CN216735958U - Material guide structure and transfer device - Google Patents

Abstract

The utility model relates to a material guiding structure and a transfer device, which comprises a first inclined plate and a second inclined plate, wherein the first inclined plate comprises a first material guiding surface which is obliquely arranged with a vertical plane, the second inclined plate comprises a second material guiding surface which is connected with the first material guiding surface, the inclined angle between the second material guiding surface and a horizontal plane and the first material guiding surface is an obtuse angle, two sides of the second material guiding surface and the first material guiding surface are respectively provided with an upwardly extending baffle, the baffle on the outer side of the second material guiding surface comprises an arc-shaped plate which is arranged corresponding to the end part of the first material guiding surface, the transfer device comprises a stacker-reclaimer, a belt conveyor and a material guiding structure, the blanking end of the second material guiding surface is positioned above the belt conveyor, the blanking direction is changed through the material guiding of the material guiding structure to baffle off the side falling or the falling of the material in the blanking process, the impact of the falling material with speed on the belt in the vertical advancing direction for a long time is avoided, and the deviation of the conveyed belt is effectively prevented, can suitably prolong the service life of the belt conveyor.

Description

Material guide structure and transfer device

Technical Field

The utility model belongs to the technical field of material conveying and guiding structures of material piling and taking machines, and particularly relates to a material guiding structure and a material conveying device.

Background

Stacker-reclaimer is a novel high efficiency continuous loading and unloading machinery, present stacker-reclaimer has got the material and can directly transport the material to the belt through an inclined plane after, at this in-process because the material itself has weight, the material also can produce certain speed at the in-process of inclined plane gliding, because the direction of advance and the belt of guide present vertically state, the whereabouts material that so has speed can lead to transporting the belt and producing certain skew under the impact to the belt for a long time, if the belt off tracking does not in time recover light then lead to belt wearing and tearing, serious can lead to the belt to catch fire production risks such as causing the conflagration, influence the life of transportation flat belt.

SUMMERY OF THE UTILITY MODEL

The present invention is directed to solve at least one of the above problems to a certain extent, and provides a material guiding structure and a transferring device.

The technical scheme adopted by the utility model for solving the technical problems is as follows:

the utility model provides a guide structure, includes first swash plate and second swash plate, first swash plate is including being equipped with the first guide face that sets up with vertical plane slope, first guide face one end is the material loading end, the second swash plate includes the second guide face that links to each other with the first guide face other end, the second guide face sets up and one end is the obtuse angle with the contained angle of first guide face with horizontal plane slope, and the second guide plane other end is the unloading end, second guide face and first guide face both sides all are equipped with the fender that encloses that upwards extends, and the fender that encloses in the second guide face outside includes the arc, the arc corresponds first guide face setting.

In the above material guiding structure, preferably, an included angle between the first material guiding surface and the second material guiding surface is 110 ° to 130 °.

Above-mentioned guide structure, preferably, enclose the fender and include first baffle and the second baffle that links to each other with first swash plate both sides, first baffle links to each other with the arc, the second baffle inclines to first guide charge level outside.

Above-mentioned guide structure, preferably, the arc extends to first baffle bottom and links to each other with first swash plate.

Above-mentioned guide structure, preferably, enclose the fender and include third baffle and the fourth baffle that links to each other with second swash plate both sides, the third baffle links to each other with the arc, the slope of fourth baffle to the second guide charge level outside.

In the material guiding structure, preferably, the side end of the second inclined plate is an arc-shaped structure corresponding to the arc-shaped plate.

The utility model provides a transfer device, includes stacker-reclaimer, belt feeder and as above arbitrary one the guide structure, first swash plate sets up in stacker-reclaimer's discharge gate department, the unloading end of second guide material face is located the belt feeder top, the direction of advance of guide of second guide material face corresponds the direction of transport of belt feeder.

Above-mentioned transfer device, preferably, the unloading end of second guide surface corresponds the belt middle part of belt feeder.

Above-mentioned transfer device, preferably, the guide structure is equipped with first support frame with the cylinder support of belt feeder.

Above-mentioned transfer device, preferably, the guide structure is equipped with the second support frame with the bearing roller support of belt feeder.

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

(1) the material of guide structure material loading end is followed with the first guide charge level of vertical plane slope, is kept off the material by gravity slope whereabouts under first baffle and second baffle, falls into with the second guide charge level of horizontal plane slope after, is kept off the material by gravity slope whereabouts under arc, third baffle and fourth baffle, prevents that the unloading in-process material from scattering to guide structure outside, and the arc prevents that the material from piling up the condition, realizes that the guide changes the unloading direction.

(2) The stacker-reclaimer is got the material and is sent the discharge gate to and fall on the material loading end of guide structure, changes the unloading direction through the guide of guide structure, makes the direction of advance of guide to the second guide surface by first guide correspond the direction of transport of belt feeder, has the belt feeder to continue the transportation to adapt to the transportation production demand, avoids producing the impact to the belt of perpendicular direction of advance for a long time because of the whereabouts material that has speed, effectively prevents to transport the belt skew, can suitably prolong belt feeder life.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 is a front perspective view of embodiment 1 of the present invention;

fig. 2 is a rear perspective view of embodiment 1 of the present invention;

FIG. 3 is a top view structural view of embodiment 1 of the present invention;

FIG. 4 is a schematic side view of embodiment 2 of the present invention;

fig. 5 is a schematic front view of embodiment 2 of the present invention.

