CN219031103U - Anti-overflow material assembly of ship loader arm support system - Google Patents

Abstract

The utility model provides a ship loader arm support system anti-overflow material assembly which comprises a fixed arm, a telescopic arm and a conveying belt, wherein the telescopic arm is movably arranged on the fixed arm and can stretch and retract along the length direction of the fixed arm; the conveying belt is arranged in the fixed arm and the telescopic arm and used for conveying materials, the conveying belt comprises a starting section, a transition section and a middle section, a height difference is arranged between the starting section and the middle section, and the transition section is used for connecting the starting section and the middle section; still include two first baffles, two the first baffle all sets up in the fixed arm, and length direction is the same with the fixed arm, two the first baffle all is located the changeover portion to with conveyer belt butt. According to the anti-overflow component of the ship loader arm support system, two first baffles are arranged on the transition section, so that materials are prevented from outwards escaping when being transmitted from high to low, the loss of the materials is reduced, and the environment is prevented from being polluted by the escaping materials.

Description

Anti-overflow material assembly of ship loader arm support system

Technical Field

The utility model relates to the technical field of ship loaders, in particular to a material overflow prevention assembly of a ship loader arm support system.

Background

The belt conveyor system is used as a large bulk material continuous conveying device and is widely applied to industries such as steel, coal, ports and the like. With the rapid development of national economy, customers put forward new requirements on bulk material transportation, and large-capacity (high belt speed and large bandwidth) material transportation equipment becomes a "new pet" for customers. In ship loaders, and in particular in telescopic boom systems for ship loaders, the belt conveyor system can accommodate the telescopic boom system to telescope and to carry out the transport of material.

The utility model provides an authorized bulletin number is CN 203021057U's "environment-friendly straight line forward pendulum type bulk cement ship loader", it discloses cantilever crane telescopic machanism and belt feeder system that sets up on the ship loader, but, in actual operation in-process, when the flexible cantilever crane in the cantilever crane system is in fixed cantilever crane round trip flexible, the conveyer belt system of fixing on the cantilever crane system can stretch out and draw back together, in order to guarantee to leave sufficient flexible operation space, the belt face will form the difference in height at the flexible part, the belt face vacation of lower section department this moment, belt self tension will make the recess degree of middle part holding material reduce, lead to the material of large amount to overflow here, cause extravagant and environmental pollution.

Disclosure of Invention

In view of the above, the utility model provides a material overflow preventing assembly of a ship loader arm support system, which is characterized in that two baffles are arranged at the part of a conveying belt with height difference, so that the conveying belt is pressed on a carrier roller to keep a groove shape and shield overflowed materials, thereby avoiding a great amount of materials from overflowing at the position.

The technical scheme of the utility model is realized as follows: the utility model provides a ship loader arm support system anti-overflow material component, which comprises a fixed arm, a telescopic arm and a conveying belt, wherein,

the telescopic arm is movably arranged on the fixed arm and can extend and retract along the length direction of the fixed arm;

the conveying belt is arranged in the fixed arm and the telescopic arm and used for conveying materials, the conveying belt comprises a starting section, a transition section and a middle section, a height difference is arranged between the starting section and the middle section, and the transition section is used for connecting the starting section and the middle section;

the conveyor belt conveyor comprises a conveyor belt, and is characterized by further comprising two first baffles, wherein the two first baffles are arranged in the fixed arm corresponding to the transition section, the length direction of the first baffles is the same as that of the fixed arm, and the two first baffles are all in butt joint with the conveyor belt.

On the basis of the technical proposal, the conveyor belt also comprises two second baffles, the conveyor belt also comprises a head roller section which is arranged on the telescopic arm and is positioned on one side of the middle section far away from the transition section, wherein,

the two second baffles are fixed on the telescopic arm, the length direction of the second baffles is the same as that of the telescopic arm, and the two second baffles are positioned on the head roller section and are abutted to the conveying belt.

Further preferably, the first baffle and the second baffle are both rubber plates.

On the basis of the technical scheme, the structure frame is preferably further arranged, the structure frame is fixed in the fixed arm, and the two first baffles are arranged on the structure frame.

