CN114212568A - Cloth shaping equipment for automobile loading station - Google Patents

Abstract

The invention provides a cloth shaping device for an automobile loading station, and relates to the technical field of bulk cargo loading equipment. The cloth shaping equipment for the automobile loading station comprises a guide column, a main frame, a hydraulic winch, a guide wheel set, a chain type scraper assembly, a shaping oil cylinder and a side pressing mechanism. According to the distributing shaping equipment for the automobile loading station, materials flow out of the distributing opening and fall into the hopper of the automobile, the materials are stacked on the hopper of the automobile to form a hill-shaped material pile, the materials at the material pile are pushed and scattered by the push plate on the chain type scraper assembly, the hopper is uniformly filled with the materials, and the distributing efficiency is high; after the cloth is accomplished, level and smooth through the top arrangement of push pedal with the material, simultaneously, the flexible end of plastic hydro-cylinder is in order to drive the clamp plate downward hunting for the stiff end extension, and the clamp plate inwards extrudees the both sides of material and the arrangement is leveled, makes the material cross-section in the car hopper keep for trapezoidal to the realization is to the compaction plastic of material, is convenient for cover parcel dustcoat in order to avoid in the transportation material to scatter on the material.

Description

Cloth shaping equipment for automobile loading station

Technical Field

The invention relates to the technical field of bulk cargo loading equipment, in particular to a cloth shaping device for an automobile loading station.

Background

The distributing device of the current loading station is mainly used for distributing materials to a train carriage, and the distributing device is generally designed into a chute capable of swinging, so that the uniform distribution of the train carriage can be basically realized. But with the cloth device direct use for the cloth of car hopper at present loading station, the length specification of car hopper is different, and car hopper length is generally longer than the train carriage, is difficult to with the even cloth of car hopper, generally adopts the terminal material end of strickleing off of chute in addition after accomplishing the cloth.

Chinese patent publication No. CN212739912U discloses a swing chute with an auxiliary discharge gate, wherein the auxiliary discharge gate is arranged at a position of the chute in the moving direction of a train, when the chute discharges a section of carriage to the last stage and approaches a rear side plate of the carriage, the chute is lifted, the auxiliary discharge gate is opened, and the material flows out from the auxiliary gate, so that the material flows to the rear part of the carriage, thereby basically realizing uniform distribution of the carriage of the train. However, when the car hopper is significantly longer than the train car, it is also difficult for the swing chute to distribute the car hopper evenly.

Disclosure of Invention

The invention aims to provide a material distribution shaping device for an automobile loading station, which aims to solve the technical problems that the conventional material distribution device cannot uniformly distribute materials on an automobile hopper and the shaping effect on the materials after the materials are distributed is poor.

In order to achieve the above purpose, the technical solution adopted by the invention is as follows:

a cloth shaping device for an automobile loading station comprises a guide column, a main frame, a hydraulic winch, a guide wheel set, a chain type scraper assembly, a shaping oil cylinder and a side pressing mechanism;

the guide columns extend longitudinally, the main frame is connected with the guide columns in a sliding mode, and the main frame can slide longitudinally relative to the guide columns;

a hydraulic winch and a guide wheel set are arranged on the tower frame, a winding drum of the hydraulic winch is positioned above one end of the main frame, the guide wheel set is positioned above the other end of the main frame, a first rope and a second rope are wound on the winding drum of the hydraulic winch, the tail end of the first rope is connected with one end of the main frame, the second rope penetrates through the guide wheel set, and the tail end of the second rope is connected with the other end of the main frame;

the winding drum of the hydraulic winch rotates forwards or reversely so as to drive the main frame to slide upwards or downwards relative to the guide post through the first rope and the second rope;

a material distribution port is formed in the middle of the main frame;

the main frame is provided with a chain type scraper assembly, and the chain type scraper assembly is arranged along the extension direction of the main frame;

the left side and the right side of the main frame are both provided with a shaping oil cylinder and a side pressure mechanism, and the telescopic end of the shaping oil cylinder can drive the side pressure mechanism to swing downwards or reset.

