CN211588875U - Inductance coil welding equipment - Google Patents

Abstract

The utility model relates to an inductance coil welding device, which comprises a frame, wherein a first positioning mechanism is arranged at the left end of the upper surface of the frame, a material distributing mechanism and a shaping mechanism are respectively arranged at the two sides of the first positioning mechanism, and a first moving mechanism is arranged above the first positioning mechanism; the front end of the first positioning mechanism is sequentially connected with a first resistance welding mechanism and a second resistance welding mechanism, the front end of the first resistance welding mechanism is provided with a second moving mechanism for positioning and fixing a carrier, the front end of the second resistance welding mechanism is provided with a third moving mechanism for positioning and fixing the carrier, the front end of the third moving mechanism is provided with a second positioning mechanism, two sides of the second positioning mechanism are respectively provided with a stamping mechanism and a material receiving mechanism, and a fourth moving mechanism is arranged above the second positioning mechanism; the front end of the second positioning mechanism is provided with a blanking mechanism, and the lower end of the blanking mechanism is connected with a conveying mechanism; the utility model has the advantages of welding efficiency is high, the simple operation and degree of automation are high.

Description

Inductance coil welding equipment

Technical Field

The utility model belongs to inductance element production facility field, concretely relates to inductance coils welding equipment.

Background

The inductor is an element capable of converting electric energy into magnetic energy and storing the magnetic energy, and comprises a coil and a magnetic core, wherein the coil is wrapped by the magnetic core, and a lead is formed by connecting a material sheet outside the coil; in the production process of the conventional inductance coil, particularly when the coil is welded with a material sheet, the material sheet is manually placed on a jig with the coil placed thereon, then the jig is placed in welding equipment, the connection between the inductance coil and the material sheet is realized, after the welding is finished, the welded material sheet is taken down, the welding of the next material sheet is carried out, the manual operation process is complicated, the efficiency is low, errors are easy to occur, and a product with good consistency cannot be obtained; therefore, in order to solve the above problems, it is necessary to develop an induction coil welding apparatus which is convenient to operate and has a high degree of automation.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the not enough of prior art, and provide an inductance coil welding equipment that welding efficiency is high, simple operation and degree of automation are high.

The purpose of the utility model is realized like this: an inductance coil welding device comprises a rack, wherein a first positioning mechanism is arranged at the left end of the upper surface of the rack, a material distribution mechanism and a shaping mechanism are respectively arranged on two sides of the first positioning mechanism, a first moving mechanism is arranged above the first positioning mechanism, two ends of the first moving mechanism are fixedly connected with the upper surface of the rack through a fixing frame a, a material sheet in the material distribution mechanism is taken out by the first moving mechanism and placed in the shaping mechanism for shaping, and after shaping is completed, the material sheet is taken out from the shaping mechanism by the first moving mechanism and placed in a carrier on the first positioning mechanism; the front end of the first positioning mechanism is sequentially connected with a first resistance welding mechanism and a second resistance welding mechanism, the front end of the first resistance welding mechanism is provided with a second moving mechanism used for positioning and fixing a carrier, the front end of the second resistance welding mechanism is provided with a third moving mechanism used for positioning and fixing the carrier, the front end of the third moving mechanism is provided with a second positioning mechanism, two sides of the second positioning mechanism are respectively provided with a stamping mechanism and a material receiving mechanism, a fourth moving mechanism is arranged above the second positioning mechanism, two ends of the fourth moving mechanism are fixedly connected with the upper surface of the rack through a fixing frame b, a material sheet and a coil in the carrier on the second positioning mechanism are placed in the stamping mechanism for stamping through the fourth moving mechanism, and after stamping is completed, the material sheet and the coil are taken out of the stamping mechanism and placed in the material receiving mechanism through the fourth moving mechanism; the front end of the second positioning mechanism is provided with a discharging mechanism, the lower end of the discharging mechanism is connected with a conveying mechanism and is connected with an upper loading tool mechanism through the conveying mechanism, and the discharging mechanism and the conveying mechanism are used for conveying carriers to enable the carriers to be used circularly.

The lower surface of the frame is provided with supporting legs.

The first positioning mechanism is located at the left end of the upper surface of the frame, and the blanking mechanism is located at the right end of the upper surface of the frame.

The conveying mechanism is located inside the rack.

