CN113353600A - Continuous material guiding device - Google Patents

Abstract

The invention relates to a continuous material guide device, which comprises a plurality of stacked connecting units, wherein each connecting unit comprises a leakage groove, and the bottom of each connecting unit is provided with a bottom opening, the area of each bottom opening is smaller than that of an upper end opening; the plurality of brackets are fixedly arranged around the side wall of the groove body of the leakage groove and are used for connecting two adjacent connecting units; the barrier piece is arranged above the opening at the bottom end of the leakage groove and used for blocking and decelerating the material falling from the leakage groove of the last connecting unit, and a space between the barrier piece and the side wall of the leakage groove forms a depressurization deceleration channel for descending the material; the leakage groove bodies in the two adjacent connecting units are provided with gaps, and the leakage groove structure has the advantages that continuous pressure reduction, speed reduction and settlement are carried out on materials, so that the impact force of the materials directly falling onto the base station and the base station is effectively reduced, and meanwhile, the falling path is restrained under the action of the connecting units, so that the materials cannot be diffused all around, the raised dust is effectively reduced, and the effect of protecting the environment is achieved.

Description

Continuous material guiding device

Technical Field

The invention relates to the technical field of material conveying equipment, in particular to a continuous material guide device.

Background

In the process of conveying large batches of materials, a belt conveyor is needed to convey the materials, the belt conveyor is a friction-driven machine for continuously conveying the materials, the belt conveyor can convey the materials on a certain conveying line from an initial feeding point to a final discharging point to form a material conveying flow, and the material conveying flow can convey both broken materials and finished articles.

In the belt conveyor, when carrying the storage yard with the material from low and storing, the discharge gate of belt conveyor this moment has certain height apart from the base station in storage yard, and the material can have great impact to the base station this moment, influences the life of base station, and when carrying the garrulous material simultaneously, the material can the excessive diffusion this moment, produces a large amount of dusts, influences operational environment.

Disclosure of Invention

Therefore, the invention aims to solve the technical problems that materials have large impact on a base platform and overflow and diffusion of the materials during conveying, and provides the continuous material guide device.

A continuous material guiding device comprising a plurality of stacked connector units, the connector units comprising:

the bottom of the leakage groove is provided with a bottom opening with the area smaller than that of the upper end opening;

the plurality of brackets are fixedly arranged around the side wall of the groove body of the leakage groove and are used for connecting two adjacent connecting units;

the blocking piece is arranged above the opening at the bottom end of the leakage groove and used for blocking and decelerating the material falling from the leakage groove of the last connecting unit, and a space between the blocking piece and the side wall of the leakage groove forms a pressure reduction and deceleration channel for descending the material;

and a gap is reserved between the leakage groove bodies in two adjacent connecting units.

Further, the side wall of the leakage groove is vertically arranged, an inclined material accumulation area is formed from the top opening of the leakage groove to the bottom opening of the initial material, the support is arranged to be a steel frame, and the groove body of the leakage groove is located in the steel frame.

Furthermore, the groove body of the leakage groove comprises a side plate and a lower bottom plate, one end of the lower bottom plate is connected with the side plate, the lower bottom plate is horizontally arranged along the axis direction of the leakage groove from the end connected with the side plate, and the top opening and the bottom opening of the leakage groove are coaxially arranged.

Furthermore, the barrier piece comprises a platform plate erected above the opening at the bottom of the leakage groove, a gap is reserved between the platform plate and the side wall of the leakage groove, and a pressure reduction and speed reduction channel for descending materials is formed in a space between the platform plate and the leakage groove.

Further, the landing slab includes the first steel sheet that the level set up and sets up the supporting beam on first steel sheet border, the landing slab with be provided with a plurality of connection montants between the cell body of small opening groove, connect montant one end with the lateral wall of cell body is connected, the other end with a supporting beam connects.

Further, a supporting beam and a connecting vertical rod are all steel structure beams, the steel structure beams are arranged to be channel steel, the notch of the supporting beam is upward, and the notch of the connecting vertical rod is arranged towards one side of the leakage groove.

Furthermore, the bottom opening of the tip trap and the periphery of the first steel plate are provided with edge sealing beams, the edge sealing beams at the bottom opening of the tip trap are positioned in the tip trap and attached to the inner side wall of the tip trap, and the edge sealing beams at the first steel plate are fully attached to the side wall of the first steel plate.