Preferably, the chain scraper assembly comprises a hydraulic motor assembly, a driving chain wheel, a driven chain wheel, a chain and a push plate; the driving chain wheel rotates to be connected to the other end of the main frame, the hydraulic motor assembly is in power connection with the driving chain wheel, the driven chain wheel rotates to be connected to one end of the main frame, the chain is connected between the driving chain wheel and the driven chain wheel, and a plurality of push plates are arranged on the chain at intervals.

Preferably, the main frame is provided with a hollow structure along the extension direction of the main frame and in the central axis area of the main frame, and the push plate transversely penetrates through the hollow structure.

Preferably, the left side and the right side of the other end of the main frame are respectively and rotatably connected with a driving chain wheel, and the left side and the right side of one end of the main frame are respectively and rotatably connected with a driven chain wheel; a chain is connected between the driving chain wheel and the driven chain wheel on the left side of the main frame, another chain is connected between the driving chain wheel and the driven chain wheel on the right side of the main frame, one end of the push plate is connected with the chain on the left side of the main frame, and the other end of the push plate is connected with the chain on the right side of the main frame.

Preferably, the cloth shaping device further comprises a bottom material limiting mechanism, the bottom material limiting mechanism comprises a material limiting baffle and a pushing hydraulic cylinder, the material limiting baffle is connected to one end of the main frame in a sliding mode, the pushing hydraulic cylinder is connected between the material limiting baffle and the main frame, the material limiting baffle can stretch out or retract towards the other end direction of the main frame under the driving of the pushing hydraulic cylinder, and when the material limiting baffle stretches out towards the other end direction of the main frame, the material limiting baffle blocks part of the hollow structure.

Preferably, the side pressing mechanism is a pressing plate, the pressing plate is arranged along the extending direction of the main frame, and the upper end of the pressing plate is hinged with the main frame through a first hinge; the fixed end of the shaping oil cylinder is hinged with the main frame through a second hinge, and the telescopic end of the shaping oil cylinder is hinged with the outer side wall of the pressing plate through a third hinge; the telescopic end of the shaping oil cylinder extends relative to the fixed end to drive the pressing plate to swing downwards, and the telescopic end of the shaping oil cylinder retracts relative to the fixed end to drive the pressing plate to reset upwards.

Preferably, the number of the first ropes is two, the tail end of one first rope is connected to the left side of one end of the main frame, and the tail end of the other first rope is connected to the right side of one end of the main frame; the two second ropes are also arranged, the tail end of one second rope is connected with the left side of the other end of the main frame, and the tail end of the other second rope is connected with the right side of the other end of the main frame.

Preferably, still include locking mechanism, locking mechanism includes locking pneumatic cylinder and locking flashboard, be provided with the sliding sleeve on the main frame, guide post sliding connection is inside the sliding sleeve, the locking pneumatic cylinder assembles on the sliding sleeve, and the flexible end of locking pneumatic cylinder assembles the locking flashboard, and the flexible end of locking pneumatic cylinder extends for the stiff end and laminates in order to drive the locking flashboard the guide post.

The beneficial technical effects of the invention are as follows:

according to the distributing shaping equipment for the automobile loading station, materials flow out of the distributing opening and fall into the hopper of the automobile, the materials are stacked on the hopper of the automobile to form a hill-shaped material pile, the materials at the material pile are pushed and scattered by the push plate on the chain type scraper assembly, the hopper is uniformly filled with the materials, and the distributing efficiency is high; after the material is distributed, the top of the material is arranged to be flat through the push plate, meanwhile, the telescopic end of the shaping oil cylinder extends relative to the fixed end to drive the pressing plate to swing downwards, the pressing plate extrudes the two sides of the material inwards and arranges the material to be flat, so that the cross section of the material in the hopper is kept to be trapezoidal, the material is compacted and shaped, and the material is conveniently covered with the wrapping outer cover to avoid the material from scattering in the transportation process; the vehicle is in a static state in the material distribution process, so that the operations of frequent starting and stopping, repeated shunting and correction and the like in the vehicle loading process are avoided, and the loading efficiency of the loading station is greatly improved.

