CN109230383B

CN109230383B - Conveying device for insulating base

Info

Publication number: CN109230383B
Application number: CN201810965022.XA
Authority: CN
Inventors: 许继东
Original assignee: Xuancheng Dongke Electric Co ltd
Current assignee: Xuancheng Dongke Electric Co ltd
Priority date: 2018-08-23
Filing date: 2018-08-23
Publication date: 2020-10-16
Anticipated expiration: 2038-08-23
Also published as: CN109230383A

Abstract

The invention aims to provide a conveying device for insulating seats, which is used for implementing posture adjustment on a large quantity of disorderly and disorderly insulating seats and conveying the insulating seats according to the same posture sequence, and comprises a vibration feeding disc for containing the insulating seats, wherein a spiral sheet is arranged on the wall of the vibration feeding disc, and the tail end of the spiral sheet is connected with a material selecting frame for the insulating seats to be placed and passed through, wherein the insulating seats keep the small-diameter end of the insulating seats in a downward posture; the lower stream of the material selecting frame is connected with a twisting groove, the small-diameter end of the insulating seat is downward at the inlet end position of the twisting groove, and the large-diameter end of the insulating seat is downward at the outlet end position of the twisting groove; the groove body between the inlet end and the outlet end of the twisting groove is gradually twisted, and in the twisting section, the insulating seat is gradually turned from a downward posture of the small-diameter end to a downward posture of the large-diameter end. A large amount of disorderly unordered insulator bases uniformly present the downward posture sequence arrangement of the major diameter end after the screening of the material selecting frame and the twisting of the twisting groove, and the automatic production is facilitated.

Description

Conveying device for insulating base

Technical Field

The invention relates to the technical field of capacitors, in particular to a conveying device for an insulating base.

Background

The capacitor shell comprises a barrel-shaped shell and an end cover covered at a barrel opening, wherein the end cover comprises a cover plate A as shown in figure 1, an insulating base B is arranged on the outer end face of the cover plate A, an external wiring terminal C is installed on the insulating base B, and an inner terminal assembly D is arranged on the inner end face of the cover plate A. In the prior art, the inner terminal assembly D, the cover plate A, the insulating base B and the outer wiring terminal C are connected in a manual assembly mode, the manual assembly is low in working efficiency and needless to be repeated, due to the fact that a top punching welding process is carried out during assembly, industrial accidents often occur, and moreover, the assembly quality is difficult to guarantee.

How to convey the insulating bases B to the assembly station in a regular arrangement is a basic premise for realizing automatic production. No such devices are available in the prior art, which is also a problem to be solved by capacitor manufacturers.

Disclosure of Invention

The invention aims to provide a conveying device for insulating seats, which is used for adjusting the postures of a large quantity of disorderly and disorderly insulating seats and conveying the insulating seats according to the same posture sequence.

In order to achieve the purpose, the invention adopts the technical scheme that: a conveying device for an insulating base comprises a vibration feeding disc for accommodating the insulating base, wherein a spiral sheet is arranged on the disc wall of the vibration feeding disc, and the tail end of the spiral sheet is connected with a material selecting frame for the insulating base to pass through, wherein the insulating base keeps the small-diameter end of the insulating base in a downward posture; the lower stream of the material selecting frame is connected with a twisting groove, the small-diameter end of the insulating seat is downward at the inlet end position of the twisting groove, and the large-diameter end of the insulating seat is downward at the outlet end position of the twisting groove; the groove body between the inlet end and the outlet end of the twisting groove is gradually twisted, and the insulating seat of the twisting groove is gradually turned over from the downward posture of the small-diameter end to the downward posture of the large-diameter end.

Among the above-mentioned scheme, a large amount of unordered insulator saddles demonstrate in unison that major diameter end is down gesture sequence arrangement after the screening of selecting the material frame and twisting back of twisting the groove, are favorable to automated production.

