving members capable of laterally stretching and translating are adopted, so that the moving members are sequentially staggered with each other to form the inclined channel for connecting two conveying belts staggered from head to tail, the staggered distance of the adjacent moving members is automatically adjusted according to the distance between the two conveying belts staggered with each other, the angle and the length of the inclined channel can be ensured to be used for overlapping the connecting channel between the two conveying belts, the angle of the inclined channel can be automatically adjusted, the flexibility and the applicability of the whole transition device are increased, and the application range of the transition device is widened.

Description

Parallel transition device applied to connection of conveying belts

Technical Field

The invention relates to the field of conveying belts, in particular to a parallel transition device applied to the connection of conveying belts.

Background

The belt conveyor is widely used for conveying various solid block-shaped and powder-shaped materials or finished articles in agriculture, industrial and mining enterprises and the transportation industry, the conveyor belt can be used for continuous, high-efficiency and large-inclination-angle transportation, the operation of the conveyor belt is safe, the use of the conveyor belt is simple and convenient, the maintenance is easy, the transportation cost is low, the transportation distance can be shortened, the construction cost is reduced, and manpower and material resources are saved.

Two current conveyer belts carry out the mutual transportation of material and need align, when both can't align, can only link up through specific rotation conveyer belt and carry, but this kind of rotation conveyer belt application scope is limited, leads to inconvenient use.

Disclosure of Invention

The invention provides a parallel transition device applied to the connection of conveyer belts, aiming at meeting the requirement of connecting conveyer belts staggered from head to tail in different ranges.

The technical problem to be solved by the invention is realized by adopting the following technical scheme:

the utility model provides a be applied to parallel transition device that conveyer belt links up, includes the mounting bracket, the moving member that a plurality of can the flexible translation of side direction is installed to the curb plate of mounting bracket, and this moving member staggers each other in proper order and constitutes the inclined channel and be used for connecting two staggered conveyer belts of head and the tail, and mutual sliding connection between this adjacent moving member, the upper surface protrusion of moving member has the driving medium that is used for the material to carry.

The moving member includes the plate body, the spout has been seted up to the side of plate body, the plate body both sides are fixed with the smooth foot, and is adjacent between the plate body through self smooth foot sliding connection in another the plate body the spout.

The driving medium include fixed connection in the fixed axle of curb plate, the outer wall cover of fixed axle is equipped with multilayer spline axle sleeve, and outmost spline axle sleeve outer wall fixedly connected with is used for the rotation cylinder that the material was carried, just rotation cylinder one end is passed through the bearing and is rotated the connection the plate body.

One end of the spline shaft sleeve on the innermost layer is fixedly connected with a gear, is meshed with a chain through the gear, and is connected with the motor through the chain in a transmission mode.

The upper surface of the sliding foot is rotatably connected with a guardrail, a casing is arranged at the upper end of the guardrail, two telescopic rods are slidably connected inside the casing, and the telescopic rods are rotatably connected to the adjacent plate bodies through one end ball sleeves.

Both ends of the mounting rack are provided with transition plates, one end of each transition plate is connected to the adjacent plate body in an overlapping mode, and the other end of each transition plate is suspended in the air and used for overlapping the conveying belt needing to be subjected to material transfer.

The invention has the beneficial effects that:

according to the invention, the plurality of moving members capable of laterally stretching and translating are adopted, so that the moving members are sequentially staggered with each other to form the inclined channel for connecting two conveying belts staggered from head to tail, the staggered distance of the adjacent moving members is automatically adjusted according to the distance between the two conveying belts staggered with each other, the angle and the length of the inclined channel can be ensured to be used for overlapping the connecting channel between the two conveying belts, the angle of the inclined channel can be automatically adjusted, the flexibility and the applicability of the whole transition device are increased, and the application range of the transition device is widened.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a top view of FIG. 1;

FIG. 3 is a schematic view of a portion of the internal structure of FIG. 1;

FIG. 4 is a schematic structural view of the moving member and the transmission member;

FIG. 5 is a schematic sectional view of the moving member and the transmission member.

Detailed Description

In order to make those skilled in the art better understand the technical solution of the present invention, the present invention will be described more clearly and more completely with reference to the drawings in the following embodiments, and it is understood that the described embodiments are only a part of the present invention, rather than all of the present invention, and based on the embodiments, other embodiments obtained by those skilled in the art without inventive exercise are within the protection scope of the present invention.

As shown in figures 1-5, a be applied to parallel transition device that conveyer belt links up, including mounting bracket 1, a plurality of can the side direction flexible translation moving member 2 is installed to curb plate 11 of mounting bracket 1, and this moving member 2 staggers each other in proper order and constitutes the inclined channel and be used for connecting two staggered conveyer belts end to end, and mutual sliding connection between this adjacent moving member 2, the upper surface protrusion of moving member 2 has the driving medium 3 that is used for the material to carry.

The moving member 2 includes a plate body 21, a sliding groove 22 is formed in a side surface of the plate body 21, sliding feet 23 are fixed to two sides of the plate body 21, and adjacent plate bodies 21 are slidably connected to the sliding groove 22 of another plate body 21 through the sliding feet 23 of the adjacent plate bodies 21.

The driving medium 3 includes fixed axle 31 of fixed connection in curb plate 11, and the outer wall cover of fixed axle 31 is equipped with multilayer spline axle sleeve 32, and outermost spline axle sleeve 32 outer wall fixedly connected with is used for the rotation cylinder 33 that the material was carried, and rotates cylinder 33 one end and pass through bearing rotation connection plate body 21. Spline shaft 32 slides through the inboard spline of self and is located the spline groove of its inside small spline shaft 32 outer wall to inside small spline shaft 32 rotates, and outside spline shaft 32 also rotates along with going on, and outside spline shaft 32 is fixed mutually with rotating drum 33, thereby rotates drum 33 and extrudes and rotate the removal that drives the material on plate body 21 surface.