Drawings

FIG. 1 is a schematic structural diagram of a cloth shaping device arranged at a loading station for an automobile loading station according to an embodiment of the invention;

FIG. 2 is a front view of the cloth shaping apparatus for the car loading station according to the embodiment of the present invention;

FIG. 3 is a right side view of the cloth shaping apparatus for a truck loading station of an embodiment of the present invention with the hydraulic winch and the guide wheel set removed;

fig. 4 is a top view of the cloth shaping apparatus for an automobile loading station according to the embodiment of the present invention, in which the hydraulic winch and the guide wheel set are removed.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail below with reference to the accompanying drawings in combination with the specific embodiments. Certain embodiments of the invention now will be described more fully hereinafter with reference to the accompanying drawings, in which some, but not all embodiments of the invention are shown. Indeed, various embodiments of the invention may be embodied in many different forms and should not be construed as limited to the embodiments set forth herein; rather, these embodiments are provided so that this disclosure will satisfy applicable legal requirements.

In the description of the present invention, it should be noted that the terms "inside", "outside", "upper", "lower", "front", "rear", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In an embodiment of the present invention, a cloth shaping device for an automobile loading station is provided, please refer to fig. 1 to 4.

The utility model provides a car loading station is with cloth plastic equipment, includes guide post 1, main frame 2, hydraulic winch 3, direction wheelset 4, chain scraper assembly, plastic hydro-cylinder 6, side pressure mechanism 7, locking mechanism and bottom limit material mechanism.

Four guide posts 1 extend longitudinally, a main frame 2 is connected with the guide posts 1 in a sliding mode, and the main frame 2 can slide longitudinally relative to the guide posts 1.

The locking mechanism comprises a locking hydraulic cylinder 81 and a locking gate 82, four support legs are arranged on the main frame 2, a sliding sleeve 21 is arranged on each support leg, and the guide column 1 is slidably connected inside the sliding sleeve 21. The locking hydraulic cylinder 81 is assembled on the sliding sleeve 21, and the telescopic end of the locking hydraulic cylinder 81 is assembled with the locking gate plate 82. After the main frame 2 is lifted and adjusted to a set height, the telescopic end of the locking hydraulic cylinder 81 is extended relative to the fixed end to drive the locking gate plate 82 to be attached to the guide column 1, so that the main frame 2 is locked relative to the guide column 1.

The main control unit is connected with the locking hydraulic cylinder 81 through an electro-hydraulic servo system, and the main control unit controls the extension or retraction of the telescopic end of the locking hydraulic cylinder 81.

The tower 101 is provided with a hydraulic winch 3 and a guide wheel set 4, a winding drum of the hydraulic winch 3 is positioned above one end of the main frame 2, and the guide wheel set 4 is positioned above the other end of the main frame 2. A first rope 31 and a second rope 32 are wound around the drum of the hydraulic winch 3, the end of the first rope 31 is connected to one end of the main frame 2, the second rope 32 passes through the guide wheel set 4, and the end of the second rope 32 is connected to the other end of the main frame 2.

The first ropes 31 are provided in two, and the tip of one first rope 31 is attached to the left side of one end of the main frame 2, and the tip of the other first rope 31 is attached to the right side of one end of the main frame 2. The second ropes 32 are also provided in two, and one end of the second rope 32 is attached to the left side of the other end of the main frame 2, and the other end of the second rope 32 is attached to the right side of the other end of the main frame 2. Four ropes are respectively used for hanging the positions of four corners of the main frame 2 so as to stably drive the main frame 2 to lift.

The drum of the hydraulic winch 3 rotates forward or backward to drive the main frame 2 to slide upward or downward relative to the guide post 1 through the first and second ropes 31 and 32, so as to drive the main frame 2 to lift. The main frame 2 is raised to enable the vehicle 105 to enter the space between the main frame 2 and the ground, and after the vehicle 105 enters the space, the main frame 2 is lowered to enable the cloth opening 22 on the main frame 2 to be close to the hopper of the vehicle 105.

The control end of the hydraulic winch 3 is connected with the main control unit through a signal cable, and the main control unit controls the start and stop of the hydraulic winch 3 and the forward or reverse rotation of the winding drum.

