CN219688727U - Storage device of multistage pay-off - Google Patents

Abstract

The utility model relates to a multi-stage feeding storage device, which relates to the field of concrete production equipment, and comprises a storage mechanism, a distributing mechanism and a feeding mechanism; the material distributing mechanism comprises a supporting seat, a first supporting column is arranged on the supporting seat, a driving piece for driving the first supporting column to rotate is arranged on the supporting seat, a material conveying pipe is obliquely arranged on the supporting rod, and a feeding hopper is communicated with the material conveying pipe; the feeding mechanism comprises a feed box arranged on one side of the supporting seat, and a conveying piece for feeding the feed hopper is arranged on the feed box; the storage mechanism comprises a plurality of bins uniformly distributed on the periphery of the first support column, and a feed inlet is formed in the top of each bin. The utility model can ensure the stability during feeding, and avoid the raw materials from being mixed into other bins, thereby avoiding influencing the storage of the raw materials.

Description

Storage device of multistage pay-off

Technical Field

The utility model relates to the field of concrete production equipment, in particular to a storage device for multi-stage feeding.

Background

A silo is a common material storage device, in industrial production, a plurality of silos are usually required for storing different raw materials, whereas the feed of the silo is performed by means of a loader.

When the loader is used for supplementing raw materials into the storage bin, the bucket of the loader needs to be operated, the raw materials are shoveled into the bucket, the bucket is lifted until the raw materials in the bucket are poured into the storage bin from the feed inlet of the storage bin, in order to avoid collision between the bucket and the storage bin, the storage bin is damaged, and the bucket is generally started to be poured when being moved to a higher position.

Since the bins are placed in the area where the bins are specially stored, a plurality of bins are usually placed together, different bins are used for storing different raw materials, and the stability of the raw materials in the process of entering the bins from the bucket is difficult to ensure, and the process is extremely susceptible to external environment, such as external wind, so that the raw materials are easy to mix into other bins.

The bucket is limited in raw materials of once shoveling, often needs to be shoveled and poured for many times, and when pouring is carried out each time, the problems are easy to occur, so that the storage of the raw materials is influenced.

Disclosure of Invention

In order to solve the problem that when different raw materials are conveyed into a bin, the raw materials are easy to mix into other bins and influence the storage of the raw materials, the utility model provides a multi-stage feeding storage device.

The utility model provides a multi-stage feeding storage device which adopts the following technical scheme:

a multi-stage feeding storage device comprises a storage mechanism, a distributing mechanism and a feeding mechanism; the material distributing mechanism comprises a supporting seat, a first supporting column is arranged on the supporting seat, a driving piece for driving the first supporting column to rotate is arranged on the supporting seat, a material conveying pipe is obliquely arranged on the supporting rod, and a feeding hopper is communicated with the material conveying pipe; the feeding mechanism comprises a feed box arranged on one side of the supporting seat, and a conveying piece for feeding the feed hopper is arranged on the feed box; the storage mechanism comprises a plurality of bins uniformly distributed on the periphery of the first support column, and a feed inlet is formed in the top of each bin.

Through adopting above-mentioned technical scheme, when need carry out the feed supplement to the feed bin, drive first support column through the driving piece and rotate, the rotation of first support column drives the material conveying pipe and rotates, and when the material conveying pipe rotated to the feed bin department that needs the feed supplement, the delivery outlet of material conveying pipe and the feed inlet of corresponding feed bin stopped rotating, and the material in the feed bin is conveyed to the feeder hopper to the conveying piece at this moment, and the feeder hopper passes through the material conveying pipe again and carries the raw materials to the feed bin in, from this completion feed supplement operation; through the arrangement, when the device supplements raw materials, the distance between the material conveying pipe and the feed inlet of the storage bin is smaller, and the raw materials can immediately enter the feed inlet after coming out of the material conveying pipe, so that the stability during material supplementing can be ensured, the raw materials are prevented from being mixed into other storage bins, and the storage of the raw materials is prevented from being influenced; in addition, when the conveying piece conveys, the conveying pipe adds raw materials into the storage bin, and the feeding efficiency can be guaranteed.

Optionally, the conveying member comprises a conveying shell arranged on the feed bin, an input port and an output port are formed in the conveying shell, the input port is communicated with the feed bin, and the output port is formed above the feed hopper; the conveying shell is rotationally connected with a conveying belt, and a plurality of conveying boxes are arranged on the conveying belt.

Through adopting above-mentioned technical scheme, the rotation of conveyer belt drives the transfer box and removes, and the raw materials in the feed bin is conveyed in the feeder hopper from the delivery outlet in the in-process that the transfer box removed.

