CN217807570U - Boxcar bagged materials discharge apparatus - Google Patents

Abstract

The utility model discloses a boxcar bagged material unloading device, which comprises a supporting component, a material taking component, a bearing component, a stacking component and a lifting component, wherein the supporting component comprises a supporting frame; the material taking assembly comprises a rotary seat, a first conveying piece and a material taking piece for taking materials, the rotary seat is rotatably connected to the support frame, the discharge end of the first conveying piece is rotatably connected to the rotary seat and can swing up and down relative to the rotary seat, and the discharge end of the material taking piece is connected to the feed end of the first conveying piece; the bearing component is detachably connected to the support frame; the stacking assembly comprises a clamping piece, and the clamping piece is connected to the supporting frame in a sliding manner along a first direction and a second direction so as to clamp the material at the discharge end of the first conveying piece onto the bearing assembly; the lifting component is connected with the clamping component/bearing component; the first direction, the second direction and the third direction are all perpendicular to each other. The boxcar bagged material unloading device is stacked immediately after being chopped, a huge transfer device is not needed, and the size of the equipment is compact.

Description

Boxcar bagged materials discharge apparatus

Technical Field

The utility model relates to a box wagon material technical field of unloading especially relates to a box wagon bagged materials discharge apparatus.

Background

A boxcar is a closed railway car that is commonly used to transport cargo. The side of the box wagon is provided with an open door, and cargos are loaded and unloaded through the open door on the side.

Chinese patent with publication number CN212608266U discloses a boxcar bagged material handling equipment, which comprises a chassis, a transverse moving support, a transverse moving sliding table, a transverse moving belt conveyor, a telescopic belt conveyor, a scanning module and a material grabbing mechanism, wherein the transverse moving support is fixed on the chassis, the transverse moving sliding table is connected on the transverse moving support and can transversely slide in a sliding groove of the transverse moving support, the transverse moving belt conveyor is connected at one end of the transverse moving sliding table, the telescopic belt conveyor is connected at the other end of the transverse moving sliding table, the scanning module is fixed at the end part of the telescopic belt conveyor, and the material grabbing mechanism is fixed at two sides of the telescopic belt conveyor. The grabbing mechanism needs to grab materials on the telescopic belt conveyor, the materials are transmitted to the transverse moving belt conveyor through the telescopic belt conveyor, and then the materials are output through the transverse moving belt conveyor or stacked through other equipment.

The boxcar bagged material loading and unloading equipment needs to convey materials to the outside of a boxcar through the large-scale transverse belt conveyor and the large-scale telescopic belt conveyor, then the materials are output or stacked through other equipment, and the loading and unloading equipment caused by the large-scale transverse belt conveyor and the large-scale telescopic belt conveyor is large in size, large in occupied area and inconvenient to move and place.

SUMMERY OF THE UTILITY MODEL

In view of this, a need exists for a boxcar bagged material discharge device, which solves the technical problem in the prior art that the equipment is bulky due to the fact that large-scale transverse belt conveyors and telescopic belt conveyors are needed to output materials to a remote place for stacking.

In order to achieve the technical purpose, the technical scheme of the utility model provides a box car bagged materials discharge apparatus, include:

a support assembly comprising a support frame;

the material taking assembly comprises a rotary seat, a first conveying piece and a material taking piece for taking materials, the rotary seat is rotatably connected to the support frame, the discharge end of the first conveying piece is rotatably connected to the rotary seat and can swing up and down relative to the rotary seat, and the discharge end of the material taking piece is connected to the feed end of the first conveying piece;

the bearing component is detachably connected to the supporting frame;

the stacking assembly comprises a clamping piece, and the clamping piece is connected to the supporting frame in a sliding mode along a first direction and a second direction and is used for clamping the materials at the discharging end of the first conveying piece to the bearing assembly;

the lifting assembly is connected to the clamping piece/bearing assembly and is used for driving the clamping piece to slide along a third direction relative to the bearing assembly;

the first direction, the second direction and the third direction are all perpendicular to each other.

In one embodiment, the stacking assembly further comprises a first moving assembly, the first moving assembly comprises a first fixing portion and a first sliding portion, and the first sliding portion is slidably connected to the first fixing portion and the clamping member along the first direction.