Furthermore, the edge sealing beam is composed of steel structure beams, and the steel structure beams of the edge sealing beam are set to be square steel.

Furthermore, the steel frame is composed of a plurality of vertical steel structure columns, and the connecting units are located among the steel structure columns and connected with the adjacent connecting units.

Furthermore, a plurality of the connecting units are arranged into a group, and each group of the connecting units are detachably connected through flanges.

The technical scheme of the invention has the following advantages:

1. the invention provides a continuous material guide device which comprises a plurality of stacked connecting units, wherein each connecting unit comprises a leakage groove, and the bottom of each connecting unit is provided with a bottom opening, the area of each bottom opening is smaller than that of an upper end opening; the plurality of brackets are fixedly arranged around the side wall of the groove body of the leakage groove and are used for connecting two adjacent connecting units; the blocking piece is arranged above the opening at the bottom end of the leakage groove and used for blocking and decelerating the material falling from the leakage groove of the last connecting unit, and a space between the blocking piece and the side wall of the leakage groove forms a pressure reduction and deceleration channel for descending the material; a gap is reserved between the chute bodies in two adjacent connecting units, when in use, materials are conveyed to the topmost connecting unit before reaching the base station, enter the connecting unit through the chute notch of the connecting unit at the top, enter the continuous guide device at the moment, so that the conveying path of the materials is artificially restricted, the materials are not scattered all around, the materials entering the connecting unit are blocked and decelerated under the action of the blocking piece, enter the next connecting unit through the deceleration channel formed between the side wall of the chute and the blocking piece, continuously pass through the blocking piece and the chute, and are subjected to continuous depressurization, deceleration and settlement, so that the direct scattering of the materials on the base station and the impact force on the base station are effectively reduced, and meanwhile, under the action of the connecting unit, thereby the route of whereabouts has been retrained, thereby make the material can not overflow the diffusion, the effectual raise dust that has reduced, the effect of environmental protection has been reached, after the material whereabouts a period, the material piles up on the base station this moment, thereby hide the linkage unit of bottommost, the material lets in after the second linkage unit from bottom to top this moment, can scatter to the base station from the space between two adjacent linkage units on, thereby can make the material incessant scatter to the base station from continuous guide device on, until the base station is piled up the material.

2. According to the continuous material guide device provided by the invention, the side wall of the leakage groove is vertically arranged, the initial material forms an inclined material accumulation area from the top opening to the bottom opening of the leakage groove, the support is arranged to be a steel frame, the groove body of the leakage groove is positioned in the steel frame, and the inclined material accumulation area formed in the side wall of the leakage groove is arranged, so that the material can be further guided, the conveying of the material cannot be influenced, and meanwhile, the steel frame can place the groove body of the leakage groove.

3. The invention provides a continuous material guiding device, wherein a barrier comprises a platform plate erected above an opening at the bottom of a leakage groove, a gap is reserved between the platform plate and the side wall of the leakage groove, a pressure reduction deceleration channel for descending materials is formed in the space between the platform plate and the leakage groove, when the materials enter a connecting unit, the materials can be firstly scattered on the platform plate on the barrier, the materials are stacked on the platform plate at the moment to form a conical material stack, when the materials fall on the platform plate again, the materials can be contacted with the material stack on the platform plate at the moment, the material stack scatters the redundant materials on the platform plate into the leakage groove at four positions, so that the materials enter the connecting unit at the next section under the action of an inclined material stacking area formed in the side wall of the leakage groove until the materials are scattered on a base table, and the materials are continuously scattered and reunited in the whole process, therefore, the materials are depressurized, decelerated and settled, the impact force of the materials on the base station is effectively reduced, and the base station is effectively protected.

4. The invention provides a continuous material guide device, wherein a platform plate comprises a first steel plate arranged horizontally and a support beam arranged on the periphery of the first steel plate, a plurality of connecting vertical rods are arranged between the platform plate and the groove body of the leakage groove, one end of each connecting vertical rod is connected with the outer side wall of the groove body, the other end of each connecting vertical rod is connected with the supporting beam, when a material falls on the platform plate, the material falls on the first steel plate, piling on a first steel plate to form a bulk material pile, fixing the first steel plate through a supporting beam and a connecting vertical rod, thereby the first steel plate is arranged above the bottom opening of the leakage groove, so that a gap is left between the first steel plate and the side wall of the leakage groove, thereby conveniently scatter the material that falls on first steel sheet and can follow scattering once more all around of first steel sheet and fall the small opening in, step down the speed reduction to the material.

