CN211279049U - Feeding vehicle and pipeline pouring system - Google Patents

Abstract

The utility model relates to a PCCP pipeline production technical field especially relates to a feeding car and pipeline casting system. The feeding vehicle comprises a vehicle body assembly, a hopper assembly, a conveyor belt assembly and a driving assembly; the vehicle body assembly can move on the feeding platform; the hopper assembly and the conveyor belt assembly are arranged on the vehicle body assembly, the conveyor belt assembly is positioned between the hopper assembly and the vehicle body assembly, an inlet of the hopper assembly is used for being communicated with an outlet of the stirring station, and an outlet of the hopper assembly is used for being communicated with a feeding end of the conveyor belt assembly; the drive assembly is connected between the conveyor assembly and the body assembly to drive the conveyor assembly to rotate relative to the body assembly. The pipeline pouring system comprises the feeding vehicle. This feeding car and pipeline pouring system has cancelled the hoist, can realize transportation and feed overall process, not only can save equipment, simplified operation, improvement production efficiency, can also avoid taking place the operation risk that the hoist transport brought.

Description

Feeding vehicle and pipeline pouring system

Technical Field

The utility model relates to a PCCP pipeline production technical field especially relates to a feeding car and pipeline casting system.

Background

The production of the pipe core is one of the core components of the PCCP, and the production of each section of pipeline is to pour concrete materials produced by a concrete mixing plant into an assembled pipeline pouring mold with a steel cylinder installed. During pouring, concrete material premixed in a mixing station is generally conveyed to the upper part of the mold through the charging bucket, and the concrete material is uniformly poured into the mold in a rhythmic manner through the gradient of the charging cone and the opening and closing of the material opening, so that the steel cylinder and the concrete pipeline are integrally formed in the pipeline grinding tool.

Conventionally, as shown in fig. 1 of the specification, a concrete bucket 3 'is placed below a feed opening of a mixing station, and after the concrete is ready-mixed, the qualified concrete is poured into the bucket 3'; the charging bucket 3 'is transported to the position near the pouring station, then the charging bucket is transported to the upper part of the mould 2' and the charging cone by the portal crane 1 ', and the concrete material is slowly slid into the mould 2' by the matching of the opening at the bottom of the charging bucket and the charging cone and the gradient of the charging cone. This process generally requires at least 3 persons to cooperate with each other, and particularly requires 1 gantry crane 1' and 1 crane to work in the whole process.

Therefore, the process occupies the whole time of 1 gantry crane 1', and has the advantages of higher labor intensity, low working efficiency and higher safety risk.

Therefore, it is highly desirable to provide a method for transporting and discharging concrete without using a crane, so as to save equipment, simplify operations, improve production efficiency and reduce safety risks.

SUMMERY OF THE UTILITY MODEL

A first object of the utility model is to provide a feeding car realizes can accomplish transport, the unloading overall process of concrete material with the hoist to save equipment, simplified operation, improve production efficiency and reduce safe risk.

A second object of the utility model is to provide a pipeline casting system realizes can accomplish transport, the unloading overall process of concrete material with the hoist to save equipment, simplified operation, improve production efficiency and reduce safe risk.

In order to achieve the above object, the present invention provides the following technical solutions;

based on the first purpose, the utility model provides a feeding vehicle, which comprises a vehicle body assembly, a hopper assembly, a conveyor belt assembly and a driving assembly; the vehicle body assembly can move on the feeding platform;

the hopper assembly and the conveyor belt assembly are arranged on the vehicle body assembly, the conveyor belt assembly is positioned between the hopper assembly and the vehicle body assembly, an inlet of the hopper assembly is used for being communicated with an outlet of the stirring station, and an outlet of the hopper assembly is used for being communicated with a feeding end of the conveyor belt assembly;

the drive assembly is connected between the conveyor belt assembly and the vehicle body assembly to drive the conveyor belt assembly to rotate relative to the vehicle body assembly.

In any of the above technical solutions, optionally, the feeding vehicle further includes a mounting rack;

the hopper assembly and the conveyor belt assembly are both arranged on the mounting frame;

the driving assembly is connected between the vehicle body assembly and the mounting frame so as to drive the mounting frame to rotate relative to the vehicle body assembly.

