CN216763595U - Material loading device - Google Patents

Material loading device Download PDF

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Publication number
CN216763595U
CN216763595U CN202122936208.2U CN202122936208U CN216763595U CN 216763595 U CN216763595 U CN 216763595U CN 202122936208 U CN202122936208 U CN 202122936208U CN 216763595 U CN216763595 U CN 216763595U
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China
Prior art keywords
assembly
feeding
mounting frame
stacking
loading device
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Active
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CN202122936208.2U
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Chinese (zh)
Inventor
杨德柱
李玉坤
陈立新
刘文飞
禹建朋
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Henan Fengbo Machinery Equipment Co ltd
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Henan Fengbo Machinery Equipment Co ltd
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Priority to CN202122936208.2U priority Critical patent/CN216763595U/en
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Abstract

The utility model provides a material loading device, comprising: the mounting frame assembly comprises a cross beam and a vertical beam which are connected with each other; the feeding conveying assembly is arranged on the mounting frame assembly; the material distribution assembly is movably arranged on the mounting frame assembly and is positioned above the feeding conveying assembly; the feeding assembly is arranged on the mounting frame assembly, and the distributing assembly can be used for distributing the material packet fed into the conveying assembly to the feeding assembly; the stacking component is arranged on the mounting frame component, the feeding component conveys the material bags to the stacking component, and the stacking component can unload the material bags. The technical scheme of the utility model effectively solves the problems of time and labor waste and low efficiency in material stacking in the prior art.

Description

Material loading device
Technical Field
The utility model relates to the technical field of material subpackaging, in particular to a material loading device.
Background
In the industrial production of modern chemical industry, food, feed, fertilizer and the like, a plurality of materials are loaded and unloaded, stacked and the like. In the prior art, the manual material taking, material placing, stacking and other forms are generally adopted, the bagged materials are easy to deform in the operation mode, time and labor are wasted, and the working efficiency is lower.
Disclosure of Invention
The utility model provides a material loading device, which solves the problems of time and labor waste and low efficiency in material stacking in the prior art.
According to the present invention, there is provided a material loading apparatus comprising: the mounting frame assembly comprises a cross beam and a vertical beam which are connected with each other; the feeding conveying assembly is arranged on the mounting frame assembly; the material distributing assembly is movably arranged on the mounting frame assembly and is positioned above the feeding conveying assembly; the feeding assembly is arranged on the mounting frame assembly, and the distributing assembly can be used for distributing the material packet fed into the conveying assembly to the feeding assembly; the stacking component is arranged on the mounting frame component, the feeding component conveys the material bags to the stacking component, and the stacking component can unload the material bags.
Further, the feeding conveying assembly comprises a roller frame and a plurality of rollers, the roller frame is mounted on the mounting frame assembly, the rollers are parallelly arranged on the roller frame at intervals, and the rotating direction of each roller is the same as the conveying direction of the feeding assembly.
Further, divide the material subassembly including dividing the material mounting bracket, dividing material drive division and switch plate, divide the movably installation of material drive division on the mounting bracket subassembly, divide the material drive division to link to each other with the drive with dividing the material mounting bracket and divide the material mounting bracket to remove, the switch plate is installed on dividing the material mounting bracket.
Further, the feeding assembly comprises a feeding mounting frame, a feeding driving portion and a transmission belt, the feeding mounting frame is mounted on the mounting frame assembly, the feeding driving portion is mounted on the feeding mounting frame, and the transmission belt is connected with the feeding driving portion to drive the transmission belt.
Further, sign indicating number material subassembly includes sign indicating number material mounting bracket, walking structure, sign indicating number material drive division and switch door, and walking structure installs on the mounting bracket subassembly, and the sign indicating number material mounting bracket is installed on walking structure, and sign indicating number material drive division links to each other with the switch door with the drive switch door and is in the open mode or closed mode.
Further, sign indicating number material subassembly still includes the rotation driving portion, and the rotation driving portion is installed on the mount pad subassembly, and the rotation driving portion links to each other with the drive sign indicating number material mount bracket rotation with the sign indicating number material mount bracket.