The utility model has the advantages that: the utility model is provided with a first positioning mechanism, a material distributing mechanism, a shaping mechanism and a first moving mechanism, when in use, the carrier is positioned by the first positioning mechanism, the material sheet is taken out from the material distributing mechanism by the first moving mechanism and is placed in the shaping mechanism for shaping, after shaping is finished, the material sheet is put into the carrier by the first moving mechanism, when in use, the carrier is respectively limited by the second moving mechanism and the third moving mechanism, the coil and the material sheet in the carrier are respectively welded by the first resistance welding mechanism and the second resistance welding mechanism, and when in use, the carrier is positioned by the second positioning mechanism, the punching mechanism, the material receiving mechanism and the fourth moving mechanism, the coil and the material sheet which are welded in the carrier are placed in the stamping mechanism for stamping through the fourth moving mechanism, and are placed in the material receiving mechanism through the fourth moving mechanism after stamping is completed, and meanwhile, after the coil and the material sheet are taken out of the carrier, the carrier enters the upper carrier mechanism through the blanking mechanism and the conveying mechanism to form recycling; the utility model reduces the working strength of workers and improves the welding efficiency of the inductance coil and the material sheet by a full-line automatic control mode, and simultaneously, the problem that products with good consistency can not be obtained due to the easy occurrence of errors during manual operation is avoided; generally, the utility model has the advantages of welding efficiency is high, simple operation and degree of automation are high.

Drawings

Fig. 1 is a perspective view of the front view of the present invention.

Fig. 2 is a perspective view of the present invention in a top view direction.

Fig. 3 is a perspective view of the side view of the present invention.

Fig. 4 is a partial structure diagram of the joint of the first positioning mechanism, the shaping mechanism and the first moving mechanism in the present invention.

Fig. 5 is a partial structure diagram of the joint of the second positioning mechanism, the receiving mechanism and the fourth moving mechanism of the present invention.

Fig. 6 is a partial structure view of the joint of the middle punching mechanism, the receiving mechanism and the fourth moving mechanism of the present invention.

In the figure: 1. the device comprises a rack 2, a first positioning mechanism 3, a material distributing mechanism 4, a shaping mechanism 5, a first moving mechanism 6, a fixed frame a 7, a first resistance welding mechanism 8, a second resistance welding mechanism 9, a second moving mechanism 10, a third moving mechanism 11, a second positioning mechanism 12, a punching mechanism 13, a material receiving mechanism 14, a fourth moving mechanism 15, a fixed frame b 16, a blanking mechanism 17, a conveying mechanism 18 and supporting legs.

Detailed Description

The present invention will be further described with reference to the accompanying drawings.

Example (b): as shown in fig. 1, 2, 3, 4, 5, and 6, an inductance coil welding apparatus includes a frame 1, a support leg 18 is disposed on a lower surface of the frame 1, a first positioning mechanism 2 is disposed at a left end of an upper surface of the frame 1, a material separating mechanism 3 and a shaping mechanism 4 are disposed on two sides of the first positioning mechanism 2, a first moving mechanism 5 is disposed above the first positioning mechanism 2, two ends of the first moving mechanism 5 are fixedly connected to an upper surface of the frame 1 through a fixing frame a6, a material sheet in the material separating mechanism 3 is taken out by the first moving mechanism 5 and placed in the shaping mechanism 4 for shaping, and after shaping is completed, the material sheet is taken out by the shaping mechanism 4 and placed in a carrier on the first positioning mechanism 2 by the first moving mechanism 5; the front end of the first positioning mechanism 2 is sequentially connected with a first resistance welding mechanism 7 and a second resistance welding mechanism 8, the front end of the first resistance welding mechanism 7 is provided with a second moving mechanism 9 for positioning and fixing a carrier, the front end of the second resistance welding mechanism 8 is provided with a third moving mechanism 10 for positioning and fixing a carrier, a second positioning mechanism 11 is arranged at the front end of the third moving mechanism 10, a stamping mechanism 12 and a material receiving mechanism 13 are respectively arranged at two sides of the second positioning mechanism 11, a fourth moving mechanism 14 is arranged above the second positioning mechanism 11, two ends of the fourth moving mechanism 14 are fixedly connected with the upper surface of the frame 1 through a fixing frame b15, the fourth moving mechanism 14 places the material sheets and the coils in the carriers on the second positioning mechanism 11 in the stamping mechanism 12 for stamping, after the stamping is completed, the fourth moving mechanism 14 takes the material out of the stamping mechanism 12 and places the material into the material receiving mechanism 13; a blanking mechanism 16 is arranged at the front end of the second positioning mechanism 11, a conveying mechanism 17 is connected to the lower end of the blanking mechanism 16, the conveying mechanism 17 is located inside the rack 1, the blanking mechanism 16 is connected with an upper carrier mechanism through the conveying mechanism 17, and the blanking mechanism 16 and the conveying mechanism 17 are used for conveying carriers to enable the carriers to be used circularly; the blanking mechanism 16 is positioned at the right end of the upper surface of the frame 1.

