CN216140768U - Grit aggregate is with storage silo that can unload at random point - Google Patents

Abstract

The utility model discloses a storage bin capable of discharging sand and stone aggregate at any point, which relates to the technical field of sand yard transportation and comprises a storage bin, a feeding chute, an internal transverse transmission structure and a first longitudinal transmission structure, wherein sand is guided and conveyed onto a transverse transmission belt through a transfer pipe, slides on a transverse support frame through a rolling frame, is respectively conveyed onto conveying belts on the first longitudinal transmission structure, a second longitudinal transmission structure and a third longitudinal transmission structure through the internal transverse transmission structure, so that the sand is divided and conveyed, the adjustment of a dividing position can be realized by pushing a vehicle body to slide along a slide rail, the sand can be divided through the forward and reverse rotation of a dividing conveying belt, the sand is delivered into single bins, various sand can be delivered into different single bins in the storage bin through internal and external conveying structures, the outdoor sand yard is transferred indoors, so that the pollution of the outdoor sand yard is reduced, and the environment is protected.

Description

Grit aggregate is with storage silo that can unload at random point

Technical Field

The utility model relates to the technical field of sand yard transportation, in particular to a storage bin capable of discharging sand and stone aggregates at any point.

Background

The aggregate of sandstone is a general term of materials such as sand, pebble (gravel), broken stone, block stone, material stone and the like in the building engineering. The sandstone aggregate is a main building material of structures such as concrete, piled stone and the like in the building engineering;

because current environmental protection requirement, outdoor pile up sand material and raise the dust easily, cause the destruction to the environment easily, need carry indoor the saving with the grit aggregate, in transportation process, empty through the vehicle, lead to the grit aggregate to mix, categorised unclear, the turnover space is big, and storage space utilization is low, and occupation of land space is big, and the result of use is not good.

SUMMERY OF THE UTILITY MODEL

The utility model provides a storage bin capable of discharging sand and stone aggregates at any point, solves the technical problems that sand and stone aggregates are mixed, the classification is not clear, the turnover space is large, the utilization rate of storage space is low, the occupied space is large, and the using effect is poor when the sand and stone aggregates are conveyed to a room for storage and are dumped by vehicles in the conveying process, and can greatly improve the storage capacity by increasing the height of the storage bin 1.

In order to achieve the purpose, the utility model adopts the following technical scheme:

a storage bin capable of discharging at any point for gravel aggregate comprises a storage bin, a feed chute, an outer wall first transmission belt, an outer wall second transmission belt, an outer wall third transmission belt, an inner transverse transmission structure, a first longitudinal transmission structure, a second longitudinal transmission structure, a third longitudinal transmission structure, a monomer bin, a transverse wall and a longitudinal wall, wherein the feed chute is arranged at the bottom of the outer side of the storage bin, the outer wall first transmission belt, the outer wall second transmission belt and the outer wall third transmission belt are arranged in a spiral ascending structure along the outer wall of the storage bin, the bottom end of the outer wall first transmission belt is arranged inside the feed chute, a plurality of monomer bins are cut out from the interior of the storage bin through the staggered matching of the transverse wall and the longitudinal wall, the top of the storage bin is respectively provided with the inner transverse transmission structure, the first longitudinal transmission structure, the second longitudinal transmission structure and the third longitudinal transmission structure, the first longitudinal transmission structure, the second longitudinal transmission structure and the third longitudinal transmission structure are arranged in parallel, and the first longitudinal transmission structure, the second longitudinal transmission structure and the third longitudinal transmission structure are all perpendicular to the internal transverse transmission structure.

As a further scheme of the utility model: the internal transverse transmission structure comprises a transverse support frame, a rolling frame and a transverse transmission belt, a guide rail is arranged on the top side of the transverse support frame, rollers are arranged on the bottom side of the rolling frame and clamped in the guide rail, and the transverse transmission belt is arranged on the rolling frame.

As a further scheme of the utility model: the tail end of the third conveying belt of the outer wall is provided with a transfer material pipe, and the bottom end of the transfer material pipe is arranged right above the transverse conveying belt.

As a further scheme of the utility model: the first longitudinal transmission structure comprises a guide wheel, a longitudinal support frame, a slide rail and a pushing vehicle body, the slide rail is erected on the top side of the longitudinal support frame, the pushing vehicle body is installed on the slide rail in a matched mode, a transmission roller is arranged on the pushing vehicle body, the guide wheel is installed at each of two ends of the longitudinal support frame, and a conveying belt is sleeved on the guide wheel and the transmission roller in an end-to-end mode.

As a further scheme of the utility model: the first longitudinal transmission structure, the second longitudinal transmission structure and the third longitudinal transmission structure are the same in structure, a shunting frame is fixed on a pushing vehicle body in the first longitudinal transmission structure and the second longitudinal transmission structure, a shunting conveying belt is installed on the shunting frame, a transfer box is fixed on the pushing vehicle body in the third longitudinal transmission structure, and two material distribution pipes are fixed on the bottom side of the transfer box in a splayed shape.