Further, the feeding assembly comprises a first feeding assembly and a second feeding assembly, and the first feeding assembly and the second feeding assembly are located on two sides of the feeding conveying assembly.
Furthermore, the material stacking assembly comprises a first material stacking assembly and a second material stacking assembly, the first material stacking assembly is arranged corresponding to the first feeding assembly, and the second material stacking assembly is arranged corresponding to the second feeding assembly.
Further, the material loading device comprises a control assembly, and the feeding conveying assembly, the material distributing assembly, the feeding assembly and the material stacking assembly are electrically connected with the control assembly.
Furthermore, the material loading device further comprises a sensing assembly, the sensing assembly is electrically connected with the control assembly, and the sensing assembly is used for detecting material bags on the feeding conveying assembly.
By applying the technical scheme of the utility model, the bagged materials on the feeding conveying assembly are pushed to the feeding assembly by the distributing assembly, the materials are conveyed to the stacking assembly by the feeding assembly, and the stacking assembly performs stacking. The device realizes the feeding and stacking of the automatic flow and has higher efficiency. The technical scheme of the utility model effectively solves the problems of time and labor waste and low efficiency in material stacking in the prior art.
Drawings
The above and other objects, features and advantages of exemplary embodiments of the present invention will become readily apparent from the following detailed description read in conjunction with the accompanying drawings. Several embodiments of the present disclosure are illustrated by way of example, and not by way of limitation, in the figures of the accompanying drawings and in which like reference numerals refer to similar or corresponding parts and in which:
fig. 1 is a schematic structural view showing a material loading apparatus of a first embodiment;
fig. 2 is a schematic structural diagram of a material stacking assembly of the material loading device in fig. 1;
fig. 3 is a partial schematic structural view of a material stacking assembly of the material loading device of fig. 1;
fig. 4 shows a schematic diagram of a limiting structure of the material loading device of fig. 1;
FIG. 5 shows a schematic view of a walking structure of the material loading apparatus of FIG. 1;
FIG. 6 shows a schematic view of a feed assembly of the material loading apparatus of FIG. 1;
fig. 7 shows a partial structural schematic diagram of the material loading device of fig. 1.
Wherein the figures include the following reference numerals:
10. a mounting bracket assembly; 11. a cross beam; 12. erecting a beam; 20. a feed conveyor assembly; 30. a material distributing component; 31. a material distribution mounting rack; 32. a material distributing driving part; 33. a material stirring plate; 40. a feeding assembly; 50. a material stacking component; 51. a guide rail; 52. a composite bearing; 53. a proximity sensor; 54. a limiting structure; 55. a travel driving section; 56. a walking structure.
Detailed Description
It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present invention will be described in detail below with reference to the embodiments with reference to the attached drawings.
It should be noted that the following detailed description is exemplary and is intended to provide further explanation of the disclosure. Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs.
Spatially relative terms, such as "above … …," "above … …," "above … … surface," "above," and the like, may be used herein for ease of description to describe one device or feature's spatial relationship to another device or feature as illustrated in the figures. It will be understood that the spatially relative terms are intended to encompass different orientations of the device in use or operation in addition to the orientation depicted in the figures. For example, if a device in the figures is turned over, devices described as "above" or "on" other devices or configurations would then be oriented "below" or "under" the other devices or configurations. Thus, the exemplary term "above … …" can include both an orientation of "above … …" and "below … …". The device may also be oriented 90 degrees or at other orientations and the spatially relative descriptors used herein interpreted accordingly.
Exemplary embodiments according to the present invention will now be described in more detail with reference to the accompanying drawings. These exemplary embodiments may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. It is to be understood that these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the concept of the exemplary embodiments to those skilled in the art, in the drawings, the thicknesses of layers and regions are exaggerated for clarity, and the same devices are denoted by the same reference numerals, and thus the description thereof will be omitted.
