CN215207085U - Flow guide device for belt conveyor connected to bottom of bulk grain silo - Google Patents

Abstract

The utility model discloses a bulk grain silo bottom of storehouse is connected belt conveyor and is used guiding device, including the bearing case, the bearing case sets up the downside at bulk grain silo bottom of storehouse, and the discharge gate of bulk grain silo bottom of storehouse corresponds from top to bottom with the material receiving mouth of bearing case, the bottom of bearing case is connected with the water conservancy diversion collecting box, the water conservancy diversion collecting box surrounds the outside at conveyer, the water conservancy diversion collecting box has seted up the passway hole along the direction of conveyer motion, the top of water conservancy diversion collecting box and the bottom of bearing case communicate, and seted up the feed inlet, the inside of bearing case bottom and the feed inlet department that corresponds the water conservancy diversion collecting box are equipped with the water conservancy diversion mechanism; this scheme utilization cylinder drives the guide plate and carries out the water conservancy diversion to putting into the grain that holds the incasement portion, makes stable the flow of grain to conveyer's central point and puts, avoids conveyer to appear the skew in the transportation, utilizes water conservancy diversion collecting box and a plurality of recovery drums to collecting the grain that spills out, retrieves and holds water conservancy diversion once more, transport after the case.

Description

Flow guide device for belt conveyor connected to bottom of bulk grain silo

Technical Field

The utility model relates to a bulk grain conveying machinery technical field especially relates to a bulk grain silo bottom of a storehouse is connected guiding device for belt conveyer.

Background

The concrete bulk grain silo has the problems that the conical silo bottom and the delivery belt conveyor are not on the same central line, so that the belt conveyor belt deviates due to uneven distribution of grains on the belt conveyor in the grain delivery process, and grains are scattered and leaked, so that the efficiency of bulk grain delivery is low, the energy consumption of delivery equipment is high, and in addition, a large amount of expenses such as cleaning and maintenance cost are required.

To the technical problem, the utility model provides a belt conveyer is connected at bottom of bulk grain silo storehouse is with guiding device.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the defects existing in the prior art and providing a flow guiding device for a bulk grain silo bottom connecting belt machine.

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

a diversion device for a belt conveyor connected with the bottom of a bulk grain silo comprises a bearing box, wherein the bearing box is arranged on the lower side of the bottom of the bulk grain silo, a discharge port of the bottom of the bulk grain silo vertically corresponds to a receiving port of the bearing box, the bottom of the bearing box is connected with a diversion collecting box, the diversion collecting box surrounds the outer side of a conveying belt, a channel hole is formed in the diversion collecting box along the movement direction of the conveying belt, the top of the diversion collecting box is communicated with the bottom of the bearing box and is provided with a feed inlet, and a diversion mechanism is arranged in the bottom of the bearing box and corresponds to the feed inlet of the diversion collecting box;

the flow guide mechanism comprises two cylinders and two flow guide plates which are symmetrically arranged, the two cylinders are symmetrically arranged on the outer side wall of the receiving box, the two flow guide plates are respectively rotatably arranged on the inner wall of the receiving box through rotating shafts, and the telescopic ends of the cylinders are slidably arranged with the flow guide plates on the same side;

the bottom of water conservancy diversion collecting box communicates and installs first recovery section of thick bamboo, the one end intercommunication of first recovery section of thick bamboo is installed the second recovery section of thick bamboo, the upside intercommunication that the first recovery section of thick bamboo one end was kept away from to the second recovery section of thick bamboo is installed the third recovery section of thick bamboo, the one end that the second recovery section of thick bamboo was kept away from to the third recovery section of thick bamboo and be close to one side intercommunication of accepting the case and install the fourth recovery section of thick bamboo, the one end that the third recovery section of thick bamboo was kept away from to the fourth recovery section of thick bamboo communicates with the inside on accepting the case top, all rotate in first recovery section of thick bamboo, second recovery section of thick bamboo and the third recovery section of thick bamboo and install the helical blade conveyer, and the helical blade conveyer passes through motor drive respectively.

Further, the bottom of the receiving box is inclined along one side of the moving direction of the conveying belt.

Further, the flexible end of cylinder all articulates installs the slider, the spout has all been seted up to one side that the guide plate is close to the homonymy cylinder, the slider slides and sets up in the spout.

Furthermore, one end, far away from the second recovery cylinder, of the first recovery cylinder is installed with a motor, one end, far away from the first recovery cylinder, of the second recovery cylinder is installed with a motor, and one end, far away from the second recovery cylinder, of the third recovery cylinder is installed with a motor.

