CN212556319U - Mining transport vechicle convenient to unload - Google Patents

Abstract

The utility model relates to a mining transport vechicle convenient to unload belongs to the technical field of mineral products exploitation equipment, and it includes the transport bin, and terminal surface rotates under the transport bin to be connected with the gyro wheel, and horizontal slip is connected with pushing equipment in the transport bin, is provided with the actuating mechanism that drives pushing equipment and slide in the transport bin, and the transport bin is close to pushing equipment one end fixedly connected with handle, and the transport bin is kept away from that handle one end articulates there is the door, rotates on the door to be connected with mounting, mounting and actuating mechanism threaded connection. The utility model discloses have and release the material from the transport vechicle in, do not need the workman to overturn the transport vechicle, reduce workman intensity of labour's effect.

Description

Mining transport vechicle convenient to unload

Technical Field

The utility model belongs to the technical field of the technique of mineral exploitation equipment and specifically relates to a mining transport vechicle convenient to unload is related to.

Background

At present, China is a large mining country, the mining of ores is far higher than that of other countries, and after mining workers mine the ores, the ores need to be transported to a mine port.

The prior Chinese utility model with the authorization notice number CN210149393U specially facilitates the 3.17.2020 of year, discloses a mining engineering transport vehicle. Including the base, two fixed blocks of the lower extreme fixedly connected with of base, the lower extreme of fixed block is equipped with the runner mechanism, and the upper end of base is equipped with railway carriage mechanism, and the right-hand member of base is equipped with pop-up mechanism and buckle mechanism, the right-hand member fixedly connected with support of base, the upper end fixedly connected with pushing hands of support.

The above prior art solutions have the following drawbacks: after the powder is conveyed to the unloading position by the carrier vehicle, workers need to push the handle of the carrier vehicle, so that the carrier vehicle overturns towards the direction away from the operator, the powder slides out of the carrier vehicle under the action of gravity, the workers need to overturn the carrier vehicle when unloading at every time, and the labor intensity is high.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, the utility model aims at providing a mining transport vechicle convenient to unload. The materials are pushed out of the transport vehicle, workers do not need to overturn the transport vehicle, and labor intensity of the workers is reduced.

The above utility model discloses an above-mentioned utility model purpose can realize through following technical scheme:

the utility model provides a mining transport vechicle convenient to unload, includes the transport bin, the terminal surface rotates under the transport bin and is connected with the gyro wheel, sliding connection has pushing equipment in the transport bin, be provided with the actuating mechanism that drive pushing equipment slided in the transport bin, the transport bin is close to pushing equipment one end fixedly connected with handle, the transport bin is kept away from handle one end and is articulated to have the door, it is connected with the mounting to rotate on the door, mounting and actuating mechanism threaded connection.

By adopting the technical scheme, the fixing piece is rotated to separate the fixing piece from the driving mechanism, the bin gate is opened to enable the powder to slide out of the bin gate, and the driving mechanism drives the material pushing mechanism to slide so as to push the powder out of the transportation bin, so that a light transportation vehicle for workers is not needed, and the labor intensity of the workers is reduced.

The present invention may be further configured in a preferred embodiment as: the pushing mechanism comprises a first pushing plate, a second pushing plate and a third pushing plate which are connected in the transportation bin in a sliding mode along the length direction of the supporting plate, the second pushing plate is located above the first pushing plate, the third pushing plate is located above the second pushing plate, the lower end face of the first pushing plate abuts against the upper end face of the bottom plate, the upper end face of the second pushing plate abuts against the lower end face of the third pushing plate, and the lower end face of the second pushing plate abuts against the upper end face of the first pushing plate.

By adopting the technical scheme, when the material needs to be unloaded, the third material pushing plate slides to push the powder to slide out of the transportation bin, when the third material pushing plate reaches the other end of the transportation bin, the second material pushing plate slides to push the powder to slide out of the transportation bin, when the second material pushing plate reaches the other end of the transportation bin, the first material pushing plate slides to push the powder to slide out of the transportation bin, and the powder is pushed out of the transportation bin in stages, so that the labor intensity of single material pushing is effectively reduced.

