CN110844564A - Material distributing frame system - Google Patents

Material distributing frame system Download PDF

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Publication number
CN110844564A
CN110844564A CN201911303214.5A CN201911303214A CN110844564A CN 110844564 A CN110844564 A CN 110844564A CN 201911303214 A CN201911303214 A CN 201911303214A CN 110844564 A CN110844564 A CN 110844564A
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CN
China
Prior art keywords
pushing
workpieces
stroke
frame
material distributing
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Pending
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CN201911303214.5A
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Chinese (zh)
Inventor
邓军
常强强
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Suzhou An Jia Automation Equipment Co Ltd
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Suzhou An Jia Automation Equipment Co Ltd
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Priority to CN201911303214.5A priority Critical patent/CN110844564A/en
Publication of CN110844564A publication Critical patent/CN110844564A/en
Pending legal-status Critical Current

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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65GTRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
    • B65G47/00Article or material-handling devices associated with conveyors; Methods employing such devices
    • B65G47/74Feeding, transfer, or discharging devices of particular kinds or types
    • B65G47/82Rotary or reciprocating members for direct action on articles or materials, e.g. pushers, rakes, shovels

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Feeding Of Articles To Conveyors (AREA)

Abstract

The invention relates to a material distributing frame system. The material distributing frame system comprises a material loading frame, a bearing platform and a material pushing assembly, wherein a material pushing stroke is formed on the material loading frame and comprises a material loading end and a material distributing end which are oppositely arranged, the material loading end is used for supporting and positioning at least two workpieces, the at least two workpieces are disc workpieces or circular workpieces, a circle center connecting line of the at least two workpieces is parallel to the extending direction of the material pushing stroke, the bearing platform is adjacent to the material distributing end, and the material pushing assembly is used for pushing the at least two workpieces to move upwards to the material distributing end along the material pushing stroke and sequentially drops and tiles on the bearing platform to realize the separation and conveying of the at least two workpieces. The material distributing frame system has high material distributing efficiency on the disc workpiece or the circular ring workpiece.

Description

Material distributing frame system
Technical Field
The invention relates to a material distributing frame system.
Background
In the process of conveying circular workpieces or circular ring workpieces (such as building tubular pile end plates), a large amount of materials are required to be fed into a conveying device and distributed, so that the workpieces are conveyed to a welding or machining station one by one. The periphery of the circular workpiece or the circular ring workpiece is arc-shaped, so that the circumferential surface of the circular workpiece or the circular ring workpiece is inconvenient to position. Therefore, manual grabbing and material distribution are often adopted, so that the material distribution efficiency is low.
Disclosure of Invention
Based on this, it is necessary to provide a material distributing frame system with high material distributing efficiency.
The utility model provides a material distributing frame system, includes material loading frame, accepts platform and material pushing component, it pushes away the material stroke to be formed with on the material loading frame, it includes relative material loading end and the branch material end that sets up to push away the material stroke, the material loading end is used for supporting two at least work pieces of location, wherein two at least work pieces are disc work piece or ring work piece, the centre of a circle line of two at least work pieces with it is parallel to push away the extending direction of material stroke, it is close to accept the platform branch material end setting, it is used for promoting to push away the material component two at least work pieces are followed it shifts up to push away the material stroke branch material end department to drop in proper order and tile to accept on the platform, in order to realize the separation of.
In one of the embodiments, the bearing platform is provided with a bearing surface, one side of the bearing surface is convexly provided with a blocking part, the blocking part is positioned at one side of the bearing surface far away from the feeding frame, the feeding frame system further comprises a centering assembly, the centering assembly comprises a first driving part and a centering pushing part, the centering pushing part is slidably arranged on the bearing surface and connected with the first driving part, the pushing direction of the centering pushing part is perpendicular to the extending direction of the pushing stroke, and the centering pushing part is provided with two pushing parts.
In one embodiment, the two pushing portions are wedge-shaped pushing portions, the two wedge-shaped pushing portions are used for abutting and pushing the periphery of each workpiece, the centering pushing piece further comprises a connecting body, the two wedge-shaped pushing portions are arranged on the connecting body in a protruding mode, inclined contact surfaces are formed on opposite sides of the two wedge-shaped pushing portions, and the two inclined contact surfaces are used for righting the workpieces in the pushing process so that the workpieces are aligned with the transmission device.
