CN218904214U - Assembly loading magnetizing equipment - Google Patents

Abstract

The utility model relates to assembly loading magnetizing equipment which comprises a frame, a material channel, a first laser machine, a second laser machine, an assembly part and a feeding part, wherein the material channel is arranged on the frame; the material way is located the frame middle part, and is located between power portion and the piece that magnetizes, be provided with on the material way and act as the logical groove of magnet raw materials passageway before magnetizing, first radium-shine machine and the radium-shine machine of second are all connected above first module and the second module and the frame, first radium-shine machine and the radium-shine machine of second all correspond with logical groove position, assembly part and feed piece are located being close to the piece department that magnetizes in the frame. The utility model provides the assembly feeding magnetizing equipment, which reduces the labor intensity, improves the magnetizing working efficiency and saves the production cost.

Description

Assembly loading magnetizing equipment

Technical Field

The utility model relates to the field of magnetizing, in particular to an assembly feeding magnetizing device.

Background

The magnet is divided into an electromagnet and a permanent magnet, and the permanent magnet needs to produce ferromagnetic magnet raw materials in the production process, wherein the magnet raw materials are called carriers; and then magnetizing the carrier by using magnetizing equipment, thereby completing the production step of the magnet.

The production method of the magnet commonly used at present is as follows: the operator takes the carrier away manually, then manually assembles the cover on the carrier, then places the carrier after assembly in the magnetizing piece for magnetizing, and finally places the magnetized magnet at the designated position, so that the labor intensity is high and the working efficiency is low.

Disclosure of Invention

The purpose of the utility model is that: the assembly feeding magnetizing equipment solves the problems.

In order to achieve the above object, the present utility model provides the following technical solutions:

an assembly loading magnetizing device comprises a frame, a material channel, a first laser machine, a second laser machine, an assembly part and a feeding part; the material way is located the frame middle part, and is located between power portion and the piece that magnetizes, be provided with on the material way and act as the logical groove of magnet raw materials passageway before magnetizing, first radium-shine machine and the radium-shine machine of second are all connected above first module and the second module and the frame, first radium-shine machine and the radium-shine machine of second all correspond with logical groove position, assembly part and feed piece are located being close to the piece department that magnetizes in the frame.

Further, the power part is specifically an air cylinder and pushing block assembly, and the power part, the through groove and the magnetizing piece are in the same straight line.

Further, the first module is perpendicular to the second module, the first laser machine and the second laser machine are on the same straight line, and the first laser machine and the second laser machine are both laser machines.

Further, the magnetizing piece is provided with a pressing cylinder, a pressing plate and a passageway, the pressing plate is movably connected with the magnetizing piece main body through the pressing cylinder, the pressing plate is located above the passageway, and the passageway and the through groove are on the same straight line.

Further, the assembly part comprises an installation part, a moving part and an adsorption part, wherein the moving part is movably connected with the installation part through a push rod of a first cylinder, and the adsorption part is movably connected with the moving part through a second cylinder.

Further, the suction piece is provided with a suction cup, and the suction cup corresponds to the feeding piece and the through groove.

Further, the feeding piece comprises a base, a moving plate and a power cylinder, a cover placing groove is formed in the upper plate of the base, and a groove is formed in the moving plate.

Further, the cover placing groove penetrates through the upper plate of the base, the moving plate is movably connected with the base through a push rod of the power cylinder, the moving plate is movably connected with an extending bar at the middle part of the base through a sliding rail assembly, the groove and the cover placing groove are in the same straight line, and the groove corresponds to the sucker in position.

The beneficial effects of the utility model are as follows: the assembly loading magnetizing equipment is characterized in that the assembly loading magnetizing equipment is provided, and the assembly loading magnetizing equipment is used by mutually matching a rack, a material channel, a first laser machine, a second laser machine, an assembly part and a feeding part, so that the assembly, loading and magnetizing integrated equipment for manufacturing a carrier is realized, the effect that a machine replaces manual operation of an operator is realized, the labor intensity is reduced, the magnetizing working efficiency is improved, and the production cost is saved.

Drawings

Fig. 1 is an isometric view of an overall structure of an assembly loading magnetizing apparatus of the present utility model.

Fig. 2 is an isometric view of another overall structure of an assembled charging and magnetizing apparatus of the present utility model.

Fig. 3 is a front view of the overall structure of an assembly loading magnetizing apparatus of the present utility model.

Fig. 4 is a top view of the overall structure of the assembly loading magnetizing apparatus of the present utility model.

Fig. 5 is an isometric view of a portion of a structure of an assembled charging and magnetizing apparatus according to the present utility model.

Fig. 6 is a front view of a part of the structure of an assembly loading magnetizing apparatus of the present utility model.

Fig. 7 is an isometric view of another portion of a structure of an assembled charging and magnetizing apparatus of the present utility model.