In any of the above solutions, optionally, the conveyor belt assembly includes a conveyor belt and a first telescopic member;

the conveyor belt is hinged with the mounting frame, and the first telescopic member is connected between the conveyor belt and the mounting frame;

the first telescoping member is extendable or retractable to drive the conveyor belt to pivot relative to the mounting bracket.

In any of the above technical solutions, optionally, the conveyor belt assembly further includes a baffle assembly, and the baffle assembly is disposed at the feeding end of the conveyor belt.

In any of the above technical solutions, optionally, the driving assembly includes a rotary support bearing, a driving gear, and a driving motor;

the slewing support bearing comprises a bearing inner ring and a bearing outer ring, a driven gear is formed on the outer wall of the bearing outer ring, the bearing inner ring is rotatably connected with the bearing outer ring, the bearing inner ring is fixedly connected with the vehicle body assembly, and the bearing outer ring is fixedly connected with the mounting frame;

the driving motor can drive the driving gear to rotate, and the driving gear is meshed with the driven gear to drive the conveying belt assembly to rotate relative to the vehicle body assembly.

In any of the above solutions, optionally, the hopper assembly includes a hopper, a material gate, and a second telescopic member;

the material door is hinged at an outlet of the hopper, and the second telescopic component is connected between the material door and the mounting frame;

the second telescopic member can be lengthened or shortened to drive the material door to pivot relative to the hopper.

In any of the above technical solutions, optionally, the hopper assembly further includes a vibrator, and the vibrator is connected to the hopper to drive the hopper to vibrate.

In any of the above solutions, optionally, the vehicle body assembly includes a vehicle body, a braking member and a driving member;

the driving piece is arranged on the vehicle body and used for driving the vehicle body to move;

the braking member is arranged on the vehicle body and used for stopping the vehicle body from moving.

Based on above-mentioned second purpose, the utility model provides a pipeline pouring system, include:

the feeding device comprises a feeding platform and a feeding vehicle according to any one of the technical schemes, wherein the feeding vehicle is arranged on the feeding platform;

the stirring station is used for stirring materials and conveying the materials to a hopper of the feeding vehicle;

and the pipeline pouring mold is arranged on the side of the feeding platform.

In any of the above technical solutions, optionally, the pipeline casting mold includes a first pipeline casting mold and a second pipeline casting mold, and the first pipeline casting mold and the second pipeline casting mold are respectively disposed on two sides of the feeding platform.

Adopt above-mentioned technical scheme, the beneficial effects of the utility model are that:

the utility model provides a feeding vehicle, including automobile body subassembly, hopper subassembly, conveyer belt subassembly and drive assembly. The feeding car stores the concrete material and supplies with the concrete material to the conveyer belt subassembly through the hopper subassembly, the conveyer belt subassembly can stretch out the automobile body subassembly, thereby directly pour the template feed to the pipeline with the concrete material, and through setting up drive assembly, make the direction of delivery of this conveyer belt subassembly nimble more various, need not the hoist and undertake the material handling work between from automobile body subassembly to the pipeline pouring template, can realize transportation and feed overall process, not only can save equipment, the simplified operation, the production efficiency is improved, can also avoid taking place the operation risk that the hoist transport brought.

The utility model provides a pipeline system of pouring through the feeding car along feed platform reciprocating motion, can cancel the hoist to the pipeline casting die feed that is located the feed platform along the line through the conveyer belt subassembly, can realize transportation and feed overall process, not only can save equipment, simplified operation, improvement production efficiency, can also avoid taking place the operation risk that the hoist transport brought.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the technical solutions in the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic diagram of a pipe casting system provided in the related art;

fig. 2 is a schematic view of a first structure of a feeding vehicle according to an embodiment of the present invention;

FIG. 3 is a left side view of the feed vehicle provided in FIG. 2 (with the conveyor belt omitted);

fig. 4 is a schematic structural diagram of a hopper assembly of a feeding vehicle according to an embodiment of the present invention;

fig. 5 is a schematic view of a first structure of a pipe casting system according to a second embodiment of the present invention;

fig. 6 is a second schematic structural diagram (omitting the mixing station) of the pipe casting system according to the second embodiment of the present invention.

The icons of fig. 1: 1' -gantry crane; 2' -a mold; 3' -charging bucket.