As shown in fig. 1 to 7, a material loading apparatus according to a first embodiment includes: the feeding device comprises a mounting frame assembly 10, a feeding conveying assembly 20, a material distributing assembly 30, a feeding assembly 40 and a stacking assembly 50. The mounting bracket assembly 10 includes a cross beam 11 and a vertical beam 12 connected to each other. The feed conveyor assembly 20 is mounted on the mounting frame assembly 10. The feed distribution assembly 30 is movably mounted on the mounting frame assembly 10 and is positioned above the feed conveyor assembly 20. The feeding assembly 40 is arranged on the mounting frame assembly 10, and the material distribution assembly 30 can distribute the material packages of the feeding conveying assembly 20 to the feeding assembly 40. The stacking assembly 50 is mounted on the mounting frame assembly 10, the feeding assembly 40 conveys the material packages to the stacking assembly 50, and the stacking assembly 50 can discharge the material packages.
By applying the technical scheme of the embodiment, the distributing component 30 dials bagged materials on the feeding and conveying component 20 onto the feeding component 40, the feeding component 40 sends the materials to the stacking component 50, and the stacking component 50 performs stacking. The device realizes the feeding and stacking of the automatic flow and has higher efficiency. The technical scheme of this embodiment has solved the time wasting and energy, the lower problem of efficiency when the material pile up neatly among the prior art effectively.
It should be noted that the shifting direction of the distributing assembly 30 is perpendicular to the feeding direction of the feeding assembly 40.
In the technical solution of this embodiment, the feeding and conveying assembly 20 includes a carrier roller frame and a plurality of carrier rollers, the carrier roller frame is installed on the installation frame assembly 10, the plurality of carrier rollers are parallelly and alternately arranged on the carrier roller frame, and the rotation direction of each carrier roller is the same as the conveying direction of the feeding assembly 40. The bagged material of the structure is more stable to place, so that the bagged material cannot deviate greatly when the bagged material is stirred. Further, even if the bagged materials are conveyed by the structure, the conveying of the bagged materials is stable, and large deviation cannot occur.
In the technical solution of the embodiment, the material distribution assembly 30 includes a material distribution mounting frame 31, a material distribution driving portion 32 and a material distribution plate 33, the material distribution driving portion is movably mounted on the mounting frame assembly 10, the material distribution driving portion is connected to the material distribution mounting frame to drive the material distribution mounting frame to move, and the material distribution plate is mounted on the material distribution mounting frame. The structure is compact, and the processing cost is low.
Divide the material mounting bracket to install on mount pad subassembly 10, when needs group material, divide material drive division 32 to drive and divide material mounting bracket 31 to remove, divide material mounting bracket 31 to drive switch plate 33 and remove, switch plate 33's removal makes bagged materials group material when dividing, has so both guaranteed to dial the material, has guaranteed again can not make bagged materials warp great.
In the technical scheme of this embodiment, mounting bracket assembly 10 includes that two are dialled material mounting panel and two guide rail installation roof beams, and the both ends of two guide rail installation roof beams link to each other with two material mounting panel of dialling respectively, and two guide rail installation roof beams looks interval ground parallel arrangement. The mounting rack assembly with the structure has smaller weight.
In the technical scheme of this embodiment, the mounting bracket assembly 10 further includes a synchronous belt, an output shaft of the material distribution driving portion 32 is provided with a roller matched with the synchronous belt, and the roller is matched with the synchronous belt to drive the material shifting plate 33 to move. The synchronous belt has the advantages of convenient use and low cost. Specifically, the synchronous belt is provided with a rack, the material distribution driving part is a driving motor, a gear is arranged on an output shaft of the driving motor, and the rack of the gear on the synchronous belt is matched with the rack of the gear, so that the moving precision of the material shifting plate 33 is high.
In the technical solution of this embodiment, the mounting bracket assembly 10 further includes a synchronous belt tensioning structure, the synchronous belt tensioning structure is detachably mounted on one of the guide rail mounting beams, and the synchronous belt is connected with the guide rail mounting beam through the synchronous belt tensioning structure. The universality of the synchronous belt is enlarged by the structure, the service cycle of the synchronous belt is longer, for example, when the synchronous belt is looser, the synchronous belt can be operated in a manner of tensioning the synchronous belt, and the synchronous belt does not need to be replaced.