In the figure: 1. a frame; 2. a power section; 3. a material channel; 31. a through groove; 4. a first laser machine; 5. a second laser machine; 6. a first module; 7. a second module; 8. a magnetizing member; 81. a pressing cylinder; 82. a pressing plate; 83. an aisle; 9. a fitting; 91. a mounting member; 92. a first cylinder; 93. a moving member; 94. a second cylinder; 95. an absorbing member; 96. a suction cup; 10. a feed member; 11. a base; 12. a cover placing groove; 13. a motion plate; 14. a groove; 15. and a power cylinder.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

Referring to fig. 1 to 7, an assembly loading magnetizing apparatus includes a frame 1, a lane 3, a first laser 4, a second laser 5, an assembly 9, and a feeder 10; the material channel 3 is located in the middle of the frame 1 and between the power part 2 and the magnetizing piece 8, and is used for ensuring that the power part 2 can push the carrier in the through groove 31 to reach the magnetizing piece 8, the through groove 31 serving as a magnet raw material channel before magnetizing is arranged on the material channel 3, the first laser machine 4 and the second laser machine 5 are both connected with the frame 1 through the first module 6 and the second module 7 and are used for driving the first laser machine 4 and the second laser machine 5 to move and adjust the distance between the first laser machine and the through groove 31, the first laser machine 4 and the second laser machine 5 are both corresponding to the position of the through groove 31 and are used for processing the carrier in the through groove 31, the assembly part 9 and the feeding piece 10 are both corresponding to the position of the through groove 31 and are used for ensuring that the assembly part 9 carries a cover provided by the feeding piece 10 and is assembled on the carrier in the through groove 31, the assembly part 9 and the feeding piece 10 are located on the frame 1 and are close to the magnetizing piece 8 and are used for ensuring that the assembled carrier can enter the magnetizing piece 8, and the frame 1, the power part 2, the first laser machine 4, the first laser machine 7, the second laser machine 5, the first laser machine 7, the second laser machine 7 and the second laser machine 8 are connected with the first laser machine 8 and the second laser machine 8 and the magnetizing piece are all connected with the first laser system and the assembly.

The power part 2 is specifically a cylinder and pushing block assembly, and the power part 2, the through groove 31 and the magnetizing element 8 are on the same straight line, so as to ensure that the power part 2 can push a plurality of contacted carriers in the through groove 31 to move forwards, and finally pass through the magnetizing element 8.

The first module 6 is perpendicular to the second module 7, the first laser machine 4 and the second laser machine 5 are on a straight line and are used for processing the carrier successively, the first laser machine 4 and the second laser machine 5 are both laser machines, the first laser machine 4 is used for carrying out laser processing on the carrier, the laser is used for removing more parts on the carrier, the second laser machine 5 is used for engraving the carrier, and model information is engraved on the carrier.

Be provided with on the piece 8 that magnetizes and press cylinder 81, clamp plate 82 and passageway 83, clamp plate 82 is through pressing cylinder 81 and 8 main part swing joint that magnetizes, clamp plate 82 is located the passageway 83 top for ensure that the piece 8 that magnetizes presses cylinder 81 to drive clamp plate 82 and compress tightly the carrier in the magnetization process, prevent that the carrier from beating, passageway 83 and logical groove 31 are on a straight line, be used for ensuring that the carrier in the logical groove 31 can reach in the passageway 83.

The assembly part 9 comprises a mounting part 91, a moving part 93 and an adsorption part 95, wherein the moving part 93 is movably connected with the mounting part 91 through a push rod of a first air cylinder 92 and used for driving the moving part 93 to move in the horizontal direction, and the adsorption part 95 is movably connected with the moving part 93 through a second air cylinder 94 and used for driving the adsorption part 95 to move in the vertical direction.

The suction piece 95 is provided with a suction cup 96 for sucking the cover, and the suction cup 96 corresponds to the positions of the feeding piece 10 and the through groove 31, is used for driving the cover of the feeding piece 10 to move and is assembled on the carrier of the through groove 31.

The feeding member 10 comprises a base 11, a moving plate 13 and a power cylinder 15, wherein a cover placing groove 12 is formed in the upper plate of the base 11 and used for placing a cover, and a groove 14 is formed in the moving plate 13 and used for placing the cover falling in the cover placing groove 12.

The cover placing groove 12 penetrates through the upper plate of the base 11 and is used for ensuring that a cover in the cover placing groove 12 can drop into the groove 14, the moving plate 13 is movably connected with the base 11 through a push rod of the power cylinder 15 and is used for driving the moving plate 13 to move so that the groove 14 on the moving plate reaches and is far away from the lower side of the cover placing groove 12, the moving plate 13 is movably connected with an extending strip in the middle of the base 11 through a sliding rail assembly, the groove 14 is in a straight line with the cover placing groove 12, and the groove 14 corresponds to the sucker 96 in position.