The icons of fig. 2 to 6: 1-feeding vehicle; 10-a vehicle body component; 11-a hopper assembly; 110-a hopper; 111-a bin gate; 112-a second telescoping member; 113-a vibrator; 12-a conveyor belt assembly; 120-a conveyor belt; 121-a first telescopic member; 122-a baffle plate assembly; 123-a pivot axis; 13-a mounting frame; 14-a drive assembly; 140-a slewing support bearing; 141-a drive gear; 142-a drive motor; 2, a pipeline pouring system; 20-a feeding platform; 21-a stirring station; 22-a first pipe casting mould; 23-second pipe casting mould.

Detailed Description

The technical solution of the present invention will be described clearly and completely with reference to the accompanying drawings, and obviously, the described embodiments are some, but not all embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "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 simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example one

Referring to fig. 2 to 4, the present embodiment provides a feeding vehicle; FIG. 2 is a schematic structural diagram of a feeding vehicle according to the present embodiment, in which the structure of the feeding vehicle is shown in simplified form; FIG. 3 is a left side view of the feeder carriage provided in FIG. 2, with the conveyor belt omitted for clarity of illustration of the pivot axis configuration;

fig. 4 is a schematic structural diagram of a hopper assembly of a feeding vehicle according to the embodiment.

The feeding vehicle provided by the embodiment is used for a pipeline pouring system. The feeding vehicle can convey and pour the concrete material stirred by the stirring station into the pipeline pouring mold.

Referring to fig. 2 to 4 in combination with fig. 5 and 6, the feeding vehicle 1 provided in the present embodiment includes a vehicle body assembly 10, a hopper assembly 11, a conveyor belt assembly 12 and a driving assembly 14. The body assembly 10 can be moved on the feeding platform 20, and since the pipe casting mould is usually of a certain height, the position of the feeding car 1 can be adapted to the pipe casting mould in the height direction by arranging the body assembly 10 on the feeding platform 20.

Hopper subassembly 11 and conveyer belt subassembly 12 all set up in automobile body subassembly 10, move through automobile body subassembly 10, can drive hopper subassembly 11 and conveyer belt subassembly 12 simultaneously and remove. The conveyor belt assembly 12 is positioned between the hopper assembly 11 and the vehicle body assembly 10, an inlet of the hopper assembly 11 is used for communicating with an outlet of the stirring station 21, and an outlet of the hopper assembly 11 is used for communicating with a feeding end of the conveyor belt assembly 12.

Mixing station 21 carries the concrete material that the stirring is good to the inside of hopper subassembly 11 through the entry of hopper subassembly 11, transport hopper subassembly 11 and conveyer belt subassembly 12 to the pipeline of correspondence through automobile body subassembly 10 and pour template department, the export of rethread hopper subassembly 11 is further carried the concrete material to the pan feeding end of conveyer belt subassembly 12, the pipeline that corresponds is pour the template to the discharge end of conveyer belt subassembly 12, thereby pour the concrete material to the inside of pipeline pouring template through conveyer belt subassembly 12, and then the concrete material obtains the pipeline at the inside shaping of pipeline pouring template.

A drive assembly 14 is coupled between the conveyor belt assembly 12 and the vehicle body assembly 10 to drive the conveyor belt assembly 12 in rotation relative to the vehicle body assembly 10. Through setting up drive assembly 14, can make the conveying treat the subassembly and rotate for body assembly 10, and then to the same parking position of body assembly 10, can correspond to pour the accurate feed of template to a plurality of pipelines, be favorable to improving the feed efficiency of this feeding car 1.

The feeding vehicle 1 in the embodiment comprises a vehicle body assembly 10, a hopper assembly 11, a conveyor belt assembly 12 and a driving assembly 14. The feeding car 1 stores concrete materials through the hopper assembly 11 and supplies the concrete materials to the conveyor belt assembly 12, the conveyor belt assembly 12 can stretch out of the car body assembly 10, thereby directly feeding the concrete materials to the pipeline casting formwork, and through setting the driving assembly 14, the conveying direction of the conveyor belt assembly 12 is more flexible and various, the crane is not needed to carry the material handling work from the car body assembly 10 to the pipeline casting formwork, the whole process of transportation and feeding can be realized, the equipment can be saved, the operation is simplified, the production efficiency is improved, and the operation risk caused by the crane handling can be avoided.

