CN216503356U - Anode assembly bullet press-mounting device - Google Patents

Abstract

The utility model discloses an anode assembly bullet press-mounting device which comprises a vibration feeding disc, a feeding channel, a feeding rail, a bullet positioning table and a pressure rod assembly, wherein the vibration feeding disc is arranged on the feeding channel; the feeding disc is connected with a feeding port end of the feeding channel and used for sequencing bullets in a uniform direction and feeding the bullets into the feeding channel; the feeding channel is used for conveying the sequenced bullets to the feeding rail; the feeding rail is arranged at the discharge port end of the feeding channel and is used for conveying the bullets to the bullet positioning table one by one; the bullet positioning table comprises a bullet positioning tool to form assembly limitation on the bullets; the compression bar assembly is arranged corresponding to the positioning tool and used for press mounting of the bullet. The automatic assembling device can finish the high-efficiency high-quality automatic assembly of the anode assembly bullet, enables the bullet to align to the axis position of the anode assembly for press mounting, comprises an adjusting structure, enables the blanking limiting hole of the bullet positioning tool to accurately align to the axis position of the anode assembly below, and does not damage an anode blade.

Description

Anode assembly bullet press-mounting device

Technical Field

The utility model relates to the technical field of magnetron production equipment, in particular to an anode assembly bullet press-mounting device.

Background

The development of microwave ovens has been so far common electric appliances in people's daily life, and the related technology has been quite mature after years of development. Particularly, along with the improvement of living standard of people in the year, the demand of people on microwave ovens is continuously increased, and technical reform of microwave oven production enterprises is correspondingly stimulated to improve the productivity of the enterprises. The magnetron is used as a core component of the microwave oven, the efficiency and the quality of production and processing of the magnetron are the most important in the production of the microwave oven, and the efficiency and the quality are directly related to the productivity and the quality of the production of the microwave oven. In the existing magnetron production process, the automation degree is relatively low, the productivity is low, the quality is poor, almost all parts are machined and assembled by adopting independent equipment, a large amount of manual resources are needed, the flow operation efficiency is low, and the product percent of pass is low. The anode assembly mainly comprises an anode cylinder, anode blades and a large and small cross-linked ring, and is formed by welding and fixing, wherein in the specific assembling process, the anode blades are firstly required to be uniformly arranged in the anode cylinder, and then a bullet (center pin) is driven into the center of the anode cylinder to compress a pressing sheet, so that the anode assembly is formed to be temporarily fixed, and the subsequent assembly and process machining of the anode assembly are facilitated. At present, the assembly line of the anode assembly which is streamlined is lacked in the prior art, and an anode assembly bullet press-mounting device which can be applied to the assembly line of the anode assembly is also lacked, so that the assembly line of the anode assembly is not beneficial to realizing the streamlined operation of the anode assembly.

Disclosure of Invention

The utility model aims at the problems and provides an anode assembly bullet press-mounting device. The technical scheme of the utility model is as follows:

an anode assembly bullet press-mounting device comprises a vibration feeding disc, a feeding channel, a feeding rail, a bullet positioning table and a pressure rod assembly; the feeding disc is connected with a feeding port end of the feeding channel and used for sequencing bullets in a uniform direction and feeding the bullets into the feeding channel; the feeding channel is used for conveying the sequenced bullets to the feeding rail; the feeding rail is arranged at the discharge port end of the feeding channel and is used for conveying the bullets to the bullet positioning table one by one; the bullet positioning table comprises a bullet positioning tool to form assembly limitation on the bullets; the compression bar assembly is arranged corresponding to the positioning tool and used for press mounting of the bullet; the anode assembly bullet press-fitting device is used for automatically pressing a bullet into the center of the anode assembly, so that the anode assembly forms a fastened whole.

As a further description of the utility model, the feeding channel comprises a horizontal section, a turning section and a vertical section, the horizontal section, the turning section and the vertical section are sequentially connected, the horizontal section is connected with the vibration feeding tray, after the bullets are horizontally fed out from the horizontal section, the bullets are converted into a vertical state through the turning section, a certain number of bullets are stacked in the vertical section, and automatic feeding is realized at the discharge port by using the gravity of the bullets.

Still further, a closable enclosure wall is provided, the vibratory feed tray being disposed within the enclosure wall.

Furthermore, the feeding rail is a sliding feeding rail and comprises a sliding groove, a sliding block and a first driving cylinder, the sliding block is arranged in the sliding groove in a sliding mode and driven by the first driving cylinder, a bullet bearing hole is formed in the sliding block, and the bullet bearing hole corresponds to the discharge port end of the feeding channel when the sliding block is located at the initial position.

Furthermore, a bullet limiting groove is formed in the middle of the sliding block along the length direction, and positioning edges are formed in the two sides of the sliding block along the length direction.

Furthermore, a bullet blanking positioning buffer piece is arranged between the sliding block and the feeding channel.

Furthermore, a blanking limiting hole is formed in the middle of the bullet positioning tool, and the aperture of the blanking limiting hole is matched with that of the bullet.

Furthermore, the feeding rail, the bullet positioning table and the compression bar assembly are mounted on an adjustable platform, and the adjustable platform comprises an adjusting structure used for finely adjusting the feeding rail, the bullet positioning table and the compression bar assembly.