The present invention may be further configured in a preferred embodiment as: the first material pushing plate, the second material pushing plate and the third material pushing plate are arranged in an inclined mode, and the first material pushing plate, the second material pushing plate and the third material pushing plate are inclined towards the direction of keeping away from the bin gate from one ends of the bottom plates.

By adopting the technical scheme, the inclined arrangement can reduce the resistance of the first material pushing plate, the second material pushing plate and the third material pushing plate in the material pushing process, so that the material pushing is more labor-saving.

The present invention may be further configured in a preferred embodiment as: the upper end face of the first material pushing plate and the lower end face of the second material pushing plate are both arranged to be wedge-shaped faces and are mutually matched, the upper end face of the second material pushing plate and the lower end face of the third material pushing plate are both arranged to be wedge-shaped faces and are mutually matched, and the lowest positions of the wedge-shaped faces of the upper end face of the first material pushing plate, the lower end face of the second material pushing plate, the upper end face of the second material pushing plate and the lower end face of the third material pushing plate are all located at one end, close to the bin gate.

By adopting the technical scheme, the wedge-shaped surface can effectively reduce the powder from sliding out of the gap of the material pushing mechanism, and the powder scattering is reduced.

The present invention may be further configured in a preferred embodiment as: the lowest point of the wedge-shaped surface of the lower end surface of the second material pushing plate is positioned at the middle point of the first material pushing plate in the vertical direction.

By adopting the technical scheme, the lowest point of the wedge-shaped surface of the lower end face of the third material pushing plate is positioned at the middle point of the second material pushing plate in the vertical direction, so that the height of the powder in the vertical direction can be effectively reduced when the third material pushing plate pushes the material, the situation of secondary material pushing caused by the fact that the powder is accumulated and slips from the upper end face of the second material pushing plate in the material pushing process of the second material pushing plate is reduced, and the working efficiency is improved.

The present invention may be further configured in a preferred embodiment as: the lowest point of the wedge-shaped surface of the lower end face of the third material pushing plate is located at the middle point of the second material pushing plate in the vertical direction.

By adopting the technical scheme, the lowest point of the wedge-shaped surface of the lower end face of the second material pushing plate is positioned at the middle point of the first material pushing plate in the vertical direction, so that the height of powder in the vertical direction can be effectively reduced when the second material pushing plate pushes the material, the situation that the powder is accumulated and slips from the upper end face of the first material pushing plate to the bottom plate and needs to be cleaned by a worker again in the material pushing process of the first material pushing plate is reduced, and the working efficiency is improved.

The present invention may be further configured in a preferred embodiment as: the transportation bin comprises a bottom plate, two supporting plates are fixedly connected to the upper end face of the bottom plate, the driving mechanism comprises a first driving assembly, a second driving assembly and a third driving assembly, the third driving assembly comprises a third driving lead screw which is rotatably connected into the supporting plates, third connecting blocks are fixedly connected to the two ends of a third material pushing plate, the third connecting blocks are connected into the supporting plates in a sliding mode along the length direction of the supporting plates, the third connecting blocks are connected with the third driving lead screw in a threaded mode, the supporting plates are close to three ends of a handle and are fixedly connected with a third driving motor, and the third driving motor is connected with the third driving lead screw in a coaxial and fixed mode.

Through adopting above-mentioned technical scheme, third driving motor drives the rotation of third drive lead screw after starting, and third drive lead screw drive third connecting block slides, and the third connecting block drives the third scraping wings and slides to release the powder from the transport bin, easy operation conveniently reduces workman intensity of labour.

The present invention may be further configured in a preferred embodiment as: the lower end of the bin door is hinged with the bottom plate.

Through adopting above-mentioned technical scheme, door lower extreme and bottom plate are articulated, and when the door was opened, the powder slided to subaerially from the door, effectively reduced because of the powder falls to subaerial dust that produces from the transportation storehouse, reduces environmental pollution.

