CN112366346A - Assembly equipment - Google Patents

Abstract

The invention discloses an assembling device, and belongs to the technical field of battery assembling devices. The assembling equipment comprises a conveyor belt component, a processing mechanism, a rotary table and a suction nozzle mechanism, wherein the conveyor belt component comprises a top cover conveyor belt and a pore plate conveyor belt; the processing mechanism is used for edge covering, riveting and welding the top cover and the pore plate; the rotary table is used for receiving the top cover on the top cover conveying belt and the pore plate on the pore plate conveying belt; the suction nozzle mechanism is used for taking down the top cover on the top cover conveying belt and the pore plate on the pore plate conveying belt and placing the top cover and the pore plate on the rotating disc, the suction nozzle mechanism comprises a driving motor, a transmission gear assembly, a top cover suction nozzle transmission assembly and a pore plate suction nozzle transmission assembly, the driving motor is connected with a transmission gear assembly, the top cover suction nozzle transmission assembly and the pore plate suction nozzle transmission assembly are both connected with the transmission gear assembly, the driving motor is configured to be capable of driving the top cover suction nozzle transmission assembly and the pore plate suction nozzle transmission assembly to move simultaneously through the transmission gear.

Description

Assembly equipment

Technical Field

The invention relates to the technical field of battery assembling equipment, in particular to assembling equipment.

Background

Cylindrical battery caps typically include a top cover and an orifice plate. The top cover is arranged on the pore plate, and the top cover and the pore plate are fixed through edge wrapping, riveting and welding.

The traditional top cover and pore plate assembling equipment generally adopts the mode that the top cover and the pore plate are respectively conveyed to a middle material preparation area by a conveying belt, and the material preparation area sequentially carries out three processes of edge covering, riveting and welding, so that the top cover and the pore plate are assembled.

Therefore, a low-cost assembly apparatus is needed to solve the above technical problems in the prior art.

Disclosure of Invention

The object of the present invention is to propose an assembly device which reduces the cost of the whole device.

In order to achieve the purpose, the invention adopts the following technical scheme:

an assembly apparatus, comprising:

the conveying belt assembly comprises a top cover conveying belt and a pore plate conveying belt, and the top cover conveying belt and the pore plate conveying belt are respectively used for conveying a top cover and a pore plate;

the processing mechanism is positioned at the downstream of the conveyor belt assembly and is used for edge covering, riveting and welding the top cover and the pore plate;

the rotary table is positioned between the conveyor belt assembly and the processing mechanism and is used for receiving the top cover on the top cover conveyor belt and the pore plate on the pore plate conveyor belt;

the suction nozzle mechanism is used for taking down the top cover on the top cover conveyor belt and the pore plate on the pore plate conveyor belt and placing on the turntable, the suction nozzle mechanism comprises a driving motor, a transmission gear assembly, a top cover suction nozzle transmission assembly and a pore plate suction nozzle transmission assembly, the driving motor is connected with the transmission gear assembly, the top cover suction nozzle transmission assembly and the pore plate suction nozzle transmission assembly are connected with the transmission gear assembly, and the driving motor is configured to be capable of driving the top cover suction nozzle transmission assembly and the pore plate suction nozzle transmission assembly to move simultaneously through the transmission gear assembly.

As an optimal technical scheme of assembly equipment, the transmission gear assembly comprises a transmission gear set and a connecting shaft, the driving motor is in driving connection with the connecting shaft through the transmission gear set, one end of the connecting shaft is connected with the top cover suction nozzle transmission assembly, and the other end of the connecting shaft is connected with the orifice plate suction nozzle transmission assembly.

As a preferred technical scheme of the assembly equipment, the top cover suction nozzle transmission assembly comprises a top cover suction nozzle, a first lead screw and a first nut, the first nut is sleeved on the first lead screw, the top cover suction nozzle is connected to the first nut, and the first lead screw is connected with the connecting shaft.

As an optimal technical scheme of the assembly equipment, the orifice plate suction nozzle transmission assembly comprises an orifice plate suction nozzle, a second lead screw and a second nut, the second nut is sleeved on the second lead screw, the orifice plate suction nozzle is connected to the second nut, and the second lead screw is connected with the connecting shaft.