Drawings

FIG. 1 is a schematic structural view of an end cap;

FIGS. 2a and 2b are schematic structural views of the insulating base;

FIG. 3 is a schematic view of the overall structure of the present invention;

FIG. 4 is a schematic structural diagram of a material selecting frame;

FIG. 5 is a schematic view of a twist groove;

fig. 6 and 7 are partially enlarged schematic views of fig. 5.

Detailed Description

For convenience of description, referring to fig. 2, it can be simply defined that the external contour of the insulating base B is a conical surface 1 as a whole, a cylindrical table portion 3 is provided on the top surface 2 of the conical top portion of the small-diameter end, a cylindrical portion 4 is provided on the bottom surface of the large-diameter end, a concave sunken table 5 is provided inside the cylindrical portion 4, a through hole 6 penetrating the axial direction is provided in the middle portion, wherein the top surface 2 and the cylindrical table portion 3 of the small-diameter end correspond to the mounting hole position on the end cover a, and the concave sunken table 5 is used for accommodating the external connection terminal C.

The invention is discussed in further detail below in conjunction with FIGS. 2-7:

a conveying device for an insulating base comprises a vibration feeding disc 10 for containing an insulating base B, wherein a spiral piece 11 is arranged on the disc wall of the vibration feeding disc 10, and the tail end of the spiral piece 11 is connected with a material selecting frame 20 for the insulating base B to keep the insulating base B in a small-diameter end-down posture to be overlapped and pass through; the downstream of the material selecting frame 20 is connected with a twisting groove 30, the small-diameter end of an insulating seat B is kept in a downward posture at the inlet end position of the twisting groove 30, and the large-diameter end of the insulating seat B is kept in a downward posture at the outlet end position of the twisting groove 30; the groove body between the inlet end and the outlet end of the twisting groove 30 is gradually twisted, and the insulating seat B on the twisting groove 30 is gradually turned from the downward posture of the small-diameter end to the downward posture of the large-diameter end. Firstly, a disorderly stack of insulating seats B are arranged in the vibratory feeding tray 10, in the process of conveying the insulating seats B by the spiral pieces 11, some insulating seats B have large-diameter ends facing downwards, some insulating seats B have small-diameter ends facing downwards, some insulating seats are in vertical postures and some insulating seats B are in inclined postures, in short, the postures of the insulating seats B are various, however, only the insulating seats B with the small-diameter ends facing downwards in a specific posture can be smoothly conveyed to the downstream torsion groove 30 through the material selecting rack 20, and the insulating seats B with other postures can fall into the tray cavity of the vibratory feeding tray 10 from the material selecting rack 20; can get into all be the insulating seat B of the same gesture of turning round groove 30 head end, the insulating seat B of gesture is down to minor diameter end promptly, turns round groove 30 and presents major diameter end down gesture after turning round insulating seat B180 again, is favorable to automated production.

Further, the material selecting frame 20 is composed of two parallel rods 21 arranged at the same height, and the distance between the two rods 21 is smaller than the outer diameter of the large-diameter end of the insulating base B and larger than the outer diameter of the small-diameter end of the insulating base B. The small-diameter end of the insulating seat B is clamped between the two rods 21, the conical surface 1 is supported by the rods 21, and the distance between the two rods 21 is smaller than the outer diameter of the large-diameter end of the insulating seat B, so that the insulating seat B in the posture can smoothly pass through the material selecting frame 20; while the other posture of the insulator base B will fall from the gap between the two rods 21 or the outside of the rod 21 into the cavity of the vibratory feeding tray 10 during the vibration advance.

As a preferred embodiment of the present invention, the twisting groove 30 sequentially includes an entry section 31, a middle section 32 and a rear section 33 which are connected to each other in the conveying direction of the insulating base B, the insulating base B on the entry section 31 keeps the posture that the small diameter end of the insulating base B faces downward, the insulating base B on the middle section 32 is gradually twisted from the posture that the small diameter end faces downward to the vertical posture, that is, the hole core of the through hole 6 is located in the horizontal posture, and the insulating base B on the rear section 33 is gradually twisted from the vertical posture to the posture that the large diameter end faces downward.