The working principle of the utility model is as follows: before starting assembly work, the cover in the cover placing groove 12 reaches the groove 14 of the moving plate 13 through the upper plate of the base 11, the external carrying mechanism carries the carrier to be assembled to the placement position of the through groove 31, the power part 2 works to push the carrier to move towards the magnetizing piece 8 in the through groove 31, after the power part 2 resets, the external carrying mechanism places the other carrier to the placement position, then the power part 2 works to push all the carriers in the through groove 31 to advance again, when the carrier reaches the lower part of the first laser machine 4 in the through groove 31, the first laser machine 4 works to carry out laser processing on the carrier under the control of the external control system, and then the power part 2 works to carry out engraving processing on the carrier surface when the carrier reaches the lower part of the second laser machine 5, model information is engraved on the carrier surface, and then the carrier is close to the assembly part 9 under the driving of the power part 2; meanwhile, the push rod of the power cylinder 15 stretches out to drive the moving plate 13 to move, the moving plate 13 moves on the sliding rail component to drive the cover in the groove 14 to move in the process, meanwhile, other parts of the moving plate 13 contact the carrier at the bottom of the cover placing groove 12 and the bottom of the upper cover of the base 11, when the push rod of the power cylinder 15 reaches the maximum stretching distance, the sucking disc 96 works to tightly suck the cover, then the power cylinder 15 drives the moving plate 13 to reset, the cover at the lowest part of the cover placing groove 12 reaches the groove 14 through the upper plate of the base 11, meanwhile, the push rod of the second cylinder 94 contracts to drive the cover to be far away from the frame 1, the push rod of the first cylinder 92 stretches out to drive the moving part 93 and the adsorbing part 95 to move, the cover reaches the upper surface of the carrier in the through groove 31, the push rod of the second cylinder 94 stretches out again to drive the cover to be assembled on the carrier after laser processing and engraving, the assembly part 9 resets, the power part 2 works again to push the carrier into the aisle 83, the carrier is compressed by the pressing plate 82 under the control of the external control system, the magnetizing part 8 is pushed out of the magnetizing part 8, the magnetizing part 8 is pushed out of the carrier after the magnetizing part is finished, the magnetizing part is pushed out of the moving part 2 to keep the carrier on the aisle, and the carrier is kept moving to be the carrier on the carrier after the working part is moved to the outside, and the magnetizing part is kept to be the carrier moving after the carrier has finished.

The above examples are provided to further illustrate the utility model and do not limit the utility model to these specific embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be construed as being within the protection scope of the present utility model.

Claims (8)

1. An assembly material loading equipment of magnetizing which characterized in that: comprises a frame (1), a material channel (3), a first laser machine (4), a second laser machine (5), an assembly part (9) and a material supply part (10); the material way (3) is located frame (1) middle part, and is located between power portion (2) and the piece (8) that magnetizes, be provided with on the material way (3) and act as logical groove (31) of magnet raw materials passageway before magnetizing, first radium-shine machine (4) and second radium-shine machine (5) are all connected above frame (1) through first module (6) and second module (7), first radium-shine machine (4) and second radium-shine machine (5) all correspond with logical groove (31) position, assembly part (9) and feed piece (10) are located and are close to the department of magnetizing piece (8) on frame (1).

2. An assembly loading magnetizing apparatus according to claim 1, characterized in that: the power part (2) is a cylinder and pushing block assembly, and the power part (2) is in a straight line with the through groove (31) and the magnetizing piece (8).

3. An assembly loading magnetizing apparatus according to claim 1, characterized in that: the first module (6) is perpendicular to the second module (7), the first laser machine (4) and the second laser machine (5) are on the same straight line, and the first laser machine (4) and the second laser machine (5) are both laser machines.

4. An assembly loading magnetizing apparatus according to claim 1, characterized in that: be provided with on magnetizing piece (8) and press and move cylinder (81), clamp plate (82) and passageway (83), clamp plate (82) are through pressing and move cylinder (81) and magnetizing piece (8) main part swing joint, clamp plate (82) are located passageway (83) top, passageway (83) are on a straight line with logical groove (31).

5. An assembly loading magnetizing apparatus according to claim 1, characterized in that: the assembly part (9) comprises an installation part (91), a moving part (93) and an adsorption part (95), wherein the moving part (93) is movably connected with the installation part (91) through a push rod of a first air cylinder (92), and the adsorption part (95) is movably connected with the moving part (93) through a second air cylinder (94).

6. An assembly loading magnetizing apparatus as claimed in claim 5, wherein: the suction piece (95) is provided with a suction cup (96), and the suction cup (96) corresponds to the feeding piece (10) and the through groove (31).

7. An assembly loading magnetizing apparatus according to claim 1, characterized in that: the feeding piece (10) comprises a base (11), a moving plate (13) and a power cylinder (15), a cover placing groove (12) is formed in the upper plate of the base (11), and a groove (14) is formed in the moving plate (13).

8. The assembly loading magnetizing apparatus of claim 7, wherein: the cover placing groove (12) is communicated with the upper plate of the base (11), the moving plate (13) is movably connected with the base (11) through a push rod of the power cylinder (15), the moving plate (13) is movably connected with an extending strip at the middle part of the base (11) through a sliding rail assembly, the groove (14) is in a straight line with the cover placing groove (12), and the groove (14) corresponds to the sucker (96).

Images