CN209810106U

CN209810106U - Three-hopper batch truck

Info

Publication number: CN209810106U
Application number: CN201920419026.8U
Authority: CN
Inventors: 谢文彬; 王兴
Original assignee: Jiangsu De Born Industrial Technology Co Ltd
Current assignee: Jiangsu De Born Industrial Technology Co Ltd
Priority date: 2019-03-29
Filing date: 2019-03-29
Publication date: 2019-12-20
Anticipated expiration: 2029-03-29

Abstract

A three-bucket batch truck is characterized in that a frame-shaped support is arranged at the upper part of a traveling truck body, three material collecting bins are arranged in the frame-shaped support at intervals along the length direction of the frame-shaped support, and the material collecting bins are connected with the frame-shaped support through a plurality of weighing sensors uniformly connected to the middle part of the material collecting bins in the circumferential direction; the top and the bottom of the material collecting bin are respectively provided with a feed inlet and a discharge outlet which are positioned at the upper end and the lower end of the frame-shaped bracket and are communicated with the inner cavity of the frame-shaped bracket, the upper end of the feed inlet and the lower end of the discharge outlet are respectively connected with an upper telescopic hose and a lower telescopic hose, and an electric control discharge valve is arranged in the discharge outlet; the upper end of the upper flexible hose and the lower end of the lower flexible hose are respectively connected with a feeding pipeline and a discharging pipeline, and the outer side of the upper end of the feeding pipeline and the outer side of the lower end of the discharging pipeline are respectively and fixedly connected with an upper annular positioning plate and a lower annular positioning plate; this batch truck has three collection feed bin, can avoid the direct mixed loading of multiple material at the in-process of receiving the material, and in addition, collection feed bin is provided with weighing sensor, can realize feeding and the accurate control of the in-process of unloading.

Description

Three-hopper batch truck

Technical Field

The utility model relates to a three-hopper batch truck.

Background

The dry material need be in the same place multiple material proportional mixing when mixing preparation, carries the in-process of material transport mixing, at first, accepts the material from proportioning bins through the proportioning bins, and this in-process, if there are multiple material, need move the proportioning bins to different positions in order to receive different materials, carry out the mixing operation with the material refilling to the feed inlet of agitator after the receipt finishes. The existing proportioning vehicle is generally provided with only one material collecting bin, so that only multiple materials can be mixed in the material receiving process, and the accurate control of proportioning is not facilitated; in addition, the aggregate bin in the existing proportioning vehicle does not have a bearing function, and the feeding amount and the discharging amount cannot be accurately mastered in the loading and unloading process.

Disclosure of Invention

Problem to above-mentioned prior art exists, the utility model provides a three fill batch trucks, this batch truck have three album feed bin, can avoid the direct mixed loading of multiple material at the in-process of receiving the material, in addition, the collection feed bin is provided with weighing sensor, can realize feeding and the accurate control of the in-process of unloading.

The utility model provides a three-bucket batch truck, which comprises a traveling truck body, wherein the lower part of the traveling truck body is provided with a roller, the upper part of the traveling truck body is provided with a frame-shaped support, three material collecting bins are arranged in the frame-shaped support at intervals along the length direction of the frame-shaped support, and the material collecting bins are connected with the frame-shaped support through a plurality of weighing sensors uniformly connected to the middle part of the frame-shaped support in the circumferential direction; the outer side of the upper part and the outer side of the lower part of the bin body of the material collecting bin are respectively hinged with the lower end of the first electric telescopic rod and the upper end of the second electric telescopic rod, the top and the bottom of the material collecting bin are respectively provided with a feeding port and a discharging port which are positioned at the upper end and the lower end of the frame-shaped support and are communicated with the inner cavity of the frame-shaped support, the upper end of the feeding port and the lower end of the discharging port are respectively connected with an upper telescopic hose and a lower telescopic hose; the upper end of the upper flexible hose and the lower end of the lower flexible hose are respectively connected with a feeding pipeline and a discharging pipeline, and the outer side of the upper end of the feeding pipeline and the outer side of the lower end of the discharging pipeline are respectively and fixedly connected with an upper annular positioning plate and a lower annular positioning plate; the upper end of the first electric telescopic rod and the lower end of the second electric telescopic rod are respectively hinged with the outer end of the upper rotating frame and the outer end of the lower rotating frame;