In the technical scheme of this embodiment, installation hold-in range straining device's guide rail installation roof beam has the slot hole, and the slot hole extends along the moving direction who dials the material subassembly, and hold-in range straining device has the bolt hole, and hold-in range straining device passes through the bolt with guide rail installation roof beam and links to each other to the rate of tension of the relative position adjustment hold-in range through bolt and slot hole. The structure has the advantages of convenient processing, simple installation and higher adjustment efficiency.
In the technical scheme of this embodiment, the mounting bracket subassembly is still including dialling the material guide rail, and the both ends of dialling the material guide rail link to each other with two material mounting panels of dialling respectively, dial the one side at another guide rail installation roof beam at the material guide rail. The guide structure ensures that the material poking assembly can move along a preset track under the condition of meeting the precision. It should be noted that the material poking guide rail and the other guide rail mounting beam are of an integrated structure, and the structure is compact. The material shifting guide rail and the other guide rail mounting beam can be separated.
In the technical scheme of this embodiment, dial the material subassembly and still include guide structure, guide structure includes two antifriction bearing, and two antifriction bearing are installed on the mount through two installation axles, and two bearings are located the upper surface of dialling the material guide rail. The friction force is reduced due to the arrangement of the rolling bearing, so that the abrasion is reduced, the energy is saved, and the running is more stable.
In the technical scheme of this embodiment, material feed divider still includes sensor and sensor trigger piece, and sensor trigger piece are all installed on the mounting bracket, and sensor trigger piece cooperate in order to control the position of dialling the material subassembly (dividing material subassembly 30). The above structure ensures the need for position detection.
In the technical scheme of this embodiment, the material shifting plate 33 includes a material shifting plate main body, a first material shifting long plate and a second material shifting long plate, a first side of the material shifting plate main body is connected to the fixing frame, a first side of the first material shifting long plate is connected to a second side of the material shifting plate main body, the first material shifting long plate and the material shifting plate main body form an obtuse angle, the first side of the second material shifting long plate is connected to the second side of the material shifting plate main body, and the second material shifting long plate and the material shifting plate main body form an obtuse angle. The structure ensures that the material shifting plate 33 can realize positive and negative material shifting. The structure that the switch plate 33 includes switch plate main part, first long board of dialling and the long board of second group material can also improve elastic deformation's ability, specifically, switch plate 33's vertical cross-section is "people" style of calligraphy. It should be noted that the first material pulling long plate and the second material pulling long plate may be a plane or an arc surface. The motor can rotate in the forward and reverse directions.
In the technical scheme of this embodiment, still include the buffer, the buffer sets up on the mount pad subassembly, when dialling material subassembly and mount pad subassembly and bump, can alleviate the mount pad subassembly effectively and dial the effort of material subassembly, prevents that incident and the condition of damaging equipment from taking place.
The kickoff plate is driven by the driving motor to reciprocate on the kickoff guide rail to push the material package, and the moving position is controlled by the sensor to achieve accurate positioning, and the buffer prevents accidental collision damage in the reciprocating motion.
The material distribution assembly is fixed on a rack of a material loading machine head, a feeding and conveying device and two conveying lines are arranged below the material distribution device, the conveying lines are respectively located on the left side and the right side of the feeding and conveying device and used for receiving material packages pushed by the material distribution mechanism in a linear reciprocating motion mode, and a material discharging device is arranged behind the conveying lines and used for loading and stacking vehicles.
In the technical solution of this embodiment, the feeding assembly 40 includes a feeding mounting frame, a feeding driving portion and a transmission belt, the feeding mounting frame is mounted on the mounting frame assembly 10, the feeding driving portion is mounted on the feeding mounting frame, and the transmission belt is connected to the feeding driving portion to drive the transmission belt. The transportation of transmission band is also more steady, and the setting up of transmission band makes material transmission more convenient.
