CN221040965U - Double-sided static piece inserting device for electric appliance - Google Patents

Abstract

The utility model relates to a double-sided static sheet inserting device for an electric appliance, which comprises a rack and a conveying part arranged at the top of the rack, wherein a first assembling part, a rotating direction mechanism, a second assembling part and a detecting mechanism are arranged along the conveying direction of the conveying part. According to the utility model, under the synergistic effect of the matched devices for ensuring the normal operation of the whole equipment by arranging the first assembly part, the rotating direction mechanism, the second assembly part and the detection mechanism along the transportation direction of the transportation part, the main static piece, the auxiliary static piece and the alternating current contactor can be assembled together automatically, the productivity is improved, the production cost is reduced, the novel device has the advantages of reasonable structure, modularization in groups, extremely convenient subsequent maintenance, and manual operation is replaced by machinery to reduce the labor cost.

Description

Double-sided static piece inserting device for electric appliance

Technical Field

The utility model relates to the technical field of automatic production equipment, in particular to a double-sided static sheet inserting device for an electric appliance.

Background

An ac contactor is a widely used electrical control device applied to the field of electrical control. The existing assembly mode for the main static piece and the auxiliary static piece of the alternating current contactor generally assembles the main static piece, the auxiliary static piece and the alternating current contactor together manually, has low production speed and brings cost pressure to manufacturers.

In view of this, the present invention provides an apparatus capable of automatically assembling a main stator, an auxiliary stator and an ac contactor together, which is particularly necessary for improving productivity and reducing production cost.

Disclosure of Invention

The utility model aims to provide the double-sided static sheet inserting device for the electric appliance, which can automatically assemble the main static sheet, the auxiliary static sheet and the alternating-current contactor together, improves the productivity, reduces the production cost and ensures that the finished product quality is stable, so as to solve the problems that the main static sheet, the auxiliary static sheet and the alternating-current contactor are manually assembled together, the production speed is low, the cost pressure is brought to manufacturers and the like

In order to realize the technical scheme, the technical scheme of the utility model is as follows: the double-sided static piece inserting device for the electric appliance comprises a rack and a conveying component arranged at the top of the rack, wherein a first assembling component, a rotating direction mechanism, a second assembling component and a detecting mechanism are arranged along the conveying direction of the conveying component; the first assembly component is used for assembling the primary static piece and the secondary static piece for the first time on the base on the transportation component; the rotating direction mechanism is used for rotating the assembled base by 180 degrees; the second assembly component and the detection mechanism are used for assembling the main static piece and the auxiliary static piece for the second time on the base on the transportation component; the detection mechanism is used for detecting whether a static piece exists on the base.

Further, the first assembly component and the second assembly component and the detection mechanism are mirror images of each other.

Further, the first assembly part comprises a first main static piece feeding mechanism, a first main static piece pressing mechanism, a first auxiliary static piece feeding mechanism and a first auxiliary static piece pressing mechanism; the first main static piece feeding mechanism and the first main static piece pressing mechanism are arranged in a longitudinal shooting way; the first auxiliary static sheet feeding mechanism and the first auxiliary static sheet pressing mechanism are arranged in a longitudinal shape; the first main static piece pressing mechanism and the first auxiliary static piece pressing mechanism are arranged in parallel.

Further, the first main static piece feeding mechanism comprises a first main static piece vibration feeder which is adjustably arranged at the top of the frame; a first main static piece feeding device is arranged at one side of the first main static piece vibration feeder; a first X-Y moving component is arranged on the feeding side of the first main static piece; the output end of the first X-Y moving assembly is provided with a first main static piece grabbing finger cylinder;

The first main static piece pressing mechanism comprises a first main static piece pressing bracket; a first main static piece pressing cylinder is fixedly arranged on one side of the first main static piece pressing bracket; the top of the first main static piece pressing-in bracket is slidably provided with a first main static piece receiving jig component; a first main static piece pressing plate is movably inserted on the first main static piece receiving jig component; the first main static piece pressing cylinder can drive the first main static piece pressing plate to be inserted on the first main static piece receiving jig component back and forth in a reciprocating manner;