One end of the innermost spline shaft sleeve 32 is fixedly connected with a gear, and is meshed with a chain 34 through the gear, and is in transmission connection with a motor 35 through the chain 34. When the motor 35 is started, the motor 35 drives the chain 34 through the rotating shaft, and the chain 34 drives the gear to finally drive all the innermost spline shaft sleeves 32 to rotate synchronously.

The upper surface of the sliding foot 23 is rotatably connected with a guardrail 24, a casing 241 is arranged at the upper end of the guardrail 24, two telescopic rods 242 are slidably connected inside the casing 241, and the telescopic rods 242 are rotatably connected with the round balls arranged at one ends of the telescopic rods 242 on the adjacent plate bodies 21 through one end ball sleeves. The setting of guardrail 24 is used for the plate body 21 of cooperation below and the inside driving medium 3 of plate body 21, and the guide material moves along the slope orbit of regulation, avoids dropping and the non-directional removal of material, can't realize the purpose that the material shifted the transmission.

Both ends of the mounting rack 1 are provided with transition plates 12, one end of each transition plate 12 is connected with the adjacent plate body 21 in an overlapping mode, and the other end of each transition plate 12 is suspended in the air and used for connecting a conveying belt needing material transfer in an overlapping mode. The transition plate 12 is used for stably transferring the materials on the conveying belt to the transition device, otherwise, the materials on the transition device are stably transferred to the conveying belt, and the materials are prevented from falling or being clamped between the transition plate and the conveying belt.

When the installation, the one end of mounting bracket 1 is docked and is located left side place ahead conveyer belt, the other end lateral shifting of pulling mounting bracket 1 afterwards, the conveyer belt that is located the right side rear with the next of opposite side removes and docks with it, at mounting bracket 1 other end lateral shifting's in-process, each plate body 21 that is located in the middle of slides in proper order, and be the echelonment and pull open in proper order, two adjacent plate bodies 21 stagger each other through smooth foot 23 and spout 22, every plate body 21 is simultaneously through stretching to the inside spline axle sleeve 32 of self, pivoted guardrail 24 on the smooth foot 23 of plate body 21 both sides, along with staggering of adjacent plate body 21, mutual rotation between two adjacent guardrail 24, and be connected all the time, thereby accomplish the construction with left side place ahead conveyer belt and right side rear conveyer belt intercommunication passageway.

When using, starter motor 35, motor 35 drives the pivot through the belt and rotates, the pivot drives chain 34 through the tooth of self and rotates, chain 34 drives inlayer spline shaft sleeve 32 on each plate body 21 and rotates, inlayer spline shaft sleeve 32 drives and drives spline shaft sleeve 32 in the outside through spline groove and spline and rotates, spline shaft sleeve 32 in the outside drives and rotates cylinder 33 and rotates, it moves to rotate the material that cylinder 33 drove the top, rotation cylinder 33 on each plate body 21 all shifts the material to next plate body 21 on, transfer the material to another conveyer belt of opposite side from last conveyer belt until.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are merely illustrative of the principles of the invention, but that various changes and modifications may be made without departing from the spirit and scope of the invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a be applied to parallel transition device that conveyer belt links up, includes mounting bracket (1), its characterized in that: the side plate (11) of the mounting rack (1) is provided with a plurality of moving parts (2) capable of laterally stretching and translating, the moving parts (2) are sequentially staggered to form an inclined channel for connecting two staggered conveying belts from head to tail, the adjacent moving parts (2) are mutually connected in a sliding manner, and the upper surface of each moving part (2) protrudes with a transmission part (3) for conveying materials.

2. A parallel transition arrangement for conveyor belt splicing according to claim 1, wherein: the moving piece (2) comprises a plate body (21), sliding grooves (22) are formed in the side face of the plate body (21), sliding feet (23) are fixed to the two sides of the plate body (21), and the sliding feet (23) are connected to the other sliding grooves (22) of the plate body (21) in a sliding mode through the sliding feet (23) of the moving piece per se between the plate body (21).

3. A parallel transition arrangement for conveyor belt splicing according to claim 2, wherein: the transmission part (3) comprises a fixed shaft (31) fixedly connected with the side plates (11), the outer wall of the fixed shaft (31) is sleeved with a multi-layer spline shaft sleeve (32), the outer wall of the spline shaft sleeve (32) is fixedly connected with a rotating roller (33) used for conveying materials, and one end of the rotating roller (33) is connected with the plate body (21) in a rotating mode through a bearing.

4. A parallel transition arrangement for conveyor belt splicing according to claim 3, wherein: one end of the spline shaft sleeve (32) at the innermost layer is fixedly connected with a gear, is meshed with a chain (34) through the gear, and is connected with the motor (35) through the chain (34) in a transmission way.

5. A parallel transition arrangement for conveyor belt splicing according to claim 2, wherein: the upper surface of the sliding foot (23) is rotatably connected with a guardrail (24), a casing (241) is arranged at the upper end of the guardrail (24), two telescopic rods (242) are slidably connected inside the casing (241), the telescopic rods (242) are rotatably connected to the adjacent plate body (21) through one end ball sleeves, and one end of each telescopic rod (242) is provided with a ball.

6. A parallel transition arrangement for conveyor belt splicing according to claim 2, wherein: both ends of the mounting rack (1) are provided with transition plates (12), one end of each transition plate (12) is connected to the adjacent plate body (21) in an overlapping mode, and the other end of each transition plate is suspended in the air and used for overlapping the conveying belt needing to be transferred.