CN210735330U - Apply to pitch raw materials transportation sports car device on silo upper portion - Google Patents

Abstract

The utility model relates to a technical field is stored in the transportation of pitch raw materials, specifically is an apply to pitch raw materials transportation sports car device on silo upper portion for solve among the prior art inconvenient problem to carrying the pitch raw materials in the large-scale silo. The utility model discloses a plurality of silos and support frame, the drive roll is installed to the one end of support frame, and the driven voller is installed to the other end, the drive roll is connected with rotary mechanism, be equipped with the conveyer belt that is the U type between drive roll and driven voller, the conveyer belt is located the upper portion of a plurality of silos, install slide mechanism on the support frame, the last branch material dolly of installing of slide mechanism, install feed mechanism on the branch material dolly, install feed mechanism on the support frame, the both sides of dividing the material dolly all are equipped with the conveying pipe. The utility model discloses only need set up a conveyer belt just can add the pitch raw materials to a plurality of silos to can be more convenient carry the pitch raw materials to large-scale silo.

Description

Apply to pitch raw materials transportation sports car device on silo upper portion

Technical Field

The utility model relates to a technical field is stored in the transportation of pitch raw materials, more specifically relate to an apply to pitch raw materials transportation sports car device on silo upper portion.

Background

Asphalt is a waterproof, moistureproof and anticorrosive organic cementing material. The asphalt can be mainly divided into coal tar asphalt, petroleum asphalt and natural asphalt: among them, coal tar pitch is a by-product of coking, petroleum pitch is a residue after crude oil distillation, and natural pitch is stored underground, and some forms a mineral layer or is accumulated on the surface of the earth crust. The asphalt is mainly used in the industries of paint, plastics, rubber and the like and pavement and the like. Asphalt feed, which is a necessity for the manufacture of asphalt, may need to be stored in silos prior to the manufacture of asphalt, and transported to the silos.

In the prior art, asphalt raw materials are transported to silos of a large-scale mixing plant, the large-scale mixing plant is provided with a plurality of silos with the height of more than 20 meters, the asphalt raw materials are transported to the silos by two modes in the prior art, firstly, the asphalt raw materials are respectively transported to the silos by a plurality of conveyor belts, the conveyor belts are very long due to the fact that the silos are very high, and if each silo uses one conveyor belt, more resources are wasted; secondly, cables are built, the transport trolley conveys the asphalt raw materials into the silo through the cables, but long cables are laid, and the cables are easy to wind together.

In conclusion, the prior art mainly has the problem of inconvenient transportation when conveying asphalt raw materials into a large silo. Therefore, there is a pressing need for a transportation device that facilitates the transportation of asphalt materials to silos.

SUMMERY OF THE UTILITY MODEL

Based on above problem, the utility model provides an apply to pitch raw materials transportation sports car device on silo upper portion for solve among the prior art inconvenient problem of carrying the pitch raw materials in to large-scale silo. The utility model discloses a U type conveyer belt that is located above a plurality of silos carries the pitch raw materials to through dividing the material dolly as the device of transition pay-off, when dividing the material dolly and reacing corresponding silo department, divide the pitch raw materials on the conveyer belt in dividing the material dolly by feed mechanism, the pitch raw materials through feeding mechanism reach corresponding silo again in, so only need erect a conveyer belt and just can accomplish a plurality of silos transportation pitch raw materials, thereby more conveniently carry the pitch raw materials to large-scale silo.

The utility model discloses a realize above-mentioned purpose and specifically adopt following technical scheme:

an asphalt raw material transportation carriage device applied to the upper parts of silos comprises a plurality of silos arranged on the same horizontal plane, the height of the silos is sequentially increased from left to right, support frames are arranged on two sides of the silos, a drive roller is arranged at one end of each support frame, a driven roller is arranged at the other end of each support frame, the drive roller is connected with a rotating mechanism, a U-shaped conveyor belt is arranged between the drive roller and the driven roller, the conveyor belt gradually rises from left to right and is positioned on the upper parts of the silos, a sliding mechanism is arranged on each support frame, a material distribution trolley which can slide along the sliding mechanism and is positioned above the conveyor belt is arranged on the sliding mechanism, a material distribution mechanism which can enable asphalt raw materials to enter the material distribution trolley is arranged on the material distribution trolley, and feeding mechanisms which correspond to the, and the two sides of the material distributing trolley are respectively provided with a feeding pipe communicated with the interior of the material distributing trolley, and a discharge hole of the feeding pipe and a feed hole of the feeding mechanism are positioned on the same plane.