The first auxiliary static piece feeding mechanism comprises a first auxiliary static piece vibration feeder which is adjustably arranged at the top of the frame; a first auxiliary static plate feeding device is arranged at one side of the first auxiliary static plate vibration feeder; a second X-Y moving assembly is arranged on the feeding side of the first auxiliary static piece; the output end array of the second X-Y moving assembly is provided with a first pair of static piece grabbing finger cylinders;

The first auxiliary static piece pressing mechanism comprises a first auxiliary static piece pressing bracket; a first auxiliary static piece pressing cylinder is fixedly arranged on one side of the first auxiliary static piece pressing bracket; the top of the first auxiliary static piece pressing-in bracket is slidably provided with a first auxiliary static piece receiving jig component; a first auxiliary static piece pressing plate is movably inserted on the first auxiliary static piece receiving jig assembly; the first auxiliary static sheet pressing cylinder can drive the first auxiliary static sheet pressing plate to be inserted on the first auxiliary static sheet receiving jig assembly back and forth in a reciprocating mode.

Further, the second assembly part comprises a second auxiliary static piece feeding mechanism, a second auxiliary static piece pressing-in mechanism, a second main static piece feeding mechanism and a second main static piece pressing-in mechanism; the second auxiliary static piece pressing mechanism is positioned right in front of the second auxiliary static piece feeding mechanism; the second main static piece pressing mechanism is positioned right in front of the second main static piece feeding mechanism; the second auxiliary static piece pressing mechanism and the second main static piece pressing mechanism are right in front.

Further, the rotation direction mechanism includes a rotation bracket; a rotary lifting cylinder is arranged on one side of the rotary support; the other side of the rotary lifting cylinder is slidably provided with a lifting base; the rotary lifting cylinder can drive the lifting base to reciprocate back and forth; a servo rotating motor is arranged on the lifting base; and the output end of the servo rotating motor is fixedly connected with a base clamping cylinder.

Further, the detection mechanism comprises detection brackets symmetrically arranged on the transportation component; the detection bracket is provided with a detection driving cylinder; the output end of the detection driving cylinder is provided with a detection seat; the detection seat is provided with a detection optical fiber; the detection seat is provided with a detection rod in a telescopic way, and the detection rod can be telescopic to the optical path of the detection optical fiber.

Further, the transportation part comprises a conveying and feeding mechanism, a base equidistant circulating and carrying mechanism and a finished product outflow mechanism which are arranged in a straight line.

Further, the double-sided static sheet inserting device of the electric appliance further comprises a dust removing mechanism and a defective product pushing mechanism; the dust removing mechanism is arranged on the conveying component in a lifting manner and is used for carrying out dust removing treatment on the product; the defective product pushing mechanism is arranged on one side of the dust removing mechanism and used for automatically separating defective products.

Further, the first main static piece feeding mechanism, the first main static piece pressing mechanism, the first auxiliary static piece feeding mechanism and the first auxiliary static piece pressing mechanism are arranged adjacently in an adjustable position; the adjacent positions of the second auxiliary static piece feeding mechanism, the second auxiliary static piece pressing mechanism, the second main static piece feeding mechanism and the second main static piece pressing mechanism are adjustable.

Compared with the prior art, the utility model has the following beneficial effects:

1) According to the utility model, under the synergistic effect of the matched devices for ensuring the normal operation of the whole equipment by arranging the first assembly part, the rotating direction mechanism, the second assembly part and the detection mechanism along the transportation direction of the transportation part, the main static piece, the auxiliary static piece and the alternating current contactor can be assembled together automatically, the productivity is improved, the production cost is reduced, the novel device has the advantages of reasonable structure, modularization in groups, extremely convenient subsequent maintenance, manual operation reduction in mechanical replacement, and stable and reliable working quality. Based on the above, the novel method has good application prospect;

2) The main and auxiliary static sheet feeding and pressing mechanisms can be arranged in a changeable installation sequence, and the working quality is stable and reliable, so that the utility model has good application prospect;

3) The relevant independent mechanisms on the double-sided static sheet inserting device of the electric appliance can adjust the installation position, the practical effect target can still be achieved, and the space optimizing effect can be achieved.