As a preferable aspect of the assembling apparatus, the processing mechanism includes:

the edge covering assembly is positioned at the downstream of the rotary disc and is used for covering the top cover and the pore plate;

the riveting component is positioned at the downstream of the edge covering component and is used for riveting the top cover and the pore plate;

and the welding assembly is positioned at the downstream of the riveting assembly and is used for welding the top cover and the pore plate.

As a preferred technical scheme of the assembling equipment, the processing mechanism further comprises a finger cylinder group, and the finger cylinder group is used for taking down the top cover and the pore plate from the rotary table and sequentially putting the top cover and the pore plate on the edge covering assembly, the riveting assembly and the welding assembly.

As a preferred technical scheme of the assembly equipment, the finger cylinder group includes a first finger cylinder, a second finger cylinder, a third finger cylinder and a fourth finger cylinder, the first finger cylinder is used for placing the top cover and the pore plate on the turntable under the edge covering component for edge covering, the second finger cylinder is used for placing the top cover and the pore plate under the edge covering component under the riveting component for riveting, the third finger cylinder is used for placing the top cover and the pore plate under the riveting component under the welding component for welding, and the fourth finger cylinder is used for clamping the top cover and the pore plate under the welding component.

As a preferred technical scheme of the assembling equipment, the assembling equipment further comprises a material receiving box, the material receiving box is located at the downstream of the processing mechanism, and the material receiving box is used for collecting the assembled products of the top cover and the pore plate.

As a preferred technical solution of the assembly equipment, the assembly equipment further includes a storage platform located upstream of the conveyor belt assembly, the storage platform being used for storing the top cover and the orifice plate.

As an optimal technical scheme of assembly equipment, the storage table comprises a top cover storage table and a pore plate storage table, and the top cover storage table and the pore plate storage table are respectively used for storing the top cover and the pore plate.

The invention provides an assembly device, wherein a driving motor in the assembly device is connected with a top cover suction nozzle transmission component and a pore plate suction nozzle transmission component through a transmission gear component, so that the driving motor can simultaneously drive the top cover suction nozzle transmission component and the pore plate suction nozzle transmission component to move through the transmission gear component, the effect of simultaneously driving the top cover suction nozzle transmission component and the pore plate suction nozzle transmission component by adopting one driving motor is realized, and the cost of the whole device is reduced.

Drawings

FIG. 1 is a schematic structural diagram of an assembly apparatus provided in accordance with an embodiment of the present invention;

fig. 2 is an enlarged view of a portion a of fig. 1 according to an embodiment of the present invention.

Reference numerals:

1. a conveyor belt assembly; 11. a top cover conveyor belt; 12. a perforated plate conveyor belt;

2. a processing mechanism; 21. a hemming assembly; 22. riveting the component; 23. welding the assembly; 24. a finger cylinder group;

3. a turntable;

4. a suction nozzle mechanism; 41. a drive motor; 42. a transmission gear assembly; 421. a drive gear set; 422. a connecting shaft; 43. a top cap suction nozzle transmission component; 431. a top cover suction nozzle; 432. a first lead screw; 433. a first nut; 44. a orifice plate suction nozzle transmission assembly; 441. a pore plate suction nozzle; 442. a second lead screw; 443. a second nut;

5. a material receiving box; 6. a material storage table; 61. a top cover storage table; 62. orifice plate storage platform.

Detailed Description

In order to make the technical problems solved, the technical solutions adopted and the technical effects achieved by the present invention clearer, the technical solutions of the present invention are further described below by way of specific embodiments with reference to the accompanying drawings.

In the description of the present invention, unless expressly stated or limited otherwise, the terms "connected," "connected," and "fixed" are to be construed broadly, e.g., as meaning permanently connected, removably connected, or integral to one another; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In the present invention, unless otherwise expressly stated or limited, "above" or "below" a first feature means that the first and second features are in direct contact, or that the first and second features are not in direct contact but are in contact with each other via another feature therebetween. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

In the description of the present embodiment, the terms "upper", "lower", "left", "right", and the like are used based on the orientations and positional relationships shown in the drawings only for convenience of description and simplification of operation, and do not indicate or imply that the referred device or element must have a specific orientation, be configured and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used only for descriptive purposes and are not intended to have a special meaning.