The working principle is as follows: when the asphalt raw materials need to be transported into the silo, the material distribution trolley firstly slides to the corresponding silo position through the sliding mechanism, when the discharge port of the feeding pipe arranged on the material distribution trolley is positioned right above the feeding mechanism, the rotating mechanism is electrified, the rotating mechanism rotates to drive the driving roller to rotate, and the driving roller drives the conveying belt and the driven roller to rotate. The conveying direction of the conveying belt is from low to high, so that asphalt raw materials can be conveyed from low to high along with the conveying of the conveying belt, when the asphalt raw materials reach the distributing trolley along with the conveying belt, the asphalt raw materials on the conveying belt can enter the distributing trolley under the action of the distributing mechanism, then enter the feeding mechanism through the feeding pipe arranged on the distributing trolley, and then enter the silo through the feeding mechanism under the action of gravity; when the asphalt raw materials in the silo reach a certain degree, the material-distributing trolley is moved to the position corresponding to the next silo, and then the asphalt raw materials are transported to the silo through the operation. Therefore, the asphalt raw materials can be transported to a plurality of silos by only erecting one conveyor belt, so that the asphalt raw materials can be transported to a large silo more conveniently.

It is worth noting that: the material distributing trolley is internally provided with an intelligent limiting device, the material distributing trolley can accurately reach the position needing to be stopped through the intelligent limiting device, and the material distributing trolley can be stopped or moved on a sliding mechanism in a word, which can be realized by the prior art, so that the detailed description is omitted.

As a preferable mode, the material distributing mechanism comprises supporting plates which are arranged on a material distributing trolley and positioned on two sides of the conveyor belt, a rotating roller is arranged between the two supporting plates, and the top surface of the rotating roller is in contact with the bottom surface of the conveyor belt.

As a preferred mode, the material distributing trolley comprises a feeding nozzle and a feeding belly which are formed into a whole, the feeding nozzle is in contact with the top surface of the conveying belt, and the conveying pipe is connected with the feeding belly.

As a preferable mode, the feeding mechanism comprises feeding boxes which are arranged on the supporting frame and correspond to the silos one by one, and feeding chutes which incline downwards and are communicated with the silos are arranged on the feeding boxes corresponding to the silos.

As a preferable mode, the number of the feeding boxes corresponding to each silo is two, and the two feeding boxes are positioned at two sides of each corresponding silo.

As a preferable mode, the sliding mechanism comprises two rails mounted on the support frame, the two rails are located on two sides of the conveyor belt, and rollers are mounted at the bottom of the material separating trolley and can slide along the rails.

As a preferable mode, the rotating mechanism is a rotating motor, and the rotating motor is connected with the drive roll.

The utility model has the advantages as follows:

(1) the utility model discloses a U type conveyer belt that is located above a plurality of silos carries the pitch raw materials to through dividing the material dolly as the device of transition pay-off, when dividing the material dolly and reacing corresponding silo department, divide the pitch raw materials on the conveyer belt in dividing the material dolly by feed mechanism, the pitch raw materials through feeding mechanism reach corresponding silo again in, so only need erect a conveyer belt and just can accomplish a plurality of silos transportation pitch raw materials, thereby more conveniently carry the pitch raw materials to large-scale silo.

(2) The utility model discloses well feed mechanism is including installing the backup pad that just is located the conveyer belt both sides on dividing the material dolly, installs the live-rollers between two backup pads, the top surface of live-rollers and the bottom surface contact of conveyer belt. When the material distribution trolley slides on the sliding mechanism, the rotating roller can be driven to move, the rotating roller can rotate between the two supporting plates, so that the friction between the rotating roller and the conveying belt can be greatly reduced, the top surface of the rotating roller is in contact with the bottom surface of the conveying belt, the rotating roller can enable the conveying belt in contact with the rotating roller to bulge, and the asphalt raw material is conveyed to the position to be beneficial to entering the material distribution trolley.