As a further scheme of the utility model: the two ends of the shunting conveying belt are respectively arranged above the top ports of the monomer bins, and the bottom ports of the shunting pipes are arranged above other monomer bins.

The utility model has the beneficial effects that:

according to the sand conveying device, under the matching of a first outer wall conveying belt, a second outer wall conveying belt and a third outer wall conveying belt, sand is lifted and conveyed to the upper part of a storage bin, after the sand is conveyed by the third outer wall conveying belt, the sand is guided and conveyed to a transverse conveying belt through a transfer pipe, the conveying of the external sand from outside to inside is realized, the conveying of the sand can be realized, after the sand is conveyed by the third outer wall conveying belt, the sand is guided and conveyed to the transverse conveying belt through the transfer pipe and slides on a transverse support frame through a rolling frame, the port of the transverse conveying belt is arranged corresponding to a first longitudinal conveying structure, a second longitudinal conveying structure and a third longitudinal conveying structure, and the sand is respectively conveyed to the conveying belts on the first longitudinal conveying structure, the second longitudinal conveying structure and the third longitudinal conveying structure through the internal transverse conveying structure, the sand material distributing and conveying device has the advantages that the sand material distributing and conveying can be realized, after the sand material is distributed, the sand material can be distributed by sliding the pushing vehicle body along the slide rail, the distribution position can be adjusted, the distributing conveyor belt is arranged on the pushing vehicle body, the sand material can be distributed by positive and negative rotation of the distributing conveyor belt, the sand material can be delivered into the single material bins, the transfer box is arranged on the pushing vehicle body of the third longitudinal transmission structure, the two material distributing pipes are arranged at the bottom end of the transfer box, the sand material can be distributed, various sand materials can be delivered into different single material bins in the storage bins through the internal and external transmission structures, an outdoor sand yard is transferred indoors, the pollution of the outdoor sand yard is reduced, the device is more environment-friendly, the main function is changed from one-layer ground storage to high-layer space storage, the storage capacity of unit floor area is greatly improved, all devices for one-point material loading run, and the single ground storage process is reduced, the situations of multiple vehicles, messy site and mixed storage are avoided, and the environment-friendly effect is good.

Drawings

FIG. 1 is an overall structure diagram of a storage silo capable of discharging sand and stone aggregate at any point in the utility model;

FIG. 2 is a structural view of the whole internal top view of the storage silo for discharging sand and stone aggregate at any point in the utility model;

FIG. 3 is a structural diagram of the horizontal transmission of the inside of the whole storage bin capable of discharging sand and stone aggregate at any point in the utility model;

FIG. 4 is a first longitudinal transmission structure diagram of the whole storage silo capable of discharging sand and stone aggregate at any point in the utility model;

FIG. 5 is a first distribution structure diagram of the whole storage silo capable of discharging sand and stone aggregate at any point in the utility model;

FIG. 6 is a second distribution structure diagram of the whole storage silo capable of discharging sand and stone aggregate at any point in the utility model;

illustration of the drawings:

1. a storage bin; 2. a feed chute; 3. a first conveyor belt of the outer wall; 4. a second conveyor belt on the outer wall; 5. a third conveyor belt on the outer wall; 6. an inner lateral transport structure; 7. a first longitudinal transport structure; 8. a second longitudinal transport structure; 9. a third longitudinal transport structure; 10. a monomer stock bin; 11. a transverse wall; 12. a longitudinal wall; 61. a transverse support frame; 62. a rolling frame; 63. a transverse conveyor belt; 71. a guide wheel; 72. a longitudinal support frame; 73. a slide rail; 74. pushing the vehicle body; 131. a shunt frame; 132. a shunt conveyor belt; 133. distributing pipes; 134. a transfer box.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. 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.

Specific examples are given below.