In one embodiment, the stacking assembly further includes a bracket and a second moving assembly, the bracket is connected to the first sliding portion, the second moving assembly includes a second fixing portion and a second sliding portion, the second fixing portion is connected to the bracket, the second sliding portion is connected to the second fixing portion in a sliding manner along the second direction and is connected to the clamping member, and the clamping member is connected to the first sliding portion through the second fixing portion and the bracket.

In one embodiment, the take-off assembly further comprises a second conveyor member slidably coupled to the first conveyor member.

In one embodiment, the material taking member includes a fixed frame and at least one material taking roller, the fixed frame is connected to the second conveying member and connected to the first conveying member via the second conveying member, and the material taking roller is rotatably connected to the fixed frame.

In one embodiment, the radial section of the material taking roller is polygonal.

In one embodiment, the number of the material taking rollers is multiple, and the material taking rollers are distributed at intervals along the material conveying direction of the first conveying member.

In one embodiment, the material taking part further comprises a driving part, and the driving part is connected to each material taking roller and used for driving the material taking rollers to rotate around the axes of the material taking rollers.

In one embodiment, the driving member includes a first motor, a driving wheel, a plurality of driven wheels and transmission strips, the first motor is fixed to the second conveying member, the driving wheel is fixedly connected to an output shaft of the first motor, the driven wheels are arranged in one-to-one correspondence with the material taking rollers, the driven wheels are connected to the material taking rollers, the transmission strips are annular, and the transmission strips are in transmission connection with the driving wheel and each driven wheel.

In one embodiment, the cross section of the material taking roller is in a regular hexagon shape.

Compared with the prior art, the beneficial effects of the utility model include: when the bagged materials in the box wagon need to be unloaded, the material taking part rotates in a horizontal plane through the rotating seat, the material taking part swings up and down through the discharging end of the first conveying part, the material taking part swings up and down, the material taking part is aligned to the bagged materials through the upward and downward swinging of the material taking part and the rotation in the horizontal plane, the bagged materials are clamped through the material taking part, the materials are clamped on the first conveying part and conveyed through the first conveying part by the material taking part, the clamping part clamps the materials at the discharging end of the first conveying part, the clamping part moves along the first direction and the second direction, the clamping part moves to a preset position on the bearing part with the materials, then the height of the clamping part and the heights of the materials relative to the bearing part are adjusted through the lifting assembly, the materials fall on the bearing part through the opening of the clamping part, the materials are clamped through the clamping part continuously, the clamping part is controlled to move along the first direction and the second direction, the clamping part stacks the materials in a layer full of the bearing part, the materials are controlled through the distance between the lifting part and the clamping part and the bearing part, the clamping part is prevented from being stacked on the bearing part, the stacking equipment is prevented from being stacked after the materials and the materials are stacked on the stacking equipment, and the stacking equipment, the large-size of the stacking equipment is prevented from being inconvenient.

Drawings

Fig. 1 is a schematic structural view of a boxcar bagged material unloading device according to an embodiment of the present invention;

fig. 2 is a three-dimensional schematic view of a boxcar bagged material discharge device according to an embodiment of the present invention;

FIG. 3 is an enlarged partial schematic view at A in FIG. 2;

FIG. 4 is an enlarged partial schematic view at B of FIG. 3;

fig. 5 is a three-dimensional schematic view of a boxcar bagged material discharge device according to an embodiment of the present invention;

FIG. 6 is an enlarged partial schematic view at C of FIG. 5;

fig. 7 is a three-dimensional schematic view of a boxcar bagged material discharge device according to an embodiment of the present invention;

fig. 8 is a partially enlarged schematic view at D in fig. 7.

Reference numerals:

a support assembly 1;

a support frame 11;

four wheels 12;

a material taking assembly 2;

a rotary base 21;

a first conveying member 22;

a material taking part 23;

a fixing frame 231;

a take-off roller 232;

a linear drive 24;

a second conveyance member 25;

a linear moving member 26;

a third guide 261;

a third slider 262;

a rack 263;

a drive gear 264;

a drive motor 265;

a driving member 27;

a first motor 271;

a drive wheel 272;

a driven wheel 273;

a drive bar 274;

a carrier assembly 3;

a stacking assembly 4;

a clamp 41;

a first moving assembly 42;

a first fixing portion 421;

a first sliding portion 422;

a bracket 43;

a second moving assembly 44;

a second fixed portion 441;

the second sliding portion 442;

and a lifting assembly 5.