Optionally, the delivery outlet communicates there is the stand pipe, the stand pipe card is located in the feeder hopper and with the feeder hopper rotates to be connected.

By adopting the technical scheme, the stability of raw materials entering the feed hopper from the output port can be improved.

Optionally, a second support column is arranged on one side of the first support column, the second support column is rotationally connected with the support seat, and the second support column is fixedly connected with the material conveying pipe.

Through adopting above-mentioned technical scheme, pass through second support column and pass material piping connection to improve the joint strength between material conveying pipe and the supporting seat, improve and pass the stability of material pipe following the first support column removal in-process.

Optionally, the support seat is provided with an annular groove along the circumferential side of the first support column, and the second support column is located in the annular groove.

Through adopting above-mentioned technical scheme, restrict the removal of second support column through the annular groove, further improve the stability of conveying pipe in-process that removes, prevent to pass the condition that the dislocation appears in the material pipe removal in-process.

Optionally, a plurality of all articulate in the feed bin has the closure plate that is used for sealing the feed inlet, the closure plate with be connected with reset spring between the feed bin.

By adopting the technical scheme, when the material is fed into the material bin, the raw material enters the material bin through the feeding hole, the sealing plate is pushed by the raw material, the feeding hole is opened, and the reset spring is in a compressed state; after the raw material is supplemented, the reset spring pushes the sealing plate to reset to seal the feed inlet, and the feed bin is in a sealing state at the moment, so that impurities are prevented from entering the feed bin, and pollution to the raw material is caused.

Optionally, a plurality of all be provided with the telescopic link on the feed bin, be provided with the baffle on the telescopic link, the baffle with feed bin sliding connection.

Through adopting above-mentioned technical scheme, when needs carry out the feed supplement to a certain feed bin, telescopic link drive baffle rises, and first support column drive passes the material pipe and rotates, and pass the material pipe and rotate to when baffle butt, pass the material pipe unable continuation rotation, prevent to pass the material pipe and rotate excessively to improve and pass the accuracy when the material pipe carries out the feed supplement to different feed bins.

Optionally, a plurality of bins are respectively provided with a visual window.

Through adopting above-mentioned technical scheme, can observe the in-service behavior of raw materials in the feed bin through visual window, be convenient for in time carry out the feed supplement to the feed bin.

In summary, the present utility model includes at least one of the following beneficial technical effects:

1. when the bin is required to be fed, the first support column is driven to rotate through the driving piece, the rotation of the first support column drives the material conveying pipe to rotate, when the material conveying pipe rotates to the bin requiring feeding, the output port of the material conveying pipe is communicated with the feed inlet of the corresponding bin, rotation is stopped, at the moment, the conveying piece conveys raw materials in the feed bin to the feed hopper, and the feed hopper conveys the raw materials to the bin through the material conveying pipe, so that feeding operation is completed; through the arrangement, when the device supplements raw materials, the distance between the material conveying pipe and the feed inlet of the storage bin is smaller, and the raw materials can immediately enter the feed inlet after coming out of the material conveying pipe, so that the stability during material supplementing can be ensured, the raw materials are prevented from being mixed into other storage bins, and the storage of the raw materials is prevented from being influenced; in addition, when the conveying part conveys, the conveying pipe adds raw materials into the stock bin, so that the feeding efficiency can be ensured;

2. the second support column is connected with the material conveying pipe, so that the connection strength between the material conveying pipe and the support seat is improved, and the stability of the material conveying pipe in the moving process of following the first support column is improved;

3. when the material is fed into the material bin, the raw material enters the material bin through the feeding hole, the sealing plate is pushed by the raw material, the feeding hole is opened, and the reset spring is in a compressed state; after the raw material is supplemented, the reset spring pushes the sealing plate to reset to seal the feed inlet, and the feed bin is in a sealing state at the moment, so that impurities are prevented from entering the feed bin, and pollution to the raw material is caused.

Drawings

FIG. 1 is a schematic diagram of the overall structure of a multi-stage feeding storage device according to an embodiment of the present utility model;

FIG. 2 is a cross-sectional view of the feed mechanism of FIG. 1;

FIG. 3 is a schematic view of the overall structure of the dispensing mechanism of FIG. 1;

FIG. 4 is a schematic view of the overall structure of the silo of FIG. 1;

fig. 5 is a cross-sectional view of fig. 4.