Furthermore, the fourth recycling cylinder is an inclined pipe, and one end of the fourth recycling cylinder, which is far away from the third recycling cylinder, is a low end of the pipeline.

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

the utility model discloses utilize the cylinder to drive the guide plate and can carry out the water conservancy diversion to the grain of putting into the bearing incasement portion from bulk grain silo bottom of storehouse, make the central point that flows to conveyer that grain can be stable put, avoid conveyer to appear the skew phenomenon in the transportation, ensure the stability of transportation, utilize water conservancy diversion collecting box and a plurality of recovery drums to collect the grain that spills out in addition, can pass through water conservancy diversion and transport once more after retrieving the bearing case.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention.

Fig. 1 is a schematic view of the whole structure of a diversion device for a bulk grain silo bottom connecting belt conveyor provided by the utility model;

FIG. 2 is a schematic view of the position relationship between the guide plate and the guide collecting box of the present invention;

fig. 3 is a schematic view of the installation of the recycling bin and the helical blade conveyor of the present invention.

In the figure: 1 bulk grain silo bottom, 2 bearing boxes, 3 conveying belts, 4 diversion collecting boxes, 5 cylinders, 6 diversion plates, 7 rotating shafts, 8 sliding blocks, 9 sliding chutes, 10 first recovery cylinders, 11 second recovery cylinders, 12 third recovery cylinders, 13 fourth recovery cylinders, 14 helical blade conveyors and 15 motors.

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.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like 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, and 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 therefore, should not be construed as limiting the present invention.

Referring to fig. 1-3, the flow guiding device for the belt conveyor connected to the bottom of the bulk grain silo comprises a receiving box 2, wherein the receiving box 2 is arranged on the lower side of the bottom 1 of the bulk grain silo, and a discharge port of the bottom 1 of the bulk grain silo vertically corresponds to a receiving port of the receiving box 2. The grains flow out through the discharge hole at the bottom of the bulk grain silo 1 and flow in through the receiving hole of the receiving box 2.

The bottom of the catch tank 2 is inclined to one side in the direction of movement of the conveyor belt 3. The bottom of the bearing box 2 is connected with a diversion collection box 4, the diversion collection box 4 surrounds the outer side of the conveying belt 3, a channel hole is formed in the diversion collection box 4 along the moving direction of the conveying belt 3, the top of the diversion collection box 4 is communicated with the bottom of the bearing box 2 and is provided with a feed inlet, and a diversion mechanism is arranged in the bottom end of the bearing box 2 and corresponds to the feed inlet of the diversion collection box 4;

after the grains enter the receiving box 2, the grains are guided by the guide mechanism and then enter the guide collection box 4.

The flow guide mechanism comprises two cylinders 5 and two flow guide plates 6 which are symmetrically arranged, the two cylinders 5 are symmetrically arranged on the outer side wall of the receiving box 2, the two flow guide plates 6 are respectively rotatably arranged with the inner wall of the receiving box 2 through rotating shafts 7, and the telescopic ends of the cylinders 5 are slidably arranged with the flow guide plates 6 on the same side; the flexible end of cylinder 5 all articulates and installs slider 8, and guide plate 6 is close to one side of homonymy cylinder 5 and has all seted up spout 9, and slider 8 slides and sets up in spout 9.

The air cylinder 5 can drive the corresponding guide plate 6 to rotate in the bearing box 2 through the rotating shaft 7 when stretching, the guide plate 6 can change the flow path of grain flowing into the guide collection box 4 from the bearing box 2, and the grain can fall to the center of the conveying belt 3 when flowing into the guide collection box 4, so that the conveying belt 3 is uniformly stressed, and the phenomenon of deviation in the operation process is avoided.

The bottom of water conservancy diversion collecting box 4 communicates and installs first recovery section of thick bamboo 10, the one end intercommunication of first recovery section of thick bamboo 10 is installed second recovery section of thick bamboo 11, the upside intercommunication that first recovery section of thick bamboo 10 one end was kept away from to second recovery section of thick bamboo 11 is installed third recovery section of thick bamboo 12, third recovery section of thick bamboo 12 is kept away from the one end of second recovery section of thick bamboo 11 and is close to one side intercommunication of accepting case 2 and install fourth recovery section of thick bamboo 13, the one end that third recovery section of thick bamboo 12 was kept away from to fourth recovery section of thick bamboo 13 and the inside intercommunication on accepting case 2 top, all rotate in first recovery section of thick bamboo 10, second recovery section of thick bamboo 11 and the third recovery section of thick bamboo 12 and install helical blade conveyer 14, and helical blade conveyer 14 passes through motor 15 drive respectively.