As shown in fig. 1 and 2, the present embodiment provides an assembly apparatus including a conveyor belt assembly 1, a processing mechanism 2, a turntable 3, and a suction nozzle mechanism 4, wherein the conveyor belt assembly 1 includes a top cover conveyor belt 11 and a orifice plate conveyor belt 12, and the top cover conveyor belt 11 and the orifice plate conveyor belt 12 are used for conveying a top cover and an orifice plate, respectively; the processing mechanism 2 is positioned at the downstream of the conveyor belt component 1, and the processing mechanism 2 is used for edge covering, riveting and welding the top cover and the pore plate; the rotary table 3 is positioned between the conveyor belt assembly 1 and the processing mechanism 2, and the rotary table 3 is used for receiving the top cover on the top cover conveyor belt 11 and the pore plate on the pore plate conveyor belt 12; the suction nozzle mechanism 4 is used for taking down the top cover on the top cover conveyor belt 11 and the pore plate on the pore plate conveyor belt 12 and placing the top cover and the pore plate on the turntable 3, the suction nozzle mechanism 4 comprises a driving motor 41, a transmission gear component 42, a top cover suction nozzle transmission component 43 and a pore plate suction nozzle transmission component 44, the driving motor 41 is connected with the transmission gear component 42, the top cover suction nozzle transmission component 43 and the pore plate suction nozzle transmission component 44 are both connected with the transmission gear component 42, and the driving motor 41 is configured to be capable of driving the top cover suction nozzle transmission component 43 and the pore plate suction nozzle transmission component 44 to move.

The driving motor 41 in the assembly equipment is connected with the top cover suction nozzle transmission assembly 43 and the orifice plate suction nozzle transmission assembly 44 through the transmission gear assembly 42, so that the driving motor 41 can simultaneously drive the top cover suction nozzle transmission assembly 43 and the orifice plate suction nozzle transmission assembly 44 to move through the transmission gear assembly 42, the effect of simultaneously driving the top cover suction nozzle transmission assembly 43 and the orifice plate suction nozzle transmission assembly 44 by adopting one driving motor 41 is realized, and the cost of the whole equipment is reduced.

Specifically, the transmission gear assembly 42 includes a transmission gear set 421 and a connecting shaft 422, the driving motor 41 is drivingly connected to the connecting shaft 422 through the transmission gear set 421, one end of the connecting shaft 422 is connected to the top cap nozzle transmission assembly 43, and the other end is connected to the orifice plate nozzle transmission assembly 44. In this embodiment, the transmission gear set 421 includes a first gear and a second gear, the first gear is in driving connection with the output end of the driving motor 41, the second gear is fixedly sleeved on the connecting shaft 422, the first gear and the second gear are in meshing transmission, the driving motor 41 drives the first gear to rotate, the first gear drives the second gear to rotate, the second gear drives the connecting shaft 422 to rotate, and the connecting shaft 422 drives the top cover nozzle transmission assembly 43 and the orifice plate nozzle transmission assembly 44 to move.

Further, the top cover nozzle transmission assembly 43 comprises a top cover nozzle 431, a first lead screw 432 and a first nut 433, the first nut 433 is sleeved on the first lead screw 432, the top cover nozzle 431 is connected to the first nut 433, and the first lead screw 432 is connected with the connecting shaft 422. The orifice plate suction nozzle transmission assembly 44 includes an orifice plate suction nozzle 441, a second screw 442 and a second nut 443, the second nut 443 is sleeved on the second screw 442, the orifice plate suction nozzle 441 is connected to the second nut 443, and the second screw 442 is connected to the connection shaft 422. The rotation of the screw is converted into the linear movement of the nut through the matching of the screw and the nut, so that the top cover suction nozzle 431 and the pore plate suction nozzle 441 move linearly, and the top cover on the top cover conveyor belt 11 and the pore plate on the pore plate conveyor belt 12 are transferred onto the rotary table 3. It should be noted that, in the actual operation process, the pore plate is placed on the turntable 3 first, and then the top cover is placed on the pore plate, so that the pore plate and the top cover are stacked, and the subsequent edge covering, riveting and welding of the pore plate and the top cover are facilitated.