The upper end of the telescopic material guide chute 102 is connected with a transition material guide chute 103, and a quantitative bin 104 is arranged above the transition material guide chute 103. After the quantitative bin 104 finishes weighing the materials in the quantitative bin, the materials in the quantitative bin 104 flow out and fall into the transition material guide chute 103, and continue to flow out and fall into the telescopic material guide chute 102. A material distribution port 22 is formed in the middle of the main frame 2, and the material distribution port 22 is connected with the lower end of the telescopic material guide chute 102. The material in the telescopic chute 102 flows out of the distribution opening 22 and falls into the hopper of the vehicle 105.

The main frame 2 is provided with a chain type scraper assembly which is arranged along the extending direction of the main frame 2. Specifically, the chain squeegee assembly includes a hydraulic motor assembly 51, a drive sprocket 52, a driven sprocket 53, a chain 54, and a push plate 55. The driving chain wheel 52 is rotatably connected to the other end of the main frame 2 through a driving rotating shaft, the hydraulic motor assembly 51 is in power connection with the driving rotating shaft through a transmission mechanism (a coupler and the like) so as to drive the driving chain wheel 52 to rotate, the driven chain wheel 53 is rotatably connected to one end of the main frame 2 through the driven rotating shaft, the chain 54 is connected between the driving chain wheel 52 and the driven chain wheel 53, and a plurality of push plates 55 are arranged on the chain 54 at equal intervals.

The driving sprocket 52 rotates to drive the chain 54 to run between the driving sprocket 52 and the driven sprocket 53, and the pushing plate 55 on the chain 54 moves along with the chain 54.

The control end of the hydraulic motor assembly 51 is connected to the main control unit through a signal cable, and the main control unit controls the start and stop and forward or reverse rotation of the hydraulic motor assembly 51.

The central axis region of the main frame 2 is set as a hollow structure a, the hollow structure a is arranged on the main frame 2 along the extending direction of the main frame 2, and in this embodiment, the hollow structure a is located at two side positions of the material distribution port 22. Specifically, the left side and the right side of the other end of the main frame 2 are respectively and rotatably connected with a driving chain wheel 52, the two driving chain wheels 52 rotate synchronously, the left side and the right side of one end of the main frame 2 are respectively and rotatably connected with a driven chain wheel 53, and the two driven chain wheels 53 rotate synchronously; a chain 54 is connected between the driving chain wheel 52 and the driven chain wheel 53 on the left side of the main frame 2, another chain 54 is connected between the driving chain wheel 52 and the driven chain wheel 53 on the right side of the main frame 2, one end of the push plate 55 is connected with the chain 54 on the left side of the main frame 2, the other end of the push plate 55 is connected with the chain 54 on the right side of the main frame 2, and the push plate 55 crosses the hollow structure a.

The bulk material flows out of the distribution port 22 and falls into the hopper of the vehicle 105, and is accumulated as a hill-like pile in the hopper of the vehicle 105. The push plate 55 moves along with the chain 54, and the push plate 55 can push and disperse materials at the material pile, so that the materials are uniformly distributed in the hopper. It should be noted that the hydraulic motor assembly 51 can drive the driving sprocket 52 to rotate forward or backward, so that the push plate 55 moves forward or backward along with the chain 54, and further the material can be pushed forward or backward to be dispersed. In addition, because of the regional hollow out construction A that sets up of axis of main frame 2, push pedal 55 crosses hollow out construction A, at the operation in-process, can make the latter half chain 54 bury the material and pile in to improve push pedal 55 and pass the efficiency that scatters with the material of material pile department.

The bottom material limiting mechanism comprises a material limiting baffle 91 and a pushing hydraulic cylinder 92, and the material limiting baffle 91 is connected to one end of the main frame 2 in a sliding mode. A pushing hydraulic cylinder 92 is connected between the material limiting baffle 91 and the main frame 2, and the material limiting baffle 91 can extend out or retract towards the other end of the main frame 2 under the driving of the pushing hydraulic cylinder 92. When the material limiting baffle 91 extends out towards the other end of the main frame 2, the material limiting baffle 91 blocks a part of the hollow structure A close to one end of the main frame 2.

The main control unit is connected with the pushing hydraulic cylinder 92 through an electro-hydraulic servo system, and the extension or retraction of the telescopic end of the pushing hydraulic cylinder 92 is controlled by the main control unit.

