CN216681083U - Fuse assembling equipment - Google Patents

Abstract

The utility model discloses a fuse assembling device, comprising: the fuse assembling device comprises an assembling box feeding device, a transferring device, a detecting device and a plurality of assembling devices, wherein each assembling device comprises a bearing assembly, a fuse feeding assembly, a receiving assembly and an assembling assembly. Through assembly box loading attachment, change material device, detection device and a plurality of assembly device, assembly box loading attachment transports the equipment box and the material loading, change material device and carry the equipment box to detection device and detect, the equipment box after the detection is carried to the carrier assembly by changing material device, simultaneously, fuse material loading subassembly is with fuse material loading to connecing the material subassembly, assemble the fuse in the equipment box by the equipment subassembly at last, change material device and carry the equipment box to different assembly device and carry out the equipment of fuse. Carry out the automatic equipment of fuse through this equipment, not only reduced the error rate, guaranteed the quality of product, but also promoted the efficiency of equipment greatly, reduce personnel and use reduce cost.

Description

Fuse assembling equipment

Technical Field

The utility model relates to the technical field of mechanical equipment, in particular to fuse assembling equipment.

Background

The fuses are assembled according to different colors and positions, and different colors and positions are different from circuits connected with the fuses, so that the accuracy of the insertion positions of the fuses of different colors is particularly important. At present, conventional fuse equipment mainly still realizes through the manual work, and the artifical equipment that carries out the fuse is not only the error rate high, needs a large amount of reworks, and efficiency is also not high moreover, needs a large amount of personnel, has increased the cost of enterprise.

SUMMERY OF THE UTILITY MODEL

In view of the deficiencies of the prior art, the present invention provides a fuse assembling apparatus.

The utility model discloses a fuse assembling device, which comprises:

assembling a box feeding device; the automatic feeding device is used for feeding the assembly box;

the material transferring device is arranged adjacent to the assembling box feeding device;

the detection device is positioned on a path for conveying the assembled box by the material transferring device and is used for detecting the assembled box; and

the assembling devices comprise a bearing assembly, a fuse feeding assembly, a receiving assembly and an assembling assembly, the material transferring device conveys the assembling boxes to the bearing assembly, and the bearing assembly pushes the assembling boxes to different positions; the fuse feeding assembly is used for feeding fuses; the material receiving assembly is positioned at the discharge end of the fuse material loading assembly and is used for receiving the fuse; the assembly component takes out the fuse on the receiving component and assembles the fuse into an assembly box on the bearing component.

According to an embodiment of the utility model, the transferring device comprises a transferring horizontal driving member, a transferring vertical driving member and a transferring assembly, wherein the output direction of the transferring horizontal driving member is parallel to the conveying direction of the assembling box, the transferring vertical driving member is arranged at the output end of the transferring horizontal driving member, and the transferring assembly is connected with the output end of the transferring vertical driving member and clamps the assembling box through the transferring assembly.

According to an embodiment of the present invention, the transferring assembly includes a transferring supporting member and a plurality of transferring clamping members, the transferring supporting member is connected to the output end of the transferring vertical driving member, and the plurality of transferring clamping members are disposed side by side on the transferring supporting member.

According to an embodiment of the present invention, the bearing assembly includes a bearing member, a first pushing driving member, a first pushing member, a second pushing driving member and a second pushing member, the first pushing driving member is disposed on the bearing member, the first pushing member is connected to an output end of the first pushing driving member, the first pushing member is slidably connected to the bearing member, the second pushing driving member is disposed on the first pushing member, the second pushing member is connected to an output end of the second pushing driving member, the second pushing member is slidably connected to the first pushing member, and the assembly box is disposed on the second pushing member.

According to an embodiment of the present invention, the second pushing member is provided with a carrying groove, and the assembly box is placed in the carrying groove.

According to one embodiment of the utility model, the material receiving assembly comprises a material receiving support member, a material receiving driving member and a material receiving member, the material receiving support member is located at a discharge end of the fuse material feeding assembly, the material receiving driving member is arranged on the material receiving support member, the material receiving member is arranged at an output end of the material receiving driving member, and the material receiving member is slidably arranged on the material receiving support member.

According to an embodiment of the present invention, the assembly component includes an assembly supporting member, an assembly driving member and an assembly member, the assembly supporting member is located between the carrying component and the receiving component, the assembly driving member is disposed on the assembly supporting member, the assembly member is connected to an output end of the assembly driving member, and the assembly member is slidably connected to the assembly supporting member.