Specifically, the cross-sectional shape of the entrance section 31 of the twisted slot 30, which is formed by the horizontally-arranged lath 311 and the vertically-arranged lath 312 arranged along one side edge thereof, is L-shaped, the middle section 32 includes a slot bottom 321, and upper and

lower slot walls

322 and 323, which are formed into a slot body with a horizontally-oriented opening, the middle section 32 can also be understood as a structure in which the vertically-arranged lath 312 of the entrance section 31 and the slot bottom 321 of the middle section 32 are connected in a straight-line manner, and the upper slot wall 322 parallel to the horizontally-arranged lath 311 is arranged at the upper edge of the vertically-arranged lath; the middle section 32 is gradually twisted from the horizontal orientation of the notch at the head end to the upward orientation of the notch; the section of the rear section 33 is integrally in a groove shape, a built-in flanging 331 is arranged at the notch, the size of the flanging can be gradually increased, the rear section 33 is twisted by 90 degrees from the head end to the tail end, the built-in flanging 331 at the head end forms the side wall of the groove part by tail end transposition, and the groove wall 332 of the built-in flanging 331 at the head end is connected with the groove wall 332 of the built-in flanging 331 at the tail end to form the groove bottom; the forward twist is completed 180 ° from the entry section 31, the middle section 32 to the rear section 33. Finally, the insulating base B is gradually turned over from the posture that the small-diameter end faces downwards to the posture that the large-diameter end faces downwards.

The specific structure of the torsion groove 30 is not limited to the above-mentioned one, and the torsion groove 30 is a pipe or a groove, and the side groove wall of the entry section located in the vertical plane is twisted to form the side groove wall on the opposite side, so long as the insulator base B can be turned 180 °.

When the tube is used as the torsion groove 30, the section of the tube is non-circular in order to prevent the insulation seat B from rotating in the tube cavity, and the tube cavity and the insulation seat B form limit fit.

Furthermore, the groove-shaped part comprises a first half groove and a second half groove which are opposite in notch, the first half groove and the insulating base B are provided with a cylindrical part 4 to form limiting fit, and the second half groove and the cylindrical part 3 form limiting fit.

In order to prevent the insulation holders B from stacking in the rear section 33, the distance between the built-in flange 331 at the head end of the rear section 33 and the bottom of the groove is matched with the diameter of the cylindrical portion 4 of the insulation holders B, so that the insulation holders B can be transported one by one in sequence.

The insulating base B is likely to be stacked in the moving and advancing process, a first deflector rod 34 is arranged at the position of the head end of the mixed middle section 32, and the distance between the first deflector rod 34 and the lower groove wall of the head end of the middle section 32 is consistent with the distance between the end faces of the large-diameter end and the small-diameter end of the insulating base B.

Since the end cap in fig. 1 includes two insulation seats B, the rear section of the spiral piece 11 is divided into two parts to form two guide pieces, and two corresponding material selecting frames 20 and two corresponding torsion grooves 30 are provided. Certainly, there can be different numbers of insulator B to different end covers still, and the number that this moment selects work or material rest 20 and twist reverse groove 30 to set up corresponds the setting with the number of insulator B can.

In order to ensure that the insulating bases B are as one as possible rather than stacked when entering the material selecting rack 20, the inner wall of the feeding disc 10 corresponding to the spiral piece 11 is provided with a second driving lever 12 protruding towards the inner cavity, and the distance between the second driving lever 12 and the surface of the spiral piece 11 is matched with the distance between the end faces of the large-diameter end and the small-diameter end of the insulating base B.

Further, the tail end of the rear section 33 is connected with a horizontally arranged conveying trough 40, and the section of the conveying trough 40 is the same as that of the tail end of the rear section 33. The conveying chute 40 conveys the sequentially arranged insulating holders B with their large-diameter ends facing downward to the mounting position.

