CN114104775A - Wave-shaped flange conveyer belt ship unloader - Google Patents

Abstract

The invention provides a conveyor with a wave-shaped flange conveying belt, which comprises a door machine, a traveling system, a horizontal rotary supporting device, a horizontal arm, a vertical arm, an electrical system, a dust removal system, a hydraulic system, a material receiving device and a material taking machine, wherein the material taking machine plays a material taking role. The wave-shaped flange conveyer belt comprises a base band, a diaphragm plate and flanges; the invention creatively provides the S-shaped wave-shaped flange conveyer belt conveyer and the ship unloader arm support part, which greatly buffer the pulling force generated in the belt conveying process and overcome the problems in the prior art. The conveyor with the wave-shaped flange conveying belt integrates material receiving, lifting and horizontal conveying, and is sealed and conveyed in a working mechanism, dust does not overflow, and the requirement of environmental protection is met.

Description

Wave-shaped flange conveyer belt ship unloader

Technical Field

The invention designs a ship unloader, in particular to a working mechanism which is formed by combining a material taking machine and an S-shaped wave-shaped flange conveyer belt conveyor unit and is used for the ship unloader.

Background

The belt conveying type ship unloader has the advantages that the load on the belt is increased after materials are filled in the conveying process, and the belt conveying causes the phenomenon that the belt pulling force is too large and even the belt is stretched and broken. Especially when overcoming the corner between vertical arm and the horizontal arm, the quarter turn that most ship unloaders in China adopted or its inclination is too big, and the belt bears bigger pulling force in this position, very easily appears damaging the phenomenon, can't smooth-going realization material at least and carry. Only the loading capacity can be reduced, so that the loading efficiency is extremely low, and the qualified ship unloading efficiency cannot be achieved.

Disclosure of Invention

The invention aims to solve the technical problem of providing a conveyor with a wave-shaped flange conveying belt, which is used for conveying materials in a closed manner, has a smooth operation and can greatly improve the conveying efficiency.

Therefore, the invention adopts the following technical scheme:

the invention discloses a ship unloader which comprises a gantry crane, a traveling system, a horizontal rotary supporting device, a horizontal arm, a vertical arm, an electrical system, a dust removal system, a hydraulic system, a material receiving device and a material taking machine, wherein the material taking machine plays a material taking role.

In the disclosure, the wave-shaped flange conveyer belt comprises a base belt, transverse partition plates uniformly and transversely arranged on the upper surface of the base belt, and flanges arranged on the base belt and positioned at the outer side parts of the transverse partition plates, so that a box-shaped material storage volume for conveying materials is formed by the base belt, the flanges and the transverse partition plates;

in the disclosure, a corrugated flange conveyer belt conveyor is the main invention part of the scheme, a belt driving device provides power to drive the corrugated flange conveyer belt to run, so that materials in the storage volume of the conveyer belt are lifted, the corrugated flange conveyer belt is stably transited to a horizontal state and then conveyed to the rear part until the materials are fed into a receiving hopper, and the materials are conveyed to a warehouse through a subsequent discharging device.

In the disclosure, the bend-over drum and the bend-over pinch roller distribute the wave-shaped flange conveyer belt, the vertical arm and the horizontal arm in an S shape, and respectively form an arc bend at the joint of the horizontal arm and the vertical arm and an arc bend at the lower end part of the vertical arm; the head of the S-shaped distributed wave-shaped flange conveyer belt conveyor connected with the reclaimer is relatively smooth, so that the design is favorable for receiving the corrugated flange conveyer belt, the volume ratio of the conveyer belt is improved, and the working efficiency of the whole machine is improved to the maximum extent.

In addition, in the technical scheme of the invention, the corrugated flange conveyer belt conveyor is arranged in a sealed space and is connected with a dust removal system (a dust remover), so that no dust emission and no dust emission are realized.

Meanwhile, the vertical arm and the horizontal arm are used as a framework of the ship unloader, and main working devices such as a reclaimer, a corrugated flange conveyer belt conveyor and the like are mostly arranged in the ship unloader;

in above-mentioned technical scheme, the space that the cross slab and flange are constituteed is used for the restriction of material, prevents that it from producing in transportation process and spilling hourglass, the material from removing the raise dust scheduling problem that too much caused, is difficult for causing dust pollution.

In the present disclosure, in particular, the ribs are wave-shaped and in contact with the diaphragm.

Particularly, the diaphragm plate arranged on the wave-shaped flange conveying belt is of a TC-shaped structure, the TC-shaped structure comprises a T-shaped base at the bottom and a C-shaped bending piece on the base, and the bending direction of the C-shaped bending piece is the same as the conveying direction of the conveying belt.