According to an embodiment of the present invention, the assembly support is provided with a sliding groove, and the assembly member is slidably provided in the sliding groove.

According to an embodiment of the present invention, the sliding groove is an arc-shaped groove.

According to an embodiment of the utility model, the assembling box further comprises a conveying device for reversing and conveying the assembling box.

The fuse assembling device has the advantages that the assembling box feeding device transports and feeds the assembling box, the transferring device conveys the assembling box to the detecting device for detection, the detected assembling box is conveyed to the bearing assembly by the transferring device, meanwhile, the fuse feeding assembly feeds the fuse to the receiving assembly, finally, the assembling assembly assembles the fuse into the assembling box, and the transferring device conveys the assembling box to different assembling devices for fuse assembling. The fuse is automatically assembled through the equipment, so that the error rate is reduced, the quality of a product is guaranteed, the assembling efficiency is greatly improved, the use of personnel is reduced, and the cost is reduced.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the application and together with the description serve to explain the application and not to limit the application. In the drawings:

FIG. 1 is an overall view of a fuse assembling apparatus in an embodiment;

FIG. 2 is a structural diagram of a material transferring device in the embodiment;

FIG. 3 is another structural diagram of the transferring device in the embodiment;

FIG. 4 is a schematic structural diagram of a carrier assembly according to an embodiment;

FIG. 5 is another schematic structural view of the load bearing assembly of the embodiment;

fig. 6 is a schematic structural diagram of a receiving assembly in the embodiment;

FIG. 7 is a schematic structural diagram of an assembly of the embodiment.

Description of reference numerals:

1-assembling a box feeding device;

2-transferring the material device; 21-transferring the horizontal driving piece; 22-transferring the vertical driving member; 23-transferring the material component; 231-transferring support; 232-transferring and clamping;

3-a detection device;

4-assembling the device; 41-a carrier assembly; 411-a carrier; 412-a first push driver; 413-a first pusher; 414-a second push driver; 415-a second pusher; 4151-a carrying groove; 42-a fuse loading assembly; 43-a receiving assembly; 431-a receiving support; 432-a material receiving driving member; 433-receiving part; 44-assembling the components; 441-assembling a support; 4411-a sliding groove; 442-assembling the driving member; 443-assembly;

5-a material handling device; 51-a material handling support; 52-first material handling drive; 53-a second material handling driving member; 54-a material handling member;

6-a blanking device.

Detailed Description

In the following description, for purposes of explanation, numerous implementation details are set forth in order to provide a thorough understanding of the various embodiments of the present invention. It should be understood, however, that these implementation details are not to be interpreted as limiting the utility model. That is, in some embodiments of the utility model, such implementation details are not necessary. In addition, some conventional structures and components are shown in simplified schematic form in the drawings.

In addition, the descriptions related to the first, the second, etc. in the present invention are only used for description purposes, do not particularly refer to an order or sequence, and do not limit the present invention, but only distinguish components or operations described in the same technical terms, and are not understood to indicate or imply relative importance or implicitly indicate the number of indicated technical features. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.

As shown in fig. 1, fig. 1 is an overall view of a fuse assembling apparatus in an embodiment. The fuse assembling equipment comprises an assembling box feeding device 1, a material transferring device 2, a detecting device 3 and an assembling device 4, wherein the assembling box feeding device 1 is used for feeding and assembling a box; the material transferring device 2 and the assembly box feeding device 1 are arranged at an angle, and the assembly box is conveyed through the material transferring device 2; the detection device 3 is positioned on a path of the transferring device 2 for conveying the assembled boxes, the assembling device 4 is arranged adjacent to the detection device 3, the detection device 3 detects the assembled boxes, and the transferring device 2 conveys the detected assembled boxes to the assembling device 4 for assembling.

During specific application, assembly box loading attachment 1 is current conveyer belt structure, and the during operation is placed assembly box 1 surface to assembly box loading attachment, and assembly box loading attachment 1 can carry the assigned position with the assembly box automatically.