Detailed Description

The following detailed description of the preferred embodiments of the invention, taken in conjunction with the accompanying drawings, which are incorporated in and constitute a part of this application, illustrate embodiments of the invention and together with the description, serve to explain the principles of the invention and not to limit the scope of the invention.

As shown in fig. 1 to 8, the utility model provides a boxcar bagged material unloading device, which comprises a supporting component 1, a material taking component 2, a bearing component 3, a stacking component 4 and a lifting component 5, wherein the supporting component 1 comprises a supporting frame 11; the material taking assembly 2 comprises a rotary seat 21, a first conveying piece 22 and a material taking piece 23 for taking materials, the rotary seat 21 is rotatably connected to the support frame 11, the discharge end of the first conveying piece 22 is rotatably connected to the rotary seat 21 and can swing up and down relative to the rotary seat 21, and the discharge end of the material taking piece 23 is connected to the feed end of the first conveying piece 22; the bearing component 3 is detachably connected with the support frame 11; the stacking assembly 4 comprises a clamping member 41, the clamping member 41 is connected to the supporting frame 11 in a sliding manner along the first direction and the second direction, so as to clamp the material at the discharging end of the first conveying member 22 onto the bearing assembly 3; the lifting assembly 5 is connected to the clamping member 41/the bearing assembly 3 and is used for driving the clamping member 41 to slide along the third direction relative to the bearing assembly 3; the first direction, the second direction and the third direction are all perpendicular to each other.

When bagged materials in the box wagon need to be unloaded, the material taking part 23 rotates in the horizontal plane through the rotating seat 21, the material taking part 23 is driven to swing up and down through the up-and-down swing of the discharge end of the first conveying part 22, the material taking part 23 is aligned with the bagged materials through the up-and-down swing of the material taking part 23 and the rotation in the horizontal plane, the bagged materials are clamped through the material taking part 23, the material taking part 23 clamps the materials on the first conveying part 22 and conveys the materials through the first conveying part 22, the clamping part 41 clamps the materials at the discharge end of the first conveying part 22, the clamping part 41 moves along the first direction and the second direction, the clamping part 41 carries the materials to move to a preset position on the bearing part, and then the height of the clamping part 41 and the materials relative to the bearing part 3 is adjusted through the lifting assembly 5, through the opening of clamping piece 41, make the material fall on carrier assembly 3, constantly centre gripping material through clamping piece 41, control clamping piece 41 moves along first direction and second direction, make clamping piece 41 pile up the material in the one deck of carrier assembly 3, through the distance of lifter control clamping piece 41 and carrier assembly 3, make clamping piece 41 pile up a layer of material again on carrier assembly 3, make the range upon range of pile of material put on carrier assembly 3, because the material is got after material subassembly 2 is got the material and is just got the centre gripping by clamping piece 41 and stack on carrier assembly 3, need not to say the material through large-scale horizontal belt and flexible belt feeder and carry to far away and stack, can reduce handling equipment's size, avoid handling equipment area to lead to removing and lay inconvenient problem greatly.

It is understood that the first direction, the second direction and the third direction may be a transverse direction, a longitudinal direction and a vertical direction, respectively.

In one embodiment, the supporting assembly 1 further includes four rotating wheels 12, and the four rotating wheels 12 are spaced at the bottom of the supporting frame 11.

Four rotating wheels 12 are arranged to drive the support frame 11 to slide relative to the ground.

It is understood that the rotary base 21 can be rotatably connected to the supporting frame 11 through a rotating shaft, a bearing, and a rotating pin.

The rotating base 21 can drive the rotating base 21 to rotate relative to the support frame 11 through a motor and a gear transmission mechanism, can also manually drive the rotating base 21 to rotate relative to the support frame 11, and can also drive the rotating base 21 to rotate relative to the support frame 11 through a motor and a belt transmission mechanism.