The present invention may be further configured in a preferred embodiment as: the fixing piece comprises a fixing rod which is rotatably connected to the bin gate, and the fixing rod is in threaded connection with a third driving lead screw.

Through adopting above-mentioned technical scheme, it is fixed with door and transportation storehouse through the mounting, easy operation is convenient.

The present invention may be further configured in a preferred embodiment as: the fixed rod is coaxially and fixedly connected with two limiting rings, and the two limiting rings are respectively positioned on two sides of the bin gate.

Through adopting above-mentioned technical scheme, the spacing ring can prevent that the dead lever from slipping from the door.

To sum up, the utility model discloses a following at least one useful technological effect:

1. the fixing piece is rotated to separate the fixing piece from the driving mechanism, the bin door is opened to enable the powder to slide out of the bin door, and the driving mechanism drives the material pushing mechanism to slide so as to push the powder out of the transportation bin, so that a light transportation vehicle for workers is not needed, and the labor intensity of the workers is reduced;

2. when unloading is needed, the third material pushing plate slides to push the powder to slide out of the transportation bin, when the third material pushing plate reaches the other end of the transportation bin, the second material pushing plate slides to push the powder to slide out of the transportation bin, when the second material pushing plate reaches the other end of the transportation bin, the first material pushing plate slides to push the powder to slide out of the transportation bin, and the powder is pushed out of the transportation bin in stages, so that the labor intensity of single material pushing is effectively reduced;

3. because the lowest point of the wedge-shaped surface of the lower end face of the second material pushing plate is positioned at the middle point of the first material pushing plate in the vertical direction, the height of powder in the vertical direction can be effectively reduced when the second material pushing plate pushes the material, the situation that the powder is accumulated and slips to the bottom plate from the upper end face of the first material pushing plate in the material pushing process of the first material pushing plate and needs to be cleaned again by workers is reduced, and the working efficiency is improved.

Drawings

FIG. 1 is a schematic view of the overall structure of the present embodiment;

FIG. 2 is a partial schematic structural view of the present embodiment, which is mainly used for showing the pushing mechanism;

FIG. 3 is a schematic sectional view of the present embodiment, mainly illustrating the driving mechanism;

fig. 4 is a partially enlarged view of a portion a in fig. 3, which is mainly used for showing the fixing member.

Reference numerals: 100. a transport bin; 110. a base plate; 120. a support plate; 130. a cavity; 200. a roller; 300. a material pushing mechanism; 310. a first pusher plate; 320. a second pusher plate; 330. a third material pushing plate; 400. a drive mechanism; 410. a first drive assembly; 411. a first drive screw; 412. a first connection block; 413. a first drive motor; 420. a second drive assembly; 421. a second drive screw; 422. a second connecting block; 423. a second drive motor; 430. a third drive assembly; 431. a third drive screw; 432. a third connecting block; 433. a third drive motor; 500. a handle; 600. a bin gate; 700. a fixing member; 710. fixing the rod; 720. a limiting ring; 800. and (5) moving the power supply.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1, for the utility model discloses a mining transport vechicle convenient to unload, including transport bin 100, the terminal surface rotates under transport bin 100 and is connected with gyro wheel 200, sliding connection has pushing equipment 300 in transport bin 100, is provided with the actuating mechanism 400 that drive pushing equipment 300 slided in transport bin 100, and transport bin 100 is close to pushing equipment 300 one end fixedly connected with handle 500, and transport bin 100 keeps away from that handle 500 one end articulates there is door 600, rotates on the door 600 to be connected with mounting 700, mounting 700 and actuating mechanism 400 threaded connection.

The fixing member 700 is rotated to separate the fixing member 700 from the driving mechanism 400, so that the bin door 600 is opened, the driving mechanism 400 drives the pushing mechanism 300 to slide, the pushing mechanism 300 slides to push out the powder from the transportation bin 100, the operation is simple and convenient, and the labor intensity of workers is reduced.

Referring to fig. 1, the transportation bin 100 includes a bottom plate 110, and two support plates 120 are fixedly connected to an upper end surface of the bottom plate 110. The transportation bin 100 is provided with a cavity 130 for containing powder.