In the technical scheme of this embodiment, sign indicating number material subassembly 50 includes sign indicating number material mounting bracket, walking structure, sign indicating number material drive division and switch door, and walking structrual installation is on mounting bracket assembly 10, and the sign indicating number material mounting bracket is installed at walking structrual, and sign indicating number material drive division links to each other with the switch door of drive and is in the open mode or the closed mode.
The stacking assembly 50 further comprises a rotation driving part installed on the mounting frame assembly 10, and the rotation driving part is connected with the walking structure to drive the walking structure to rotate.
The stacking assembly 50 further includes a traveling driving portion 55, the traveling driving portion is fixedly mounted on the mounting frame assembly 10, the traveling structure 56 is movably mounted on the mounting frame assembly 10, and the traveling driving portion is connected with the traveling structure to drive the traveling structure to move along the extending direction of the vertical beam. The rotary driving part is fixedly arranged on the connecting seat, the rotary driving part is connected with the switch door to drive the switch door to rotate, and the switch door has an opening state and a closing state.
The walking structure is installed on the mounting bracket assembly 10, the connecting seat is installed on the walking structure, the connecting seat is driven to move by the movement of the walking structure on the mounting bracket assembly 10, when the connecting seat moves to a proper position, the opening and closing door of the stacking assembly 50 is in an open state, the discharging is carried out, the opening and closing door is in a closed state after the discharging is finished, and then the original position is moved back. Such walking structure has improved the efficiency of branch material widely.
In the technical scheme of this embodiment, the walking drive portion includes walking driving motor and walking hold-in range, and walking driving motor links to each other with the walking hold-in range, and the walking structure links to each other with the walking hold-in range. The structure has lower processing cost and convenient arrangement. It should be noted that the walking synchronous belt is annular, two ends of the annular are supported by the rotating shaft, the walking driving motor drives the rotating shaft at one end, the rotating shaft is a driving rotating shaft, and the other rotating shaft is a driven rotating shaft. The walking synchronous belt can be provided with transmission teeth, or the walking synchronous belt can be smooth.
In the technical scheme of this embodiment, the stacking assembly 50 further includes two guide rails 51 and a plurality of composite bearings 52, the plurality of composite bearings are respectively disposed on the inner sides of the two vertical mounting beams, each vertical mounting beam is provided with a plurality of composite bearings, the two guide rails are respectively matched with the composite bearings on the corresponding vertical mounting beams and can move on the composite bearings, and the stacking assembly 50 is mounted on the two guide rails. The structure that the guide rail is matched with the composite bearing can greatly reduce the friction force, reduce the abrasion and reduce the power loss. The composite bearing can be a ball bearing with a middle part, and the outer side of the ball bearing is coated with a buffering vibration damping layer such as a silica gel pad, a rubber pad and the like.
In the technical scheme of this embodiment, a plurality of compound bearings on each vertical beam include that the looks interval sets up a plurality of compound bearings and a plurality of lower compound bearing, and the running structure includes two, a running structure and last compound bearing cooperation, another running structure and lower compound bearing cooperation. The structure can avoid the problem of interference of the two walking structures, and the plurality of walking structures are arranged simultaneously, so that the working efficiency is improved.
In the technical scheme of this embodiment, yarding subassembly 50 still includes proximity sensor 53, and proximity sensor includes first proximity sensor and second proximity sensor, and first proximity sensor sets up on mounting bracket assembly 10, and the second proximity sensor sets up on mounting bracket assembly 10, and first proximity sensor and second proximity sensor cooperate with the position of location yarding subassembly 50. The realization location that above-mentioned structure can be fine, specifically, walking structure still includes the response piece, and the response piece setting cooperatees on the sign indicating number material mounting bracket of sign indicating number material subassembly 50 and with second proximity sensor. It should be noted that the first proximity sensor and the sensor strip may also be disposed on the guide rail.
In the technical scheme of this embodiment, the second proximity sensor includes four, and four second proximity sensors are the interval setting, and the second proximity sensor includes initial position second proximity sensor, sign indicating number position second proximity sensor, nearest position second proximity sensor and farthest position second proximity sensor respectively.