In this disclosure, the TC type that upwards bends can hold the material when vertical feed or big inclination is carried, forms the effect of "fighting", and the conveying capacity and the conveying efficiency of increase material avoid spilling the emergence of phenomenon such as material. The flanges are wave-shaped and are in contact with the transverse partition plates, and a box-shaped space is formed among the flanges, the front transverse partition plate, the rear transverse partition plate and the base band when the base band is in the horizontal direction or forms a large inclination angle with the vertical arm; when the conveying belt is in the vertical direction or forms a small inclination angle with the vertical arm, a hopper-shaped space transiting from the box-shaped space is formed among the flanges, the transverse partition plate and the base band, so that the loading of materials is facilitated, more materials can be stored and promoted when the materials are conveyed vertically, and the conveying efficiency of the materials is improved.

In the present disclosure, the vertical beam is hinged to the horizontal beam, the wave-shaped rib conveyor belt is conveyed around the hinge point of the vertical beam and the horizontal beam, and the vertical arm and the lower part swing back and forth around the hinge point to meet the requirements of taking materials at different positions in different ship types and cabins.

Specifically, the vertical arm swings back and forth around a swing hinge point, can extend into a dark cabin of a cabin together with the material taking machine, the horizontal arm performs vertical amplitude movement around an amplitude-variable hinge point, so that the ship unloader can adapt to loading and unloading of materials with different heights caused by water level, ship shape and the like, meanwhile, in order to meet the requirement of cabin discharge, the actions of the vertical arm and the horizontal arm are respectively driven by a hydraulic oil cylinder, the horizontal arm is fixed on a gantry crane through a horizontal slewing bearing device, and the horizontal slewing bearing device realizes that the horizontal arm and parts connected with the horizontal arm rotate on the horizontal plane, so that the material taking range of the spiral material taking machine is expanded.

In order to realize the S-shaped distribution in the technical scheme, two turnabout drums are arranged, the turnabout drums are respectively arranged at the end part of the wave-shaped flange conveyer belt and the hinged part of the vertical arm and the horizontal arm, the turnabout drum close to the end part of the wave-shaped flange conveyer belt is sleeved inside the base belt, and the turnabout drum close to the hinged part of the vertical arm and the horizontal arm is arranged outside the base belt at the inner side;

at least two groups of bend-changing pinch rollers are arranged on the front surface of the base band at the rear part of the bend-changing drum at the end part of the wave-shaped flange conveyer belt, so that the base band is bent outwards and gently, and at least two groups of bend-changing pinch rollers are arranged on the back surface of the base band at the hinged part of the vertical arm and the horizontal arm, so that the base band of the vertical arm below the base band is bent and gently towards the horizontal arm.

At least 1 reclaimer, preferably 2, distribute one respectively in vertical arm both sides.

Further, the reclaimer is a spiral reclaimer or a bucket wheel machine, preferably a spiral reclaimer.

Perpendicular arm below is provided with in wave form flange conveyer belt tip top and connects the workbin, connect the workbin and be provided with the baffle box below the material receiving mouth that connects with the reclaimer intercommunication, the baffle box inclines towards wave form flange conveyer belt below. The reclaimer is hinged with the material receiving box, a discharge hole of the special reclaimer and the hinged point are designed into a whole, and the reclaimer swings back and forth around the hinged point.

In the present disclosure, the material guide chute is used for guiding the conveyed materials into the effective width of the corrugated rib conveyer belt.

In the disclosure, the driving device is arranged at the end part of the wave-shaped flange conveyer belt conveyor close to the horizontal rotary supporting device.

The ship unloader is provided with 2 sets of dust removal systems, and plays a role in dust suppression and dust removal in the material taking and material conveying processes.

The invention creatively provides the S-shaped wave-shaped flange conveyer belt conveyer and the ship unloader arm support part, which greatly buffer the pulling force generated when the base belt passes through a vertical angle or a large inclination angle and the influence of the weight of materials in the belt conveying process, and overcome the problems in the prior art. The conveyor with the wave-shaped flange conveying belt integrates material receiving, lifting and horizontal conveying, and is conveyed in a sealing mode in a working mechanism (a material taking machine and an S-shaped wave-shaped flange conveying belt conveyor), dust does not overflow, and the requirement for environmental protection is met.

Drawings

Fig. 1 is a schematic view of a screw material taking head of a material taking machine of a ship unloader according to the present invention.