Referring to fig. 2 and 3, fig. 2 is a structural diagram of the material transferring device 2 in the embodiment; fig. 3 is another structural diagram of the material transferring device 2 in the embodiment. Change material device 2 including changeing material horizontal driving piece 21, change material vertical driving piece 22 and change material subassembly 23, change the output direction of material horizontal driving piece 21 and set up with assembly box loading attachment 1 angulation setting, change material vertical driving piece 22 and connect the output of changeing material horizontal driving piece 21, change material subassembly 23 and connect the output of changeing material vertical driving piece 22. The material transferring assembly 23 comprises a material transferring support 231 and a plurality of material transferring clamping pieces 232, the material transferring support 231 is connected with the output end of the material transferring vertical driving piece 22, the plurality of material transferring clamping pieces 232 are arranged on the material transferring support 231 at intervals, and the plurality of material transferring clamping pieces 232 are arranged side by side. In practical application, the material transferring horizontal driving member 21 drives the material transferring vertical driving member 22 to move in the horizontal direction, the material transferring vertical driving member 22 drives the material transferring supporting member 231 to move in the vertical direction, the material transferring clamping member 232 is matched with the assembling box, and the assembling box is clamped by the material transferring clamping member 232. Specifically, the material transferring clamping member 232 is of an existing clamping jaw structure. In this embodiment, the output direction of the material transferring horizontal driving member 21 is perpendicular to the direction of loading the assembly boxes by the assembly box loading device 1, that is, the material transferring clamping member 232 clamps the assembly boxes and then conveys the assembly boxes along the horizontal direction.

Referring to fig. 1 again, specifically, the detecting device 3 is disposed on a path of the transferring horizontal driving member 21 for conveying the assembly box, and the detecting device 3 adopts an existing detecting structure, such as a CCD photographing detecting device, for detecting the specification of the assembly box and the foreign object in the fuse insertion hole.

Referring to fig. 4-7, fig. 4 is a schematic structural diagram of the carrier assembly 41 according to an embodiment;

FIG. 5 is another structural diagram of the bearing assembly 41 in the embodiment; fig. 6 is a schematic structural diagram of the receiving assembly 43 in the embodiment; fig. 7 is a schematic structural diagram of the assembly unit 44 in the embodiment. The plurality of assembling devices 4 are arranged side by side along the assembling box conveying path, and the position of assembling the fuse on the assembling box by each assembling device 4 is different. The single assembling device 4 includes a bearing component 41, a fuse loading component 42, a receiving component 43 and an assembling component 44, the bearing component 41 is disposed adjacent to the detecting device 3, the fuse loading component 42 is disposed on one side opposite to the bearing component 41, the receiving component 43 is disposed adjacent to the bearing component 41, the receiving component 433 is disposed at a discharging end of the fuse loading component 42, the assembling component 44 is disposed between the bearing component 41 and the receiving component 43, and a fuse on the receiving component 43 is carried to an assembling box on the bearing component 41 through the assembling component 44 and is assembled. The carrying assembly 41 includes a carrying member 411, a first push driving member 412, a first pushing member 413, a second push driving member 414 and a second pushing member 415, the carrying member 411 is located at one side adjacent to the detecting device 3, the first push driving member 412 is disposed on the carrying member 411, the first pushing member 413 is connected to an output end of the first push driving member 412, the first pushing member 413 is slidably disposed on the carrying member 411, the second push driving member 414 is disposed on the first pushing member 413, the second pushing member 415 is connected to an output end of the second push driving member 414, and the second pushing member 415 is slidably disposed on the first pushing member 413. Further, the second pushing member 415 is provided with a bearing groove 4151, the bearing groove 4151 is matched with the assembled box, and the transferring clamping member 232 conveys the assembled box into the bearing groove 4151. The first push actuator 412 cooperates with the second push actuator 414 to move the assembled cartridges in the receiving slots 4151 in a horizontal plane to accommodate different fuses inserted into different locations on the assembled cartridges.

During specific application, the fuse feeding assembly 42 is of an existing vibrating disk structure, fuses are arranged in order through the vibrating disk, and then the fuses are sequentially fed to the material receiving assembly 43 one by one.

Connect material subassembly 43 including connecing material support 431, connecing material driving piece 432 and connecing material piece 433, connect material support 431 to be located the fuse material loading subassembly 42 discharge end, connect material driving piece 432 to set up in connecing material support 431, connect material piece 433 to connect the output that connects material driving piece 432, and connect material piece 433 sliding connection to connect material support 431, connect material piece 433 to be used for accepting the fuse of the fuse material loading subassembly 42 ejection of compact.