In the figure: the automatic feeding device comprises a first inclined plate 1, a first material guiding surface 101, a feeding end 102, a second inclined plate 2, a second material guiding surface 201, a discharging end 202, a surrounding baffle 3, a first baffle plate 301, a second baffle plate 302, a third baffle plate 303, a fourth baffle plate 304, an arc-shaped plate 305, a stacker-reclaimer 4, a belt conveyor 5, a belt 501, a roller support 502, a first support frame 503, a carrier roller support 504 and a second support frame 505.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are illustrative and intended to be illustrative of the utility model and are not to be construed as limiting the utility model.

In the description of the present invention, it is to be understood that the terms "central," "longitudinal," "lateral," "length," "width," "thickness," "upper," "lower," "axial," "radial," "vertical," "horizontal," "inner," "outer," and the like are used in the orientations and positional relationships indicated in the drawings for convenience in describing the present invention and for simplicity in description, and are not intended to indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and are not to be considered limiting. Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "plurality" or "a plurality" means two or more unless specifically limited otherwise.

In the present invention, unless otherwise expressly specified or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integrally connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

As shown in fig. 1 to 3, in a preferred embodiment of the material guiding structure of the present invention, the material guiding structure includes a first inclined plate 1 and a second inclined plate 2, the first inclined plate 1 includes a first material guiding surface 101 inclined from a vertical plane, one end of the first material guiding surface 101 is a feeding end 102, the second inclined plate 2 includes a second material guiding surface 201 connected to the other end of the first material guiding surface 101, the second material guiding surface 201 is inclined from a horizontal plane, an included angle between one end of the second material guiding surface 201 and the first material guiding surface 101 is an obtuse angle, the other end of the second material guiding surface is a discharging end 202, two sides of the second material guiding surface 201 and the first material guiding surface 101 are both provided with upwardly extending barriers 3, the barriers 3 outside the second material guiding surface 201 include arc plates 305, and the arc plates 305 are disposed corresponding to the first material guiding surface 101.

In the above material guiding structure, preferably, the included angle between the first material guiding surface 101 and the second material guiding surface 201 is 110 ° to 130 °, the angle is reasonably designed, the specific angle can be adjusted according to actual needs, so that the material can obliquely fall down to the second material guiding surface 201 along the first material guiding surface 101 under the action of gravity, the occupied space of the application equipment is large due to an excessively large angle, and the material guiding is affected by excessive impact, sputtering and material leakage when the first material guiding surface 101 falls on the second material guiding surface 201 due to an excessively small angle.

Above-mentioned guide structure, preferably, enclose fender 3 and include first baffle 301 and the second baffle 302 that links to each other with first swash plate 1 both sides, first baffle 301 links to each other with arc 305, second baffle 302 inclines to first guide surface 101 outside to first baffle 301 and second baffle 302 prevent that the material from the side falling when first guide surface 101 removes, and second baffle 302 inclines to second guide surface 201 outside and increases and the contained angle of second guide surface 201 and prevents that the material from piling up, makes the blanking smooth.

Above-mentioned guide structure, preferably, the arc 305 extends to first baffle 301 bottom and links to each other with first swash plate 1 to the dead angle is piled up to the arc 305 fender material and avoid the material, and the radian of arc 305 can be adjusted according to actual need.

The above-mentioned guide structure, preferably, enclose fender 3 and include third baffle 303 and fourth baffle 304 that link to each other with second swash plate 2 both sides, third baffle 303 links to each other with arc 305, fourth baffle 304 inclines to second guide surface 201 outside to third baffle 303 and fourth baffle 304 prevent that the material from side falling when second guide surface 201 removes, and fourth baffle 304 prevents that the material from piling up to the contained angle of second guide surface 201 outside slope increase and second guide surface 201, makes the blanking smooth.

In the above material guiding structure, preferably, the side end of the second sloping plate 2 is an arc-shaped structure corresponding to the arc-shaped plate 305, so that the material guiding structure is beautiful and can be manufactured by bending or welding the arc-shaped plate 305 and the second sloping plate 2.

As shown in fig. 4-5, in a preferred embodiment of the transfer device according to the present invention, the transfer device includes a stacker-reclaimer 4, a belt conveyor 5 and the material guiding structure as described above, the first sloping plate 1 is disposed at a discharge port of the stacker-reclaimer 4, the discharge end 202 of the second material guiding surface 201 is located above the belt conveyor 5, and a material guiding direction of the second material guiding surface 201 corresponds to a conveying direction of the belt conveyor 5.

Above-mentioned transfer device, preferably, the unloading end 202 of second guide surface 201 corresponds the belt 501 middle part of belt feeder 5, and the convenient concentrated unloading is transported, and belt feeder 5 atress is even.