Fig. 2 is a side view of the screw material taking head of the material taking machine of the ship unloader according to the present invention.

Fig. 3 is a schematic view of the reclaimer of the ship unloader, which is a bucket wheel, according to the present invention.

Fig. 4 is a side view of the reclaimer of the ship unloader, which is a bucket wheel, according to the present invention.

FIG. 5 is a schematic view of the base strip, ribs and diaphragms of the present invention.

FIG. 6 is a schematic view of the diaphragm of the present invention.

Detailed Description

The invention is further elucidated with reference to the drawing.

However, the following description is of several embodiments of the invention, and is intended to provide a basic understanding of the invention and to not identify key or critical elements of the invention or to delineate the scope of the invention.

Example 1:

the embodiment discloses a wave-shaped flange conveyer belt ship unloader, which comprises a gantry crane 1, a walking system 2, a horizontal rotary supporting device 3, a horizontal arm 4, a vertical arm 5, an electrical system 6, a dust removal system 7, a hydraulic system, a material receiving device 33, a material taking machine 8, a lubricating system and the like, wherein as shown in fig. 1, 2, 3 and 4, the material taking machine shown in fig. 1 and 2 is a spiral material taking head, and the material taking machine shown in fig. 3 and 4 is a bucket wheel.

In particular, as shown in fig. 1 and 3, the ship unloader with the wave-shaped rib conveyer belt according to the embodiment further includes the wave-shaped rib conveyer belt conveyor, and the wave-shaped rib conveyer belt conveyor includes a wave-shaped rib conveyer belt 9, a bend pulley 10, a bend pulley 11, a pulley 12, a carrier roller 13, a belt driving device 14 and a belt tensioning device 15. The bend drum 10 is provided with a conveyer belt, and the conveyer belt is used for realizing large-angle turning around the drum. The carrier roller 13 is used for manufacturing a conveyor belt, so that the conveyor belt can smoothly slide on the carrier roller. The pinch roller 12 is pressed on the surface of the conveyer belt and used for fixing the running position of the conveyer belt. The bend pinch roller 11 is also pressed on the surface of the conveyor belt and pressed on the edge part of the surface of the conveyor belt, the corrugated flanges are not arranged on two edge parts of the base belt and are arranged in the edge part, so that the redundant edge parts are used for installing the bend pinch roller 11, and the bend pinch roller 11 is used for changing the conveying direction of the conveyor belt by a certain angle according to the arrangement direction of the bend pinch roller 11. The belt drive 14 acts as a drive pulley, creating friction to drive the belt in motion. The belt tensioner 15 is a device that adjusts the degree of belt tension and generates the tension required for frictional drive.

Meanwhile, in this embodiment, in order to realize the S-shaped distribution of the corrugated rib conveyor belt, two direction-changing drums 10 are provided, which are respectively arranged at the hinged positions of the end portion of the corrugated rib conveyor belt, the vertical arm 5 and the horizontal arm 4, the direction-changing drum 10 near the end portion of the corrugated rib conveyor belt is sleeved inside the base band, and the direction-changing drum 10 near the hinged position of the vertical arm 5 and the horizontal arm 4 is arranged outside the base band inside;

at least two groups of redirection pressing wheels 11 are arranged on the front surface of the base band at the rear part of the redirection roller 10 at the end part of the wave-shaped flange conveyer belt, so that the base band is gently redirected and bent outwards, and at least two groups of redirection pressing wheels 11 are arranged on the back surface of the base band at the hinged part of the vertical arm and the horizontal arm, so that the base band of the vertical arm 5 below is gently redirected and bent towards the horizontal arm 4. The conveying efficiency is guaranteed, meanwhile, the corrugated rib conveying belt can smoothly run, and the problems that conveying load is increased and belt pulling force is increased to damage the belt due to overlarge right-angle turning or rapid large-angle turning in the prior art are solved. Meanwhile, after the corrugated flange conveying belt smoothly runs, more materials can be loaded than those in the prior art, and the problems in the prior art are solved.

As shown in fig. 5, the conveyor belt includes a base belt 2, a diaphragm 21 uniformly and transversely disposed on an upper surface of the base belt 20, and a wave rib 22 provided on the base belt 20 at an outer side portion of the diaphragm 21, as shown in fig. 5. In the figure of the embodiment, the diaphragm 21 is drawn only on the conveyor belt of the material taking part at the bottom as an illustration, and the diaphragm and the flanges are actually arranged on the whole conveyor belt.