(3) The utility model discloses well branch material dolly includes feeding mouth and the pay-off tripe of mutual shaping as an organic whole, the top surface contact of feeding mouth and conveyer belt, and the conveying pipe is connected with the pay-off tripe. The asphalt raw material passing through the rotating roller enters the feeding chamber from the feeding nozzle, and the asphalt raw material in the feeding chamber enters the feeding mechanism through the feeding pipe.

(4) The utility model discloses well feeding mechanism including install on the support frame and with the pay-off case of silo one-to-one, install the downward sloping and with the feeding chute of silo intercommunication on the pay-off case that corresponds with the silo. The asphalt raw material directly enters the feeding box from the feeding pipe due to the action of gravity, and then enters the silo through the feeding chute.

(5) The utility model discloses the quantity of well pay-off case that corresponds with every silo is two, and two pay-off cases are located every both sides that correspond the silo. The asphalt raw material can enter from two sides of the silo simultaneously, thereby increasing the efficiency of transporting the asphalt raw material into the silo.

Drawings

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

FIG. 2 is a schematic top view of the conveyor belt of the present invention with the conveyor belt removed;

FIG. 3 is a schematic cross-sectional view taken along line A-A of FIG. 1 according to the present invention;

FIG. 4 is a schematic cross-sectional view taken along line B-B of FIG. 2 according to the present invention;

FIG. 5 is a schematic view of the front sectional structure of the feeding box of the present invention connected to the silo through the feeding chute;

FIG. 6 is a schematic view of the overlooking structure of the connection between the material distributing trolley and the material distributing mechanism;

FIG. 7 is a schematic cross-sectional view taken at C-C of FIG. 6 according to the present invention;

reference numerals: the automatic feeding device comprises a support frame 1, a conveyor belt 2, a track 3, a material distribution trolley 4, a feeding nozzle 41, a feeding chamber 42, a roller 43, a feeding pipe 5, a feeding box 6, a driving roller 7, a rotating motor 8, a material distribution mechanism 9, a rotating roller 91, a support plate 92, a feeding chute 10, a silo 11 and a driven roller 12.

Detailed Description

For a better understanding of the present invention, the present invention will be described in further detail with reference to the accompanying drawings and the following embodiments.

Example 1:

as shown in fig. 1-7, an asphalt raw material transportation carriage device applied to the upper part of a silo comprises a plurality of silos 11 arranged on the same horizontal plane, the height of the silos 11 is increased from left to right, support frames 1 are arranged on two sides of the silos 11, a drive roller 7 is arranged at one end of each support frame 1, a driven roller 12 is arranged at the other end of each support frame 1, the drive roller 7 is connected with a rotating mechanism, a U-shaped conveyor belt 2 is arranged between the drive roller 7 and the driven roller 12, the conveyor belt 2 is gradually lifted from left to right and is positioned on the upper parts of the silos 11, a sliding mechanism is arranged on each support frame 1, a material distribution trolley 4 which can slide along the sliding mechanism and is positioned above the conveyor belt 2 is arranged on each sliding mechanism, a material distribution mechanism 9 which can allow asphalt raw materials to enter the material distribution trolley 4 is arranged on each material distribution, the two sides of the material distributing trolley 4 are both provided with material conveying pipes 5 communicated with the inside of the material distributing trolley 4, and the discharge holes of the material conveying pipes 5 and the feed holes of the material conveying mechanisms are positioned on the same plane.