In the above transfer device, preferably, the material guiding structure and the roller bracket 502 of the belt conveyor 5 are provided with a first support frame 503.

In the transfer device, preferably, the material guiding structure and the carrier roller support 504 of the belt conveyor 5 are provided with the second support frame 505, and the second inclined plate 2 connected with the material guiding structure is supported by the first support frame 503 and/or the second support frame 505, so that the second inclined plate 2 is prevented from being impacted by materials and prevented from deforming and affecting material guiding due to long-time bearing of heavy objects.

The first inclined plate 1 is used as a component of the stacker-reclaimer 4, when the stacker-reclaimer 4 takes materials and sends the materials to a discharge port to fall on the feeding end 102 of the first material guiding surface 101, the materials fall obliquely under the blocking of the first baffle 301 and the second baffle 302 along the first material guiding surface 101 inclined with a vertical plane under the action of gravity, and after the materials fall on the second material guiding surface 201 inclined with a horizontal plane, the materials fall obliquely under the blocking of the arc-shaped plate 305, the third baffle 303 and the fourth baffle 304 under the action of gravity, and the materials directly fall on a belt 501 of the belt conveyor 5 and are conveyed forward along the belt 501 to realize transportation;

change the unloading direction through the guide structure guide, it is smooth and easy to enclose fender 3 messenger guide, prevent that the unloading in-process material from scattering to the guide structure outside and the material from piling up the condition, make the guide direction of advance of leading by first guide surface 101 to second guide surface 201 correspond the direction of transportation of belt feeder 5, avoid producing the impact to the belt 501 of perpendicular direction of advance for a long time because of the whereabouts material that has speed, cause the off tracking phenomenon of belt 501, make stacker-reclaimer 4, the transportation compact structure that guide structure and belt feeder 5 constitute, the adaptation transports the production demand, be favorable to prolonging belt feeder 5 life, avoid belt 501 to get a fire the hidden danger.

The above-listed detailed description is only a specific description of a possible embodiment of the present invention, and they are not intended to limit the scope of the present invention, and equivalent embodiments or modifications made without departing from the technical spirit of the present invention should be included in the scope of the present invention.

Claims (10)

1. A material guiding structure is characterized by comprising a first inclined plate (1) and a second inclined plate (2), the first inclined plate (1) comprises a first material guide surface (101) which is arranged obliquely with the vertical plane, one end of the first material guiding surface (101) is a feeding end (102), the second inclined plate (2) comprises a second material guiding surface (201) connected with the other end of the first material guiding surface (101), the second material guiding surface (201) is obliquely arranged with the horizontal plane, an included angle between one end of the second material guiding surface and the first material guiding surface (101) is an obtuse angle, the other end of the second material guiding surface is a discharging end (202), second guide surface (201) and first guide surface (101) both sides all are equipped with that to make progress and extend encloses fender (3), and what the second guide surface (201) outside encloses fender (3) and includes arc (305), arc (305) correspond first guide surface (101) and set up.

2. A material guiding structure as claimed in claim 1, wherein the angle between the first material guiding surface (101) and the second material guiding surface (201) is 110 ° to 130 °.

3. A material guiding structure as claimed in claim 1, wherein the enclosure (3) comprises a first baffle (301) and a second baffle (302) connected to both sides of the first sloping plate (1), the first baffle (301) is connected to the curved plate (305), and the second baffle (302) is inclined to the outside of the first material guiding surface (101).

4. A material guiding structure as claimed in claim 3, wherein the curved plate (305) extends to the bottom of the first baffle plate (301) and is connected with the first inclined plate (1).

5. A material guiding structure as claimed in claim 1, wherein the enclosure (3) comprises a third baffle (303) and a fourth baffle (304) connected to both sides of the second sloping plate (2), the third baffle (303) is connected to the curved plate (305), and the fourth baffle (304) is inclined to the outside of the second material guiding surface (201).

6. A material guiding structure as claimed in claim 1, wherein the side end of the second sloping plate (2) is in an arc shape corresponding to the arc-shaped plate (305).

7. A transfer device, characterized by comprising a stacker-reclaimer (4), a belt conveyor (5) and the material guiding structure according to any one of claims 1 to 6, wherein the first inclined plate (1) is arranged at a discharge port of the stacker-reclaimer (4), the discharging end (202) of the second material guiding surface (201) is positioned above the belt conveyor (5), and the material guiding advancing direction of the second material guiding surface (201) corresponds to the conveying direction of the belt conveyor (5).

8. A transfer device according to claim 7, wherein the discharge end (202) of the second guide surface (201) corresponds to the middle of the belt (501) of the belt conveyor (5).

9. A transfer device according to claim 7, characterized in that the material guiding structure is provided with a first support frame (503) with the roller support (502) of the belt conveyor (5).

10. A transfer device according to claim 7, characterized in that the material guiding structure and the carrier roller bracket (504) of the belt conveyor (5) are provided with second support frames (505).

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