Claims

1. The utility model provides a conveyor of insulator seat, includes vibration feeding dish (10) of splendid attire insulator seat B, and spiral piece (11), its characterized in that have been arranged to the dish wall department of vibration feeding dish (10): the tail end of the spiral sheet (11) is connected with a material selecting frame (20) for the insulating base B to be placed and pass through, wherein the insulating base B keeps the small-diameter end of the insulating base B in a downward posture; a torsion groove (30) is connected to the downstream of the material selecting frame (20), at the inlet end position of the torsion groove (30), an insulating seat B keeps the posture that the small-diameter end of the insulating seat B faces downwards, and at the outlet end position of the torsion groove (30), the insulating seat B keeps the posture that the large-diameter end of the insulating seat B faces downwards; the groove body between the inlet end and the outlet end of the twisting groove (30) is gradually twisted, and the insulating seat B on the twisting groove (30) is gradually turned from the downward posture of the small-diameter end to the downward posture of the large-diameter end;

the twisting groove (30) sequentially comprises an inlet section (31), a middle section (32) and a rear section (33) which are mutually connected in the conveying direction of the insulating base B, the insulating base B on the inlet section (31) keeps the small-diameter end of the insulating base B facing downwards, the insulating base B on the middle section (32) is gradually twisted into a vertical posture from the small-diameter end facing downwards, and the insulating base B on the rear section (33) is gradually twisted into a large-diameter end facing downwards from the vertical posture;

the entering section (31) of the twisting groove (30) is composed of a horizontal lath (311) and a vertical lath (312) with one side edge vertically arranged, and the middle section (32) comprises a groove bottom (321) and upper and lower groove walls (322, 323) which are formed into a groove body with a horizontally directed opening; the middle section (32) is gradually twisted from the horizontal direction of the notch at the head end to the upward direction of the notch; the section of the rear section (33) is integrally groove-shaped, a built-in flanging (331) is arranged at the notch, the rear section (33) is twisted by 90 degrees from the head end to the tail end, the built-in flanging (331) at the head end forms the side wall of the groove part by tail end transposition, and the groove wall (332) of the built-in flanging (331) at the head end is connected with the groove wall at the tail end by tail end transposition to form the groove bottom of the groove part; the forward twisting is completed by 180 degrees from the entering section (31), the middle section (32) to the rear section (33).

2. The insulator tray delivery apparatus of claim 1, wherein: the material selecting frame (20) is composed of two rods (21) which are arranged in parallel at the same height, and the distance between the two rods (21) is smaller than the outer diameter of the large-diameter end of the insulating base B and larger than the outer diameter of the small-diameter end of the insulating base B.

3. The insulator tray delivery apparatus of claim 1, wherein: the distance between the built-in flanging (331) at the head end position of the rear section (33) and the groove bottom is matched with the diameter of the cylindrical part (4) of the insulating seat B.

4. The insulator tray delivery apparatus of claim 3, wherein: the first deflector rod (34) is arranged at the position of the head end of the middle section (32), and the distance between the first deflector rod (34) and the lower groove wall of the head end of the middle section (32) is matched with the distance between the end faces of the large and small diameter ends of the insulating base B.

5. The insulator tray delivery apparatus of claim 1, wherein: the rear section of the spiral sheet (11) is divided into two parts to form two guide sheets, and the material selecting frame (20) and the twisting groove (30) are correspondingly provided with two parts.

6. The insulator tray delivery apparatus of claim 5, wherein: a second driving lever (12) protruding towards the inner cavity is arranged on the inner wall of the feeding disc (10) corresponding to the spiral piece (11), and the distance between the second driving lever (12) and the surface of the spiral piece (11) is matched with the distance between the end faces of the large and small diameter ends of the insulating base B.

7. The insulator tray delivery apparatus according to any one of claims 1 to 6, wherein: the tail end of the rear section (33) is connected with a horizontally arranged conveying groove (40), and the section of the conveying groove (40) is the same as that of the tail end of the rear section (33).