Drawings

For further illustration of the various embodiments, the utility model is provided with the accompanying drawings. The accompanying drawings, which are incorporated in and constitute a part of this disclosure, illustrate embodiments and together with the description, serve to explain the principles of the embodiments. With reference to these matters, one of ordinary skill in the art will understand other possible embodiments and advantages of the present utility model. The components in the figures are not drawn to scale and like reference numerals are generally used to designate like components.

FIG. 1 is a schematic three-dimensional structure of a double-sided static sheet inserting device of an electrical appliance;

FIG. 2 is an exploded view of the first main stator plate feeding mechanism of the present utility model;

FIG. 3 is a schematic three-dimensional structure of a first main static plate pressing mechanism according to the present utility model;

FIG. 4 is an exploded view of a first stationary blade loading mechanism according to the present utility model;

FIG. 5 is a schematic three-dimensional structure of a first static plate pressing mechanism according to the present utility model;

FIG. 6 is an enlarged partial schematic view of B in FIG. 1;

Fig. 7 is an enlarged partial schematic view of fig. 1 a.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

The present utility model will be further described in detail below with reference to the drawings and detailed description for the purpose of enabling those skilled in the art to better understand the aspects of the present utility model.

Referring to fig. 1 to 7, an electrical appliance double-sided static sheet inserting device comprises a frame 1 and a transport component arranged at the top of the frame, wherein a first assembly component, a rotation direction mechanism 8, a second assembly component and a detection mechanism 13 are arranged along the transport direction of the transport component; the first assembly component is used for assembling the primary static piece and the secondary static piece for the first time on the base on the transportation component; the rotating direction mechanism 8 is used for rotating the assembled base by 180 degrees; the second assembly component and the detection mechanism 13 are used for assembling the main static piece and the auxiliary static piece for the second time on the base on the transportation component; the detection mechanism 13 is used for detecting whether a static piece exists on the base or not; the double-sided static piece inserting device of the electric appliance further comprises a dust removing mechanism 17 and a defective product pushing mechanism 14; the dust removing mechanism 17 is arranged on the conveying component in a lifting manner and is used for carrying out dust removing treatment on the product; the defective product pushing mechanism 14 is disposed on one side of the dust removing mechanism 17, and is used for automatically separating defective products. The embodiment is used for assembling and producing the main static piece and the auxiliary static piece of the contactor, and the equipment such as the first assembly part, the rotating direction mechanism 8, the second assembly part, the detection mechanism 13, the dust removing mechanism 17, the defective product pushing mechanism 14, the existing pl controller and the like are arranged along the transportation direction of the transportation part to cooperatively act, so that automatic feeding is completed, the main static piece and the auxiliary static piece are assembled automatically, manual assembly is replaced, the production quality is guaranteed, and the production working time is shortened, and the production efficiency is improved. Of course, in other embodiments, the main and auxiliary static sheet feeding and pressing mechanisms can change the installation sequence according to the situation, and can still effectively ensure the production efficiency and adapt to different scenes. The utility model has the advantages of simple structure, cost saving, high working efficiency, low labor cost and labor intensity, low production cost, good product quality, high yield and high equipment utilization rate.

On the basis of the above embodiment, the first assembly part, the second assembly part and the detection mechanism 13 are mirror images of each other.

On the basis of the embodiment, the first assembly part comprises a first main static piece feeding mechanism 4, a first main static piece pressing mechanism 5, a first auxiliary static piece feeding mechanism 6 and a first auxiliary static piece pressing mechanism 7; the first main static piece feeding mechanism 4 and the first main static piece pressing mechanism 5 are arranged in a longitudinal beat in a straight line; the first auxiliary static sheet feeding mechanism 6 and the first auxiliary static sheet pressing mechanism 7 are arranged in a straight longitudinal manner; the first main static piece pressing mechanism 5 and the first auxiliary static piece pressing mechanism 7 are arranged in parallel.