In one embodiment, the reclaiming assembly 2 further comprises a linear driving member 24, wherein the fixed end of the linear driving member 24 is hinged with the rotary base 21, and the telescopic end is hinged with the frame of the first conveying member 22.

It can be understood that the first conveying member 22 can be driven to swing up and down relative to the rotating base 21 by an electric push rod, an air cylinder or a hydraulic cylinder.

It will be appreciated that the carrier assembly 3 may be a tray, a fixed plate, a fixed mount, or the like.

It is understood that the clamp 41 can be any clamp capable of opening and closing, and the clamp can be opened and closed in parallel or in an articulated manner, such as the clamp with the numbers CN214653004U, CN214421698U and CN 213010699U.

In one embodiment, the stacking assembly 4 further includes a first moving assembly 42, the first moving assembly 42 includes a first fixing portion 421 and a first sliding portion 422, and the first sliding portion 422 is slidably connected to the first fixing portion 421 and the holding member 41 along the first direction.

By sliding the first sliding portion 422, the first sliding portion 422 slides along the first direction, and drives the clamping member 41 to slide along the first direction, so as to realize the sliding of the clamping member 41 along the first direction.

It can be understood that the first fixing portion 421 and the first sliding portion 422 may be a guide rail and a slider, or a guide rod and a slider.

In one embodiment, the first fixing portion 421 is a first guide rail disposed along the first direction and connected to the supporting frame 11, and the first sliding portion 422 is a first sliding block slidably connected to the first guide rail.

It can be understood that the first sliding block can be manually pushed to slide relative to the first guide rail by a person, and the first sliding block can also be pushed to slide relative to the first guide rail by a linear motor, an electric push rod, an air cylinder and the like.

In one embodiment, the stacking assembly 4 further includes a bracket 43 and a second moving assembly 44, the bracket 43 is connected to the first sliding portion 422, the second moving assembly 44 includes a second fixing portion 441 and a second sliding portion 442, the second fixing portion 441 is connected to the bracket 43, the second sliding portion 442 is slidably connected to the second fixing portion 441 and to the clamping member 41 along the second direction, and the clamping member 41 is connected to the first sliding portion 422 via the second fixing portion 441 and the bracket 43.

By sliding the second sliding portion 442, the second sliding portion 442 slides along the second direction and drives the clamping member 41 to slide along the second direction, so as to realize the sliding of the clamping member 41 along the second direction.

It is understood that the second fixing portion 441 and the second sliding portion 442 may be a guide rail and a slider, or a guide rod and a slider.

In one embodiment, the second fixing portion 441 is a second guide rail disposed along the second direction and connected to the bracket 43, and the second sliding portion 442 is a second slider slidably connected to the second guide rail.

It can be understood that the second sliding block can be manually pushed to slide relative to the second guide rail by a person, and the second sliding block can also be pushed to slide relative to the second guide rail by a linear motor, an electric push rod, an air cylinder and the like.

In one embodiment, reclaimer assembly 2 further comprises a second conveyor member 25, second conveyor member 25 being slidably coupled to first conveyor member 22.

Through setting up second transport 25 to make second transport 25 sliding connection in first transport 22, through sliding second transport 25, second transport 25 drives and gets material 23 and slide for first transport 22, makes second transport 25 can be close to or keep away from first transport 22, with the centre gripping of the bagged materials of having realized different distances, need not to remove support frame 11 and adjusts this distance.

It will be appreciated that second transfer member 25 may be moved relative to first transfer member 22 by an air cylinder, hydraulic cylinder or electric ram pushing second transfer member 25.

In one embodiment, the material taking assembly 2 further includes a linear moving member 26, the linear moving member 26 includes a third guide rail 261, a third slider 262, a rack 263, a driving gear 264, and a driving motor 265, the third guide rail 261 is connected to the frame of the first conveying member 22 and is disposed along the material conveying direction of the first conveying member 22, the third slider is slidably connected to the third guide rail 261 and is connected to the frame of the second conveying member 25, the rack 263 is connected to the frame of the first conveying member 22 and is disposed along the material conveying direction of the first conveying member 22, the driving gear 264 is connected to the rack 263, the driving motor 265 is fixed to the frame of the second conveying member 25, and the output shaft of the driving motor 265 is connected to the driving gear 264.