Referring to fig. 2, the pushing mechanism 300 includes a first pushing plate 310, a second pushing plate 320 and a third pushing plate 330 slidably connected to the cavity 130 along the length direction of the supporting plate 120, the second pushing plate 320 is located above the first pushing plate 310, the third pushing plate 330 is located above the second pushing plate 320, the lower end surface of the first pushing plate 310 abuts against the upper end surface of the bottom plate 110, the upper end surface of the second pushing plate 320 abuts against the lower end surface of the third pushing plate 330, and the lower end surface of the second pushing plate 320 abuts against the upper end surface of the first pushing plate 310.

When the powder needs to be discharged, the third material pushing plate 330 slides to push the powder to slide out of the transportation bin 100, when the third material pushing plate 330 reaches the other end of the transportation bin 100, the second material pushing plate 320 slides to push the powder to slide out of the transportation bin 100, when the second material pushing plate 320 reaches the other end of the transportation bin 100, the first material pushing plate 310 slides to push the powder to slide out of the transportation bin 100, and the powder is pushed out of the transportation bin 100 in stages, so that the labor intensity of single material pushing is effectively reduced.

Referring to fig. 2, the first material pushing plate 310, the second material pushing plate 320 and the third material pushing plate 330 are disposed in an inclined manner, and ends of the first material pushing plate 310, the second material pushing plate 320 and the third material pushing plate 330 far from the bottom plate 110 are inclined in a direction far from the gate 600.

The inclined arrangement can reduce the resistance of the first material pushing plate 310, the second material pushing plate 320 and the third material pushing plate 330 in the material pushing process, thereby saving more labor in material pushing.

Referring to fig. 2, the upper end surface of the first stripper plate 310 and the lower end surface of the second stripper plate 320 are both wedge-shaped surfaces and are matched with each other, the upper end surface of the second stripper plate 320 and the lower end surface of the third stripper plate 330 are both wedge-shaped surfaces and are matched with each other, and the lowest positions of the wedge-shaped surfaces of the upper end surface of the first stripper plate 310, the lower end surface of the second stripper plate 320, the upper end surface of the second stripper plate 320 and the lower end surface of the third stripper plate 330 are all located at one end of the wedge-shaped surface close to the bin gate.

The wedge-shaped surface can effectively reduce the powder from sliding out of the gap of the pushing mechanism 300, and the powder scattering is reduced.

Referring to fig. 2, the lowest point of the wedge-shaped surface of the lower end surface of the second stripper plate 320 is located at the middle position of the first stripper plate 310 in the vertical direction, and the lowest point of the wedge-shaped surface of the lower end surface of the third stripper plate 330 is located at the middle position of the second stripper plate 320 in the vertical direction.

Because the lowest point of the wedge-shaped surface of the lower end surface of the third material pushing plate 330 is located at the middle point position of the second material pushing plate 320 in the vertical direction, the height of the powder in the vertical direction can be effectively reduced when the third material pushing plate 330 pushes the material, so that the situation of secondary material pushing caused by the fact that the powder is accumulated and slips from the upper end surface of the second material pushing plate 320 in the material pushing process of the second material pushing plate 320 is reduced, and the working efficiency is improved.

Because the lowest point of the wedge-shaped surface of the lower end surface of the second material pushing plate 320 is located at the middle point of the first material pushing plate 310 in the vertical direction, the height of the powder in the vertical direction can be effectively reduced when the second material pushing plate 320 pushes the material, so that the situation that the worker needs to clean again when the powder is accumulated and slips from the upper end surface of the first material pushing plate 310 onto the bottom plate 110 in the material pushing process of the first material pushing plate 310 is reduced, and the working efficiency is improved.

Referring to fig. 3, the drive mechanism 400 includes a first drive assembly 410, a second drive assembly 420, and a third drive assembly 430.

