CN217228706U - Stockpiling control structure for arch breaking of material bin - Google Patents

Abstract

The utility model discloses a feed bin is broken to encircle and is used windrow control structure, including storage silo and discharge mechanism, driving motor is installed to the inner wall top of storage silo, the pivot is installed to driving motor's output, the surface of pivot is equipped with size assorted rotary mechanism, discharge mechanism all installs the outer wall both sides at the storage silo, discharge mechanism's outer wall below is equipped with size assorted screw thread spiral cover, the inner wall below of storage silo is equipped with the advancing mechanism who is used for the installation. This storage bin is broken to encircle and is used windrow control structure through setting up discharge mechanism, is convenient for carry out the ejection of compact to the raw materials of storage silo like this, through setting up advancing mechanism, can upwards impel to the inside raw materials of storage silo like this to be convenient for directly carry out the ejection of compact.

Description

Stockpiling control structure for arch breaking of material bin

Technical Field

The utility model relates to a relevant technical field of feed bin specifically is a feed bin is broken to encircle and is used windrow control structure.

Background

In order to improve the production efficiency, a preparation bin is arranged above a mixer, so that a batch of prepared materials always wait for mixing, the production efficiency can be improved by 30 percent, the advantages of the high-efficiency mixer can be embodied, secondly, the materials can form an air arch and are difficult to discharge, and a flow-assisting air cushion or a vibration motor is arranged on the bin; in order to maintain and seal, a pneumatic or manual valve is required to be distributed at the material bin opening; in order to smooth blanking, the cone angle of the storage bin cannot be smaller than 60 degrees, so that the existing storage bin is usually used for a material piling control structure when the arch is broken.

But the windrow control structure who uses at present produces the circumstances of piling up easily when carrying out the feed bin storage, and the while is attached to in the middle of the feed bin inner wall easily, is not convenient for carry out the ejection of compact.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a feed bin is broken to encircle and is used windrow control structure to solve the windrow control structure who uses at present who proposes in the above-mentioned background art, when carrying out the feed bin storage, produce the accumulational condition easily, attach in the middle of the feed bin inner wall easily simultaneously, be not convenient for carry out the problem of the ejection of compact.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a feed bin is broken to encircle and is used windrow control structure, includes storage silo and discharge mechanism, driving motor is installed to the inner wall top of storage silo, the pivot is installed to driving motor's output, the surface of pivot is equipped with size assorted rotary mechanism, discharge mechanism all installs the outer wall both sides at the storage silo, discharge mechanism's outer wall below is equipped with size assorted screw thread spiral cover, the inner wall below of storage silo is equipped with the advancing mechanism who is used for the installation.

Preferably, rotary mechanism includes spacing groove, solid fixed ring, connecting rod, U template and first ball, both sides about the inner wall at the storage silo are all seted up to the spacing groove, the same solid fixed ring of size is all installed from top to bottom to the pivot surface, gu fixed ring's outer wall is equipped with the connecting rod that is used for the installation, the outer wall of connecting rod is equipped with size assorted U template, the same first ball of size is all installed to the inner wall both sides of U template.

Preferably, the fixed ring forms a rotating structure with the driving motor through a rotating shaft, and the fixed ring is distributed on the rotating shaft at equal intervals.

Preferably, discharge mechanism includes discharging pipe, first draw-in groove, picture peg, connecting pipe and discharge gate, the outer wall both sides at the storage silo are all installed to the discharging pipe, first draw-in groove has been seted up to inner wall one side of discharging pipe, the inner wall of first draw-in groove is equipped with size assorted picture peg, the connecting pipe is installed in the connection of outer wall one side of discharging pipe, the discharge gate has been seted up to the outer wall below of connecting pipe.

Preferably, the screw thread spiral cover is connected with the discharge pipe through a discharge hole in a threaded manner, and the outer wall of the discharge hole is tightly attached to the inner wall of the screw thread spiral cover.