Further preferably, the device further comprises a cover plate, wherein the cover plate is fixed on the structural frame and combined with the two first baffle plates to form an inverted U-shaped groove.

Further preferably, the structural frame comprises a plurality of connecting arms and two steel plates, wherein,

each connecting arm is fixed with the fixed arm and is respectively positioned at two sides of the conveying belt;

the two steel plates are respectively fixed with the connecting arms on the two sides, and the two first baffle plates are respectively arranged on the two steel plates.

Further preferably, both the first baffles are detachably fixed to the structural frame.

Still further preferably, the first baffle is fixed to the structural frame by bolts.

Compared with the prior art, the anti-overflow component of the ship loader arm support system has the following beneficial effects:

(1) The two first baffles are arranged on the transition section, and the bottom of the first baffles downwardly extrudes the conveying belt, so that the conveying belt can be completely contacted with the carrier roller group, thereby forming a groove shape for carrying out material conveying operation, and simultaneously, the two first baffles can shield the two sides of the conveying belt, so that materials are prevented from escaping outwards when being conveyed from high to low, the loss of the materials is reduced, and the environment is prevented from being polluted by the escaping materials;

(2) Two second baffles are arranged on the movable arm, so that shielding is formed on two sides of the head roller section of the conveying belt, and the two second baffles are matched with the conveying belt to form a U-shaped groove, so that overflow of large-capacity materials during discharging is avoided.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of a ship loader arm support system flash prevention assembly of the present utility model;

FIG. 2 is a side view of a first baffle of the anti-flash assembly of the ship loader arm support system of the present utility model;

FIG. 3 is a cross-sectional view at A-A in FIG. 2;

FIG. 4 is a schematic view of a second baffle structure of the anti-flash assembly of the ship loader arm support system of the present utility model;

fig. 5 is a cross-sectional view at B-B in fig. 4.

Detailed Description

The following description of the embodiments of the present utility model will clearly and fully describe the technical aspects of the embodiments of the present utility model, and it is apparent that the described embodiments are only some embodiments of the present utility model, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the present utility model without making any inventive effort, are intended to fall within the scope of the present utility model.

As shown in fig. 1-5, the anti-overflow material assembly of the arm support system of the ship loader comprises a fixed arm 1, a telescopic arm 2, a conveying belt 3 and two first baffles 4.

The ship loader arm support system comprises a fixed arm 1 and a telescopic arm 2, wherein the telescopic arm 2 and the fixed arm 1 are positioned on the same straight line, and the telescopic arm 2 can perform telescopic movement on the fixed arm 1, so that the position of a telescopic chute during shipment is changed, and the shipment range is enlarged.

The conveyer belt 3 is the main material transporting part of conveying system, it sets up in fixed arm 1 and flexible arm 2, be provided with a plurality of bearing roller group on fixed arm 1 and flexible arm 2, the bearing roller group comprises three bearing rollers, one bearing roller axial is the same with fixed arm 1 width direction, two other bearing rollers angle sets up in the both sides of this bearing roller, conveyer belt 3 sets up on a plurality of bearing roller groups, form the trough through the bearing roller group for bulk material can not outwards spill over in the transportation process, be provided with initial section 31 on conveyer belt 3, changeover portion 32 and changeover portion 33, initial section 31 sets up in fixed arm 1, be located the higher position of conveyer belt 3 telescopic part, changeover portion 33 sets up in fixed arm 1 and flexible arm 2, be located the lower position of conveyer belt 3 telescopic part, there is the difference in height between initial section 31 and the changeover portion 33, be provided with one section non-rectilinear changeover portion 32 between initial section 31 and changeover portion 33, link together initial section 31 and changeover portion 33, on changeover portion 32, the belt face changes to the low place from the height.