The working principle is as follows: when the asphalt raw materials need to be transported into the silos 11, the material distribution trolley 4 firstly slides to the corresponding silo 11 through the sliding mechanism, when the discharge port of the feeding pipe 5 arranged on the material distribution trolley 4 is positioned right above the feeding mechanism, the rotating mechanism is electrified, the rotating mechanism rotates to drive the driving roller 7 to rotate, and the driving roller 7 drives the conveying belt 2 and the driven roller 12 to rotate. The conveying direction of the conveying belt 2 is from low to high, so that asphalt raw materials can be conveyed from low to high along with the conveying of the conveying belt 2, when the asphalt raw materials reach the distributing trolley 4 along with the conveying belt 2, the asphalt raw materials on the conveying belt 2 can enter the distributing trolley 4 under the action of the distributing mechanism 9, then enter the feeding mechanism through the feeding pipe 5 arranged on the distributing trolley 4, and enter the silo 11 through the feeding mechanism under the action of gravity; when the asphalt raw material in the silo 11 reaches a certain degree, the material-separating trolley 4 is moved to the position corresponding to the next silo 11, and then the asphalt raw material is transported to the silo 11 through the operation. Thus, the asphalt raw materials can be transported to a plurality of silos 11 only by erecting one conveyor belt 2, so that the asphalt raw materials can be transported to the large silos 11 more conveniently.

It is worth noting that: the material distributing trolley 4 is internally provided with an intelligent limiting device, the material distributing trolley 4 can accurately reach the position to be stopped through the intelligent limiting device, in short, the material distributing trolley 4 can be stopped or moved on a sliding mechanism, which can be realized by the prior art, and therefore, the detailed description is omitted.

Example 2:

as shown in fig. 1 to 7, on the basis of the above embodiments, the present embodiment provides a preferable mechanism of the material separating mechanism. That is, the material separating mechanism 9 includes support plates 92 installed on the material separating cart 4 and located at both sides of the conveyor belt 2, a rotating roller 91 is installed between the two support plates 92, and the top surface of the rotating roller 91 contacts with the bottom surface of the conveyor belt 2. When the material separating trolley 4 slides on the sliding mechanism, the rotating roller 91 is driven to move, because the rotating roller 91 can rotate between the two supporting plates 92, the friction between the rotating roller 91 and the conveying belt 2 is greatly reduced, and the top surface of the rotating roller 91 is contacted with the bottom surface of the conveying belt 2, the rotating roller 91 can enable the conveying belt at the contact part with the rotating roller 91 to bulge, so that the asphalt raw material is conveyed to the contact part, and the asphalt raw material is promoted to enter the material separating trolley 4.

Preferably, the material separating trolley 4 comprises a feeding nozzle 41 and a feeding belly 42 which are integrally formed, the feeding nozzle 41 is in contact with the top surface of the conveyor belt 2, and the feeding pipe 5 is connected with the feeding belly 42. The asphalt raw material passing through the rotating roller 91 enters the feeding chamber 42 from the feeding nozzle 41, and the asphalt raw material in the feeding chamber 42 enters the feeding mechanism through the feeding pipe 5.

The rest is the same as example 1, and therefore, will not be described herein.

Example 3:

as shown in fig. 1 to 7, this embodiment provides a preferable structure of the feeding mechanism on the basis of embodiment 1. Namely, it is

The feeding mechanism comprises feeding boxes 6 which are arranged on the support frame 1 and correspond to the silos 11 one by one, and feeding chutes 10 which incline downwards and are communicated with the silos 11 are arranged on the feeding boxes 6 corresponding to the silos 11. The asphalt raw material directly enters the feeding box 6 from the feeding pipe 5 due to the action of gravity, and then enters the silo 11 through the feeding chute 10 after entering the feeding box 6.

Preferably, the number of feeding boxes 6 corresponding to each silo 11 is two, two feeding boxes 6 being located on both sides of each corresponding silo 11. The asphalt material may enter from both sides of the silo 11 simultaneously, so that the efficiency of transporting the asphalt material into the silo 11 may be increased.

The rest is the same as example 1, and therefore, will not be described herein.

Example 4:

as shown in fig. 1 to 7, this embodiment gives a preferable structure of the sliding mechanism on the basis of embodiment 1. Namely, the sliding mechanism comprises two rails 3 arranged on the support frame 1, the two rails 3 are positioned at two sides of the conveyor belt 2, and the rollers 43 are arranged at the bottom of the material separating trolley 4, and the rollers 43 can slide along the rails 3. The material separating trolley 4 slides up and down along the track 3, and it is noted that the movement of the material separating trolley 4 is independent from the movement of the conveyor belt 2, and the up-and-down sliding of the material separating trolley 4 on the track 3 can be realized by the prior art.