Preferably, advancing mechanism includes pneumatic cylinder, hydraulic stem, fixed plate, fixture block, spout, slider, propulsion dish, second ball and second draw-in groove, the outer wall below at the storage silo is installed to the pneumatic cylinder, the output of pneumatic cylinder is provided with the hydraulic stem, the outer wall top of hydraulic stem is equipped with size assorted fixed plate, the same fixture block of size is all installed to the outer wall top both sides of fixed plate, the same spout of size is all seted up to the inner wall below both sides of storage silo, the inner wall of spout is equipped with size assorted slider, the propulsion dish is installed to the inner wall of slider, the same second ball of size is all installed to the outer wall top both sides of propulsion dish, the second draw-in groove has all been seted up to the inner wall below both sides of propulsion dish.

Preferably, the fixed plate forms a lifting structure with the hydraulic cylinder through the hydraulic rod, and the diameter of the inner wall of the fixed plate is larger than that of the outer wall of the hydraulic rod.

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

1. according to the material piling control structure for arch breaking of the storage bin, the discharging mechanism is arranged, so that the raw materials of the storage bin can be conveniently discharged, and the propelling mechanism is arranged, so that the raw materials in the storage bin can be propelled upwards, and the direct discharging is convenient;

2. this feed bin is broken to encircle and is used windrow control structure through setting up rotary mechanism, uses the inside power structure of feed bin, increases the mobility of inside material, and then avoids the inside material of storehouse material to pile up, reduces the condition of material adhesion feed bin inner wall simultaneously.

Drawings

FIG. 1 is a schematic view of the front view structure of the present invention;

fig. 2 is a schematic structural view of the rotating mechanism of the present invention;

FIG. 3 is a schematic view of the propulsion mechanism of the present invention;

fig. 4 is the structure schematic diagram of the discharging mechanism of the present invention.

In the figure: 1. a storage bin; 2. a drive motor; 3. a rotating shaft; 4. a rotation mechanism; 401. a limiting groove; 402. a fixing ring; 403. a connecting rod; 404. a U-shaped plate; 405. a first ball; 5. a discharging mechanism; 501. a discharge pipe; 502. a first card slot; 503. inserting plates; 504. a connecting pipe; 505. a discharge port; 6. screwing a cover by screw thread; 7. a propulsion mechanism; 701. a hydraulic cylinder; 702. a hydraulic lever; 703. a fixing plate; 704. a clamping block; 705. a chute; 706. a slider; 707. a propulsion disc; 708. a second bead; 709. a second card slot.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts all belong to the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides a technical solution: a stockpiling control structure for arch breaking of a material bin comprises a material storage bin 1 and a discharging mechanism 5, wherein a driving motor 2 is installed above the inner wall of the material storage bin 1, a rotating shaft 3 is installed at the output end of the driving motor 2, a rotating mechanism 4 with matched size is arranged on the outer surface of the rotating shaft 3, the rotating mechanism 4 comprises a limiting groove 401, fixing rings 402, connecting rods 403, a U-shaped plate 404 and first round balls 405, the limiting grooves 401 are all arranged on the upper side and the lower side of the inner wall of the material storage bin 1, the fixing rings 402 with the same size are all installed on the upper side and the lower side of the outer surface of the rotating shaft 3, the connecting rods 403 for installation are arranged on the outer wall of the fixing rings 402, the U-shaped plate 404 with matched size is arranged on the outer wall of the connecting rods 403, the first round balls 405 with the same size are all installed on the two sides of the inner wall of the U-shaped plate 404, the fixing rings 402 on the connecting rods 403 are fixed on the surface of the rotating shaft 3, so that the U-shaped plate 404 can be driven to move in the middle of the inner wall of the limiting groove 401, therefore, the flexibility of the storage bin during propelling can be enhanced, so that the storage space of the storage bin 1 is enhanced, the fixing rings 402 form a rotating structure with the driving motor 2 through the rotating shaft 3, and the fixing rings 402 are distributed on the rotating shaft 3 at equal intervals, so that the upper position and the lower position of the storage bin 1 can be subjected to flowing treatment, and the flowing efficiency of the storage bin can be increased;