More specifically, as shown in fig. 6, the diaphragm 21 is a TC-shaped structure, the TC-shaped structure includes a T-shaped base 41 at the bottom and a C-shaped bending piece 40 on the base 41, and the bending direction of the C-shaped bending piece 40 is the same as the conveying direction of the conveyor belt. This case adopts TC type cross slab, makes up "fill" shape storage volume chamber of transported substance material with baseband, flange, is favorable to storing, promoting more materials when carrying perpendicularly.

In this embodiment, in order to improve the material conveying efficiency, the rib 22 is in a wave shape and contacts with the diaphragm 21, and the rib 22 and the front and rear diaphragm 21 form a box-shaped space.

In the prior art, in order to improve the material conveying efficiency, the distance between the partition plates is reduced as much as possible according to the size of material particles, so that the conveying amount of materials is increased; but the reduction of the spacing between the partition plates is not beneficial to filling the hopper-shaped storage volume cavity with materials. The bucket-shaped storage volume cavity of the technical scheme of the invention solves the problem, can reduce the installation number of the partition plates, increase the space between the partition plates, improve the conveying capacity and ensure the conveying efficiency, and meanwhile, the S-shaped conveying belt can run smoothly under the condition of the loading capacity, thus the bucket-shaped storage volume cavity has the greatest advantage compared with the prior art.

The corrugated flange conveyer belt adopted by the ship unloader of the scheme is full of a box-shaped storage volume, and conveyed materials are loaded in the box-shaped storage volume and synchronously run along with the conveyer belt without relative motion, so that when the loaded and unloaded materials are grains such as grains, the ship unloader basically has no damage, and the problem of low damage rate required by the ship unloader for the grains such as the grains is solved.

In this embodiment, the vertical beam is hinged to the horizontal beam, the reference numeral 30 in the figure is a hinge point, the wave-shaped rib conveyer belt is conveyed around the hinge point 30 of the vertical beam and the horizontal beam, and the vertical arm and the lower part swing back and forth around the hinge point.

The wave-shaped flange conveyer belt conveyor of the embodiment can swing back and forth at the hinged position of the vertical beam and the horizontal beam so as to meet the requirements of taking materials at different positions in different ship types and cabins.

In this embodiment, a material receiving box 31 is arranged above the end portion of the wave-shaped flange conveyer belt below the vertical arm, a material guide groove 32 is arranged below a material receiving opening communicated with the material taking machine in the material receiving box, and the material guide groove 32 inclines towards the wave-shaped flange conveyer belt 9 below. In particular, when the reclaimer is a bucket wheel, no material receiving box is provided, as shown in fig. 3 and 4.

More specifically, the reclaimer is articulated with connecing the workbin, and the discharge gate and this pin joint of special reclaimer design become an organic whole, and the reclaimer does the fore-and-aft swing around its pin joint. Of course, the reclaimer can be a spiral reclaimer head or a bucket wheel, and the technical scheme can be applied.

The wave-shaped flange conveyer belt ship unloader of the embodiment has the advantages that materials are conveyed in the working mechanism (the material taking machine and the S-shaped wave-shaped flange conveyer belt conveyer) in a sealing mode, no dust overflows, and the environmental protection requirement is met.

The wave-shaped flange conveyer belt ship unloader of the embodiment is provided with 2 sets of dust removal systems, and plays roles in dust suppression and dust removal in the material taking and material conveying processes.

The reclaimer of the ship unloader can be a spiral reclaimer or a reclaimer such as a bucket wheel machine, as shown in fig. 1 to 4.

The reclaimer sets up 1 at least, as shown in figure 1, the reclaimer adopts the spiral to get the stub bar, has set up two, as shown in figure 3, has set up three spiral and has got the stub bar. The same can be applied to the bucket-wheel material taking head device.

The working principle of the ship unloader with the wave-shaped flange conveyer belt is as follows: the lower part is a material taking machine which is used for taking materials in a cabin, lifting the materials to a certain height, sending the materials into a receiving hopper, and conveying the materials into a box-shaped volume cavity of an S-shaped wave-shaped flange conveying belt material receiving section through a material guide groove in the receiving hopper; according to different cutting characteristics of materials, the material taking device has different forms, and the spiral material taking machine can swing back and forth. The guide chute is used for guiding the materials to flow into a box-shaped material storage volume cavity of the wave-shaped flange conveying belt. The wave-shaped flange conveyer belt for loading materials is gradually transited from the horizontal section to the vertical section or the large-inclination-angle section, the materials are lifted to the top, then the materials are gently transferred to the horizontal conveying, and are conveyed to the rear part of the horizontal beam, finally the materials are converged into the receiving hopper at the rear part, and the materials are conveyed out through the discharging device at the lower part. The whole process is carried in a closed way, and no leakage or dust is generated.