In an alternative of this embodiment, the feeding vehicle 1 further comprises a mounting frame 13. Both the hopper assembly 11 and the conveyor belt assembly 12 are disposed on the mounting frame 13 such that both the hopper assembly 11 and the conveyor belt assembly 12 are capable of moving in unison with the mounting frame 13.

The drive assembly 14 is coupled between the body assembly 10 and the mounting bracket 13 to drive the mounting bracket 13 to rotate relative to the body assembly 10. Through setting up mounting bracket 13, not only provide reasonable mounted position for conveyor belt assembly 12, can make conveyor belt assembly 12 rotate through driving mounting bracket 13 rotation moreover, can guarantee that the driving function of drive assembly 14 does not interfere with the conveying function of conveyor belt assembly 12 between.

Optionally, the mounting frame 13 includes a base, a cross beam, and a first longitudinal beam and a second longitudinal beam respectively supported between two ends of the cross beam and the base, the hopper assembly 11 is disposed on the cross beam, the conveyor belt assembly 12 is disposed on the base, and an outlet of the hopper assembly 11 and a feeding end of the conveyor belt assembly 12 are both located between the first longitudinal beam and the second longitudinal beam.

In an alternative of this embodiment, the conveyor assembly 12 includes a conveyor belt 120 and a first telescoping member 121. The conveyor belt 120 is a conveyor belt 120 commonly used in the prior art.

The conveyor belt 120 is hinged with the mounting frame 13, and the first telescopic member 121 is connected between the conveyor belt 120 and the mounting frame 13; the first telescopic member 121 can be extended or shortened to drive the belt 120 to pivot relative to the mounting frame 13. The first telescoping member 121 is extended to pivot the conveyor belt 120 in a forward direction relative to the mounting frame 13, and the first telescoping member 121 is shortened to pivot the conveyor belt 120 in a reverse direction relative to the mounting frame 13, so that the pitch attitude of the conveyor belt 120 can be adjusted by the first telescoping member 121 to adapt to different types of casting molds, and the function of the drive assembly 14 to rotate the conveyor belt 120 is combined to ensure that the output end of the conveyor belt 120 is aligned with the inlet of the casting mold.

Alternatively, the first telescopic member 121 is a pneumatic cylinder, a hydraulic cylinder, an electric push rod, or the like.

Optionally, the conveyor belt 120 is hinged to the mounting frame 13 by a pivot shaft 123, and the axis of the pivot shaft 123 is perpendicular to the conveying direction of the conveyor belt 120.

In an alternative version of this embodiment, the conveyor belt assembly 12 further includes a baffle assembly 122, the baffle assembly 122 being disposed at the infeed end of the conveyor belt 120. Through set up baffle subassembly 122 at the pan feeding end of conveyer belt 120, can effectively avoid the material in hopper subassembly 11 during to the conveyer belt 120 blanking, the material splash appears and leads to the condition of polluting equipment and extravagant material.

Optionally, the baffle assembly 122 includes a first baffle and a second baffle, which are disposed on either side of the conveyor belt 120.

In an alternative version of this embodiment, the drive assembly 14 includes a slewing bearing 140, a drive gear 141, and a drive motor 142.

The rotary support bearing 140 includes a bearing inner ring and a bearing outer ring, the outer wall of which is formed with a driven gear, the bearing inner ring is rotatably connected with the bearing outer ring, the bearing inner ring is fixedly connected with the vehicle body assembly 10, and the bearing outer ring is fixedly connected with the mounting frame 13. Wherein the slewing bearing 140 can simultaneously bear large axial and radial loads and overturning moments. By providing the slewing support bearing 140 in the mounting bracket 13 and the vehicle body assembly 10, it is possible to ensure that the mounting bracket 13 is smoothly fixed or rotated with respect to the vehicle body assembly 10.

The driving motor 142 can drive the driving gear 141 to rotate, and the driving gear 141 is engaged with the driven gear to drive the belt assembly 12 to rotate relative to the vehicle body assembly 10. The driving motor 142 drives the driving gear 141 to rotate, and the mounting frame 13 can rotate relative to the vehicle body assembly 10 through the meshing transmission between the driving gear 141 and the driven gear, so as to rotate the conveyor belt assembly 12.