Two first baffles 4 all set up in fixed arm 1, and length direction is the same with fixed arm 1, and the width direction of first baffle 4 is towards ground, two first baffle 4 all is located changeover portion 32 to bottom extrudees conveyer belt 3 downwards, makes conveyer belt 3 can contact the bearing roller group completely, thereby forms the slot form and carries out the material transmission operation, and two first baffles 4 can shelter from the both sides of conveyer belt 3 simultaneously, avoid the material outwards to the loss of material when being from high to low transmission to reduce the loss of material, avoid the loss material polluted environment.

In the unloading department of belt conveyor, can set up the cylinder and regard as traction and support, here is the head cylinder, the structure of head cylinder is the straight line type, and the bearing roller group of bulk belt conveyor is the cell type, when conveyer belt 3 passes through from bearing roller group to head cylinder, the belt face slowly becomes the straight line type by the cell type, the material of big traffic will take place to overflow this moment, still be provided with two second baffles 5 in this embodiment, conveyer belt 3 still includes head cylinder section 34, head cylinder section 34 sets up the tip at flexible arm 2, specifically is the unloading end, and flexible arm 2 keeps away from the one end of fixed arm 1, and two second baffles 5 are all fixed in flexible arm 2's inside, and length direction is the same with flexible arm 2, simultaneously the width direction of second baffles 5 is towards ground, two second baffles 5 all are located head cylinder section 34, and the bottom is in contact with conveyer belt 3 to form the shielding at the head cylinder section 34 both sides of conveyer belt 3, two second baffles 5 cooperate conveyer belt 3 to form a U type groove, in order to avoid big traffic to take place the width to take place the flexible arm 2 when the flexible arm 2 is the one end of need to reduce the material to take place, the excessive and the flexible arm 2 need the flexible arm 2 to take place the width to change gradually, the material that need not change to the flexible arm 2 is the more.

In this embodiment, the first baffle 4 and the second baffle 5 are both rubber plates, and the rubber plates have certain flexibility, and can adapt to and laminate the surface of the conveyer belt 3, reduce the wearing and tearing to the conveyer belt 3, simultaneously, the reaction force that the extrusion of first baffle 4 to the conveyer belt 3 produced can be absorbed, improves the stability of structure operation.

As a preferred embodiment, the structure frame 6 is further included, the structure frame 6 is fixed in the fixed arm 1, two first baffles 4 are both arranged on the structure frame 6, the arranged structure frame 6 can be fixed in the fixed arm 1 through welding or bolts, the structure frame 6 is used as a main installation component of the first baffles 4, and can effectively support the first baffles 4, meanwhile, the bottom shapes of the structure frame 6 and the first baffles 4 are required to be the same as the shape of the transition section 32 as much as possible, so that stress of each part of the first baffles 4 is basically consistent, and deformation and other parts which are generated when the first baffles 4 are stressed due to local overwidth are avoided, so that local transitional wear is caused.

In the above embodiment, the device further comprises a cover plate 7, the cover plate 7 is fixed on the structural frame 6 and is located at the top of the two first baffles 4, the width of the cover plate 7 is slightly larger than the distance between the two first baffles 4, and the cover plate and the two first baffles 4 are combined to form an inverted U-shaped groove, and the formed U-shaped groove is reversely buckled on the transition section 32, so that materials dissipated from the transition section 32 are effectively blocked, and the materials are further prevented from overflowing outwards.

Specifically, the structure frame 6 includes a plurality of linking arms 61 and two steel plates 62, each linking arm 61 is fixed with the fixed arm 1, specific fixed mode is welding or bolt fastening, each linking arm 61 is located the both sides of conveyer belt 3 respectively, and equidistant distribution along the length direction of fixed arm 1, two steel plates 62 are fixed with the linking arm 61 of both sides respectively, apron 7 is fixed on two steel plates 62, specifically, all be provided with L type border on two steel plates 62, apron 7 passes through the bolt fastening on the L type border of two steel plates 62, two first baffle 4 sets up respectively on two steel plates 62, fix first baffle 4 through steel plate 62, can make each partial rigidity of first baffle 4 border department unanimous, improve the stability of structure, make things convenient for the installation and the dismantlement operation of first baffle 4 simultaneously.

