Automatic feeding device for guide pin material cup of capacitor
Technical Field
The utility model relates to a apparatus for producing of condenser guide pin especially relates to an automatic feeding device of condenser guide pin material cup.
Background
In the production process of the capacitor guide pin, the formed capacitor guide pin is required to be arranged in a cup for accommodating the capacitor guide pin for formation and other processes, the structure of the existing capacitor cup is mostly as in patent CN201520712919, and the aluminum cup for manufacturing the capacitor guide pin is integrally cylindrical; the capacitor guide pin is placed at the discharging position of the capacitor guide pin in the process of forming and then cupping. The existing feeding device for the capacitor guide pin material cup is a flat-bottomed vibrating tray as shown in fig. 1, and when the material cup is loaded and fed, the material cups need to be placed in the vibrating tray one by one with one opening upward, and then conveyed to the discharging position of the capacitor guide pin under the action of the vibrating tray. The automation degree of the feeding device is not high, and the cup placing device needs workers to place cups, and consumes time and labor.
SUMMERY OF THE UTILITY MODEL
The utility model aims to solve the technical problem of overcoming the defects of the prior art and provide an automatic feeding device of a capacitor guide pin material cup with high automation degree; the feeding device does not need workers to put cups.
In order to solve the technical problem, the utility model provides a technical scheme does: the utility model provides an automatic feeding device of condenser guide pin material cup, includes the vibration dish, be provided with the ascending defeated material track of spiral in the vibration dish, it gets rid of the subassembly to have set gradually first fender material subassembly and reverse material cup on the defeated material track, reverse material cup gets rid of subassembly and discharge gate butt joint, first fender material subassembly is including falling the cup and getting rid of the pole, fall the cup and get rid of the pole and connect on the inner wall of vibration dish to extend out in defeated orbital top and go up to defeated orbital outside border of material from the inner wall of vibration dish, fall the cup and get rid of the pole and highly be greater than the diameter that highly is less than the device of defeated material cup.
Preferably, the reverse material cup removing assembly comprises a material conveying sheet, a material conveying rail at the position where the material conveying sheet is arranged in an inclined plane or is directly overhead, and the material conveying sheet is arranged in a zigzag manner.
In the automatic feeding device for the capacitor guide pin material cup, preferably, the depth of the material conveying teeth on the material conveying sheet is smaller than the diameter of the cup and larger than the radius of the cup.
In the automatic feeding device for the capacitor guide pin material cup, preferably, a second material blocking assembly is further arranged between the first material blocking assembly and the directional cup loading and removing assembly, or the first material blocking assembly is directly replaced by the second material blocking assembly; the second material blocking assembly comprises a material limiting rod, and the material limiting rod is fixedly connected to the vibrating disc through a support; the material limiting rod is arranged above the edge of the outer side of the material conveying track, and the material conveying track at the position of the material limiting rod is inclined over half of the width to form a rolling cup inclined plane; the distance between the material limiting rod and the inner side edge of the inclined plane of the roller cup is larger than the diameter of the cup, and the distance between the material limiting rod and the material conveying surface of the material conveying track is smaller than the height of the cup.
In the above automatic feeding device for the capacitor guide pin material cup, preferably, the inclined angle of the inclined plane of the rolling cup to the inside of the vibration disk is greater than 30 degrees.
In the automatic feeding device for the capacitor guide pin material cup, preferably, the first material blocking assembly and the reverse material cup removing assembly or the second material blocking assembly and the reverse material cup removing assembly are provided with the cup blocking rod on the outer side of the material conveying track.
Compared with the prior art, the utility model has the advantages of: the automatic feeding device of the capacitor guide pin material cup can automatically complete the feeding of the material cup, and can remove the inverted cup and the reverse material cup; the material is not required to be manually put, the labor is saved, and the automation degree is high.
Drawings
Fig. 1 is a schematic structural diagram of a feeding device of a conventional capacitor guide pin cup in the background art.
Fig. 2 is a schematic structural diagram of an automatic feeding device of a capacitor guide pin material cup in embodiment 1.
Fig. 3 is an enlarged schematic view of a portion a in fig. 2.
Fig. 4 is an enlarged schematic view of a portion B in fig. 2.
Description of the figures
1. A vibrating pan; 2. a material conveying track; 3. a first material blocking assembly; 31. pouring the cup and removing the rod; 4. a reverse cup removal assembly; 41. feeding sheets; 5. a second material blocking component; 51. a material limiting rod; 52. a support; 53. rolling a cup slope; 6. a cup blocking rod; 7. and (4) a discharge port.
Detailed Description
To facilitate understanding of the present invention, the present invention will be described more fully and specifically with reference to the accompanying drawings and preferred embodiments, but the scope of the present invention is not limited to the specific embodiments described below.
It should be particularly noted that when an element is referred to as being "fixed to, connected to or communicated with" another element, it can be directly fixed to, connected to or communicated with the other element or indirectly fixed to, connected to or communicated with the other element through other intermediate connecting components.
Unless otherwise defined, all terms of art used hereinafter have the same meaning as commonly understood by one of ordinary skill in the art. The terminology used herein is for the purpose of describing particular embodiments only and is not intended to limit the scope of the present invention.