The assembly 44 includes an assembly support 441, an assembly driving element 442, and an assembly 443, wherein the assembly support 441 is located between the material receiving support 431 and the carrier 411, the assembly driving element 442 is disposed on the assembly support 441, the assembly 443 is connected to an output end of the assembly driving element 442, the assembly driving element 442 drives the assembly 443, and the assembly 443 carries the fuse on the material receiving element 433 to the assembly box on the carrier 411 for assembly. Further, the assembly support 441 is provided with a sliding groove 4411, and the assembly part 443 is slidably disposed in the sliding groove 4411. Specifically, the sliding groove 4411 is an arc-shaped groove, two ends of the sliding groove 4411 are respectively located above the bearing part 411 and the receiving part 433, so that the fuse can be taken out of the receiving part 433 after descending, then the fuse can ascend simultaneously in the moving process, and then the fuse descends to reach the other end, the fuse on the assembly part 443 is just assembled into the assembly box on the bearing part 411, and the assembly is circulated to and fro to realize the assembly of a plurality of fuses.

Referring to fig. 1, in another embodiment, the fuse assembling apparatus further includes a material handling device 5, and the material handling device 5 is used for reversing the direction of the assembled box. The material conveying device 5 comprises a material conveying support 51, a first material conveying driving member 52, a second material conveying driving member 53 and a material conveying member 54, wherein the material conveying support 51 is positioned at the reversing position of the assembly box, the first material conveying driving member 52 is arranged on the material conveying support 51, the second material conveying driving member 53 is connected with the first material conveying driving member 52, and the material conveying member 54 is connected with the second material conveying driving member 53. In a specific application, the material handling member 54 has a conventional jaw structure, and the assembled cassette is handled by the material handling member 54. In this embodiment, two fuse assembly lines are assumed and are parallel to each other, when the assembly box needs to be switched from one assembly line to another assembly line, the first material-moving driving member 52 drives the second material-moving driving member 53 to move, the second material-moving driving member 53 drives the material-moving member 54 to move, and the material-moving member 54 clamps the assembly box and then conveys the assembly box to another assembly line along the Y-axis direction.

Referring to fig. 1 again, in order to improve the production efficiency, the fuse assembling equipment of the present application further includes a blanking device 6, the blanking device 6 is disposed adjacent to the last assembling device 4, after the last assembling device 4 is processed, the fuse assembling equipment enters the blanking device 6, and the blanking device 6 conveys the assembled fuse box to the next station or directly blanks the assembled fuse box. Specifically, the blanking device 6 adopts an existing conveyor belt structure.

When the fuse assembling equipment works, firstly, an assembling box is put into the assembling box feeding device 1 for feeding, the assembling box is fed in the Y-axis direction, the transferring horizontal driving piece 21 and the transferring vertical driving piece 22 are matched with each other to drive the transferring clamping piece 232 to move, so that the transferring clamping piece 232 clamps the assembling box and moves on the X-axis, firstly, the assembling box is detected through the detection device 3, then, the transferring clamping piece 232 places the assembling box on the bearing piece 411, meanwhile, the fuse feeding component 42 also sorts and discharges fuses, the receiving driving piece 432 drives the receiving piece 433 to rise to receive the fuses, the assembling driving piece 442 works and drives the assembling piece 443 to move, the assembling piece 443 takes out the fuses on the receiving piece 433 and inserts the fuses on the bearing piece 411, after the fuse assembling is completed, the first pushing driving piece 412 and the second pushing driving piece 414 are matched with each other to drive the bearing piece 411 to move, the fuse can be inserted into different positions of the assembly box, the fuse assembly of one assembly device 4 is completed, the assembled assembly box is clamped by the material transferring part and placed into the next assembly device 4, and the fuse assembly of different positions is carried out on the assembly box. If necessary, the fuse can be reversed and transported by the transporting member 54, then assembled by the assembling device 4 having the same structure, and finally transported by the blanking device 6 after the assembling is completed.

In summary, through the assembling box feeding device, the transferring device, the detecting device and the assembling devices, the assembling box feeding device transports and feeds the assembling box, the transferring device conveys the assembling box to the detecting device for detection, the detected assembling box is conveyed to the bearing assembly by the transferring device, meanwhile, the fuse feeding assembly feeds the fuse to the receiving assembly, the assembling assembly assembles the fuse into the assembling box, and the transferring device conveys the assembling box to different assembling devices for fuse assembling. The fuse is automatically assembled through the equipment, so that the error rate is reduced, the quality of a product is guaranteed, the assembling efficiency is greatly improved, the use of personnel is reduced, and the cost is reduced.