the upper end of the frame-shaped support is fixedly connected with three upper auxiliary supports at positions corresponding to the three material collecting bins respectively, the lower end of the frame-shaped support is fixedly connected with three lower auxiliary supports at positions corresponding to the three material collecting bins respectively, and each upper auxiliary support and each lower auxiliary support are correspondingly arranged on the outer side of each feeding pipeline and each discharging pipeline respectively; the upper auxiliary support and the lower auxiliary support are fixedly connected with a vertical upper guide sleeve and a vertical lower guide sleeve respectively at positions close to the upper annular positioning plate and the lower annular positioning plate, and the lower end of the upper annular positioning plate and the upper end of the lower annular positioning plate are fixedly connected with an upper guide rod and a lower guide rod which are inserted into the upper guide sleeve and the lower guide sleeve in a sliding manner respectively;

the middle parts of the upper rotating frame and the lower rotating frame are respectively hinged with the corresponding upper auxiliary support and the lower auxiliary support, and the inner ends of the upper rotating frame and the lower rotating frame are respectively movably connected with the lower part of the corresponding upper annular positioning plate and the upper part of the corresponding lower annular positioning plate so as to drive the upper annular positioning plate and the lower annular positioning plate to move in the longitudinal direction;

an electric cabinet is arranged on one side of the frame-shaped support at the upper part of the walking vehicle body, and the electric cabinet is respectively connected with the first electric telescopic rod, the second electric telescopic rod and the electric control discharge valve.

In the technical scheme, three material collecting bins are arranged on the walking vehicle body and can respectively receive three materials, and meanwhile, each material collecting bin is connected with the frame-shaped bracket through a weighing sensor, so that accurate weighing can be realized in the processes of receiving the materials and discharging the materials; the lifting of the upper annular positioning plate in the longitudinal direction can be controlled through the upper rotating frame through the extension and retraction of the first electric telescopic rod, so that the upper annular positioning plate can be conveniently butted with and separated from a butt joint plate on the proportioning bin; through the flexible lift that can come control annular locating plate vertical down of second electric telescopic handle through lower revolving rack to can conveniently arrange the entrance of mixer with the material. The sliding fit of the upper guide rod and the upper guide sleeve can ensure that the upper annular positioning plate only displaces in the longitudinal direction. The sliding fit of the lower guide rod and the lower guide sleeve can ensure that the lower annular positioning plate only displaces in the longitudinal direction.

Furthermore, in order to reduce the pollution to the environment in the batching process, the batching device further comprises a dust remover, and the inlets of the dust remover are respectively communicated with the upper parts of the inner cavities of the three collecting bins through pipelines.

Furthermore, in order to realize the continuous descending of the materials and avoid the adhesion of the materials on the inner side wall of the material collecting bin, a stirring frame is further arranged on the lower side inside the material collecting bin, a scraping plate in clearance fit with the inner side wall of the material collecting bin is arranged at the outer end edge of the stirring frame, a driving shaft is connected to the center of the stirring frame, the driving shaft is connected with an output part of a reduction gearbox arranged in the middle of the inner side of the material collecting bin, the reduction gearbox is fixedly connected with the inner side wall of the material collecting bin through a radially arranged connecting rod, the input part of the reduction gearbox is connected with a radially arranged driving shaft, and the driving shaft rotatably penetrates through the material collecting bin and; the stirring motor is connected with the electric cabinet.

Further, for better realizing the continuous decline of material, the lower extreme of aggregate bin is the frustum type of inversion, and in the lateral surface fixedly connected with vibrating motor of frustum type, vibrating motor is connected with the electric cabinet.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is an enlarged view of portion A of FIG. 1;

FIG. 3 is an enlarged view of portion B of FIG. 1;

FIG. 4 is a top view of FIG. 1;

fig. 5 is a left side view of fig. 1.