5. According to the continuous material guide device provided by the invention, the supporting beam and the connecting vertical rod are both steel structural beams, the steel structural beams are arranged into channel steel, the notches of the supporting beams are upward, the notches of the connecting vertical rods are arranged towards one side far away from the leakage groove, and the connecting vertical rods and the supporting beams are arranged into the channel steel, so that materials can be conveyed in an auxiliary manner, the supporting effect is achieved, and meanwhile, the materials can be conveyed in an auxiliary manner through the structure of the channel steel.

6. According to the continuous material guiding device provided by the invention, the edge sealing beams are arranged on the bottom opening of the leakage groove and the peripheral edge of the first steel plate, the edge sealing beam at the bottom opening of the leakage groove is positioned in the leakage groove and is attached to the inner side wall of the leakage groove, the edge sealing beam at the first steel plate is fully attached to the side wall of the first steel plate, and the stability of the first steel plate and the structure at the bottom opening of the leakage groove can be enhanced through the arrangement of the edge sealing beams, so that a better supporting effect is achieved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

Fig. 1 is a schematic view of the entire structure of a continuous material guide device according to the present invention;

fig. 2 is a schematic structural diagram of the connection unit of the present invention.

Description of reference numerals:

1. a steel frame; 2. a leak groove; 21. a side plate; 22. a lower base plate; 3. a platform plate; 31. a first steel plate; 32. a support beam; 33. connecting the vertical rods; 4. edge sealing beams; 5. a base station.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically 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 in specific cases to those skilled in the art.

In addition, the technical features involved in the different embodiments of the present invention described below may be combined with each other as long as they do not conflict with each other.

Examples

Referring to fig. 1 and 2, the present invention provides a continuous material guiding device, which includes a plurality of stacked connection units, wherein the stacked connection units are vertically disposed, and axes of the plurality of connection units are overlapped. Three or a plurality of linkage unit set up to a set of, can dismantle through the flange between every group linkage unit and link together, make things convenient for the staff to install and dismantle the continuous guide device, conveniently carry the material to the base station 5 of co-altitude not, this continuous guide device is extensive be applied to in raw meal is stored, the grog is stored, cement is stored, grain is stored and the storage of other bulk materials.

The connecting unit comprises a leakage groove 2, a plurality of supports and a barrier piece, and a bottom opening with an area smaller than that of an upper end opening is formed in the bottom of the leakage groove 2; the bracket is fixedly arranged around the side wall of the groove body of the leakage groove 2 and is used for connecting two adjacent connecting units; the barrier piece is arranged above the opening at the bottom end of the leakage groove 2 and used for blocking and decelerating the material falling from the leakage groove 2 of the previous connecting unit, and a space between the barrier piece and the side wall of the groove body forms a pressure reduction and deceleration channel for descending the material; and a gap is reserved between the groove bodies of the leakage grooves 2 in two adjacent connecting units.

In the using process, before the materials reach the base station 5, the materials are conveyed to the connecting unit at the topmost end, enter the connecting unit through the notch of the leakage groove 2 of the connecting unit at the top, at the moment, the conveyed materials enter the continuous material guiding device, so that the conveying path of the materials is artificially restricted, the materials are not scattered all around, the materials entering the connecting unit are blocked and decelerated under the action of the blocking piece, and enter the next connecting unit through a material accumulation area formed in the side wall of the leakage groove 2 and a deceleration channel formed between the blocking piece, so that the abrasion of the materials on the device is reduced, the service cycle of the device is prolonged, the materials continuously pass through the blocking piece and the leakage groove 2, the materials are subjected to continuous pressure reduction, deceleration and settlement, and the materials are effectively reduced from being directly scattered on the base station 5, to the impact force of base station 5, effectual base station 5 of having protected, the material is under the effect of linkage unit simultaneously to retrain the route of whereabouts, thereby make the material can not overflow the diffusion, the effectual raise dust that has reduced has reached the effect of environmental protection.

After the material falls for a period of time, the material is piled up on base platform 5 this moment to cover the connecting element of bottommost, the material lets in the second connecting element from bottom to top this moment after, can scatter to base platform 5 from the space between two adjacent connecting elements on, thereby can make the material scatter to base platform 5 from continuous guide device continually, until base platform 5 piles up the material.