When the second conveying part 25 needs to slide relative to the first conveying part 22, the driving motor 265 is started, the driving gear 264 is driven by the driving motor 265 to rotate, the driving gear 264 is meshed with the rack 263, the rotating driving gear 264 slides along the length direction of the rack 263, and the driving gear 264 drives the second conveying part 25 to slide relative to the first conveying part 22, so that the sliding of the second conveying part 25 relative to the first conveying part 22 is realized.

In one embodiment, the material taking member 23 includes a fixing frame 231 and at least one material taking roller 232, the fixing frame 231 is connected to the second conveying member 25 and connected to the first conveying member 22 via the second conveying member 25, and the material taking roller 232 is rotatably connected to the fixing frame 231.

When the bagged materials need to be taken, the material taking roller 232 is arranged between the two bagged materials which are arranged up and down, the bagged materials stacked together are driven to be separated through the anticlockwise rotation of the material taking roller 232, so that the bagged materials above the material taking roller 232 are conveyed to the second conveying piece 25 through the material taking roller 232, the materials are conveyed to the first conveying piece 22 under the conveying of the second conveying piece 25, and the taking of the materials is realized.

In one embodiment, the number of the material taking rollers 232 is multiple, and the multiple material taking rollers 232 are distributed at intervals along the material conveying direction of the first conveying member 22.

Through setting up a plurality of material rollers 232, after the material roller 232 that is located the head end outwards carried the material, subsequent material roller 232 can apply for the outside gliding power of material for the material is carried along a plurality of material rollers 232's the direction of arranging.

It is understood that the number of take-off rollers 232 can be three, four, five, etc.

It is understood that the pick roll 232 may be circular, square, hexagonally star shaped, etc. in cross-section.

In one embodiment, the take-off roller 232 has a polygonal radial cross-section.

The cross section of the material taking roller 232 is polygonal, so that the rotating friction force between the material taking roller 232 and the material can be increased, and the stacked materials can be conveniently separated.

In one embodiment, the pick-up roller 232 has a regular hexagonal cross-section.

When the number of the edges of the cross section of the material taking roller 232 is too small, such as a triangle, the corners of the triangle are sharp, and the force applied to the material to slide outwards may be too large, so that the packaging bag of the bagged material is broken; the cross-section setting through getting material roller 232 is regular hexagon for when getting material roller 232 keeps sufficient material frictional force of getting, avoid getting the rotation frictional force of material too big and lead to the bagged materials to break.

It can be understood that a motor may be disposed inside the material taking roller 232 to drive the material taking roller 232 to rotate, or a motor may be disposed outside the material taking roller 232 to drive the material taking roller 232 to rotate through a transmission device.

In one embodiment, the material taking member 23 further comprises a driving member 27, and the driving member 27 is connected to each material taking roller 232 and is used for driving the material taking roller 232 to rotate around the axis thereof.

Through setting up driving piece 27, can order about the material roller 232 and rotate along self axis for material roller 232 can drive the material and outwards carry.

In one embodiment, the driving member 27 includes a first motor 271, a driving wheel 272, a plurality of driven wheels 273 and a driving strip 274, the first motor 271 is fixed to the second conveying member 25, the driving wheel 272 is fixedly connected to an output shaft of the first motor 271, the driven wheels 273 are arranged in a one-to-one correspondence with the take-off rollers 232, the driven wheels 273 are connected to the take-off rollers 232, the driving strip 274 is annular, and the driving strip 274 is in driving connection with the driving wheel 272 and each driven wheel 273.

Through setting up first motor 271, action wheel 272 and a plurality of follow driving wheel 273, when needs drive a plurality of material taking roller 232 and rotate, start first motor 271, the output shaft of first motor 271 drives action wheel 272 and rotates, and first motor 271 drives each through drive line 274 and follows driving wheel 273 and rotate, and it rotates to drive corresponding material taking roller 232 from driving wheel 273, and the rotation direction of each material taking roller 232 is the same.