In the figure: 1. the walking vehicle body, 2, the gyro wheel, 3, the frame shape support, 4, the aggregate bin, 5, go up the expansion hose, 6, lower expansion hose, 7, the feed line, 8, the ejection of compact pipeline, 9, go up annular locating plate, 10, lower annular locating plate, 11, go up auxiliary stand, 12, lower auxiliary stand, 13, go up guide sleeve, 14, lower guide sleeve, 15, go up the guide bar, 16, lower guide bar, 17, weighing sensor, 18, first electric telescopic handle, 19, second electric telescopic handle, 20, go up the swivel mount, 21, lower swivel mount, 22, the electric cabinet, 23, the dust remover, 24, the agitator, 25, the reducing gear box, 26, agitator motor, 27, the drive shaft, 28, the transmission shaft, 29, the scraper blade, 30, vibrating motor.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings.

As shown in fig. 1 to 5, a three-bucket batching truck comprises a traveling truck body 1, wherein the lower part of the traveling truck body is provided with rollers 2, the upper part of the traveling truck body 1 is provided with a frame-shaped support 3, three material collecting bins 4 are arranged in the frame-shaped support 3 at intervals along the length direction of the frame-shaped support, and the material collecting bins 4 are connected with the frame-shaped support 3 through a plurality of weighing sensors 17 uniformly connected to the middle part of the frame-shaped support in the circumferential direction; the outer side of the upper part and the outer side of the lower part of the bin body of the material collecting bin 4 are respectively hinged with the lower end of a first electric telescopic rod 18 and the upper end of a second electric telescopic rod 19, the top and the bottom of the material collecting bin 4 are respectively provided with a feeding hole and a discharging hole which are positioned at the upper end and the lower end of a frame-shaped support 3 and communicated with the inner cavity of the frame-shaped support, the upper end of the feeding hole and the lower end of the discharging hole are respectively connected with an upper telescopic hose 5 and a lower telescopic hose 6, and an; the upper end of the upper telescopic hose 5 and the lower end of the lower telescopic hose 6 are respectively connected with a feeding pipeline 7 and a discharging pipeline 8, and the outer side of the upper end of the feeding pipeline 7 and the outer side of the lower end of the discharging pipeline 8 are respectively and fixedly connected with an upper annular positioning plate 9 and a lower annular positioning plate 10; the upper end of the first electric telescopic rod 18 and the lower end of the second electric telescopic rod 19 are respectively hinged with the outer end of the upper rotating frame 20 and the outer end of the lower rotating frame 21;

the upper end of the frame-shaped support 3 is fixedly connected with three upper auxiliary supports 11 at positions corresponding to the three material collecting bins 4 respectively, the lower end of the frame-shaped support 3 is fixedly connected with three lower auxiliary supports 12 at positions corresponding to the three material collecting bins 4 respectively, and each upper auxiliary support 11 and each lower auxiliary support 12 are correspondingly arranged at the outer side of each feeding pipeline 7 and each discharging pipeline 8 respectively; the upper auxiliary support 11 and the lower auxiliary support 12 are fixedly connected with a vertical upper guide sleeve 13 and a vertical lower guide sleeve 14 at positions close to the upper annular positioning plate 9 and the lower annular positioning plate 10 respectively, and the lower end of the upper annular positioning plate 9 and the upper end of the lower annular positioning plate 10 are fixedly connected with an upper guide rod 15 and a lower guide rod 16 which are inserted into the upper guide sleeve 13 and the lower guide sleeve 14 in a sliding manner respectively;

the middle parts of the upper rotating frame 20 and the lower rotating frame 21 are respectively hinged with the corresponding upper auxiliary support 11 and the lower auxiliary support 12, and the inner ends of the upper rotating frame 20 and the lower rotating frame 21 are respectively movably connected with the lower part of the corresponding upper annular positioning plate 9 and the upper part of the corresponding lower annular positioning plate 10 so as to drive the upper annular positioning plate 9 and the lower annular positioning plate 10 to move in the longitudinal direction;

an electric cabinet 22 is arranged on one side of the frame-shaped support 3 at the upper part of the walking vehicle body 1, and the electric cabinet 22 is respectively connected with the first electric telescopic rod 18, the second electric telescopic rod 19 and the electric control discharge valve.