In the technical scheme of this embodiment, proximity sensor is all installed to two walking structures correspondence. The two walking structures comprise a first walking structure and a second walking structure, the first walking structure corresponds to four second proximity sensors, the second walking structure corresponds to four second proximity sensors at the same time, the four second proximity sensors corresponding to the first walking structure and the four second proximity sensors corresponding to the second walking structure are arranged on two sides of the mounting frame assembly respectively, namely two sides of the vertical beam are mounted. The two walking structures can work independently. The control assembly can realize independent control over the two walking structures, and the control assembly can realize independent control over the two stacking assemblies.
In the technical scheme of this embodiment, connecting seat (sign indicating number material mounting bracket) links to each other with walking structure, and rotation driving portion installs on the connecting seat. The structure enlarges the universality, for example, when the material is unloaded, the material can be turned when the material needs to be transversely unloaded or when the material needs to be vertically unloaded (stacking). The width of the stacking mounting frame is 1.8 meters, so that the stacking mounting frame can be suitable for vehicles with most widths.
In the technical solution of this embodiment, the stacking component 50 further includes a limiting structure 54, the limiting structure is disposed on the connecting seat, and the limiting structure can be matched with the mounting bracket component 10. The arrangement of the limiting structure ensures the use safety of the travelling mechanism, for example, the travelling mechanism can be limited by the mechanical limiting structure when the control structure is in a space-time state. The limiting structure comprises a vertical plate and a buffer block, the first end of the vertical plate is connected with the connecting seat, the second end of the vertical plate is provided with the buffer block, the buffer block at the second end of the vertical plate can collide with the mounting cross beam, and what needs to be described is that the mounting cross beam is also provided with the corresponding buffer block.
In the technical solution of this embodiment, the feeding assembly 40 includes a first feeding assembly and a second feeding assembly, and the first feeding assembly and the second feeding assembly are located at two sides of the feeding conveying assembly 20. Above-mentioned structure has improved sign indicating number material efficiency.
In the technical solution of this embodiment, the material stacking assembly 50 includes a first material stacking assembly and a second material stacking assembly, the first material stacking assembly is disposed corresponding to the first material feeding assembly, and the second material stacking assembly is disposed corresponding to the second material feeding assembly. Above-mentioned structure has improved sign indicating number material efficiency, has improved the variety of sign indicating number material. It should be noted that the first stacking assembly can discharge vertically, the second stacking assembly can discharge horizontally or vertically, and the first stacking assembly can discharge horizontally and the second stacking assembly can discharge horizontally or vertically.
In the technical scheme of this embodiment, the material loading device includes a control assembly, and the feeding conveying assembly 20, the material distributing assembly 30, the feeding assembly 40 and the stacking assembly 50 are all electrically connected to the control assembly. The structure improves the automation degree, and in addition, the condition that human operation fails is also avoided.
In the technical scheme of this embodiment, material loading device still includes the response subassembly, and the response subassembly is connected with the control assembly electricity, and the response subassembly is used for detecting the material package on the feeding conveyor subassembly 20. Above-mentioned structure has further improved degree of automation, realizes work such as automatic transport, sign indicating number material through the response of response subassembly.
The technical scheme of the second embodiment is different from the first embodiment in that the synchronous belt is used for chain transmission, and the chain is matched with the chain wheel, so that the structure is firmer, and the service cycle is longer.
The technical scheme of the third embodiment is different from that of the first embodiment in that the guide structure comprises four rolling bearings, two of which are positioned on the upper surface of the material shifting guide rail, and two of which are positioned on the lower surface of the material shifting guide rail. Therefore, the material distributing assembly can run more stably.
It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of example embodiments according to the present application. As used herein, the singular forms "a", "an" and "the" are intended to include the plural forms as well, and it should be understood that when the terms "comprises" and/or "comprising" are used in this specification, they specify the presence of stated features, steps, operations, devices, components, and/or combinations thereof, unless the context clearly indicates otherwise.
It should be noted that the terms "first," "second," and the like in the description and claims of this application and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the application described herein are, for example, capable of operation in sequences other than those illustrated or otherwise described herein. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.