Referring to fig. 1 to 6, a storage silo capable of discharging sand and stone aggregate at any point comprises a storage silo 1, a feed chute 2, an outer wall first transmission belt 3, an outer wall second transmission belt 4, an outer wall third transmission belt 5, an internal transverse transmission structure 6, a first longitudinal transmission structure 7, a second longitudinal transmission structure 8, a third longitudinal transmission structure 9, a monomer silo 10, a transverse wall 11 and a longitudinal wall 12, wherein the feed chute 2 is arranged at the bottom of the outer side of the storage silo 1, the outer wall first transmission belt 3, the outer wall second transmission belt 4 and the outer wall third transmission belt 5 are arranged in a spiral rising structure along the outer wall of the storage silo 1, the bottom end of the outer wall first transmission belt 3 is arranged inside the feed chute 2, the interior of the storage silo 1 is cut into a plurality of monomer silos 10 through the staggered matching of the transverse wall 11 and the longitudinal wall 12, and the internal transverse transmission structure 6, the feed chute and the internal transverse transmission structure 6 are respectively arranged at the top of the storage silo 1, The device comprises a first longitudinal transmission structure 7, a second longitudinal transmission structure 8 and a third longitudinal transmission structure 9, wherein the first longitudinal transmission structure 7, the second longitudinal transmission structure 8 and the third longitudinal transmission structure 9 are arranged in parallel, the first longitudinal transmission structure 7, the second longitudinal transmission structure 8 and the third longitudinal transmission structure 9 are all arranged perpendicular to an internal transverse transmission structure 6, the internal transverse transmission structure 6 comprises a transverse support frame 61, a rolling frame 62 and a transverse transmission belt 63, a guide rail is arranged on the top side of the transverse support frame 61, rollers are arranged on the bottom side of the rolling frame 62 and clamped in the guide rail, the transverse transmission belt 63 is mounted on the rolling frame 62, a transfer pipe is arranged at the tail end of an external wall third transmission belt 5, the bottom end of the transfer pipe is arranged right above the transverse transmission belt 63, and under the matching of the external wall first transmission belt 3, the external wall second transmission belt 4 and the external wall third transmission belt 5, lifting and conveying the sand materials are realized, the sand materials are conveyed to the upper part of the storage bin 1, and after the sand materials are conveyed by the third conveying belt 5 of the outer wall, the sand materials are guided and conveyed onto the transverse conveying belt 63 by the transfer pipe, so that the external sand materials are conveyed from outside to inside, and the sand materials can be transferred;

the first longitudinal transmission structure 7 comprises a guide wheel 71, a longitudinal support frame 72, a slide rail 73 and a pushing vehicle body 74, the slide rail 73 is arranged on the top side of the longitudinal support frame 72, the pushing vehicle body 74 is installed on the slide rail 73 in a matching manner, a transmission roller is arranged on the pushing vehicle body 74, the guide wheel 71 is respectively installed on two ends of the longitudinal support frame 72, the guide wheel 71 and the transmission roller are sleeved with a conveying belt in an end-to-end manner, the first longitudinal transmission structure 7, the second longitudinal transmission structure 8 and the third longitudinal transmission structure 9 have the same structure, wherein a shunting frame 131 is fixed on the pushing vehicle body 74 in the first longitudinal transmission structure 7 and the second longitudinal transmission structure 8, a shunting conveying belt 132 is installed on the shunting frame 131, a transfer box 134 is fixed on the pushing vehicle body 74 in the third longitudinal transmission structure 9, a bisection pipe 133 is fixed on the bottom side of the transfer box 134 in an eight shape, two ends of the shunting conveying belt 132 are respectively arranged above a top port of the single bin 10, the bottom port of the distributing pipe 133 is arranged above other single material bins 10, in the conveying process, the distributing position can be adjusted by sliding the pushing vehicle body 74 along the slide rail 73, the distributing conveyer belt 132 is arranged on the pushing vehicle body 74, the sand can be distributed by the forward and reverse rotation of the distributing conveyer belt 132, the sand is delivered into the single material bins 10, the transfer box 134 is arranged on the pushing vehicle body 74 of the third longitudinal conveying structure 9, the distributing pipe 133 is arranged at the bottom end of the transfer box 134, the sand can be distributed, various sand is delivered into different single material bins 10 in the storage bin 1 through the internal and external conveying structures, the outdoor sand field is transferred to the indoor, the pollution of the outdoor sand field is reduced, the environment is more protected, the storage capacity can be greatly improved by increasing the height of the storage bin 1, and the unloading mode of the utility model is matched, the unloading device can meet the requirement of large-area arbitrary point unloading to the maximum extent, and avoids single fixed-point unloading to form a material pile tip, thereby improving the material storage capacity.