On the basis of the embodiment, the first main static piece feeding mechanism 4 comprises a first main static piece vibration feeder 44 which is adjustably arranged at the top of the frame 1; a first main static piece feeding 41 is arranged on one side of the first main static piece vibration feeder; a first X-Y moving component 42 is arranged on one side of the first main static sheet feeding 41; an output end of the first X-Y moving assembly 42 is provided with a first main static piece grabbing finger cylinder 43;

The first main static piece pressing mechanism 5 comprises a first main static piece pressing bracket 51; a first main static piece pressing cylinder 52 is fixedly arranged on one side of the first main static piece pressing bracket 51; the top of the first main static piece pressing bracket 51 is slidably provided with a first main static piece receiving jig component 53; a first main static piece pressing plate 54 is movably inserted on the first main static piece receiving jig component 53; the first main static piece pressing cylinder 52 can drive the first main static piece pressing plate 54 to be inserted on the first main static piece receiving jig assembly 53 back and forth in a reciprocating manner;

The first auxiliary static piece feeding mechanism 6 comprises a first auxiliary static piece vibration feeder 61 which is adjustably arranged at the top of the frame 1; a first auxiliary static plate feeding 62 is arranged on one side of the first auxiliary static plate vibration feeder 61; a second X-Y moving component 63 is arranged on one side of the first auxiliary static sheet feeding 62; the output end array of the second X-Y moving component 63 is provided with a first pair of static piece grabbing finger cylinders 64;

The first auxiliary static piece pressing mechanism 7 comprises a first auxiliary static piece pressing bracket 71; a first auxiliary static plate pressing cylinder 72 is fixedly arranged on one side of the first auxiliary static plate pressing bracket 71; the top of the first auxiliary static piece pressing bracket 71 is slidably provided with a first auxiliary static piece receiving jig assembly 73; a first auxiliary static sheet pressing plate 74 is movably inserted on the first auxiliary static sheet receiving jig assembly 73; the first auxiliary static sheet pressing cylinder 72 may drive the first auxiliary static sheet pressing plate 74 to reciprocate back and forth to be inserted on the first auxiliary static sheet receiving jig assembly 73.

On the basis of the embodiment, the second assembly part comprises a second auxiliary static piece feeding mechanism 9, a second auxiliary static piece pressing mechanism 10, a second main static piece feeding mechanism 11 and a second main static piece pressing mechanism 12; the second auxiliary static piece pressing mechanism 10 is positioned right in front of the second auxiliary static piece feeding mechanism 9; the second main static piece pressing mechanism 12 is positioned right in front of the second main static piece feeding mechanism 11; the second auxiliary static plate pressing mechanism 10 and the second main static plate pressing mechanism 12 are arranged right in front.

On the basis of the above embodiment, the rotation direction mechanism 8 includes a rotation bracket 81; a rotary lifting cylinder 82 is arranged on one side of the rotary support 81; the other side of the rotary lifting cylinder 82 is slidably provided with a lifting base 83; the rotary lifting cylinder 82 can drive the lifting base 83 to reciprocate back and forth; a servo rotating motor 84 is arranged on the lifting base 83; the output end of the servo rotary motor 84 is fixedly connected with a base clamping cylinder 85.

On the basis of the above embodiment, the detection mechanism 13 includes the detection brackets 131 symmetrically disposed on the transport member; a detection driving cylinder 132 is arranged on the detection bracket 131; the output end of the detection driving cylinder 132 is provided with a detection seat 133; the detection base 133 is provided with a detection optical fiber 134; the detecting base 133 is provided with a detecting rod 135 in a retractable manner, and the detecting rod 135 is retractable to the optical path of the detecting optical fiber 134.

On the basis of the embodiment, the conveying component comprises a conveying and feeding mechanism 2, a base equidistant circulating and conveying mechanism 3 and a finished product outflow mechanism 15 which are arranged in a straight line.

On the basis of the embodiment, the adjacent positions of the first main static piece feeding mechanism 4, the first main static piece pressing mechanism 5, the first auxiliary static piece feeding mechanism 6 and the first auxiliary static piece pressing mechanism 7 are adjustable; the adjacent positions of the second auxiliary static piece feeding mechanism 9, the second auxiliary static piece pressing mechanism 10, the second main static piece feeding mechanism 11 and the second main static piece pressing mechanism 12 are adjustable.