Specifically, the vertical setting of 2 lateral walls of tip chutes, initial material pile up the district toward the material that the bottom opening part formed the slope from the open-top of tip of spout 2, the cell body outer wall week of tip of spout 2 is provided with steelframe 1, the cell body of tip of spout 2 is located steelframe 1, and the district is piled up to the slope material of the inside formation of lateral wall of tip of spout 2 to can be further carry out the guide to the material, can not influence the transport of material, steelframe 1 can be placed the cell body of tip of spout 2 simultaneously, makes to place more stably and firm.

Here, the steel frame 1 is formed of a plurality of vertical steel structural columns, and the connection units are located between the plurality of steel structural columns and connected to the connection units by bolts.

The groove body of the leakage groove 2 comprises a side plate 21 and a lower bottom plate 22, one end of the lower bottom plate 22 is connected with the side plate 21, the lower bottom plate 22 is connected with one end connected with the side plate 21 and is obliquely arranged towards the axis direction of the leakage groove 2, the top opening and the bottom opening of the leakage groove 2 are coaxially arranged, the side plate 21 and the lower bottom plate 22 are both arranged into steel plates, when the baffle piece is conveyed into the leakage groove 2, materials can be guided under the action of an oblique material accumulation area formed on the side plate 21 and the lower bottom plate 22 at the moment, and when the pressure is reduced and decelerated, the materials are conveyed into the bottom opening of the leakage groove 2, and enter into a connecting unit of the next section until the materials are scattered onto the base station 5.

Specifically, the barrier member comprises a platform plate 3 erected above the opening at the bottom of the leakage groove 2, a gap is reserved between the platform plate 3 and the side wall of the leakage groove 2, and a pressure reduction and deceleration channel for descending materials is formed in a space between the platform plate 3 and the leakage groove 2. After the material enters into the linkage unit, the material can at this moment at first scatter to the platform board 3 on the fender piece, the material piles up on platform board 3 this moment, thereby form conical material heap, after the material falls on platform board 3 once more, the material can contact with the material heap on the platform board 3 this moment, the material heap with platform board 3 go up unnecessary material scatter to the small opening 2 in everywhere, thereby under the inside slope material that forms of lateral wall of small opening 2 piles up the district effect, enter into the linkage unit of next festival, until the material scatters to base station 5, in whole process, the dispersion that the material lasts is reunited, thereby make the material obtain step-down, slow down and subside, the effectual impact force that has reduced the material to base station 5, the effectual base station 5 that has protected.

The landing slab 3 includes the first steel sheet 31 that the level set up and sets up at a supporting beam 32 on first steel sheet 31 week edge, and first steel sheet 31 sets up to the cuboid board, landing slab 3 with be provided with a plurality of connection montants 33 between the cell body of small opening groove 2, connect montant 33 one end with the lateral wall of cell body is connected, the other end with a supporting beam 32 is connected. After the material falls on the landing slab 3, the material can fall on first steel sheet 31 this moment, pile up on first steel sheet 31, thereby form the material heap of bulk cargo, thereby first steel sheet 31 is fixed first steel sheet 31 through a supporting beam 32 and connection montant 33 simultaneously, thereby erect first steel sheet 31 in the open-ended top in bottom of small opening groove 2, thereby leave the space between the lateral wall that makes first steel sheet 31 and small opening groove 2, thereby conveniently scatter the material that falls on first steel sheet 31 and can follow first steel sheet 31 scatter once more all around in small opening groove 2, step down the speed reduction to the material. As an alternative embodiment, the first steel plate 31 may also be provided with a conical or pyramidal shape.

A supporting beam 32 and a connecting vertical rod 33 are all steel structure beams, the steel structure beams are arranged into channel steel, the notches of the supporting beam 32 are upward, the notches of the connecting vertical rod 33 are arranged on one side of the leakage groove 2 towards the direction far away, the connecting vertical rod 33 and the supporting beam 32 are arranged into the channel steel, and therefore materials can be conveyed in an auxiliary mode, the supporting effect is achieved, and meanwhile materials can be conveyed in an auxiliary mode through the structure of the channel steel.