Three material collecting bins are arranged on the walking vehicle body and can respectively receive three materials, and meanwhile, each material collecting bin is connected with the frame-shaped bracket through a weighing sensor, so that accurate weighing can be realized in the processes of receiving the materials and discharging the materials; the lifting of the upper annular positioning plate in the longitudinal direction can be controlled through the upper rotating frame through the extension and retraction of the first electric telescopic rod, so that the upper annular positioning plate can be conveniently butted with and separated from a butt joint plate on the proportioning bin; through the flexible lift that can come control annular locating plate vertical down of second electric telescopic handle through lower revolving rack to can conveniently arrange the entrance of mixer with the material. The sliding fit of the upper guide rod and the upper guide sleeve can ensure that the upper annular positioning plate only displaces in the longitudinal direction. The sliding fit of the lower guide rod and the lower guide sleeve can ensure that the lower annular positioning plate only displaces in the longitudinal direction.

In order to reduce the pollution to the environment in the batching process, the batching device further comprises a dust remover 23, and the inlets of the dust remover 23 are respectively communicated with the upper parts of the inner cavities of the three collecting bins 4 through pipelines.

In order to realize continuous descending of materials and avoid the adhesion of the materials on the inner side wall of the material collecting bin, a stirring frame 24 is further arranged on the lower side inside the material collecting bin 4, a scraping plate 29 in clearance fit with the inner side wall of the material collecting bin 4 is arranged at the outer end of the stirring frame 24, a driving shaft 27 is connected to the center of the stirring frame 24, the driving shaft 27 is connected with an output part of a reduction gearbox 25 arranged in the middle of the inner side of the material collecting bin 4, the reduction gearbox 25 is fixedly connected with the inner side wall of the material collecting bin 4 through a radially arranged connecting rod, an input part of the reduction gearbox 25 is connected with a radially arranged transmission shaft 28, and the transmission shaft 28 rotatably penetrates out of the material collecting bin 4 and then is connected; the stirring motor 26 is connected with the electric cabinet 22.

In order to better realize the continuous descending of the materials, the lower end of the material collecting bin 4 is in an inverted frustum shape, a vibration motor 30 is fixedly connected to the outer side surface of the frustum shape, and the vibration motor 30 is connected with the electric cabinet 22.

Can embed storage battery in the electric cabinet 22, still be provided with three weighing instrument on the electric cabinet 22, three weighing instrument is connected with three weighing sensor 17 respectively, also can be connected with market by wired cable certainly to carry out the power supply that each power consumption set up, be provided with a plurality of control button on the electric cabinet 22, be used for controlling first electric telescopic handle 18, second electric telescopic handle 19, automatically controlled discharge valve, agitator motor 26 and vibrating motor 30 respectively.