Referring to fig. 3, the first driving assembly 410 includes a first driving screw 411 rotatably connected in the supporting plate 120, first connecting blocks 412 are fixedly connected to two ends of the first material pushing plate 310, the first connecting blocks 412 are slidably connected in the supporting plate 120 along a length direction of the supporting plate 120, the first connecting blocks 412 are in threaded connection with the first driving screw 411, a first driving motor 413 is fixedly connected to one end of the supporting plate 120 close to the handle 500, and the first driving motor 413 is coaxially and fixedly connected with the first driving screw 411.

Referring to fig. 3, the second driving assembly 420 includes a second driving screw 421 rotatably connected in the supporting plate 120, second connecting blocks 422 are fixedly connected to two ends of the second material pushing plate 320, the second connecting blocks 422 are slidably connected in the supporting plate 120 along a length direction of the supporting plate 120, the second connecting blocks 422 are in threaded connection with the second driving screw 421, a second driving motor 423 is fixedly connected to two ends of the supporting plate 120 close to the handle 500, and the second driving motor 423 is coaxially and fixedly connected with the second driving screw 421.

Referring to fig. 3, the third driving assembly 430 includes a third driving screw 431 rotatably connected in the supporting plate 120, both ends of the third material pushing plate 330 are fixedly connected with a third connecting block 432, the third connecting block 432 is slidably connected in the supporting plate 120 along the length direction of the supporting plate 120, the third connecting block 432 is in threaded connection with the third driving screw 431, the three ends of the supporting plate 120 close to the handle 500 are fixedly connected with a third driving motor 433, and the third driving motor 433 is coaxially and fixedly connected with the third driving screw 431.

Referring to fig. 1, a mobile power supply 800 is fixedly connected to the bottom plate 110, the mobile power supply 800 is located on a side of the pushing mechanism 300 away from the door 600, and the mobile power supply 800 supplies power to the first driving motor 413, the second driving motor 423 and the third driving motor 433. The mobile power supply 800 is a boster S650 mobile power supply.

Referring to fig. 3 and 4, the lower end of the bin gate 600 is hinged to the base plate 110. The fixing member 700 includes a fixing rod 710 rotatably connected to the door 600, the fixing rod 710 is in threaded connection with the third driving screw 431, two limiting rings 720 are coaxially and fixedly connected to the fixing rod 710, and the two limiting rings 720 are respectively located at two sides of the door 600.

When the material needs to be unloaded, the fixing rod 710 is rotated to separate the fixing rod 710 from the third driving screw 431, and the bin door 600 is opened, so that the material is conveniently unloaded. After the discharging is finished, the bin gate 600 is rotated to enable the fixing rod 710 to be aligned with the third driving screw 431, the fixing rod 710 is rotated to enable the fixing rod 710 to be in threaded connection with the first driving screw 411, and the operation is simple and convenient.

The implementation manner of the embodiment is as follows: when the material needs to be discharged, the fixing rod 710 is rotated to separate the fixing rod 710 from the third driving screw 431, and the bin door 600 is opened.

The third driving motor 433 is started to drive the third driving screw 431 to rotate, the third driving screw 431 drives the third connecting block 432 to slide, and the third connecting block 432 drives the third material pushing plate 330 to slide to push out the powder from the transportation bin 100.

After the third material pushing plate 330 reaches one end of the transportation bin 100, the second driving motor 423 is started to drive the second driving screw 421 to rotate, the second driving screw 421 drives the second connecting block 422 to slide, and the second connecting block 422 drives the second material pushing plate 320 to slide to push the powder out of the transportation bin 100.

After the second material pushing plate 320 reaches one end of the transportation bin 100, the first driving motor 413 is started to drive the first driving screw 411 to rotate, the first driving screw 411 drives the first connecting block 412 to slide, and the first connecting block 412 drives the first material pushing plate 310 to slide to push out the powder from the transportation bin 100.