The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A material loading device, comprising:
a mounting frame assembly (10), the mounting frame assembly (10) comprising cross beams (11) and vertical beams (12) connected to each other;
a feed conveyor assembly (20), the feed conveyor assembly (20) mounted on the mounting frame assembly (10);
a dispensing assembly (30), said dispensing assembly (30) being movably mounted on said mounting frame assembly (10) and above said feed conveyor assembly (20);
a feeding assembly (40), wherein the feeding assembly (40) is arranged on the mounting frame assembly (10), and the material distribution assembly (30) can be used for shifting the material packet of the feeding conveying assembly (20) to the feeding assembly (40);
the stacking component (50), the stacking component (50) is installed on the mounting frame component (10), the feeding component (40) conveys the material bags to the stacking component (50), and the stacking component (50) can unload the material bags.
2. The material loading apparatus according to claim 1, wherein the feed conveyor assembly (20) includes a plurality of idlers and a idler frame, the idler frame being mounted to the mounting frame assembly (10), the idlers being arranged in parallel and spaced apart on the idler frame, the direction of rotation of each idler being the same as the direction of conveyance of the feed assembly (40).
3. The material loading device according to claim 1, wherein the material distributing assembly (30) comprises a material distributing mounting frame, a material distributing driving part and a material shifting plate, the material distributing driving part is movably mounted on the mounting frame assembly (10), the material distributing driving part is connected with the material distributing mounting frame to drive the material distributing mounting frame to move, and the material shifting plate is mounted on the material distributing mounting frame.
4. The material loading device according to claim 1, wherein the feeding assembly (40) comprises a feeding mounting frame, a feeding driving portion and a conveying belt, the feeding mounting frame is mounted on the mounting frame assembly (10), the feeding driving portion is mounted on the feeding mounting frame, and the conveying belt is connected with the feeding driving portion to drive the conveying belt.
5. The material loading device according to claim 1, wherein the material stacking assembly (50) comprises a material stacking installation frame, a walking structure, a material stacking driving portion and a switch door, the walking structure is installed on the installation frame assembly (10), the material stacking installation frame is installed on the walking structure, and the material stacking driving portion is connected with the switch door to drive the switch door to be in an open state or a closed state.
6. The material loading device of claim 5, wherein the stacking assembly (50) further comprises a rotary drive mounted on the mounting bracket assembly (10), the rotary drive being connected to the stacking mounting bracket to drive the stacking mounting bracket to rotate.
7. The material loading apparatus according to any one of claims 1 to 6, wherein the feed assembly (40) comprises a first feed assembly and a second feed assembly, the first feed assembly and the second feed assembly being located on both sides of the feed conveyor assembly (20).
8. The material loading device according to claim 7, wherein the palletizing assembly (50) comprises a first palletizing assembly and a second palletizing assembly, the first palletizing assembly is arranged corresponding to the first feeding assembly, and the second palletizing assembly is arranged corresponding to the second feeding assembly.
9. The material loading device according to any one of claims 1 to 6, characterized in that the material loading device comprises a control assembly, and the feeding conveying assembly (20), the material distributing assembly (30), the feeding assembly (40) and the material stacking assembly (50) are all electrically connected with the control assembly.
10. The material loading device according to claim 9, further comprising a sensing assembly electrically connected to the control assembly, wherein the sensing assembly is configured to detect the material pack on the feeding conveyor assembly (20).
CN202122936208.2U 2021-11-26 2021-11-26 Material loading device Active CN216763595U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202122936208.2U CN216763595U (en) 2021-11-26 2021-11-26 Material loading device

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202122936208.2U CN216763595U (en) 2021-11-26 2021-11-26 Material loading device

Publications (1)

Publication Number Publication Date
CN216763595U true CN216763595U (en) 2022-06-17

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Application Number Title Priority Date Filing Date
CN202122936208.2U Active CN216763595U (en) 2021-11-26 2021-11-26 Material loading device

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Country Link
CN (1) CN216763595U (en)

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