The action flow of the utility model is as follows: the base component is conveyed to corresponding stations in sequence by the equidistant circulation conveying mechanism of the feeding base of the conveying and feeding mechanism in a circulating mode, the base component is conveyed to the corresponding stations in sequence in a backward mode, the corresponding stations are started to be assembled to perform vibration discharging, discharging is performed by the main static piece feeding mechanism, the auxiliary static piece is pressed into the other side of the base by the main static piece pressing mechanism to perform vibration discharging, discharging is performed by the auxiliary static piece feeding mechanism, the auxiliary static piece is pressed into one side of the base by the auxiliary static piece pressing mechanism, the base is completely loaded by the auxiliary static piece pressing mechanism, the base is put into the equidistant circulation conveying mechanism of the base after the base is rotated by the rotating direction mechanism, the base component is repeatedly and repeatedly pushed, the auxiliary static piece is vibrated to perform discharging, the main static piece is pressed into the other side of the base, the main static piece is vibrated to perform discharging is performed by the main static piece feeding mechanism, discharging is performed by the main static piece pressing mechanism, the auxiliary static piece is pressed into the other side of the base, the base is detected by the detecting station after the assembling action is completed, the qualified product is discharged, the actions above the repeated circulation mode are completed, the product production efficiency and the automatic assembly production cost is reduced, and the reliability of the product is improved.

The above description is only of the preferred embodiments of the present invention, and is not intended to limit the present invention in any way, although the present invention has been described above with reference to the preferred embodiments, and is not intended to limit the present invention. Any person skilled in the art should make equivalent embodiments belonging to equivalent changes and modifications by using the technical content disclosed in the above description without departing from the technical content of the present invention, but any brief introduction modification, equivalent changes and modifications made to the above embodiments according to the technical substance of the present invention still fall within the scope of the technical solution of the present invention.

Claims (10)

1. The utility model provides an electric appliance double-sided static piece inserting device, includes frame (1) and set up in the transportation part at frame top, its characterized in that: a first assembly part, a rotating direction mechanism (8), a second assembly part and a detection mechanism (13) are arranged along the transportation direction of the transportation part; the first assembly component is used for assembling the primary static piece and the secondary static piece for the first time on the base on the transportation component; the rotating direction mechanism (8) is used for rotating the assembled base by 180 degrees; the second assembly part and the detection mechanism (13) are used for assembling the main static piece and the auxiliary static piece for the second time on the base on the transportation part; the detection mechanism (13) is used for detecting whether a static piece exists on the base.

2. The appliance double-sided static patch apparatus of claim 1, wherein: the first assembly part and the second assembly part and the detection mechanism (13) are mirror images.

3. The appliance double-sided static patch apparatus of claim 2, wherein: the first assembly part comprises a first main static piece feeding mechanism (4), a first main static piece pressing-in mechanism (5), a first auxiliary static piece feeding mechanism (6) and a first auxiliary static piece pressing-in mechanism (7); the first main static piece feeding mechanism (4) and the first main static piece pressing mechanism (5) are arranged in a longitudinal beat manner; the first auxiliary static sheet feeding mechanism (6) and the first auxiliary static sheet pressing mechanism (7) are arranged in a straight longitudinal beat manner; the first main static sheet pressing mechanism (5) and the first auxiliary static sheet pressing mechanism (7) are arranged in parallel.

4. The appliance double-sided static patch apparatus of claim 3, wherein: the first main static piece feeding mechanism (4) comprises a first main static piece vibration feeder (44) which is adjustably arranged at the top of the frame (1); a first main static piece feeding (41) is arranged on one side of the first main static piece vibration feeder; a first X-Y moving assembly (42) is arranged on one side of the first main static sheet feeding (41); the output end of the first X-Y moving assembly (42) is provided with a first main static piece grabbing finger cylinder (43);

The first main static piece pressing mechanism (5) comprises a first main static piece pressing bracket (51); a first main static piece pressing cylinder (52) is fixedly arranged on one side of the first main static piece pressing bracket (51); the top of the first main static piece pressing-in bracket (51) is slidably provided with a first main static piece receiving jig assembly (53); a first main static piece pressing plate (54) is movably inserted on the first main static piece receiving jig assembly (53); the first main static piece pressing cylinder (52) can drive the first main static piece pressing plate (54) to be inserted on the first main static piece receiving jig assembly (53) back and forth in a reciprocating manner;