the discharging mechanisms 5 are arranged on two sides of the outer wall of the storage bin 1, each discharging mechanism 5 comprises a discharging pipe 501, a first clamping groove 502, an inserting plate 503, a connecting pipe 504 and a discharging hole 505, the discharging pipes 501 are arranged on two sides of the outer wall of the storage bin 1, the first clamping groove 502 is formed in one side of the inner wall of each discharging pipe 501, the inserting plates 503 with matched sizes are arranged on the inner wall of the first clamping grooves 502, the connecting pipe 504 is connected and arranged on one side of the outer wall of each discharging pipe 501, the discharging hole 505 is formed in the lower portion of the outer wall of each connecting pipe 504, the discharging mechanism 5 is convenient for discharging raw materials in the storage bin 1, the threaded rotary cover 6 is rotated to be away from the surface of the discharging hole 505, so that two sides of the storage bin 1 can be closed, the inserting plates 503 are opened to be away from the inner wall of the first clamping grooves 502, so that the raw materials can be directly discharged when being pushed, and the threaded rotary cover 6 is in threaded connection with the discharging pipes 501 through the discharging holes 505, the outer wall of the discharge port 505 is tightly attached to the inner wall of the threaded screw cap 6, so that the raw materials in the storage bin 1 can flow out, and meanwhile, the sealing treatment is convenient;

a threaded screw cap 6 with matched dimensions is arranged below the outer wall of the discharging mechanism 5, a propelling mechanism 7 for installation is arranged below the inner wall of the storage bin 1, the propelling mechanism 7 comprises a hydraulic cylinder 701, a hydraulic rod 702, a fixing plate 703, clamping blocks 704, sliding chutes 705, sliding blocks 706, a propelling disc 707, second round balls 708 and second clamping grooves 709, the hydraulic cylinder 701 is arranged below the outer wall of the storage bin 1, the hydraulic rod 702 is arranged at the output end of the hydraulic cylinder 701, the fixing plate 703 with matched dimensions is arranged above the outer wall of the hydraulic rod 702, the clamping blocks 704 with the same dimensions are arranged on both sides above the outer wall of the fixing plate 703, the sliding chutes 705 with the same dimensions are arranged on both sides below the inner wall of the storage bin 1, the sliding blocks 706 with matched dimensions are arranged on the inner wall of the sliding chute 705, the propelling disc 707 is arranged on the inner wall of the sliding block 706, the second round balls 708 with the same dimensions are arranged on both sides above the outer wall of the propelling disc 707, the two sides below the inner wall of the propulsion disc 707 are both provided with a second trough 709, the propulsion mechanism 7 can propel the raw material in the storage silo 1 up and down, the fixture block 704 on the fixing plate 703 is fixed in the inner wall of the second trough 709, thus, the propulsion can be stably carried out, the power supply of the hydraulic cylinder 701 is turned on, the hydraulic cylinder drives the fixing plate 703 above the outer wall of the hydraulic rod 702 to lift, meanwhile, the sliding block 706 moves in the inner wall of the sliding chute 705, so that the stability of the propelling disc 707 during propelling can be ensured, the propelling disc 707 can propel raw materials in the storage bin 1, so that the fluidity in the bin can be realized, the fixed plate 703 and the hydraulic cylinder 701 form a lifting structure through the hydraulic rod 702, and the inner wall diameter of fixed plate 703 is greater than the outer wall diameter of hydraulic stem 702, can carry out the activity from top to bottom to the feed bin like this, is convenient for carry out the ejection of compact simultaneously and adjusts.

The working principle is as follows: firstly, the device is placed at a specified position, the propulsion mechanism 7 can propel raw materials in the storage bin 1 up and down, the fixture block 704 on the fixing plate 703 is fixed in the inner wall of the second clamping groove 709, so that stable propulsion can be performed, the power supply of the hydraulic cylinder 701 is turned on to drive the fixing plate 703 above the outer wall of the hydraulic rod 702 to lift, meanwhile, the slide block 706 moves in the inner wall of the chute 705, so that the stability of the propulsion disc 707 during propulsion can be ensured, the propulsion disc 707 can propel the raw materials in the storage bin 1, so that the fluidity in the storage bin can be achieved, the power supply of the driving motor 2 is turned on to drive the limiting groove 401 arranged on the outer wall of the rotating shaft 3 to rotate, meanwhile, the fixing ring 402 on the connecting rod 403 is fixed on the surface position of the rotating shaft 3, so that the U-shaped plate 404 can be driven to move in the inner wall of the limiting groove 401, thereby can strengthen the feed bin flexibility when impelling, thereby strengthen the storage space of storage silo 1, discharge mechanism 5 is convenient for carry out the ejection of compact to the raw materials of the inside of storage silo 1, rotatory screw thread spiral cover 6 makes it leave the surface of discharge gate 505, can close the both sides of storage silo 1 like this, open picture peg 503 simultaneously and make it leave the inner wall of first draw-in groove 502, the raw materials of being convenient for like this can the direct ejection of compact when impelling, the model of pneumatic cylinder 701 is MOB, driving motor 2' S model is YE2-132S-4, just so accomplished the operation flow of a feed bin arch-breaking with windrow control structure.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. The utility model provides a feed bin is broken to encircle and is used windrow control structure, includes storage silo (1) and discharge mechanism (5), its characterized in that: driving motor (2) are installed to the inner wall top of storage silo (1), pivot (3) are installed to the output of driving motor (2), the surface of pivot (3) is equipped with size assorted rotary mechanism (4), the outer wall both sides at storage silo (1) are all installed in discharge mechanism (5), the outer wall below of discharge mechanism (5) is equipped with size assorted screw thread spiral cover (6), the inner wall below of storage silo (1) is equipped with advancing mechanism (7) that are used for the installation.