When the length of the main frame 2 is greater than the length of a hopper of the vehicle 105, the bottom material limiting mechanism acts to enable the material limiting baffle 91 to extend out towards the other end of the main frame 2, and the material limiting baffle 91 blocks a part of the hollow structure A close to one end of the main frame 2. So, when push pedal 55 passed the material with material heap department and scatters, avoid advancing the material to the car hopper outside.

The left side and the right side of the main frame 2 are both provided with a shaping oil cylinder 6 and a side pressure mechanism 7, and the telescopic end of the shaping oil cylinder 6 can drive the side pressure mechanism 7 to swing downwards or reset. Specifically, the side pressing mechanism 7 is provided as a pressing plate, the pressing plate is of a strip-shaped structure, the pressing plate is arranged along the extension direction of the main frame 2, and the upper end of the pressing plate is connected with the main frame 2 through a first hinge 71; the fixed end of the shaping oil cylinder 6 is hinged with the main frame 2 through a second hinge 72, and the telescopic end of the shaping oil cylinder 6 is hinged with the outer side wall of the pressing plate through a third hinge 73. The telescopic end of the shaping oil cylinder 6 extends relative to the fixed end to drive the pressing plate to swing downwards, and the telescopic end of the shaping oil cylinder 6 retracts relative to the fixed end to drive the pressing plate to reset upwards.

The main control unit is connected with the shaping oil cylinder 6 through an electro-hydraulic servo system, and the main control unit controls the extension or retraction of the telescopic end of the shaping oil cylinder 6.

After the hopper of the vehicle 105 is completely distributed, the top of the material is arranged to be flat through the push plate 55, meanwhile, the telescopic end of the shaping oil cylinder 6 extends relative to the fixed end to drive the pressing plate to swing downwards, the two sides of the material are inwards extruded and arranged to be flat through the pressing plate, so that the cross section of the material in the hopper is kept to be trapezoidal, and the material is compacted and shaped.

Up to this point, the present embodiment has been described in detail with reference to the accompanying drawings. From the above description, those skilled in the art should clearly recognize the cloth shaping apparatus for an automobile loading station of the present invention. According to the distributing shaping equipment for the automobile loading station, materials flow out of the distributing opening 22 and fall into the hopper of the vehicle 105, the hopper of the vehicle 105 is stacked into a hill-shaped material pile, the materials at the material pile are pushed and scattered by the push plate 55 on the chain type scraper assembly, the hopper is uniformly distributed with the materials, and the distributing efficiency is high; after the material is distributed, the top of the material is arranged to be flat through the push plate 55, meanwhile, the telescopic end of the shaping oil cylinder 6 extends relative to the fixed end to drive the pressing plate to swing downwards, the pressing plate extrudes the two sides of the material inwards and arranges the material to be flat, so that the cross section of the material in the hopper is kept to be trapezoidal, the material is compacted and shaped, and the material is conveniently covered with a wrapping outer cover to avoid the material from scattering in the transportation process; the vehicle 105 is in a static state in the material distribution process, so that the operations of frequent starting and stopping, repeated shunting correction and the like in the loading process of the vehicle 105 are avoided, and the loading efficiency of the loading station is greatly improved.

The above-mentioned embodiments are intended to illustrate the objects, technical solutions and advantages of the present invention in further detail, and it should be understood that the above-mentioned embodiments are only exemplary embodiments of the present invention, and are not intended to limit the present invention, and any modifications, equivalents, improvements and the like made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. The utility model provides a car loading is cloth plastic equipment for station which characterized in that: the hydraulic side-pressing device comprises a guide post, a main frame, a hydraulic winch, a guide wheel set, a chain type scraper assembly, a shaping oil cylinder and a side-pressing mechanism;

the guide columns extend longitudinally, the main frame is connected with the guide columns in a sliding mode, and the main frame can slide longitudinally relative to the guide columns;

a hydraulic winch and a guide wheel set are arranged on the tower frame, a winding drum of the hydraulic winch is positioned above one end of the main frame, the guide wheel set is positioned above the other end of the main frame, a first rope and a second rope are wound on the winding drum of the hydraulic winch, the tail end of the first rope is connected with one end of the main frame, the second rope penetrates through the guide wheel set, and the tail end of the second rope is connected with the other end of the main frame;