In one embodiment, the automatic feeding device further comprises a mounting seat and a jacking mechanism, the feeding frame is rotatably mounted on the mounting seat, the pushing stroke is parallel to the length direction of the feeding frame, the jacking mechanism is mounted on the mounting seat and connected with the bottom of the feeding frame, and the jacking mechanism is used for driving the feeding frame to rotate relative to the mounting seat.
In one embodiment, the jacking mechanism is configured to drive the feeding frame to rotate at least two inclination angles relative to the mounting base, where the at least two inclination angles include a feeding inclination angle and a distributing inclination angle, and the distributing inclination angle is greater than the feeding inclination angle.
In one of them embodiment, still include the guide board, the one end of guide board extends to divide material end department, other end slope downwardly extending to accept platform department, be formed with the slope guide face on the guide board, be used for the guide two at least work pieces are followed divide material end department landing extremely accept on the platform, in order to realize two at least work pieces erect the state to the transition of tiling state.
In one embodiment, the guide plate includes a first guide plate body and a second guide plate body connected to each other, the first guide plate body is connected to the material separating end, the second guide plate body extends to the edge of the receiving platform, and an inclination angle of the first guide plate body relative to the ground is greater than an inclination angle of the second guide plate body relative to the ground.
In one embodiment, the feeding frame is rotatably provided with at least one bottom guide cylinder and two side guide cylinders, the at least one bottom guide cylinder and the two side guide cylinders together form the pushing stroke, and the at least two workpieces are slidably supported on the at least one bottom guide cylinder and the two side guide cylinders.
In one embodiment, at least one guide portion is formed on the feeding frame, the pushing assembly includes at least one second driving member, at least one pull rod and a pushing member, the at least one second driving member is mounted on the feeding frame, the at least one pull rod is connected to the at least one second driving member, the pushing member is connected to the at least one pull rod, at least one sliding portion is arranged on the pushing member, the at least one sliding portion is slidably disposed on the at least one guide portion, and the pushing member is used for pushing the at least two workpieces to slide along the pushing stroke.
In one embodiment, the feeding frame is further provided with a detection switch, the detection switch is electrically connected with the pushing assembly, and the detection switch is used for detecting the falling of the at least two workpieces, so that the pushing assembly can pause pushing when the workpieces fall.
Has the advantages that:
in this branch work or material rest system, the material stroke that pushes away that the slope set up can make a plurality of work pieces of range upon range of setting rely on gravity to remain stable and comparatively inseparable, conveniently cut the branch material, also convenient with the hoist and mount of a plurality of disc work pieces or ring work piece such as steel tubular pile end plate extremely go up on the work or material rest, because the cutting mode of the material book of last process is the gesture cutting of axial horizontal formula, consequently can keep the direct hoist and mount material loading of former gesture, save the transit time. In addition, the material feeding frame is used for automatically feeding materials, so that the manual work is replaced, and the material feeding efficiency is improved.
The blocking part is arranged, so that the workpiece can be prevented from being punched out of the bearing platform from one side of the bearing platform, which is far away from the feeding frame. Through setting up at least one bottom guide cylinder and two lateral part guide cylinder to make things convenient for placing of a plurality of work pieces, moreover when at least one bottom guide cylinder and two lateral part guide cylinder wearing and tearing, can rotate its direction, the extension go up the life of work or material rest. Through making the material loading frame has less material loading inclination, then conveniently with a plurality of work pieces hoist to on the material loading frame, and through setting up great branch material inclination, thereby make a plurality of work pieces can be more smooth when dividing the material. In addition, in order to deal with workpieces with different sizes and gravities, the at least two inclination angles can comprise a plurality of feeding inclination angles and a plurality of distributing inclination angles, or the jacking mechanism is utilized to realize stepless adjustment of the inclination angles.
The two inclined contact surfaces are arranged on the centering pushing member, so that two-point contact or two-line contact can be realized by utilizing the two inclined contact surfaces and the peripheral surface of the workpiece, the central line of the workpiece can be automatically positioned in the pushing process, the moving and the positioning in the next procedure are facilitated, and the centering pushing member can adapt to workpieces with different sizes. By arranging the detection switch, the plurality of workpieces can not fall together, but fall one by one, and material distribution is facilitated. When the detection switch is not arranged, the material pushing piece can move for a preset distance every time to realize material distribution. Through setting up the guide board to set up the slope guide face on the guide board, thereby conveniently guide the work piece from the vertical transition to the tiling state. And the arrangement of the first guide plate body and the second guide plate body can change the inclination angle of the workpiece more conveniently and successively.