As shown in fig. 1, the processing mechanism 2 includes a hemming assembly 21, the hemming assembly 21 is located at the downstream of the turntable 3, and the hemming assembly 21 is used for hemming the top cover and the orifice plate; the riveting component 22 is positioned at the downstream of the edge covering component 21, and the riveting component 22 is used for riveting the top cover and the pore plate; a welding assembly 23 is located downstream of the rivet assembly 22, the welding assembly 23 being used to weld the header and orifice plate.

As shown in fig. 1, the processing mechanism 2 further includes a finger cylinder 24, and the finger cylinder 24 is used to remove the top cover and the orifice plate from the turntable 3 and place them in the hemming module 21, the riveting module 22 and the welding module 23 in sequence.

Specifically, the finger cylinder group 24 includes a first finger cylinder, a second finger cylinder, a third finger cylinder and a fourth finger cylinder, the first finger cylinder is used for placing the top cover and the pore plate on the rotary plate 3 under the edge covering component 21 for edge covering, the second finger cylinder is used for placing the top cover and the pore plate under the edge covering component 21 under the riveting component 22 for riveting, the third finger cylinder is used for placing the top cover and the pore plate under the riveting component 22 under the welding component 23 for welding, and the fourth finger cylinder is used for clamping the top cover and the pore plate under the welding component 23.

As shown in fig. 1, the assembling apparatus further includes a receiving box 5, the receiving box 5 is located downstream of the processing mechanism 2, and the receiving box 5 is used for collecting the assembled products of the top cover and the orifice plate.

As shown in fig. 1, the assembly plant further comprises a magazine 6, the magazine 6 being located upstream of the conveyor assembly 1, the magazine 6 being used for storing caps and orifices. Specifically, the magazine 6 includes a top cover magazine 61 and a orifice magazine 62, and the top cover magazine 61 and the orifice magazine 62 are used to store a top cover and an orifice, respectively.

The specific processing process of the assembly equipment comprises the following steps: the top cover and the pore plate are respectively conveyed to the ends of the top cover conveyor belt 11 and the pore plate conveyor belt 12 by the top cover conveyor belt 11 and the pore plate conveyor belt 12, the pore plate suction nozzle 441 sucks the pore plate and places the pore plate on the rotary disc 3, the rotary disc 3 rotates clockwise, when the top cover suction nozzle 431 sucks the top cover and places the top cover on the upper portion of the pore plate when the top cover conveyor belt 11 is rotated to be close to the top cover conveyor belt 11, the top cover suction nozzle and the pore plate rotate together to be close to the edge covering assembly 21, the top cover and the pore plate are clamped by the finger cylinder group 24 and placed under the edge covering assembly 21, the finger cylinder group 24 comprises a first finger cylinder, a second finger cylinder, a third finger cylinder and a fourth finger cylinder, the first finger cylinder, the second finger cylinder, the third finger cylinder and the fourth finger cylinder are in a linkage state, when the top cover and the pore plate which are positioned on the rotary disc 3 are clamped by the first finger cylinder, the top And (4) riveting, clamping the top cover and the pore plate which are positioned below the riveting assembly 22 by the third finger cylinder, moving to the right to the position below the welding assembly 23 for welding, clamping the top cover and the pore plate which are positioned below the welding assembly 23 by the fourth finger cylinder, moving to the right to throw the top cover and the pore plate into the material receiving box 5. The first finger cylinder, the second finger cylinder, the third finger cylinder and the fourth finger cylinder can be driven by the cylinders to be linked or driven by the cam mechanism to be linked, and the cylinder driving mode and the cam mechanism driving mode are conventional technical means in the field and are not described in detail herein.

The above description is only a preferred embodiment of the present invention, and for those skilled in the art, the present invention should not be limited by the description of the present invention, which should be interpreted as a limitation.