The bottom opening of the tip pocket 2 and the border of first steel sheet 31 all are provided with the banding roof beam 4, the banding roof beam 4 of 2 bottom openings of tip pocket is located the tip pocket 2 and laminates with the 22 inside walls of lower plate, the banding roof beam 4 of first steel sheet 31 department with the first steel sheet 31 lateral wall is fully laminated, through the setting of banding roof beam 4 to can strengthen the steadiness of the structure of the bottom opening part of first steel sheet 31 and tip pocket 2, thereby play and support better effect.

Here, banding roof beam 4 comprises the steel construction roof beam, the steel construction roof beam of banding roof beam 4 sets up to square steel to make banding roof beam 4's firm effect better.

It should be understood that the above examples are only for clarity of illustration and are not intended to limit the embodiments. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. And obvious variations or modifications therefrom are within the scope of the invention.

Claims (10)

1. A continuous material guiding device is characterized by comprising a plurality of stacked connection units, wherein each connection unit comprises:

the bottom of the leakage groove (2) is provided with a bottom opening with the area smaller than that of the upper end opening;

the brackets are fixedly arranged around the side wall of the groove body of the leakage groove (2) and are used for connecting two adjacent connecting units;

the blocking piece is arranged above the opening at the bottom end of the leakage groove (2) and used for blocking and decelerating the material falling from the leakage groove (2) of the previous connecting unit, and a space between the blocking piece and the side wall of the leakage groove (2) forms a depressurization deceleration channel for descending the material;

gaps are reserved between groove bodies of the leakage grooves (2) in two adjacent connecting units.

2. The continuous material guiding device as claimed in claim 1, wherein the side walls of the leakage chute (2) are vertically arranged, an inclined material accumulation area is formed from the top opening to the bottom opening of the leakage chute (2) for initial materials, the support is arranged as a steel frame (1), and the body of the leakage chute (2) is positioned in the steel frame (1).

3. The continuous material guiding device as claimed in claim 1, wherein the trough body of the chute (2) comprises a side plate (21) and a lower bottom plate (22), one end of the lower bottom plate (22) is connected with the side plate (21), the lower bottom plate (22) is horizontally arranged from the end connected with the side plate (21) to the axial direction of the chute (2), and the top opening and the bottom opening of the chute (2) are coaxially arranged.

4. The continuous material guiding device according to claim 1, wherein the barrier member comprises a platform plate (3) which is arranged above the bottom opening of the chute (2), a gap is left between the platform plate (3) and the side wall of the chute (2), and the space between the platform plate (3) and the chute (2) forms a depressurization deceleration passage for the descending material.

5. The continuous material guiding device as claimed in claim 4, wherein the platform plate (3) comprises a first steel plate (31) and a supporting beam (32), the first steel plate (31) is horizontally arranged, the supporting beam (32) is arranged on the periphery of the first steel plate (31), a plurality of connecting vertical rods (33) are arranged between the platform plate (3) and the trough body of the chute (2), one end of each connecting vertical rod (33) is connected with the outer side wall of the trough body, and the other end of each connecting vertical rod is connected with the supporting beam (32).

6. The continuous material guiding device as claimed in claim 5, wherein the supporting beam (32) and the connecting vertical rods (33) are both steel structural beams, the steel structural beams are arranged to be channel steel, the notches of the supporting beam (32) face upwards, and the notches of the connecting vertical rods (33) are arranged towards the side far away from the chute (2).

7. The continuous material guiding device according to claim 5, characterized in that edge sealing beams (4) are arranged on the bottom opening of the spout (2) and the periphery of the first steel plate (31), the edge sealing beams (4) at the bottom opening of the spout (2) are positioned in the spout (2) and attached to the inner side wall of the spout (2), and the edge sealing beams (4) at the position of the first steel plate (31) are fully attached to the side wall of the first steel plate (31).

8. The continuous material guiding device according to claim 7, characterized in that the edge sealing beam (4) is composed of a steel structural beam, and the steel structural beam of the edge sealing beam (4) is provided as square steel.

9. The continuous material guiding device according to claim 2, wherein the steel frame (1) is composed of a plurality of vertical steel structural columns, and the connecting units are located among the plurality of steel structural columns and connected with adjacent connecting units.

10. The apparatus according to any one of claims 1 to 9, wherein a plurality of the connection units are provided in one group, and each group of the connection units is detachably connected to each other by a flange.

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