Drawings
Fig. 1 is a schematic perspective view of a material distributing frame system according to an embodiment.
Fig. 2 is a schematic perspective view of a part of the structure of the material distributing frame system shown in fig. 1.
Fig. 3 is a schematic perspective view of a receiving platform and a centering assembly of the material distributing frame system shown in fig. 1.
Detailed Description
To facilitate an understanding of the invention, the invention will now be described more fully with reference to the accompanying drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.
It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.
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 invention belongs. The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.
The invention relates to a material distributing frame system. For example, the material distributing frame system comprises a material loading frame, a bearing platform and a material pushing assembly, wherein a material pushing stroke is formed on the material loading frame, and the material pushing stroke comprises a material loading end and a material distributing end which are arranged oppositely. For example, the feeding end is used for supporting and positioning at least two workpieces, wherein the at least two workpieces are disc workpieces or ring workpieces, and a line connecting centers of the at least two workpieces is parallel to the extending direction of the pushing stroke. For example, the receiving platform is disposed adjacent to the material distributing end, and the material pushing assembly is configured to push the at least two workpieces to move up to the material distributing end along the material pushing stroke, and sequentially drop and tile the workpieces onto the receiving platform, so as to separate and convey the at least two workpieces.
Referring to fig. 1 to 3, a material distributing frame system includes a material loading frame 20, a receiving platform 30 and a material pushing assembly 35, wherein a material pushing stroke 21 is formed on the material loading frame 20, the material pushing stroke 21 is obliquely arranged relative to the ground and includes a material loading end 22 and a material distributing end 23 which are oppositely arranged, the material loading end 22 is used for supporting and positioning at least two workpieces 200, wherein at least two workpieces 200 are disc workpieces or ring workpieces, a circle center connecting line of at least two workpieces 200 is parallel to an extending direction of the material pushing stroke 21, the receiving platform 30 is arranged adjacent to the material distributing end 23, and the material pushing assembly 35 is used for pushing at least two workpieces 200 to move up to the material distributing end 23 along the material pushing stroke 21, and sequentially drop and tile onto the receiving platform 30, so as to realize the separation and transportation of at least two workpieces 200.
For example, when the material distributing frame system is used, a plurality of disc workpieces 200 or ring workpieces 200, such as steel pipe pile end plates, are hoisted to the feeding end 22 of the material distributing frame 20, so that the circle center connecting line of the plurality of workpieces 200 is parallel to the extending direction of the material pushing stroke 21, that is, the plurality of workpieces 200 are vertically placed on the feeding member, and then the material pushing assembly 35 is used for pushing the plurality of workpieces 200 to move up to the material distributing end 23 along the material pushing stroke 21, and sequentially fall and flatly place the workpieces on the receiving platform 30, so as to realize the separated conveying of at least two workpieces 200. That is, the plurality of workpieces 200 are dropped one by one onto the receiving platform 30, and the workpieces 200 are changed from being placed vertically to being laid flat, thereby achieving separation of the plurality of workpieces 200. In the material distributing frame system, the material pushing stroke 21 which is obliquely arranged can ensure that a plurality of workpieces 200 which are arranged in a stacked mode are kept stable and tight by means of gravity, material can be conveniently cut, a plurality of disc workpieces or circular workpieces such as steel pipe pile end plates can be conveniently hoisted onto the material distributing frame 20, and the material roll in the previous process is cut in an axial horizontal mode, so that the original mode (namely, the mode that the cut faces upwards) can be kept for directly hoisting and loading materials, and the transfer time is saved. In addition, utilize the material loading frame 20 to divide the material automatically, improved its material efficiency that divides.
For example, in one embodiment, one loading shelf 20 is disposed on each of two opposite sides of the receiving platform 30.