One end of the first recycling bin 10, which is far away from the second recycling bin 11, is mounted with a motor 15, one end of the second recycling bin 11, which is far away from the first recycling bin 10, is mounted with a motor 15, and one end of the third recycling bin 12, which is far away from the second recycling bin 11, is mounted with a motor 15. The fourth recycling cylinder 13 is an inclined pipe, and one end of the fourth recycling cylinder 13 far away from the third recycling cylinder 12 is a low end of the pipeline.

When grain flows to conveyer belt 3 on, some grain of inevitable scattering falls out, the grain that spills out receives the blockking of water conservancy diversion collecting box 4, can gather in the first recovery section of thick bamboo 10 of bottom, utilize motor 15 to drive corresponding helical blade conveyer 14 respectively and rotate, thereby with grain in first recovery section of thick bamboo 10, second recovery section of thick bamboo 11, transport in third recovery section of thick bamboo 12 and the fourth recovery section of thick bamboo 13, and finally through the fourth recovery section of thick bamboo 13 internal reflux receiving box 2, pass through guide plate 6 water conservancy diversion once more afterwards, at last transport through conveyer belt 3.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (5)

1. The diversion device for the belt conveyor connected to the bottom of the bulk grain silo comprises a bearing box (2), and is characterized in that the bearing box (2) is arranged on the lower side of the bottom (1) of the bulk grain silo, a discharge port of the bottom (1) of the bulk grain silo corresponds to a receiving port of the bearing box (2) up and down, the bottom of the bearing box (2) is connected with a diversion collecting box (4), the diversion collecting box (4) surrounds the outer side of a conveying belt (3), a channel hole is formed in the diversion collecting box (4) along the movement direction of the conveying belt (3), the top of the diversion collecting box (4) is communicated with the bottom of the bearing box (2) and is provided with a feed port, and a diversion mechanism is arranged in the bottom of the bearing box (2) and corresponds to the feed port of the diversion collecting box (4);

the flow guide mechanism comprises two cylinders (5) and two flow guide plates (6) which are symmetrically arranged, the two cylinders (5) are symmetrically arranged on the outer side wall of the receiving box (2), the two flow guide plates (6) are respectively rotatably arranged on the inner wall of the receiving box (2) through a rotating shaft (7), and the telescopic ends of the cylinders (5) are slidably arranged with the flow guide plates (6) on the same side;

the bottom of the diversion collection box (4) is communicated with and installed with a first recovery cylinder (10), one end of the first recovery cylinder (10) is communicated with and installed with a second recovery cylinder (11), the second recovery cylinder (11) is communicated with and installed with a third recovery cylinder (12) at the upper side far away from one end of the first recovery cylinder (10), one end far away from the second recovery cylinder (11) of the third recovery cylinder (12) is communicated with and installed with a fourth recovery cylinder (13) at one side close to the bearing box (2), one end far away from the third recovery cylinder (12) of the fourth recovery cylinder (13) is communicated with the inside of the top end of the bearing box (2), and spiral blade conveyors (14) are rotatably installed in the first recovery cylinder (10), the second recovery cylinder (11) and the third recovery cylinder (12), and the spiral blade conveyors (14) are respectively driven by motors (15).

2. The deflector for the belt conveyor for connecting the bottom of the bulk grain silo as claimed in claim 1, characterized in that the bottom of the receiving box (2) is inclined to one side in the direction of movement of the conveyor belt (3).

3. The flow guide device for the belt conveyor for connecting the bottom of the bulk grain silo as claimed in claim 1, wherein the telescopic ends of the air cylinders (5) are respectively provided with a sliding block (8) in a hinged manner, one side of the flow guide plate (6) close to the air cylinder (5) on the same side is respectively provided with a sliding groove (9), and the sliding block (8) is arranged in the sliding groove (9) in a sliding manner.

4. The diversion device for the belt conveyor connected to the bottom of the bulk grain silo as claimed in claim 1, wherein one end of the first recovery cylinder (10) far away from the second recovery cylinder (11) is mounted with a motor (15), one end of the second recovery cylinder (11) far away from the first recovery cylinder (10) is mounted with a motor (15), and one end of the third recovery cylinder (12) far away from the second recovery cylinder (11) is mounted with a motor (15).

5. The diversion device for the belt conveyor connected to the bottom of the bulk grain silo as claimed in claim 1, wherein the fourth recovery cylinder (13) is an inclined pipe, and one end of the fourth recovery cylinder (13) far away from the third recovery cylinder (12) is a low end of a pipeline.

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