2. The stockpiling control structure for arch breaking of the silo according to claim 1, wherein: rotary mechanism (4) include spacing groove (401), solid fixed ring (402), connecting rod (403), U template (404) and first ball (405), both sides about the inner wall of storage silo (1) are all seted up in spacing groove (401), the solid fixed ring (402) that the size is the same are all installed from top to bottom to pivot (3) surface, the outer wall of solid fixed ring (402) is equipped with connecting rod (403) that are used for the installation, the outer wall of connecting rod (403) is equipped with size assorted U template (404), the same first ball (405) of size is all installed to the inner wall both sides of U template (404).

3. The stockpiling control structure for arch breaking of the silo according to claim 2, wherein: the fixing ring (402) and the driving motor (2) form a rotating structure through the rotating shaft (3), and the fixing ring (402) is distributed on the rotating shaft (3) at equal intervals.

4. The stockpiling control structure for arch breaking of the silo according to claim 1, wherein: discharge mechanism (5) include discharging pipe (501), first draw-in groove (502), picture peg (503), connecting pipe (504) and discharge gate (505), the outer wall both sides at storage silo (1) are all installed in discharging pipe (501), first draw-in groove (502) have been seted up to inner wall one side of discharging pipe (501), the inner wall of first draw-in groove (502) is equipped with size assorted picture peg (503), connecting pipe (504) are installed in the connection of outer wall one side of discharging pipe (501), discharge gate (505) have been seted up to the outer wall below of connecting pipe (504).

5. The stockpiling control structure for arch breaking of the silo according to claim 4, wherein: the screw cap (6) is in threaded connection with the discharge pipe (501) through a discharge hole (505), and the outer wall of the discharge hole (505) is tightly attached to the inner wall of the screw cap (6).

6. The stockpiling control structure for arch breaking of the silo according to claim 1, wherein: the propelling mechanism (7) comprises a hydraulic cylinder (701), a hydraulic rod (702), a fixing plate (703), fixture blocks (704), a chute (705), a sliding block (706), a propelling disc (707), second round beads (708) and a second clamping groove (709), the hydraulic cylinder (701) is installed below the outer wall of the storage bin (1), the hydraulic rod (702) is arranged at the output end of the hydraulic cylinder (701), the fixing plate (703) with matched size is arranged above the outer wall of the hydraulic rod (702), the fixture blocks (704) with the same size are installed on two sides above the outer wall of the fixing plate (703), the chutes (705) with the same size are arranged on two sides below the inner wall of the storage bin (1), the sliding block (706) with matched size is arranged on the inner wall of the chute (705), the propelling disc (707) is installed on the inner wall of the sliding block (706), the second round beads (708) with the same size are installed on two sides above the outer wall of the propelling disc (707), and second clamping grooves (709) are formed in two sides of the lower part of the inner wall of the propulsion disc (707).

7. The stockpiling control structure for arch breaking of the silo according to claim 6, wherein: the fixed plate (703) and the hydraulic cylinder (701) form a lifting structure through the hydraulic rod (702), and the diameter of the inner wall of the fixed plate (703) is larger than that of the outer wall of the hydraulic rod (702).

Images