Preferably, the rotating mechanism is a rotating motor 8, and the rotating motor 8 is connected with the driving roller 7. The drive roller 7 is rotated by a rotary motor 8, wherein the rotary motor 8 is conventional and readily commercially available, and may be selected from 6812ZY150W, but is not limited thereto.

The rest is the same as example 1, and therefore, will not be described herein.

The embodiment of the present invention is the above. The specific parameters in the above embodiments and examples are only for the purpose of clearly showing the verification process of the present invention, and are not used to limit the protection scope of the present invention, which is still subject to the claims, and all the equivalent structural changes made by using the contents of the specification and drawings of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. The utility model provides an apply to pitch raw materials transportation sports car device on silo upper portion, includes a plurality of silos (11) of installing on same horizontal plane, its characterized in that: the height of a plurality of silos (11) is sequentially increased from left to right, the support frames (1) are installed on two sides of the silos (11), a driving roller (7) is installed at one end of each support frame (1), a driven roller (12) is installed at the other end of each support frame (1), the driving roller (7) is connected with a rotating mechanism, a U-shaped conveying belt (2) is arranged between the driving roller (7) and the driven roller (12), the conveying belt (2) gradually rises from left to right and is positioned on the upper portions of the silos (11), a sliding mechanism is installed on each support frame (1), a distributing trolley (4) which can slide along the sliding mechanism and is positioned above the conveying belt (2) is installed on each sliding mechanism, a distributing mechanism (9) which can enable asphalt raw materials to enter the distributing trolley (4) is installed on each distributing trolley (4), feeding mechanisms which correspond to the silos (11) one by one and are communicated with the silos (, and the two sides of the material distribution trolley (4) are respectively provided with a feeding pipe (5) communicated with the interior of the material distribution trolley (4), and the discharge hole of each feeding pipe (5) and the feed inlet of the corresponding feeding mechanism are positioned on the same plane.

2. The asphalt material transportation sports car device applied to the upper part of the silo according to claim 1, characterized in that: the material distributing mechanism (9) comprises support plates (92) which are arranged on the material distributing trolley (4) and located on two sides of the conveyor belt (2), rotating rollers (91) are arranged between the two support plates (92), and the top surfaces of the rotating rollers (91) are in contact with the bottom surface of the conveyor belt (2).

3. The asphalt material transportation sports car device applied to the upper part of the silo as claimed in claim 2, wherein: divide material dolly (4) to include feeding mouth (41) and pay-off tripe (42) of mutual shaping as an organic whole, the top surface contact of feeding mouth (41) and conveyer belt (2), conveying pipe (5) are connected with pay-off tripe (42).

4. The asphalt material transportation sports car device applied to the upper part of the silo according to claim 1, characterized in that: the feeding mechanism comprises feeding boxes (6) which are arranged on the support frame (1) and correspond to the silos (11) one by one, and feeding chutes (10) which incline downwards and are communicated with the silos (11) are arranged on the feeding boxes (6) corresponding to the silos (11).

5. The asphalt material transportation sports car device applied to the upper part of the silo as claimed in claim 4, wherein: the number of the feeding boxes (6) corresponding to each silo (11) is two, and the two feeding boxes (6) are positioned on two sides of each corresponding silo (11).

6. The asphalt material transportation sports car device applied to the upper part of the silo according to claim 1, characterized in that: the sliding mechanism comprises two rails (3) arranged on the support frame (1), the two rails (3) are located on two sides of the conveyor belt (2), the bottom of the material distribution trolley (4) is provided with rollers (43), and the rollers (43) can slide along the rails (3).

7. The asphalt material transportation sports car device applied to the upper part of the silo as claimed in claim 6, wherein: the rotating mechanism is a rotating motor (8), and the rotating motor (8) is connected with the driving roller (7).

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