The above description is only an embodiment of the present invention, and is not intended to limit the present invention. Various modifications and alterations to this invention will become apparent to those skilled in the art. Any modification, equivalent replacement, improvement or the like made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims (10)

1. A fuse assembling apparatus, comprising:

assembling a box feeding device (1); the automatic feeding device is used for feeding the assembly box;

the material transferring device (2) is arranged adjacent to the assembling box feeding device (1);

a detection device (3) which is positioned on a path for conveying the assembled box by the material transfer device (2) and detects the assembled box; and

a plurality of assembling devices (4), wherein each assembling device (4) comprises a bearing assembly (41), a fuse feeding assembly (42), a receiving assembly (43) and an assembling assembly (44), the material transferring device (2) conveys the assembling boxes to the bearing assemblies (41), and the bearing assemblies (41) push the assembling boxes to different positions; the fuse feeding assembly (42) is used for feeding fuses; the material receiving assembly (43) is positioned at the discharge end of the fuse feeding assembly (42) and is used for receiving the fuse; the assembly component (44) takes out the fuse on the receiving component (43) and assembles the fuse into the assembly box on the bearing component (41).

2. The fuse assembling equipment according to claim 1, wherein the material transferring device (2) comprises a material transferring horizontal driving member (21), a material transferring vertical driving member (22) and a material transferring assembly (23), the output direction of the material transferring horizontal driving member (21) is parallel to the conveying direction of the assembling boxes, the material transferring vertical driving member (22) is arranged at the output end of the material transferring horizontal driving member (21), the material transferring assembly (23) is connected with the output end of the material transferring vertical driving member (22), and the assembling boxes are clamped through the material transferring assembly (23).

3. The fuse assembling equipment according to claim 2, wherein the material transferring assembly (23) comprises a material transferring support member (231) and a plurality of material transferring clamping members (232), the material transferring support member (231) is connected with the output end of the material transferring vertical driving member (22), and the plurality of material transferring clamping members (232) are arranged side by side on the material transferring support member (231).

4. Fuse assembly device according to claim 1, characterized in that the carrier assembly (41) comprises a carrier (411), a first push drive (412), a first push (413), a second push drive (414) and a second push (415), the first push driving piece (412) is arranged on the bearing piece (411), the first push piece (413) is connected with the output end of the first push driving piece (412), the first pushing member (413) is connected with the bearing member (411) in a sliding manner, the second pushing driving member (414) is arranged on the first pushing member (413), the second pusher (415) is connected to the output end of the second push driver (414), and the second pushing part (415) is connected with the first pushing part (413) in a sliding way, and the assembly box is placed on the second pushing part (415).

5. Fuse assembly device according to claim 4 characterized in that said second pusher (415) is provided with a bearing groove (4151) and said assembly box is placed in said bearing groove (4151).

6. The fuse assembling equipment according to any one of claims 1 to 5, wherein the material receiving assembly (43) comprises a material receiving support (431), a material receiving driving member (432) and a material receiving member (433), the material receiving support (431) is located at a discharge end of the fuse material receiving assembly (42), the material receiving driving member (432) is arranged on the material receiving support (431), the material receiving member (433) is arranged at an output end of the material receiving driving member (432), and the material receiving member (433) is slidably arranged on the material receiving support (431).

7. The fuse assembling device according to any one of claims 1-5, wherein the assembling component (44) comprises an assembling support member (441), an assembling driving member (442), and an assembling member (443), the assembling support member (441) is located between the carrying component (41) and the receiving component (43), the assembling driving member (442) is disposed on the assembling support member (441), the assembling member (443) is connected to an output end of the assembling driving member (442), and the assembling member (443) is slidably connected to the assembling support member (441).

8. The fuse assembly device according to claim 7, wherein the assembly support (441) is provided with a sliding slot (4411), and the assembly part (443) is slidably provided in the sliding slot (4411).

9. The fuse assembly apparatus of claim 8, wherein the sliding slot (4411) is an arcuate slot.

10. The fuse assembling device according to any one of claims 1-5, further comprising a material handling device (5) for reversing the direction of the assembled box.

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