Claims (10)

1. An assembly apparatus, comprising:

the conveying belt assembly (1) comprises a top cover conveying belt (11) and a pore plate conveying belt (12), wherein the top cover conveying belt (11) and the pore plate conveying belt (12) are used for conveying a top cover and a pore plate respectively;

the processing mechanism (2) is positioned at the downstream of the conveyor belt component (1), and the processing mechanism (2) is used for edge covering, riveting and welding the top cover and the pore plate;

the rotary table (3) is positioned between the conveyor belt assembly (1) and the processing mechanism (2), and the rotary table (3) is used for receiving the top covers on the top cover conveyor belt (11) and the pore plates on the pore plate conveyor belt (12);

suction nozzle mechanism (4), suction nozzle mechanism (4) be used for with on top cap conveyer belt (11) the top cap with on orifice plate conveyer belt (12) the orifice plate take off and place in on carousel (3), suction nozzle mechanism (4) include driving motor (41), drive gear subassembly (42), top cap suction nozzle transmission assembly (43) and orifice plate suction nozzle transmission assembly (44), driving motor (41) with drive gear subassembly (42) are connected, top cap suction nozzle transmission assembly (43) with orifice plate suction nozzle transmission assembly (44) all with drive gear subassembly (42) are connected, driving motor (41) are configured to pass through drive gear subassembly (42) simultaneous drive top cap suction nozzle transmission assembly (43) and orifice plate suction nozzle transmission assembly (44) remove.

2. The assembly apparatus according to claim 1, wherein the transmission gear assembly (42) comprises a transmission gear set (421) and a connecting shaft (422), the driving motor (41) is drivingly connected with the connecting shaft (422) through the transmission gear set (421), one end of the connecting shaft (422) is connected with the top cover nozzle transmission assembly (43), and the other end is connected with the orifice plate nozzle transmission assembly (44).

3. The assembly apparatus according to claim 2, wherein the top cap nozzle transmission assembly (43) comprises a top cap nozzle (431), a first lead screw (432) and a first nut (433), the first nut (433) is sleeved on the first lead screw (432), the top cap nozzle (431) is connected to the first nut (433), and the first lead screw (432) is connected to the connecting shaft (422).

4. The assembly apparatus according to claim 2, wherein the orifice plate suction nozzle transmission assembly (44) comprises an orifice plate suction nozzle (441), a second lead screw (442), and a second nut (443), the second nut (443) being sleeved on the second lead screw (442), the orifice plate suction nozzle (441) being connected to the second nut (443), the second lead screw (442) being connected to the connecting shaft (422).

5. The assembly apparatus according to claim 1, wherein the machining means (2) comprises:

a hemming assembly (21) located downstream of the turntable (3), the hemming assembly (21) being for hemming the top cover and the orifice plate;

the riveting component (22) is positioned at the downstream of the edge covering component (21), and the riveting component (22) is used for riveting the top cover and the pore plate;

a welding assembly (23) located downstream of the rivet pressing assembly (22), the welding assembly (23) being used to weld the top cover and the orifice plate.

6. The assembly apparatus according to claim 5, wherein the processing means (2) further comprises a finger cylinder (24), the finger cylinder (24) being adapted to remove the caps and the orifice plate from the turntable (3) and to place them in turn on the tipping assembly (21), the riveting assembly (22) and the welding assembly (23).

7. The assembly equipment according to claim 6, wherein the finger cylinder group (24) comprises a first finger cylinder for placing the top cover and the orifice plate on the turntable (3) under the hemming assembly (21) for hemming, a second finger cylinder for placing the top cover and the orifice plate under the hemming assembly (21) under the riveting assembly (22) for riveting, a third finger cylinder for placing the top cover and the orifice plate under the riveting assembly (22) under the welding assembly (23) for welding, and a fourth finger cylinder for gripping the top cover and the orifice plate under the welding assembly (23).

8. The assembly plant according to claim 1, characterized in that it further comprises a collection box (5), said collection box (5) being located downstream of said processing means (2), said collection box (5) being intended to collect the assembled products of said caps and said perforated plates.

9. The assembly plant according to claim 1, further comprising a magazine (6), said magazine (6) being located upstream of said conveyor belt assembly (1), said magazine (6) being adapted to store said caps and said orifice plates.

10. The assembly plant according to claim 9, wherein the magazine (6) comprises a top cover magazine (61) and a well plate magazine (62), the top cover magazine (61) and the well plate magazine (62) being adapted to store the top covers and the well plates, respectively.

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