Reference numerals illustrate: 1. a storage mechanism; 11. a storage bin; 12. a closing plate; 13. a return spring; 14. a telescopic rod; 15. a baffle; 16. a visual window; 17. a feed inlet; 2. a material distributing mechanism; 21. a support base; 22. a first support column; 23. a second support column; 24. a driving member; 241. a driving motor; 25. an annular groove; 26. a material conveying pipe; 27. a feed hopper; 3. a feeding mechanism; 31. a feed box; 32. a transfer member; 321. a transfer case; 322. a conveyor belt; 323. a conveying motor; 324. a transfer box; 325. an output port; 326. a guide tube; 327. and an input port.

Detailed Description

The utility model is described in further detail below with reference to fig. 1-5.

The embodiment of the utility model discloses a storage device for multi-stage feeding. Referring to fig. 1, the multi-stage feeding storage device comprises a storage mechanism 1, a distributing mechanism 2 and a feeding mechanism 3, wherein the storage mechanism 1 comprises a plurality of bins 11 for respectively storing different raw materials; the raw materials are conveyed to the material distributing mechanism 2 through the feeding mechanism 3, and the raw materials are conveyed to the corresponding material bins 11 through the material distributing mechanism 2 for storage.

Referring to fig. 1 and 2, the feeding mechanism 3 includes a feed box 31, a conveying shell 321 is arranged on the feed box 31, an input port 327 is arranged on the conveying shell 321, and the input port 327 is communicated with the feed box 31; the conveying shell 321 is provided with an output port 325, and the output port 325 is communicated with a guide pipe 326; the conveying shell 321 is rotatably connected with a conveying belt 322, a conveying motor 323 for driving the conveying belt 322 to rotate is arranged on the conveying shell 321, and a plurality of conveying boxes 324 are uniformly arranged on the conveying belt 322. When the material is fed to the material storage mechanism 1, the conveyor motor 323 drives the conveyor belt 322 to rotate, the conveyor belt 322 rotates to drive the plurality of conveying boxes 324 to move, and raw materials in the material box 31 are conveyed to the output port 325 in the moving process of the conveying boxes 324 and conveyed to the guide pipe 326 through the output port 325.

Referring to fig. 1 and 3, the material distributing mechanism 2 includes a supporting seat 21 disposed at one side of a material box 31, a driving motor 241 is mounted on the supporting seat 21, an output shaft of the driving motor 241 is fixedly connected with a first support column 22 coaxially, a material conveying pipe 26 is obliquely disposed on the first support column 22, a material feeding hopper 27 is communicated with the material conveying pipe 26, and a guide pipe 326 is clamped in the material feeding hopper 27 and is rotationally connected with the material feeding hopper 27; when the bin 11 needs to be fed, the driving motor 241 drives the first support column 22 to rotate, the rotation of the first support column 22 drives the material conveying pipe 26 to rotate, and when the material conveying pipe 26 rotates to the bin 11 needing to be fed, rotation is stopped, raw materials in the feeding mechanism 3 are conveyed into the feeding hopper 27 through the guide pipe 326, and raw materials in the feeding hopper 27 are conveyed to the corresponding bin 11 through the material conveying pipe 26.

Referring to fig. 3, an annular groove 25 is formed on the support seat 21 along the circumferential side of the first support column 22, a second support column 23 is slidably connected in the annular groove 25, the second support column 23 is located on one side of the first support column 22, and the second support column 23 is fixedly connected with the material conveying pipe 26. The second support column 23 and the second support column 23 support the conveying pipe 26 together, so that the connection strength between the conveying pipe 26 and the support seat 21 can be improved, and the stability of the conveying pipe 26 in the moving process of following the first support column 22 is improved; the annular groove 25 can limit the rotation of the material conveying pipe 26, so that the stability of the material conveying pipe 26 in the moving process is improved, and the dislocation of the material conveying pipe 26 in the moving process is prevented.

Referring to fig. 1, the storage mechanism 1 comprises a plurality of bins 11 uniformly distributed on the periphery of a first support column 22, each bin 11 is provided with a visual window 16, and referring to fig. 4 and 5, the top of each bin 11 is provided with a feed inlet 17; a closing plate 12 for closing the feed inlet 17 is hinged in each bin 11, and a return spring 13 is connected between the closing plate 12 and the bin 11; each bin 11 is provided with a telescopic rod 14, and the telescopic rods 14 are provided with baffles 15. When a certain bin 11 needs to be fed, the telescopic rod 14 drives the baffle 15 to ascend, the first support column 22 drives the material conveying pipe 26 to rotate, when the material conveying pipe 26 rotates to be abutted against the baffle 15, the material conveying pipe 26 cannot continuously rotate, at the moment, the material conveying pipe 26 is attached to the sealing plate 12 at the top of the bin 11, the material conveying pipe 26 conveys the raw materials, the raw materials enter the bin 11 through the feed inlet 17, at the moment, the sealing plate 12 is pushed by the raw materials, the feed inlet 17 is opened, and the reset spring 13 is in a compressed state; after the raw material is supplemented, the return spring 13 pushes the closing plate 12 to return to the state that the feed inlet 17 is closed, and the storage bin 11 is in a closed state at the moment, so that impurities are prevented from entering the storage bin 11, and pollution to the raw material is caused.