The working principle is as follows: the sand material conveyed by the vehicle is delivered into the feeding chute 2, the sand material is lifted and conveyed under the matching of the first outer wall conveying belt 3, the second outer wall conveying belt 4 and the third outer wall conveying belt 5, the sand material is conveyed above the storage bin 1, the sand material is conveyed through the third outer wall conveying belt 5, guided and conveyed onto the transverse conveying belt 63 through the transfer pipe, slides on the transverse support frame 61 through the rolling frame 62, the port of the transverse conveying belt 63 is arranged corresponding to the first longitudinal conveying structure 7, the second longitudinal conveying structure 8 and the third longitudinal conveying structure 9, the sand material is respectively conveyed to the conveying belts on the first longitudinal conveying structure 7, the second longitudinal conveying structure 8 and the third longitudinal conveying structure 9 through the internal transverse conveying structure 6, the material distribution and conveying of the sand material are realized, in the conveying process, the vehicle body 74 is pushed to slide along the slide rail 73, the adjustment of material distribution positions can be realized, the distributing conveyer belt 132 is arranged on the pushing vehicle body 74, the sand material distribution can be realized through the forward and reverse rotation of the distributing conveyer belt 132, the sand material is delivered into the single material bin 10, the transfer box 134 is arranged on the pushing vehicle body 74 of the third longitudinal conveying structure 9, the two material distribution pipes 133 are arranged at the bottom end of the transfer box 134, the sand material distribution can be realized, various sand materials are delivered into different single material bins 10 in the storage bin 1 through the internal and external conveying structures, the outdoor sand yard is transferred indoors, the pollution of the outdoor sand yard is reduced, the environment is protected, the material storage capacity can be greatly improved through increasing the height of the storage bin 1, the unloading mode of the utility model can be matched, the unloading at any point in large area can be furthest met, the phenomenon that a single fixed point unloads to form a material pile tip is avoided, and the material storage capacity is improved,

the above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and equivalent alternatives or modifications according to the technical solution of the present invention and the inventive concept thereof should be covered by the scope of the present invention.

Claims (6)

1. The utility model provides a grit aggregate is with storage silo that can unload at random point, a serial communication port, including storage silo (1), feed chute (2), the first transmission band of outer wall (3), outer wall second transmission band (4), outer wall third transmission band (5), inside transverse transmission structure (6), first vertical transmission structure (7), the vertical transmission structure of second (8), the vertical transmission structure of third (9), monomer feed bin (10), horizontal wall body (11) and vertical wall body (12), the outside bottom of storage silo (1) is provided with feed chute (2), the first transmission band of outer wall (3), outer wall second transmission band (4) and outer wall third transmission band (5) are the spiral rising structure setting along the outer wall of storage silo (1), the bottom setting of the first transmission band of outer wall (3) is inside feed chute (2), the inside of storage silo (1) is cut out a plurality of storage through the crisscross cooperation of horizontal wall body (11) and vertical wall body (12) and is divided Monomer feed bin (10), inside horizontal transmission structure (6), first vertical transmission structure (7), the vertical transmission structure of second (8) and the vertical transmission structure of third (9) are installed respectively to the top of storage silo (1), first vertical transmission structure (7), the vertical transmission structure of second (8) and the vertical transmission structure of third (9) set up side by side, and just first vertical transmission structure (7), the vertical transmission structure of second (8) and the vertical transmission structure of third (9) all set up with inside horizontal transmission structure (6) is perpendicular.

2. The storage bin for the gravel aggregates capable of being discharged at any point according to claim 1, wherein the internal transverse conveying structure (6) comprises a transverse support frame (61), a rolling frame (62) and a transverse conveying belt (63), a guide rail is arranged on the top side of the transverse support frame (61), a roller is arranged on the bottom side of the rolling frame (62), the roller is clamped in the guide rail, and the transverse conveying belt (63) is arranged on the rolling frame (62).

3. The storage bin capable of discharging sand and stone aggregates at any point as claimed in claim 1, wherein the tail end of the third conveyor belt (5) on the outer wall is provided with a transfer pipe, and the bottom end of the transfer pipe is arranged right above the transverse conveyor belt (63).

4. The storage bin capable of discharging at any point for the gravel aggregate according to claim 1, wherein the first longitudinal transmission structure (7) comprises a guide wheel (71), a longitudinal support frame (72), a slide rail (73) and a pushing vehicle body (74), the slide rail (73) is erected on the top side of the longitudinal support frame (72), the pushing vehicle body (74) is installed on the slide rail (73) in a matched mode, a transmission roller is arranged on the pushing vehicle body (74), the guide wheel (71) is installed at each of two ends of the longitudinal support frame (72), and a conveying belt is sleeved on the guide wheel (71) and the transmission roller in an end-to-end mode.

5. The storage bin capable of discharging sand and stone aggregates at any point as claimed in claim 1, wherein the first longitudinal transmission structure (7), the second longitudinal transmission structure (8) and the third longitudinal transmission structure (9) have the same structure, a shunting frame (131) is fixed on the pushing car body (74) in the first longitudinal transmission structure (7) and the second longitudinal transmission structure (8), a shunting conveyer belt (132) is installed on the shunting frame (131), a transfer box (134) is fixed on the pushing car body (74) in the third longitudinal transmission structure (9), and a bisection material pipe (133) is fixed on the bottom side of the transfer box (134) in a splayed shape.

6. The storage bin capable of discharging sand and stone aggregates at any point as claimed in claim 5, wherein two ends of the diversion conveyor belt (132) are respectively arranged above the top ports of the monomer bins (10), and the bottom ports of the diversion pipes (133) are arranged above other monomer bins (10).

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