For example, in order to prevent the workpieces 200 from being pushed out of the receiving platform 30, a receiving surface 31 is formed on the receiving platform 30, a blocking portion 32 is convexly disposed on one side of the receiving surface 31, the blocking portion 32 is located on one side of the receiving surface 31 away from the feeding frame 20, the feeding frame system further includes a centering assembly 40, the centering assembly 40 includes a first driving member 41 and a centering pushing member 42, the centering pushing member 42 is slidably disposed on the receiving surface 31 and connected with the first driving member 41, the pushing direction of the centering pushing member 42 is perpendicular to the extending direction of the pushing stroke 21, two wedge-shaped pushing portions 421 are convexly disposed on the centering pushing member 42, and the two wedge-shaped pushing portions 421 are used for pushing the periphery of each workpiece 200 in a butting manner. By providing the blocking portion 32, the workpiece 200 can be prevented from being punched out of the receiving platform 30 from the side of the receiving platform 30 away from the upper rack 20. For example, the receiving surface 31 is provided with one of the stoppers 32 on each of opposite sides thereof.
For example, in order to facilitate the alignment of the workpiece 200 on the receiving platform 30 for convenient transportation to a subsequent station, the centering pushing member 42 further includes a connecting body 423, the two wedge-shaped pushing portions 421 are both protruded on the connecting body 423, inclined contact surfaces 425 are formed on opposite sides of the two wedge-shaped pushing portions 421, and the two inclined contact surfaces 425 are used for aligning the workpiece 200 during pushing, so that the workpiece 200 is aligned with the transporting device. By arranging the two inclined contact surfaces 425, two-point contact or two-line contact can be realized between the two inclined contact surfaces 425 and the peripheral surface of the workpiece 200, so that the center line of the workpiece 200 can be automatically positioned in the pushing process, the moving and positioning in the next process are facilitated, and the workpiece 200 with different sizes can be adapted. For example, the transport device is used to transport a workpiece to a weld extension line for welding a cut of the workpiece.
For example, in order to stack the feeding frames 20, the feeding frame system further includes a mounting seat 51 and a jacking mechanism 50, the feeding frame 20 is rotatably mounted on the mounting seat 51, the pushing stroke 21 is parallel to the length direction of the feeding frame 20, the jacking mechanism 50 is mounted on the mounting seat 51 and connected to the bottom of the feeding frame 20, and the jacking mechanism 50 is configured to drive the feeding frame 20 to rotate relative to the mounting seat 51. Through setting up climbing mechanism 50, can be when the stop work for on the work or material rest 20 is arranged in the mount pad 51 in the level, and when needs divide the material, then can utilize climbing mechanism 50 drive to go up work or material rest 20 and rotate to inclination, so that divide the material fast.
For example, to facilitate loading and distributing, the jacking mechanism 50 is configured to drive the loading frame 20 to rotate at least two inclination angles relative to the mounting seat 51, where the at least two inclination angles include a loading inclination angle and a distributing inclination angle, and the distributing inclination angle is greater than the loading inclination angle. Through making the material loading frame 20 have less material loading inclination, then conveniently hoist a plurality of work pieces 200 to material loading frame 20 on, and through setting up great branch material inclination to make a plurality of work pieces 200 can be more smooth when dividing the material. In addition, in order to cope with workpieces 200 of different sizes and gravities, the at least two tilt angles may include a plurality of feeding tilt angles and a plurality of distributing tilt angles, or the tilt angles may be adjusted steplessly by using the jacking mechanism 50.
For example, in order to guide the work pieces 200 to be transformed from the vertical placement state to the flat placement state, the feeding frame system further includes a guiding plate 48, one end of the guiding plate 48 extends to the feeding end 23, the other end of the guiding plate extends obliquely downward to the receiving platform 30, and an inclined guiding surface 481 is formed on the guiding plate 48 and used for guiding at least two work pieces 200 to slide down from the feeding end 23 to the receiving platform 30, so as to realize the transformation from the vertical placement state to the flat placement state of at least two work pieces 200. The guide plate 48 includes a first guide plate body 482 and a second guide plate body 483 that are connected to each other, the first guide plate body 482 is connected to the branch material end 23, the second guide plate body 483 extends to the edge of the receiving platform 30, and the inclination angle of the first guide plate body 482 with respect to the ground is greater than the inclination angle of the second guide plate body 483 with respect to the ground. By providing the guide plate 48 and providing the inclined guide surface 481 on the guide plate 48, the transition of the work 200 from the upright state to the flat state is facilitated. The arrangement of the first guide plate 482 and the second guide plate 483 facilitates to change the inclination angle of the workpiece 200 one by one.