In the present embodiment, the telescopic rod 14 is an electric telescopic rod.

The embodiment of the utility model provides a multi-stage feeding storage device, which has the implementation principle that: when the bin 11 needs to be fed, the first support column 22 is driven to rotate by the driving motor 241, the rotation of the first support column 22 drives the material conveying pipe 26 to rotate, when the material conveying pipe 26 rotates to the bin 11 needing to be fed, the output port 325 of the material conveying pipe 26 is attached to the sealing plate 12 of the corresponding bin 11, the driving motor 241 stops rotating, at the moment, the conveying piece 32 conveys the raw materials in the material box 31 to the feeding hopper 27, and the feeding hopper 27 conveys the raw materials to the corresponding bin 11 through the material conveying pipe 26, so that the feeding operation is completed; through the arrangement, when the device supplements raw materials, the distance between the material conveying pipe 26 and the feed inlet 17 of the storage bin 11 is smaller, and the raw materials can immediately enter the feed inlet 17 after coming out of the material conveying pipe 26, so that the stability during material supplementing can be ensured, the raw materials are prevented from being mixed into other storage bins 11, and the influence on the storage of the raw materials is avoided; in addition, the conveying member 32 conveys the raw materials, and the raw materials are added into the storage bin 11 through the conveying pipe 26, so that the feeding efficiency can be guaranteed.

The above embodiments are not intended to limit the scope of the present utility model, so: all equivalent changes in structure, shape and principle of the utility model should be covered in the scope of protection of the utility model.

Claims (8)

1. A storage device of multistage pay-off, its characterized in that: comprises a storage mechanism (1), a distributing mechanism (2) and a feeding mechanism (3);

the material distributing mechanism (2) comprises a supporting seat (21), a first supporting column (22) is arranged on the supporting seat (21), a driving piece (24) for driving the first supporting column (22) to rotate is arranged on the supporting seat (21), a material conveying pipe (26) is obliquely arranged on the first supporting column (22), and a material feeding hopper (27) is communicated with the material conveying pipe (26);

the feeding mechanism (3) comprises a feed box (31) arranged at one side of the supporting seat (21), and a conveying piece (32) for feeding the feed hopper (27) is arranged on the feed box (31);

the storage mechanism (1) comprises a plurality of storage bins (11) which are uniformly distributed on the periphery of the first support column (22), and a feed inlet (17) is formed in the top of each storage bin (11).

2. The multi-stage feed storage device of claim 1, wherein: the conveying part (32) comprises a conveying shell (321) arranged on the feed box (31), an input port (327) and an output port (325) are formed in the conveying shell (321), the input port (327) is communicated with the feed box (31), and the output port (325) is formed above the feed hopper (27); the conveying shell (321) is rotationally connected with a conveying belt (322), and a plurality of conveying boxes (324) are arranged on the conveying belt (322).

3. A multi-stage feed magazine as set forth in claim 2 wherein: the output port (325) is communicated with a guide pipe (326), and the guide pipe (326) is clamped in the feed hopper (27) and is rotationally connected with the feed hopper (27).

4. The multi-stage feed storage device of claim 1, wherein: the first support column (22) one side is provided with second support column (23), second support column (23) with supporting seat (21) swivelling joint, second support column (23) with pass material pipe (26) fixed connection.

5. The multi-stage feed storage device of claim 4, wherein: the support seat (21) is provided with an annular groove (25) along the peripheral side of the first support column (22), and the second support column (23) is positioned in the annular groove (25).

6. The multi-stage feed storage device of claim 1, wherein: and a sealing plate (12) for sealing the feeding hole (17) is hinged in each bin (11), and a reset spring (13) is connected between the sealing plate (12) and the bin (11).

7. The multi-stage feed storage device of claim 1, wherein: every all be provided with telescopic link (14) on feed bin (11), be provided with baffle (15) on telescopic link (14), baffle (15) with feed bin (11) sliding connection.

8. The multi-stage feed storage device of claim 1, wherein: each bin (11) is provided with a visual window (16).