Spatially relative terms such as "below …," "above …," "below," "above," "below," and the like are used for ease of description and to explain the positioning of one element relative to a second element. These terms are intended to encompass different orientations of the corresponding device in addition to different orientations than those depicted in the figures. Further, terms such as "first" and "second," etc., are also used to describe various elements, regions, sections, etc. and are also not intended to be limiting. Like terms refer to like elements throughout the description.

As used herein, the terms "having," "including," "containing," and "exhibiting," and the like are open-ended terms that indicate the presence of stated elements or features, but do not exclude additional elements or features.

With the above range of variations and applications in mind, it should be understood that the present invention is not limited by the foregoing description, nor is it limited by the accompanying drawings. Rather, the invention is limited only by the claims and their legal equivalents.

Claims (8)

1. A ship unloader with a wave-shaped flange conveyer belt comprises a door machine, a traveling system, a horizontal rotary supporting device, a horizontal arm, a vertical arm, an electrical system, a dust removal system, a hydraulic system, a material receiving device and a material taking machine, and is characterized by also comprising the wave-shaped flange conveyer belt conveyer, wherein the wave-shaped flange conveyer belt conveyer comprises a wave-shaped flange conveyer belt, a turnabout drum, a turnabout pinch roller, a carrier roller, a belt driving device and a belt tensioning device, and the wave-shaped flange conveyer belt comprises a base belt, a transverse partition plate uniformly and transversely arranged on the upper surface of the base belt and a wave-shaped flange arranged on the base belt and positioned at the outer side part of the transverse partition plate;

the bend-changing roller and the bend-changing pinch roller distribute the wave-shaped flange conveyer belt, the vertical arm and the horizontal arm in an S shape, and respectively form an arc bend at the joint of the horizontal arm and the vertical arm and an arc bend at the lower end part of the vertical arm;

the baffle is wave-shaped and is contacted with the transverse partition plates, and a box-shaped space is formed between the baffle and the front and rear transverse partition plates and the base band when the conveying belt is in the horizontal direction or forms a large inclination angle with the vertical arm; when the conveying belt is in the vertical direction or forms a small inclination angle with the vertical arm, a bucket-shaped space is formed among the flanges, the transverse partition plate and the base band.

2. The wave-shaped flange conveyer belt ship unloader of claim 1, wherein the diaphragm arranged on the base belt is of a TC-shaped structure, the TC-shaped structure comprises a T-shaped base at the bottom and a C-shaped bending piece on the base, and the bending direction of the C-shaped bending piece is the same as the conveying direction of the conveyer belt.

3. The apparatus of claim 1, wherein the vertical beam is hinged to the horizontal beam, the corrugated rib belt is fed around the hinge point of the vertical beam to the horizontal beam, and the vertical arm and the lower member swing back and forth around the hinge point.

4. The wave-shaped flange conveyer belt ship unloader as claimed in claim 1, wherein the number of the direction-changing drums is two, the direction-changing drums are respectively arranged at the hinged positions of the end part of the wave-shaped flange conveyer belt, the vertical arm and the horizontal arm, the direction-changing drums close to the end part of the wave-shaped flange conveyer belt are sleeved inside the base belt, and the direction-changing drums close to the hinged positions of the vertical arm and the horizontal arm are arranged outside the base belt inside;

at least two groups of bend-changing pinch rollers are arranged on the front surface of the base band at the rear part of the bend-changing drum at the end part of the wave-shaped flange conveyer belt, so that the base band is bent outwards and gently, and at least two groups of bend-changing pinch rollers are arranged on the back surface of the base band at the hinged part of the vertical arm and the horizontal arm, so that the base band of the vertical arm below the base band is bent and gently towards the horizontal arm.

5. The wavy flange conveyor belt ship unloader of claim 1, wherein the reclaimer is at least 1.

6. The wavy flange conveyer belt ship unloader of claim 1, wherein a receiving box is provided below the vertical arm above the end of the wavy flange conveyer belt, the receiving box is provided with a guide chute below a receiving port communicating with the reclaimer, and the guide chute is inclined toward the lower wavy flange conveyer belt.

7. The wavy flange conveyor belt ship unloader of claim 1, wherein the belt drive is disposed at an end of the wavy flange conveyor belt conveyor near the horizontal slewing bearing device.

8. The wavy flange conveyor belt ship unloader of claim 1, wherein the reclaimer is a screw reclaimer or a bucket wheel machine.

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