the winding drum of the hydraulic winch rotates forwards or reversely so as to drive the main frame to slide upwards or downwards relative to the guide post through the first rope and the second rope;

a material distribution port is formed in the middle of the main frame;

the main frame is provided with a chain type scraper assembly, and the chain type scraper assembly is arranged along the extension direction of the main frame;

the left side and the right side of the main frame are both provided with a shaping oil cylinder and a side pressure mechanism, and the telescopic end of the shaping oil cylinder can drive the side pressure mechanism to swing downwards or reset.

2. The cloth shaping device for the automobile loading station according to claim 1, wherein: the chain type scraper assembly comprises a hydraulic motor assembly, a driving chain wheel, a driven chain wheel, a chain and a push plate; the driving chain wheel rotates to be connected to the other end of the main frame, the hydraulic motor assembly is in power connection with the driving chain wheel, the driven chain wheel rotates to be connected to one end of the main frame, the chain is connected between the driving chain wheel and the driven chain wheel, and a plurality of push plates are arranged on the chain at intervals.

3. The cloth shaping device for the automobile loading station according to claim 2, wherein: the main frame is provided with a hollow structure along the extension direction of the main frame and in the central axis area of the main frame, and the push plate transversely penetrates through the hollow structure.

4. The cloth shaping device for the automobile loading station according to claim 3, wherein: the left side and the right side of the other end of the main frame are respectively and rotatably connected with a driving chain wheel, and the left side and the right side of one end of the main frame are respectively and rotatably connected with a driven chain wheel; a chain is connected between the driving chain wheel and the driven chain wheel on the left side of the main frame, another chain is connected between the driving chain wheel and the driven chain wheel on the right side of the main frame, one end of the push plate is connected with the chain on the left side of the main frame, and the other end of the push plate is connected with the chain on the right side of the main frame.

5. The cloth shaping device for the automobile loading station according to claim 3, wherein: the cloth shaping device further comprises a bottom material limiting mechanism, the bottom material limiting mechanism comprises a material limiting baffle and a pushing hydraulic cylinder, the material limiting baffle is connected to one end of the main frame in a sliding mode, the pushing hydraulic cylinder is connected between the material limiting baffle and the main frame, the material limiting baffle can stretch out or retract towards the other end direction of the main frame under the driving of the pushing hydraulic cylinder, and when the material limiting baffle stretches out towards the other end direction of the main frame, the material limiting baffle blocks part of a hollow structure.

6. The cloth shaping device for the automobile loading station according to claim 1, wherein: the side pressing mechanism is arranged as a pressing plate, the pressing plate is arranged along the extension direction of the main rack, and the upper end of the pressing plate is hinged with the main rack through a first hinge; the fixed end of the shaping oil cylinder is hinged with the main frame through a second hinge, and the telescopic end of the shaping oil cylinder is hinged with the outer side wall of the pressing plate through a third hinge; the telescopic end of the shaping oil cylinder extends relative to the fixed end to drive the pressing plate to swing downwards, and the telescopic end of the shaping oil cylinder retracts relative to the fixed end to drive the pressing plate to reset upwards.

7. The cloth shaping device for the automobile loading station according to claim 1, wherein: the tail end of one first rope is connected with the left side of one end of the main frame, and the tail end of the other first rope is connected with the right side of one end of the main frame; the two second ropes are also arranged, the tail end of one second rope is connected with the left side of the other end of the main frame, and the tail end of the other second rope is connected with the right side of the other end of the main frame.

8. The cloth shaping device for the automobile loading station according to claim 1, wherein: still include locking mechanism, locking mechanism includes locking pneumatic cylinder and locking flashboard, be provided with the sliding sleeve on the main frame, guide post sliding connection is inside the sliding sleeve, the locking pneumatic cylinder assembles on the sliding sleeve, and the flexible end of locking pneumatic cylinder assembles the locking flashboard, and the flexible end of locking pneumatic cylinder extends in order to drive the laminating of locking flashboard for the stiff end the guide post.

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