The first auxiliary static piece feeding mechanism (6) comprises a first auxiliary static piece vibration feeder (61) which is adjustably arranged at the top of the frame (1); a first auxiliary static sheet feeding (62) is arranged on one side of the first auxiliary static sheet vibration feeder (61); a second X-Y moving assembly (63) is arranged on one side of the first auxiliary static sheet feeding (62); the output end array of the second X-Y moving assembly (63) is provided with a first pair of static piece grabbing finger cylinders (64);

The first auxiliary static piece pressing mechanism (7) comprises a first auxiliary static piece pressing bracket (71); a first auxiliary static plate pressing cylinder (72) is fixedly arranged on one side of the first auxiliary static plate pressing bracket (71); the top of the first auxiliary static piece pressing-in bracket (71) is slidably provided with a first auxiliary static piece receiving jig assembly (73); a first auxiliary static piece pressing plate (74) is movably inserted on the first auxiliary static piece receiving jig assembly (73); the first auxiliary static sheet pressing cylinder (72) can drive the first auxiliary static sheet pressing plate (74) to be inserted on the first auxiliary static sheet receiving jig assembly (73) in a reciprocating mode.

5. The appliance double-sided static patch apparatus of claim 2, wherein: the second assembly part comprises a second auxiliary static piece feeding mechanism (9), a second auxiliary static piece pressing-in mechanism (10), a second main static piece feeding mechanism (11) and a second main static piece pressing-in mechanism (12); the second auxiliary static sheet pressing mechanism (10) is positioned right in front of the second auxiliary static sheet feeding mechanism (9); the second main static piece pressing mechanism (12) is positioned right in front of the second main static piece feeding mechanism (11); the second auxiliary static sheet pressing mechanism (10) and the second main static sheet pressing mechanism (12) are arranged right in front.

6. The appliance double-sided static patch apparatus of claim 1, wherein: the rotation direction mechanism (8) comprises a rotation bracket (81); a rotary lifting cylinder (82) is arranged on one side of the rotary support (81); a lifting base (83) is slidably arranged on the other side of the rotary lifting cylinder (82); the rotary lifting cylinder (82) can drive the lifting base (83) to reciprocate back and forth; a servo rotating motor (84) is arranged on the lifting base (83); the output end of the servo rotating motor (84) is fixedly connected with a base clamping cylinder (85).

7. The appliance double-sided static patch apparatus of claim 1, wherein: the detection mechanism (13) comprises detection brackets (131) symmetrically arranged on the conveying component; a detection driving cylinder (132) is arranged on the detection bracket (131); the output end of the detection driving cylinder (132) is provided with a detection seat (133); the detection seat (133) is provided with a detection optical fiber (134); the detection seat (133) is provided with a detection rod (135) in a telescopic manner, and the detection rod (135) can be telescopic to the light path of the detection optical fiber (134).

8. The appliance double-sided static patch apparatus of claim 1, wherein: the conveying part comprises a conveying and feeding mechanism (2), a base equidistant circulating conveying mechanism (3) and a finished product outflow mechanism (15) which are arranged in a straight line.

9. The appliance double-sided static patch apparatus of any one of claims 1-8, wherein: the double-sided static sheet inserting device of the electric appliance also comprises a dust removing mechanism (17) and a defective product pushing mechanism (14); the dust removing mechanism (17) is arranged on the conveying component in a lifting manner and is used for carrying out dust removing treatment on the product; the defective product pushing mechanism (14) is arranged on one side of the dust removing mechanism (17) and used for automatically separating defective products.

10. The appliance double-sided static patch apparatus of claim 3, wherein: the adjacent positions of the first main static piece feeding mechanism (4), the first main static piece pressing-in mechanism (5), the first auxiliary static piece feeding mechanism (6) and the first auxiliary static piece pressing-in mechanism (7) are adjustable; the adjacent positions of the second auxiliary static piece feeding mechanism (9), the second auxiliary static piece pressing mechanism (10), the second main static piece feeding mechanism (11) and the second main static piece pressing mechanism (12) are adjustable.