In the actual use process, as the first baffle plates 4 are in contact with the conveying belt 3, and abrasion is caused to the first baffle plates 4 in the operation process of the conveying belt 3, the two first baffle plates 4 are detachably arranged on the steel plate 62, and the good operation capability of the first baffle plates 4 is ensured through periodic replacement, wherein the replacement period is generally three to six months, and the use environment is particularly considered.

In order to make the first baffle 4 detachable and replaceable, the first baffle 4 may be fixed to the structural frame 6 by bolts, or fixed to the first baffle 4 by other clamping structures, and a fixing structure that facilitates detachment of the first baffle 4 is preferably selected.

In the above embodiment, the mounting structure of the second baffle 5 is substantially identical to that of the first baffle 4, and the second baffle 5 has a smaller wear degree and a longer service time than the first baffle 4 because the conveyor belt 3 is not required to be pressed.

The working principle of the utility model is as follows: the two first baffles 4 are arranged on the transition section 32, and the bottom is downwards extruded to the conveying belt 3, so that the conveying belt 3 can be completely contacted with the carrier roller group, thereby forming a groove shape for carrying out material conveying operation, and meanwhile, the two first baffles 4 can shield two sides of the conveying belt 3, so that materials are prevented from escaping outwards when being conveyed from high to low, the loss of the materials is reduced, and the environment is prevented from being polluted by the escaping materials.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the utility model.

Claims (8)

1. The anti-overflow component of the ship loader arm support system comprises a fixed arm (1), a telescopic arm (2) and a conveying belt (3), wherein,

the telescopic arm (2) is movably arranged on the fixed arm (1) and can extend and retract along the length direction of the fixed arm (1);

the conveying belt (3) is arranged in the fixed arm (1) and the telescopic arm (2) and is used for conveying materials, the conveying belt (3) comprises a starting section (31), a transition section (32) and an intermediate section (33), a height difference is arranged between the starting section (31) and the intermediate section (33), and the transition section (32) is used for connecting the starting section (31) and the intermediate section (33);

the method is characterized in that: the conveyor belt conveyor is characterized by further comprising two first baffles (4), wherein the two first baffles (4) are arranged in the fixed arm (1) corresponding to the transition section (32), the length direction of the first baffles is the same as that of the fixed arm (1), and the two first baffles (4) are all in butt joint with the conveyor belt (3).

2. The ship loader arm support system flash prevention assembly of claim 1, wherein: the conveyor belt (3) further comprises a head roller section (34), the head roller section (34) is arranged on the telescopic arm (2) and is positioned on one side of the middle section (33) far away from the transition section (32),

the two second baffles (5) are fixed on the telescopic arm (2), the length direction of the second baffles is the same as that of the telescopic arm (2), and the two second baffles (5) are positioned on the head roller section (34) and are abutted to the conveying belt (3).

3. The ship loader arm support system flash prevention assembly of claim 2, wherein: the first baffle (4) and the second baffle (5) are both rubber plates.

4. The ship loader arm support system flash prevention assembly of claim 1, wherein: the structure frame (6) is fixed in the fixed arm (1), and the two first baffles (4) are arranged on the structure frame (6).

5. The ship loader arm support system flash prevention assembly of claim 4, wherein: the novel structure comprises a first baffle plate (4), a second baffle plate (4) and a cover plate (7), wherein the cover plate (7) is fixed on the structure frame (6) and is combined with the two first baffle plates to form an inverted U-shaped groove.

6. The ship loader arm support system flash prevention assembly of claim 4, wherein: the structural frame (6) comprises a plurality of connecting arms (61) and two steel plates (62), wherein,

each connecting arm (61) is fixed with the fixed arm (1) and is respectively positioned at two sides of the conveying belt (3);

two steel plates (62) are respectively fixed with connecting arms (61) at two sides, and two first baffles (4) are respectively arranged on the two steel plates (62).

7. The ship loader arm support system flash prevention assembly of claim 4, wherein: the two first baffles (4) are detachably fixed on the structural frame (6).

8. The ship loader arm support system flash prevention assembly of claim 7, wherein: the first baffle (4) is fixed with the structural frame (6) through bolts.

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