CN212923328U - Special-shaped part vibration feeding mechanism - Google Patents

Abstract

The utility model discloses a dysmorphism vibration feed mechanism, include the frame and set up in the vibration dish on frame upper portion, still including setting up row's material subassembly and the storage frame in the frame, the storage frame sets up in the below of vibration dish, it sets up in the side of vibration dish and storage frame to arrange the material subassembly, it includes annular drive chain and a plurality of hoppers of arranging on the drive chain to arrange the material subassembly, the hopper carries out the annular operation under the drive of drive chain, accept the material of storage frame department when the exit of storage frame is reachd to the hopper, blanking to the vibration dish in when the storage frame that is equipped with the material rises to vibration dish top. The utility model discloses to setting up higher vibration dish, realize through row material subassembly and storage frame that the low department of material deposits and look like high department and carry, reduce the degree of difficulty that the material was carried, the staff or the mechanical mechanism of transported substance material only need in low department storage frame department supply the material can, more simple and convenient, overall structure is compact, does not occupy peripheral space.

Description

Special-shaped part vibration feeding mechanism

Technical Field

The utility model relates to a work piece conveyor especially relates to a dysmorphism vibration feed mechanism.

Background

When the workpieces are conveyed in a sequencing mode, a vibration disc is used for a large number of workpieces, the workpieces are sequentially supplemented into the vibration disc through a worker or a conveying belt, and then the workpieces are sequenced through vibration of the vibration disc and then are sequentially output. When the position of the workpiece needing to be arranged and output is higher, namely the vibration disc needs to be arranged higher, the conveying belt or the manpower is difficult to supplement the workpiece, so a more proper conveying and feeding mechanism needs to be arranged to realize better feeding to the vibration disc at a high position.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the not enough of prior art, provide a dysmorphism vibration feed mechanism, can be with the smooth vibration dish of carrying the eminence of material, it saves space, improves automatic transport efficiency.

The utility model adopts the following technical scheme: dysmorphism vibration feed mechanism, include the frame and set up in the vibration dish on frame upper portion, still including setting up row's material subassembly and the storage frame in the frame, the storage frame sets up in the below of vibration dish, it sets up in the side of vibration dish and storage frame to arrange the material subassembly, it includes annular drive chain and a plurality of hoppers of arranging on the drive chain to arrange the material subassembly, the hopper carries out the annular operation under the drive of drive chain, accept the material of storage frame department when the exit of storage frame is reachd to the hopper, blanking to the vibration dish when the storage frame that is equipped with the material rises to the vibration dish top in.

As an improvement, the driving chains are wound on the plurality of chain wheels, and the driving chains between the vibrating disc and the storage rack are vertically arranged, so that the plurality of hoppers are kept horizontally to bear materials; a section of driving chain on the upper part of the vibration disc is obliquely arranged, so that the feeding hopper is obliquely inclined downwards to perform blanking when reaching the inclined section.

As an improvement, the bottom of the storage rack is provided with a vibrator, and the vibrator vibrates materials to an outlet of the storage rack when the vibrator is started.

As an improvement, the bottom of the storage rack is obliquely arranged towards the outlet of the storage rack.

As an improvement, the shell of the rack surrounds the vibrating disk and the storage rack, and a rotating door is arranged on the rack and corresponds to an inlet of the storage rack.

The utility model has the advantages that: for the vibration disc with a higher height, the materials are stored at a lower position and conveyed to a higher position through the material discharging assembly and the material storage rack, so that the difficulty of material conveying is reduced, and workers or a mechanical mechanism for conveying the materials only need to supplement the materials at the lower position of the material storage rack, so that the vibration disc is simpler and more convenient; and rely on setting up vibration dish and storage frame from top to bottom to and set up row material subassembly at the side, overall structure is compact, and is integrated on high space, does not occupy peripheral space, is favorable to arranging and accepting subsequent material and carries the processing line.

Drawings

Fig. 1 is a schematic perspective view of the special-shaped member vibration feeding mechanism of the present invention.

Fig. 2 is a schematic longitudinal sectional structure of the special-shaped member vibration feeding mechanism of the present invention.

Detailed Description

The following detailed description of the embodiments of the present invention will be made with reference to the accompanying drawings.

Fig. 1 and 2 show a specific embodiment of the special-shaped member vibration feeding mechanism of the present invention. This embodiment includes frame 1 and sets up in vibration dish 2 on frame 1 upper portion, still including setting up row's material subassembly 3 and the storage frame 4 in frame 1, storage frame 4 sets up in the below of vibration dish 2, it sets up in the side of vibration dish 2 and storage frame 4 to arrange material subassembly 3, it includes annular drive chain 31 and a plurality of hoppers 32 of arranging on drive chain 31 to arrange material subassembly 3, hoppers 32 carry out the annular operation under the drive of drive chain 31, accept the material of storage frame 4 department when hopper 32 reachs the exit of storage frame 4, blanking to vibration dish 2 when the storage frame 4 that is equipped with the material rises to vibration dish 2 tops.