For example, in order to guide the plurality of workpieces 200 to move, the loading frame 20 is rotatably provided with at least one bottom guide cylinder 24 and two side guide cylinders 26, the at least one bottom guide cylinder 24 and the two side guide cylinders 26 together form the pushing stroke 21, and the at least two workpieces 200 are slidably supported by the at least one bottom guide cylinder 24 and the two side guide cylinders 26. Through setting up at least one bottom guide cylinder 24 and two lateral part guide cylinders 26 to make things convenient for the placing of a plurality of work pieces 200, when at least one bottom guide cylinder 24 and two lateral part guide cylinders 26 wear out, can rotate its direction, prolong the life of last work or material rest 20.
For example, in order to facilitate pushing the plurality of workpieces 200 from the feeding end 22 to the material dividing end 23, the feeding frame 20 is formed with at least one guiding portion 27, the material pushing assembly 35 includes at least one second driving member 351, at least one pull rod 352 and a material pushing member 353, the at least one second driving member 351 is mounted on the feeding frame 20, the at least one pull rod 352 is connected to the at least one second driving member 351, the material pushing member 353 is connected to the at least one pull rod 352, the material pushing member 353 is provided with at least one sliding portion 354, the at least one sliding portion 354 is slidably disposed on the at least one guiding portion 27, and the material pushing member 353 is configured to push the at least two workpieces 200 to slide along the material pushing stroke 21. Through setting up material pushing component 353, and then make things convenient for the propelling movement to a plurality of work pieces 200.
For example, in order to facilitate the separation of one of the plurality of workpieces 200, the feeding frame 20 is further provided with a detection switch, the detection switch is electrically connected to the pushing assembly 35, and the detection switch is used for detecting the dropping of at least two workpieces 200, so that the pushing assembly 35 can suspend pushing when a workpiece 200 drops. By arranging the detection switch, a plurality of workpieces 200 can not fall together, but fall one by one, and material distribution is facilitated. When the detection switch is not provided, the material pushing member 353 can move a preset distance each time to realize material distribution.
For example, in one embodiment, in order to support the plurality of workpieces 200 more stably, the number of the at least one bottom guide cylinder 24 is two, the two bottom guide cylinders 24 and the two side guide cylinders 26 together form the pushing stroke 21, and the at least two workpieces 200 are slidably supported by the two bottom guide cylinders 24 and the two side guide cylinders 26. By providing two bottom guide cylinders 24, the stability of the support of the workpiece 200 is improved.
For example, in one embodiment, in order to push the plurality of workpieces 200 more stably, the number of the at least one guide portion 27 is two, the two guide portions 27 are guide rails, the two guide rails are respectively protruded on two opposite sides of the loading frame 20, the number of the at least one second driving member 351 is two, the number of the at least one sliding portion 354 is two, the two sliding portions 354 are sliding blocks, the number of the at least one pull rod 352 is two, the pushing assembly 35 further includes a connecting plate 355, the two second driving members 351 are respectively installed on two opposite sides of the loading frame 20, two opposite ends of the connecting plate 355 are respectively connected to output shafts of the two second driving members 351, the two pull rods 352 are respectively connected to the connecting plate 355 vertically and respectively extend along the two guide rails, the two sliding blocks are respectively protruded on two opposite sides of the pushing member 353, the two sliding blocks are respectively slidably installed on the two guide rails and respectively connected to the two pull rods 352, the pushing component 353 is used for pushing at least two workpieces 200, and a semicircular groove is concavely arranged at the top of the pushing component 353 and is aligned to the centers of the at least two workpieces 200.
For example, in order to facilitate the rotation of the feeding frame 20, one end of the feeding frame 20 is rotatably connected to one side of the mounting seat 51, the jacking mechanism 50 includes two jacking assemblies 52, the two jacking assemblies 52 are both mounted on the other side of the mounting seat 51, and the two jacking assemblies 52 are respectively mounted on two opposite sides of the distributing end 23. Each jacking assembly 52 comprises a jacking cylinder 523 and a jacking column 525, one end of the jacking cylinder 523 is rotatably mounted on the bottom edge of the mounting base 51, an output shaft of the jacking cylinder 523 is connected with the jacking column 525, and one end, far away from the jacking cylinder 523, of the jacking column 525 is rotatably connected to the bottom of the distributing end 23. By arranging the two jacking assemblies 52, the feeding frame 20 can be stably supported to rotate.
The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.