In an alternative of this embodiment, the hopper assembly 11 comprises a hopper 110, a gate 111 and a second telescopic member 112.

The material door 111 is hinged at the outlet of the hopper 110, and the second telescopic member 112 is connected between the material door 111 and the mounting frame 13; the second telescopic member 112 can be extended or shortened to drive the bin gate 111 to pivot relative to the bin 110. The second telescopic member 112 is extended to pivot the bin gate 111 in the forward direction with respect to the hopper 110, and the second telescopic member 112 is shortened to pivot the bin gate 111 in the reverse direction with respect to the hopper 110, so that the second telescopic member 112 controls the bin gate 111 to open and close in a rhythmic manner, and the material is conveyed to the conveyor belt 120 in a rhythmic manner, thereby controlling the conveying speed of the material and alleviating the situation that the outlet of the hopper 110 is blocked by the material.

Alternatively, second telescoping member 112 is a pneumatic cylinder, a hydraulic cylinder, or an electric push rod.

In an alternative of this embodiment, the hopper assembly 11 further comprises a vibrator 113, and the vibrator 113 is connected to the hopper 110 to drive the hopper 110 to vibrate.

In the prior art, the material tank is shaken by controlling the lifting of the crane, so that power is provided for the blanking of the material tank. Through setting up vibrator 113 on hopper 110 to for hopper 110 unloading provides power, relative to the technique of shaking the bucket through the jack among the prior art, need not to use the hoist, and improved the convenience of controlling hopper 110 vibration frequency and vibration amplitude.

In an alternative of this embodiment, the vehicle body assembly 10 includes a vehicle body, a brake member and a driving member; the driving part is arranged on the vehicle body and used for driving the vehicle body to move; the braking member is arranged on the vehicle body and used for stopping the vehicle body from moving.

Optionally, the driving member includes a power motor and a decelerator to drive the vehicle body to move and adjust the direction and speed of the vehicle body movement.

Example two

The second embodiment provides a pipeline pouring system, the pipeline pouring system comprises the feeding vehicle in the first embodiment, the technical characteristics of the feeding vehicle disclosed in the first embodiment are also applicable to the second embodiment, and the technical characteristics of the feeding vehicle disclosed in the second embodiment are not repeatedly described.

FIG. 5 is a schematic view of a first embodiment of a pipe casting system according to the present invention; to show the structure more clearly, fig. 6 is a second schematic structural view of the pipe casting system provided in the present embodiment in a state where the mixing station is omitted.

Referring to fig. 5 and 6 in combination with fig. 2 to 4, the pipe casting system 2 provided in this embodiment includes a feeding platform 20, a feeding vehicle 1, a stirring station 21 and a pipe casting mold.

The feeding vehicle 1 is arranged on the feeding platform 20, the stirring station 21 is used for stirring materials and conveying the materials to the hopper 110 of the feeding vehicle 1, and the pipeline casting mold is arranged on the side of the feeding platform 20.

Optionally, the number of feeding cars 1 is plural to improve the cooperability and casting efficiency of the conduit casting system 2.

The pipeline pouring system 2 in the embodiment can feed the pipeline pouring mold along the feeding platform 20 through the feeding trolley 1 in a reciprocating mode along the feeding platform 20, a crane is omitted, the whole process of transportation and feeding can be achieved, equipment can be saved, operation is simplified, production efficiency is improved, and operation risks caused by crane carrying can be avoided.

In an alternative of this embodiment, the pipe casting mold includes a first pipe casting mold 22 and a second pipe casting mold 23, and the first pipe casting mold 22 and the second pipe casting mold 23 are respectively disposed at two sides of the feeding platform 20.

The driving assembly 14 drives the conveyor belt assembly 12 to rotate, so that the discharge end of the conveyor belt assembly 12 can rotate to the first side or the second side of the feeding platform 20, feeding can be alternately performed on the first pipeline mold and the second pipeline casting mold 23, and the time of the first pipeline casting mold 22 in a molding state is fully utilized to perform feeding operation on the second pipeline casting mold 23.