When the utility model is used, a worker or a conveying robot puts materials (special-shaped pieces) into the storage rack 4, the upper part in front is an inlet of the storage rack 4, and the lower part at the rear is an outlet of the storage rack 4; the driving chain 31 of the discharging assembly 3 is wound into a ring shape, a plurality of hoppers 32 are uniformly distributed on the driving chain 31, and when the driving chain 31 is driven by an external driving mechanism to run, the hoppers 32 run around; the opening of the hopper 32 is upward at the front side, and the hopper receives the materials in the storage rack 4 when reaching the outlet of the storage rack until the storage rack is full; then, the materials continuously rise to the upper part of the vibration disc 2, and the feeding hopper 32 on the vibration disc can be inclined by means of the direction change of the driving chain 31, so that the materials fall into the vibration disc 2; the hopper 32 that completes one feeding runs one turn to perform a repeated feeding process. The scheme arranged in the way well realizes that the materials are conveyed to the vibration disc 2 at a high position, and the materials are sorted by the outlet end of the vibration disc 2 and are output to a subsequent station for conveying and processing; the staff or the mechanical mechanism or the robot only needs to supplement materials at a low position, so that time and labor are saved; the structure arranged in this way is integrated in height space, occupies small peripheral space, and is beneficial to arranging and carrying subsequent material conveying and processing lines.

As an improved specific embodiment, the driving chain 31 is wound on a plurality of chain wheels 33, and the driving chain 31 between the vibrating disc 2 and the storage rack 4 is vertically arranged, so that a plurality of hoppers 32 are kept horizontally to bear materials; a section of driving chain 31 at the upper part of the vibrating disc 2 is obliquely arranged, so that the feeding hopper 32 is obliquely downwards inclined to perform blanking when reaching the inclined section.

As shown in fig. 1 and 2, a section of driving chain 31 vertically arranged in front keeps a plurality of hoppers 32 in a horizontal state, so that the hoppers can well receive materials and convey the materials upwards; after the materials reach the upper part of the vibration disc 2, a winding structure with an included angle is formed by a plurality of chain wheels 33, so that one section of the driving chain 31 is in an inclined state, and the feeding hopper 32 at the position inclines downwards, so that the materials can fall into the vibration disc 2. The structure setting is simple, the cost is effectively controlled, and the material is well conveyed and discharged.

As a modified embodiment, the bottom of the storage rack 4 is provided with a vibrator 5, and the vibrator 5 vibrates the material towards the outlet of the storage rack 4 when being started.

As shown in fig. 2, in order to avoid material accumulation at the storage rack 4, when there is less material, the material far from the outlet is not easy to flow and convey, and the efficiency of the material falling to the hopper 32 is improved; further set up a vibrator 5 in the bottom of storage frame 4, along with the vibration makes material mobility higher, the more be convenient for material from storage frame 4 to the transfer of hopper 32.

As a modified embodiment, the bottom of the storage rack 4 is inclined toward the outlet thereof.

As shown in FIG. 2, the inclined bottom with the high inlet and the low outlet is more beneficial to the falling of the material from the storage rack 4 to the hopper 32, and the overall effect is better when the vibrator 5 is used.

As a modified embodiment, the housing of the frame 1 surrounds the vibrating disk 2 and the storage rack 4, and a rotary door 11 is opened on the frame 1, and the rotary door 11 is disposed corresponding to the inlet of the storage rack 4.

As shown in fig. 1 and 2, the housing of the rack 1 plays a role of protecting the vibrating disk 2 and the storage rack 4, and can hide electric structures and other structures in a space surrounded by the housing, so that the rack is more compact and safer; meanwhile, the rotary door 11 is arranged for putting materials into the storage rack 4 at the beginning, and the structure is simple and practical.

Above only the utility model discloses an it is preferred embodiment, the utility model discloses a scope of protection not only limits in above-mentioned embodiment, and the all belongs to the utility model discloses a technical scheme under the thinking all belongs to the utility model discloses a scope of protection. It should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (5)

1. Dysmorphism vibration feed mechanism includes frame (1) and sets up in vibration dish (2) on frame (1) upper portion, its characterized in that: still including arranging row's material subassembly (3) and storage frame (4) on frame (1), storage frame (4) set up in the below of vibration dish (2), arrange material subassembly (3) and set up in the side of vibration dish (2) and storage frame (4), arrange material subassembly (3) and include annular drive chain (31) and a plurality of hoppers (32) of arranging on drive chain (31), hopper (32) carry out the annular operation under the drive of drive chain (31), accept the material of storage frame (4) department when hopper (32) arrive the exit of storage frame (4), in storage frame (4) the material that is equipped with rise to vibration dish (2) when the blanking to vibration dish (2).

2. A profiled element vibratory loading mechanism as claimed in claim 1, wherein: the driving chain (31) is wound on the plurality of chain wheels (33), the driving chain (31) between the vibration disc (2) and the storage rack (4) is vertically arranged, and the plurality of feed hoppers (32) are kept to horizontally bear materials; a section of driving chain (31) at the upper part of the vibrating disc (2) is obliquely arranged, so that the feeding hopper (32) is obliquely inclined downwards to perform blanking when reaching the inclined section.

3. A profiled element vibratory loading mechanism as claimed in claim 1, wherein: the bottom of the storage rack (4) is provided with a vibrator (5), and the vibrator (5) vibrates materials to an outlet of the storage rack (4) when the storage rack is opened.

4. A profiled element vibratory loading mechanism as claimed in claim 3, wherein: the bottom of the storage rack (4) is obliquely arranged towards the outlet of the storage rack.

5. A profiled element vibratory loading mechanism as claimed in any one of claims 1 to 4, wherein: the shell of frame (1) surrounds vibration dish (2) and storage frame (4), has seted up a revolving door (11) in frame (1), revolving door (11) correspond the entry setting of storage frame (4).

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