The above embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. The utility model provides a material distributing frame system, its characterized in that includes material loading frame, accepts platform and material pushing component, it pushes away the material stroke to be formed with on the material loading frame, it includes relative material loading end and the branch material end that sets up to push away the material stroke, the material loading end is used for supporting two at least work pieces of location, wherein two at least work pieces are disc work piece or ring work piece, the line of the centre of a circle of two at least work pieces with it is parallel to push away the extending direction of material stroke, it is close to accept the platform branch material end setting, material pushing component is used for promoting two at least work pieces are followed it shifts up to divide material end department to drop in proper order and tile to accept on the platform, in order to realize the separation of two at least work pieces.
2. The material distributing frame system according to claim 1, wherein a receiving surface is formed on the receiving platform, a blocking portion is convexly arranged on one side of the receiving surface, the blocking portion is located on one side, far away from the material loading frame, of the receiving surface, the material distributing frame system further comprises a centering assembly, the centering assembly comprises a first driving piece and a centering pushing piece, the centering pushing piece is slidably arranged on the receiving surface and connected with the first driving piece, the pushing direction of the centering pushing piece is perpendicular to the extending direction of the material pushing stroke, and two pushing portions are arranged on the centering pushing piece.
3. The material distributing frame system according to claim 2, wherein the two pushing portions are wedge-shaped pushing portions, the two wedge-shaped pushing portions are used for abutting against and pushing the periphery of each workpiece, the centering pushing member further comprises a connecting body, the two wedge-shaped pushing portions are arranged on the connecting body in a protruding mode, inclined contact surfaces are formed on opposite sides of the two wedge-shaped pushing portions, and the two inclined contact surfaces are used for righting the workpieces in the pushing process so that the workpieces are aligned with the transmission device.
4. The material distributing frame system according to claim 1, further comprising a mounting seat and a jacking mechanism, wherein the material feeding frame is rotatably mounted on the mounting seat, the material pushing stroke is parallel to the length direction of the material feeding frame, the jacking mechanism is mounted on the mounting seat and connected with the bottom of the material feeding frame, and the jacking mechanism is used for driving the material feeding frame to rotate relative to the mounting seat.
5. The work bin system of claim 4, wherein the jacking mechanism is configured to drive the work bin to rotate at least two tilt angles relative to the mounting base, the at least two tilt angles including a loading tilt angle and a material splitting tilt angle, wherein the material splitting tilt angle is greater than the loading tilt angle.
6. The material distributing frame system according to claim 5, further comprising a guiding plate, wherein one end of the guiding plate extends to the material distributing end, the other end of the guiding plate extends obliquely downwards to the receiving platform, and an oblique guiding surface is formed on the guiding plate and used for guiding the at least two workpieces to slide onto the receiving platform from the material distributing end, so that the at least two workpieces are converted from a vertical state to a flat state.
7. The hopper system according to claim 6, wherein the guide plate includes first and second guide plates connected to each other, the first guide plate being connected to the hopper end, the second guide plate extending to an edge of the receiving platform, an angle of inclination of the first guide plate relative to ground being greater than an angle of inclination of the second guide plate relative to ground.
8. The work bin system of claim 1, wherein the work bin is rotatably provided with at least one bottom guide cylinder and two side guide cylinders, the at least one bottom guide cylinder and the two side guide cylinders together forming the pushing stroke, and the at least two work pieces are slidably supported on the at least one bottom guide cylinder and the two side guide cylinders.
9. The material distributing frame system according to claim 1, wherein at least one guiding portion is formed on the material loading frame, the material pushing assembly includes at least one second driving member, at least one pull rod and a material pushing member, the at least one second driving member is mounted on the material loading frame, the at least one pull rod is connected to the at least one second driving member, the material pushing member is connected to the at least one pull rod, at least one sliding portion is disposed on the material pushing member, the at least one sliding portion is slidably disposed on the at least one guiding portion, and the material pushing member is configured to push the at least two workpieces to slide along the material pushing stroke.
10. The material distributing frame system according to claim 1, wherein a detection switch is further arranged on the material loading frame, the detection switch is electrically connected with the material pushing assembly, and the detection switch is used for detecting the dropping of the at least two workpieces, so that the material pushing assembly can pause material pushing when the workpieces drop.
CN201911303214.5A 2019-12-17 2019-12-17 Material distributing frame system Pending CN110844564A (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN113650858A (en) * 2021-07-16 2021-11-16 晟通科技集团有限公司 Sheet material distributing device

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