Claims

1. A three-bucket batching truck comprises a traveling truck body (1), wherein rollers (2) are arranged on the lower portion of the traveling truck body, and a frame-shaped support (3) is arranged on the upper portion of the traveling truck body (1), and is characterized in that three material collecting bins (4) are arranged in the frame-shaped support (3) at intervals along the length direction of the frame-shaped support, and the material collecting bins (4) are connected with the frame-shaped support (3) through a plurality of weighing sensors (17) uniformly connected to the middle portion in the circumferential direction; the outer side of the upper part and the outer side of the lower part of the bin body of the material collecting bin (4) are respectively hinged with the lower end of a first electric telescopic rod (18) and the upper end of a second electric telescopic rod (19), the top and the bottom of the material collecting bin (4) are respectively provided with a feeding port and a discharging port which are positioned at the upper end and the lower end of a frame-shaped support (3) and communicated with the inner cavity of the frame-shaped support, the upper end of the feeding port and the lower end of the discharging port are respectively connected with an upper telescopic hose (5) and a lower telescopic hose (6), and; the upper end of the upper telescopic hose (5) and the lower end of the lower telescopic hose (6) are respectively connected with a feeding pipeline (7) and a discharging pipeline (8), and the outer side of the upper end of the feeding pipeline (7) and the outer side of the lower end of the discharging pipeline (8) are respectively and fixedly connected with an upper annular positioning plate (9) and a lower annular positioning plate (10); the upper end of the first electric telescopic rod (18) and the lower end of the second electric telescopic rod (19) are respectively hinged with the outer end of the upper rotating frame (20) and the outer end of the lower rotating frame (21);

the upper end of the frame-shaped support (3) is fixedly connected with three upper auxiliary supports (11) at positions corresponding to the three material collecting bins (4) respectively, the lower end of the frame-shaped support (3) is fixedly connected with three lower auxiliary supports (12) at positions corresponding to the three material collecting bins (4) respectively, and each upper auxiliary support (11) and each lower auxiliary support (12) are correspondingly arranged at the outer sides of each feeding pipeline (7) and each discharging pipeline (8) respectively; the upper auxiliary support (11) and the lower auxiliary support (12) are fixedly connected with a vertical upper guide sleeve (13) and a vertical lower guide sleeve (14) at positions close to the upper annular positioning plate (9) and the lower annular positioning plate (10) respectively, and the lower end of the upper annular positioning plate (9) and the upper end of the lower annular positioning plate (10) are fixedly connected with an upper guide rod (15) and a lower guide rod (16) which are inserted into the upper guide sleeve (13) and the lower guide sleeve (14) in a sliding manner respectively;

the middle parts of the upper rotating frame (20) and the lower rotating frame (21) are respectively hinged with the corresponding upper auxiliary support (11) and the lower auxiliary support (12), and the inner ends of the upper rotating frame (20) and the lower rotating frame (21) are respectively movably connected with the lower part of the corresponding upper annular positioning plate (9) and the upper part of the corresponding lower annular positioning plate (10) so as to drive the upper annular positioning plate (9) and the lower annular positioning plate (10) to move in the longitudinal direction;

an electric cabinet (22) is arranged on one side of the frame-shaped support (3) at the upper part of the walking vehicle body (1), and the electric cabinet (22) is respectively connected with the first electric telescopic rod (18), the second electric telescopic rod (19) and the electric control discharge valve.

2. The three-hopper batching vehicle according to claim 1, characterized in that it further comprises a dust remover (23), the inlet of said dust remover (23) is respectively communicated with the upper part of the inner cavity of the three collecting bins (4) through a pipeline.

3. The three-hopper batching truck according to claim 1 or 2, characterized in that a stirring frame (24) is further arranged on the lower side inside the collecting bin (4), a scraper (29) in clearance fit with the inner side wall of the collecting bin (4) is arranged at the outer end of the stirring frame (24), a driving shaft (27) is connected to the center of the stirring frame (24), the driving shaft (27) is connected to an output part of a reduction gearbox (25) arranged in the middle inside the collecting bin (4), the reduction gearbox (25) is fixedly connected to the inner side wall of the collecting bin (4) through radially arranged connecting rods, an input part of the reduction gearbox (25) is connected to a radially arranged transmission shaft (28), and the transmission shaft (28) rotatably penetrates out of the collecting bin (4) and then is connected to an output shaft of a stirring motor (26) fixedly connected to the outside of the collecting bin (4); the stirring motor (26) is connected with the electric cabinet (22).

4. The three-hopper batching truck according to claim 3, characterized in that the lower end of said collection bin (4) is of an inverted frustum shape, and a vibrating motor (30) is fixedly connected to the outer side surface of the frustum shape, said vibrating motor (30) being connected to the electric cabinet (22).