When the utility model is used, firstly, the coil which is processed by the coil peeling procedure and the carrier which is used for placing the coil flow into the first positioning mechanism 2, and the first positioning mechanism 2 is used for positioning the carrier, then, the material sheet is taken out from the material distribution mechanism 3 and is placed in the shaping mechanism 4 for shaping through the first moving mechanism 5, after the shaping is completed, the shaped material sheet is taken out from the shaping mechanism 4 and is placed into the carrier through the first moving mechanism 5, finally, the first positioning mechanism 2 releases the positioning of the carrier, the carrier flows forwards to the first resistance welding mechanism 7, and the carrier is positioned through the second moving mechanism 9 at the front end of the first resistance welding mechanism 7, after the positioning is completed, the coil and the material sheet in the carrier are welded by the first resistance welding mechanism 7, after the first resistance welding mechanism 7 completes the welding of the coil and the material sheet, the second moving mechanism 9 releases the positioning of the carrier, the carrier flows forwards to the second resistance welding mechanism 8, in the same way, the third moving mechanism 10 is used for limiting the carrier, the second resistance welding mechanism 8 is used for welding the coil and the material sheet in the carrier, after the operation is finished, the third moving mechanism 10 releases the positioning of the carrier, the carrier flows forwards to the second positioning mechanism 11, the second positioning mechanism 11 is used for positioning the carrier, the welded coil and the material sheet in the carrier are placed in the stamping mechanism 12 for stamping through the fourth moving mechanism 14, after the stamping is finished, the stamped coil and the material sheet are placed in the material receiving mechanism 13 through the fourth moving mechanism 14, namely, the welding of the coil and the material sheet is finished, meanwhile, after the coil and the material sheet are taken out from the carrier, the carrier enters the carrier loading mechanism through the blanking mechanism 16 and the conveying mechanism 17, forming recycling use; the utility model reduces the working strength of workers and improves the welding efficiency between the inductance coil and the material sheet by a full-line automatic control mode, and simultaneously, the problem that products with good consistency can not be obtained due to the easy occurrence of errors during manual operation is avoided; generally, the utility model has the advantages of welding efficiency is high, simple operation and degree of automation are high.

Claims (4)

1. An inductance coil welding equipment, includes frame (1), its characterized in that: the left end of the upper surface of the rack (1) is provided with a first positioning mechanism (2), two sides of the first positioning mechanism (2) are respectively provided with a material distribution mechanism (3) and a shaping mechanism (4), a first moving mechanism (5) is arranged above the first positioning mechanism (2), two ends of the first moving mechanism (5) are fixedly connected with the upper surface of the rack (1) through a fixing frame a (6), the first moving mechanism (5) takes out material pieces in the material distribution mechanism (3) and places the material pieces in the shaping mechanism (4) for shaping, and after shaping is completed, the material pieces are taken out from the shaping mechanism (4) and placed in a carrier on the first positioning mechanism (2) by the first moving mechanism (5); the front end of the first positioning mechanism (2) is sequentially connected with a first resistance welding mechanism (7) and a second resistance welding mechanism (8), the front end of the first resistance welding mechanism (7) is provided with a second moving mechanism (9) for positioning and fixing a carrier, the front end of the second resistance welding mechanism (8) is provided with a third moving mechanism (10) for positioning and fixing the carrier, the front end of the third moving mechanism (10) is provided with a second positioning mechanism (11), the two sides of the second positioning mechanism (11) are respectively provided with a punching mechanism (12) and a material receiving mechanism (13), a fourth moving mechanism (14) is arranged above the second positioning mechanism (11), the two ends of the fourth moving mechanism (14) are fixedly connected with the upper surface of the rack (1) through a fixing frame b (15), and the fourth moving mechanism (14) places a material sheet and a coil in the carrier on the second positioning mechanism (11) into the punching mechanism (12) for punching, after the punching is finished, the fourth moving mechanism (14) takes the material out of the punching mechanism (12) and places the material into the material receiving mechanism (13); the front end of the second positioning mechanism (11) is provided with a blanking mechanism (16), the lower end of the blanking mechanism (16) is connected with a conveying mechanism (17) and is connected with an upper carrier mechanism through the conveying mechanism (17), and the blanking mechanism (16) and the conveying mechanism (17) are used for conveying carriers to enable the carriers to be used circularly.

2. An induction coil welding apparatus as defined in claim 1, wherein: the lower surface of the frame (1) is provided with support legs (18).

3. An induction coil welding apparatus as defined in claim 1, wherein: the first positioning mechanism (2) is located at the left end of the upper surface of the rack (1), and the blanking mechanism (16) is located at the right end of the upper surface of the rack (1).

4. An induction coil welding apparatus as defined in claim 1, wherein: the conveying mechanism (17) is positioned inside the rack (1).

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