Optionally, the number of the first pipe casting 22 is plural, and the number of the second pipe casting 23 is plural. Further, the plurality of first pipe casting molds 22 are arranged in one or more rows along the extending direction of the feeding platform 20, and the plurality of second pipe casting molds 23 are arranged in one or more rows along the extending direction of the feeding platform 20.

The conduit casting system in this embodiment has the advantages of the feeding vehicle in the first embodiment, and the advantages of the feeding vehicle disclosed in the first embodiment are not repeated here.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention. Furthermore, those skilled in the art will appreciate that while some embodiments described herein include some features included in other embodiments, rather than other features, combinations of features of different embodiments are meant to be within the scope of the invention and form different embodiments. For example, any of the claimed embodiments may be used in any combination. The information disclosed in this background section is only for enhancement of understanding of the general background of the invention and should not be taken as an acknowledgement or any form of suggestion that this information constitutes prior art already known to a person skilled in the art.

Claims (10)

1. The feeding vehicle is characterized by comprising a vehicle body assembly, a hopper assembly, a conveyor belt assembly and a driving assembly; the vehicle body assembly can move on the feeding platform;

the hopper assembly and the conveyor belt assembly are arranged on the vehicle body assembly, the conveyor belt assembly is positioned between the hopper assembly and the vehicle body assembly, an inlet of the hopper assembly is used for being communicated with an outlet of the stirring station, and an outlet of the hopper assembly is used for being communicated with a feeding end of the conveyor belt assembly;

the drive assembly is connected between the conveyor belt assembly and the vehicle body assembly to drive the conveyor belt assembly to rotate relative to the vehicle body assembly.

2. The feeding vehicle of claim 1, further comprising a mounting bracket;

the hopper assembly and the conveyor belt assembly are both arranged on the mounting frame;

the driving assembly is connected between the vehicle body assembly and the mounting frame so as to drive the mounting frame to rotate relative to the vehicle body assembly.

3. The feeding vehicle as recited in claim 2, wherein the conveyor belt assembly comprises a conveyor belt and a first telescoping member;

the conveyor belt is hinged with the mounting frame, and the first telescopic member is connected between the conveyor belt and the mounting frame;

the first telescoping member is extendable or retractable to drive the conveyor belt to pivot relative to the mounting bracket.

4. The feed vehicle of claim 3, wherein the conveyor belt assembly further comprises a baffle assembly disposed at the infeed end of the conveyor belt.

5. The feeding vehicle of claim 2, wherein the drive assembly comprises a slewing support bearing, a drive gear and a drive motor;

the slewing support bearing comprises a bearing inner ring and a bearing outer ring, a driven gear is formed on the outer wall of the bearing outer ring, the bearing inner ring is rotatably connected with the bearing outer ring, the bearing inner ring is fixedly connected with the vehicle body assembly, and the bearing outer ring is fixedly connected with the mounting frame;

the driving motor can drive the driving gear to rotate, and the driving gear is meshed with the driven gear to drive the conveying belt assembly to rotate relative to the vehicle body assembly.

6. The feed vehicle of claim 5, wherein the hopper assembly comprises a hopper, a gate, and a second telescoping member;

the material door is hinged at an outlet of the hopper, and the second telescopic component is connected between the material door and the mounting frame;

the second telescopic member can be lengthened or shortened to drive the material door to pivot relative to the hopper.

7. The feeder vehicle of claim 6, wherein the hopper assembly further comprises a vibrator coupled to the hopper to drive the hopper into vibration.

8. The feeding vehicle of claim 1, wherein the vehicle body assembly comprises a vehicle body, a braking member and a driving member;

the driving piece is arranged on the vehicle body and used for driving the vehicle body to move;

the braking member is arranged on the vehicle body and used for stopping the vehicle body from moving.

9. A pipe casting system, comprising:

a feeding platform and a feeding vehicle as claimed in any one of claims 1 to 8, the feeding vehicle being arranged on the feeding platform;

the stirring station is used for stirring materials and conveying the materials to a hopper of the feeding vehicle;

and the pipeline pouring mold is arranged on the side of the feeding platform.

10. The pipe casting system of claim 9,

the pipeline casting mould comprises a first pipeline casting mould and a second pipeline casting mould, and the first pipeline casting mould and the second pipeline casting mould are respectively arranged on two sides of the feeding platform.

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