After the pushing is finished, the first material pushing plate 310, the second material pushing plate 320 and the third material pushing plate 330 are reset in sequence. The fixing lever 710 is rotated to screw the fixing lever 710 to the third driving screw 431.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (10)

1. A mining transporter convenient for unloading, comprising a transport bin (100), characterized in that: the terminal surface rotates under transport bin (100) and is connected with gyro wheel (200), horizontal smooth sliding connection has pushing equipment (300) in transport bin (100), be provided with actuating mechanism (400) that drive pushing equipment (300) slided in transport bin (100), transport bin (100) are close to pushing equipment (300) one end fixedly connected with handle (500), it has door (600) to keep away from handle (500) one end in transport bin (100), it is connected with mounting (700) to rotate on door (600), mounting (700) and actuating mechanism (400) threaded connection.

2. A mining transporter convenient for unloading as claimed in claim 1, wherein: the pushing mechanism (300) comprises a first pushing plate (310), a second pushing plate (320) and a third pushing plate (330) which are connected to the transportation bin (100) in a sliding mode along the length direction of the supporting plate (120), the second pushing plate (320) is located above the first pushing plate (310), the third pushing plate (330) is located above the second pushing plate (320), the lower end face of the first pushing plate (310) abuts against the upper end face of the bottom plate (110), the upper end face of the second pushing plate (320) abuts against the lower end face of the third pushing plate (330), and the lower end face of the second pushing plate (320) abuts against the upper end face of the first pushing plate (310).

3. A mining transporter convenient for unloading as claimed in claim 2, wherein: the first material pushing plate (310), the second material pushing plate (320) and the third material pushing plate (330) are obliquely arranged, and one ends of the first material pushing plate (310), the second material pushing plate (320) and the third material pushing plate (330) far away from the bottom plate (110) are oblique towards the direction far away from the bin door (600).

4. A mining transporter convenient for unloading as claimed in claim 3, wherein: the upper end face of the first material pushing plate (310) and the lower end face of the second material pushing plate (320) are both arranged to be wedge-shaped faces and are mutually matched, the upper end face of the second material pushing plate (320) and the lower end face of the third material pushing plate (330) are both arranged to be wedge-shaped faces and are mutually matched, and the lowest positions of the wedge-shaped faces of the upper end face of the first material pushing plate (310), the lower end face of the second material pushing plate (320), the upper end face of the second material pushing plate (320) and the lower end face of the third material pushing plate (330) are all located at one end, close to the bin gate (600), of the.

5. A mining transporter convenient for unloading as claimed in claim 4, wherein: the lowest point of the wedge-shaped surface of the lower end face of the second material pushing plate (320) is positioned at the middle point of the first material pushing plate (310) in the vertical direction.

6. A mining transporter convenient for unloading as claimed in claim 5, wherein: the lowest point of the wedge-shaped surface of the lower end face of the third material pushing plate (330) is at the middle point position in the vertical direction of the second material pushing plate (320).

7. A mining transporter convenient for unloading as claimed in claim 6, wherein: the transportation bin (100) comprises a bottom plate (110), two support plates (120) are fixedly connected to the upper end surface of the bottom plate (110), the drive mechanism (400) comprises a first drive assembly (410), a second drive assembly (420) and a third drive assembly (430), the first driving component (410) comprises a first driving lead screw (411) which is rotatably connected in the supporting plate (120), two ends of the first material pushing plate (310) are fixedly connected with first connecting blocks (412), the first connecting block (412) is connected in the supporting plate (120) in a sliding way along the length direction of the supporting plate (120), the first connecting block (412) is in threaded connection with a first driving lead screw (411), one end of the supporting plate (120) close to the handle (500) is fixedly connected with a first driving motor (413), the first driving motor (413) is coaxially and fixedly connected with the first driving lead screw (411).

8. A mining transporter convenient for unloading as claimed in claim 7, wherein: the lower end of the bin door (600) is hinged with the bottom plate (110).

9. A mining transporter convenient for unloading as claimed in claim 8, wherein: the fixing piece (700) comprises a fixing rod (710) rotatably connected to the bin gate (600), and the fixing rod (710) is in threaded connection with the third driving screw rod (431).

10. A mining transporter convenient for unloading as claimed in claim 9, wherein: the fixing rod (710) is coaxially and fixedly connected with two limiting rings (720), and the two limiting rings (720) are respectively positioned on two sides of the bin gate (600).

Images