It can be understood that the driving wheel 272 and the driven wheel 273 can be belt wheels or chain wheels, when the driving wheel 272 and the driven wheel 273 are chain wheels, the transmission strip 274 is a belt, the belt is in an "8" shape and bypasses the driving wheel 272 and each driven wheel 273, when the driving wheel 272 and the driven wheel 273 are chain wheels, the transmission strip 274 is a chain, two sides of the chain are respectively sleeved on the driving wheel 272 and the driving wheel which are farthest apart, and the middle part of the chain is meshed with the driven wheel 273 which is located in the middle.

It can be understood that the lifting assembly 5 can be disposed between the clamping member 41 and the second sliding portion 442, such that the clamping member 41 is connected to the second sliding portion 442 through the lifting assembly 5, so as to achieve the lifting of the clamping member 41 relative to the second sliding portion 442, or the lifting assembly can be disposed between the bearing assembly 3 and the supporting frame 11, and the bearing assembly 3 is connected to the supporting frame 11 through the lifting assembly 5.

It will be appreciated that the lifting assembly 5 may be a hydraulic cylinder, a powered push rod, a lift table, a pneumatic cylinder, or the like.

By providing the lifting assembly 5, the distance between the lifting clamp 41 and the bearing assembly 3 can be controlled.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention should be covered by the present invention.

Claims (10)

1. The utility model provides a boxcar bagged materials discharge apparatus which characterized in that includes:

a support assembly comprising a support frame;

the material taking assembly comprises a rotary seat, a first conveying piece and a material taking piece for taking materials, wherein the rotary seat is rotatably connected to the support frame, the discharge end of the first conveying piece is rotatably connected to the rotary seat and can swing up and down relative to the rotary seat, and the discharge end of the material taking piece is connected to the feed end of the first conveying piece;

the bearing component is detachably connected to the supporting frame;

the stacking assembly comprises a clamping piece, and the clamping piece is connected to the supporting frame in a sliding manner along a first direction and a second direction so as to clamp the material at the discharge end of the first conveying piece to the bearing assembly;

the lifting assembly is connected to the clamping piece/bearing assembly and is used for driving the clamping piece to slide along a third direction relative to the bearing assembly;

the first direction, the second direction and the third direction are all perpendicular to each other.

2. The boxcar bagged material discharge device according to claim 1, wherein the stacking assembly further comprises a first moving assembly, the first moving assembly comprises a first fixing portion and a first sliding portion, and the first sliding portion is slidably connected to the first fixing portion and the clamping member along the first direction.

3. The boxcar bagged material discharge device according to claim 2, wherein the stacking assembly further comprises a bracket connected to the first sliding portion and a second moving assembly comprising a second fixed portion connected to the bracket and a second sliding portion connected to the second fixed portion and to the clamping member in the second direction, the clamping member being connected to the first sliding portion via the second fixed portion and the bracket.

4. The boxcar bagged material discharge apparatus according to claim 1, wherein the material take-off assembly further comprises a second conveyor member, the second conveyor member being slidably connected to the first conveyor member.

5. The boxcar bagged material discharge device according to claim 4, wherein the take-off member comprises a fixed frame and at least one take-off roller, the fixed frame is connected to the second conveying member and connected to the first conveying member through the second conveying member, and the take-off roller is rotatably connected to the fixed frame.

6. The boxcar bagged material discharging device as claimed in claim 5, wherein the radial cross section of the material taking roller is polygonal.

7. The boxcar bagged material discharging device as claimed in claim 5, wherein the number of the said pick-up rollers is multiple, and the multiple pick-up rollers are distributed at intervals along the material conveying direction of the first conveying member.

8. The boxcar bagged material discharging device as claimed in claim 7, wherein the material taking member further comprises a driving member connected to each material taking roller for driving the material taking roller to rotate around its axis.

9. The boxcar bagged material discharging device according to claim 8, wherein the driving member comprises a first motor, a driving wheel, a plurality of driven wheels and transmission bars, the first motor is fixed to the second conveying member, the driving wheel is fixedly connected to an output shaft of the first motor, the driven wheels and the take-out rollers are arranged in a one-to-one correspondence manner, the driven wheels are connected to the take-out rollers, the transmission bars are annular, and the transmission bars are in transmission connection with the driving wheel and each driven wheel.

10. The boxcar bagged material discharging device as claimed in claim 6, wherein the cross section of the material taking roller is regular hexagon.

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