Example 1
As shown in fig. 2, the automatic feeding device for the capacitor guide pin material cup comprises a vibration disc 1, a spiral upward material conveying rail 2 is arranged in the vibration disc 1, a first material blocking component 3 and a reverse material cup removing component 4 are sequentially arranged on the material conveying rail 2, and the reverse material cup removing component 4 is in butt joint with a material outlet 7. As shown in fig. 3, the first material blocking assembly 3 comprises a pouring cup removing rod 31, the pouring cup removing rod 31 is connected to the inner wall of the vibration disc 1 and extends from the inner wall of the vibration disc 1 above the material conveying rail 2 to the outer side edge of the material conveying rail 2, and the height of the pouring cup removing rod 31 from the material conveying rail 2 is larger than the height of the filled cup but smaller than the diameter of the device. In this embodiment, when the cup in the vibration plate 1 moves to the first material blocking assembly 3 along the material conveying track 2, the fallen cup is pushed into the vibration plate 1 by the cup pouring removing rod 31 to be fed again because the diameter of the cup is greater than the height of the cup; and the erected material cup moves to the reverse material cup removing component 4 from the lower part of the inverted cup removing rod 31, and then falls into the vibrating disk 1 through the action of the reverse material cup removing component 4 to be fed again.
In the present embodiment, as shown in fig. 4, the reverse cup removing assembly 4 includes a material conveying sheet 41, and the material conveying rail 2 at the position where the material conveying sheet 41 is installed is inclined or directly overhead, where directly overhead means that the lower part of the material conveying sheet 41 is directly the inner space of the vibration plate 1, and there is no material conveying rail 2. In the present embodiment, the feeding sheet 41 is provided in a zigzag shape. The depth of the teeth on the tablet 41 is smaller than the diameter of the cup and larger than the radius of the cup. When the cups are moved to the position of the reverse cup removal assembly 4, some cups are directional, i.e. open downwards, and it is necessary to remove the downwardly open cup from the delivery track 2. When the material conveying sheet 41 is moved by the material cup with the downward opening, the material conveying sheet 41 is arranged in the shape of the material conveying sheet 41, and the material cup with the downward opening is light, so that the material cup with the downward opening can not stand stably on the material conveying sheet 41 and can fall into the vibration plate 1 for material feeding again.
It should be noted that in this embodiment, the span between two adjacent teeth in the tooth-like structure on the material conveying sheet 41 is larger than the diameter of the material cup; the depth of the teeth on the tablet 41 is smaller than the diameter of the cup and larger than the radius of the cup. Thus, it can be ensured that the material cup in the forward direction will not fall off the material conveying sheet 41 on the material conveying sheet 41, and the material cup in the reverse direction will fall off. That is, after the cup moves onto the material conveying sheet 41, the area of the material conveying sheet 41 for bearing the cup is smaller than half of the projection area of the forward cup; and the width of the tooth tip position of the teeth on the tablet conveying piece 41 is larger than the radius of the cup.
In this embodiment, a second material blocking assembly 5 is further disposed between the first material blocking assembly 3 and the direction cup loading and removing assembly, or the first material blocking assembly 3 is directly replaced by the second material blocking assembly 5; that is to say, in this embodiment, the second material blocking assembly 5 plays a standby function in case of failure of the first material blocking assembly 3, and in this embodiment, the second material blocking assembly 5 may also play its role alone in case of no first material blocking assembly 3.
As shown in fig. 4, the second material stopping assembly 5 includes a material limiting rod 51, and the material limiting rod 51 is fixedly connected to the vibration plate 1 through a bracket 52; the material limiting rod 51 is arranged above the edge of the outer side of the material conveying track 2, and the material conveying track 2 at the position of the material limiting rod 51 is inclined over half to form a rolling cup inclined surface 53; the distance between the material limiting rod 51 and the inner side edge of the inclined surface 53 of the roller cup is larger than the diameter of the cup, and the distance between the material limiting rod 51 and the material conveying surface of the material conveying track 2 is smaller than the height of the cup. The inclination angle of the cup roller slope 53 to the inside of the vibration plate 1 is 45 degrees in this embodiment. It should be noted that the material-limiting rods 51 are not all arranged as rolling cup slopes 53 on the delivery track 2, i.e. a certain width is left on the inner side of the delivery track 2 for supporting the standing material cups.
In this embodiment, a cup blocking rod 6 is arranged between the first material blocking assembly 3 and the reverse material cup removing assembly 4 under the condition that the second material blocking assembly 5 is not arranged, the structure of the cup blocking rod 6 can be the same as that of the material limiting rod 51 in the second material blocking assembly 5, or the cup blocking rod 6 can be directly connected to the inner side surface of the vibrating disk 1, and the cup blocking rod 6 extends to the upper part of the outer side edge of the material conveying track 2; the material cup has the function of preventing the material cup from falling off the material conveying track 2 under the vibration condition, and moving for an overlong distance on the material conveying track 2, and the material cup is possible to fall off the material conveying track 2 under the condition of no limit. In this embodiment, in the case that the second material blocking assembly 5 is provided, a cup blocking rod 6 is provided outside the second material blocking assembly 5 and the material conveying rail 2 of the reverse material cup removing assembly 4.
The automatic feeding device of the capacitor guide pin material cup of the embodiment can automatically complete the feeding of the material cup, and can remove the inverted cup and the reverse material cup; the material is not required to be manually put, the labor is saved, and the automation degree is high.