Furthermore, the anode assembly bullet press-mounting device is provided with a re-pressing station, and a re-pressing rod and a re-pressing die are arranged on the re-pressing station; the shape of the re-pressing die is matched with that of the anode assembly, and the re-pressing die is used for re-pressing the anode assembly; and a re-pressing through hole is formed in the middle of the re-pressing mold, and the re-pressing rod penetrates through the re-pressing through hole to perform bullet re-pressing action.

Further, the compound pressure rod is driven by a screw rod.

The utility model has the beneficial effects that:

the automatic assembling device can finish high-efficiency high-quality automatic assembling of the bullet of the anode assembly, enables the bullet to align to the axis position of the anode assembly for press mounting, comprises an adjusting structure, is used for carrying out fine adjustment on the feeding rail, the bullet positioning table and the press rod assembly, and enables the blanking limiting hole of the bullet positioning tool to accurately align to the axis position of the anode assembly conveyed from the lower part so as to ensure that the anode blade cannot be damaged by the bullet in press mounting; the vibration feeding tray is arranged in the enclosing wall so as to reduce the influence of the working noise of the vibration feeding tray on the external working environment.

Drawings

FIG. 1 is a top view of the overall structure of the present invention;

FIG. 2 is a schematic side view of a press-fitting station structure according to the present invention;

FIG. 3 is a schematic side view of a re-pressing station structure according to the present invention.

Reference numerals: the device comprises a vibration feeding plate 1, a feeding channel 2, a feeding rail 3, a bullet positioning table 4, a pressure bar assembly 5, a surrounding wall 6, a sliding groove 7, a sliding block 8, a first driving air cylinder 9, a bullet blanking positioning buffer piece 10, an adjustable platform 11, a re-pressing station 12, a re-pressing bar 13 and a re-pressing die 14.

Detailed Description

Example (b):

the embodiments of the present invention will be described in detail with reference to the accompanying drawings, and it is to be understood that the described embodiments are merely a part of the embodiments of the utility model, and not all of the embodiments.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

As shown in fig. 1, an anode assembly bullet press-mounting device comprises a vibration feeding tray 1, a feeding channel 2, a feeding rail 3, a bullet positioning table 4 and a compression bar assembly 5; the feeding tray is connected with the feeding port end of the feeding channel 2 and used for sequencing bullets in a uniform direction and feeding the bullets into the feeding channel 2; the feeding channel 2 is used for feeding the sequenced bullets to the feeding rail 3; the feeding rail 3 is arranged at the discharge port end of the feeding channel 2 and is used for conveying the bullets to the bullet positioning table 4 one by one; the bullet positioning table 4 comprises a bullet positioning tool to form assembly limitation on the bullets; the compression bar assembly 5 is arranged corresponding to the positioning tool and used for press mounting of the bullets. The anode assembly bullet press-fitting device of the embodiment is used for automatically pressing a bullet into the central position of the anode assembly, so that the anode assembly forms a fastened whole for subsequent assembly and processing. Specifically, the bullets are sequenced in a uniform direction under the action of the vibration disc, sequentially enter the feeding channel 2 and sequentially advance to be conveyed to the feeding rail 3; the feeding rail 3 feeds a bullet to the bullet positioning table 4 every time, and the bullet positioning tool forms assembly limitation on the bullet; meanwhile, the anode assembly (without the bullet fixing) is sent to the corresponding position of the bullet positioning table 4, the bullet is aligned with the axis position of the anode assembly, the bullet is pressed into the axis of the anode assembly under the action of the pressure rod assembly 5, and the anode blade is extruded and fastened on the inner side of the anode barrel, so that the fastened anode assembly is formed, and the subsequent assembly processing is carried out; after the assembly is finished, all parts are reset to enter the next round of assembly cycle operation, and the automatic bullet press-fitting assembly of the anode assembly is realized.

In this embodiment, the feeding channel 2 includes a horizontal section, a turning section and a vertical section, the horizontal section, the turning section and the vertical section are sequentially connected, the horizontal section is connected with the vibration feeding tray 1, after the bullets are horizontally sent out from the horizontal section, the bullets are converted into a vertical state through the turning section, a certain number of bullets are stacked in the vertical section, and automatic blanking is realized at the discharge port by using the gravity of the bullets. To this end, the vertical section requires a certain height, and in the embodiment shown in the figures, a plateau is provided on which the oscillating feed tray 1 is arranged to adapt to the assembly of the feed channel 2. Further, in this embodiment, a closable enclosure wall 6 is provided on the plateau, and the vibratory feed tray 1 is disposed within the enclosure wall 6 to reduce the effect of the operational noise of the vibratory feed tray 1 on the external operating environment.

As shown in the attached drawings, the feeding rail 3 is a sliding feeding rail 3, and comprises a sliding chute 7, a sliding block 8 and a first driving cylinder 9, the sliding block 8 is slidably disposed in the sliding chute 7 and driven by the first driving cylinder 9, the sliding block 8 is provided with a bullet bearing hole, and the bullet bearing hole corresponds to the discharge port end of the feeding channel 2 when the sliding block 8 is located at an initial position. The sliding feeding rail 3 is arranged below the discharge port end, a bullet in the feeding channel 2 falls into a bullet bearing hole below under the action of gravity, then the first driving cylinder 9 acts to enable the sliding block 8 to slide towards the bullet positioning table 4, when the bullet is pushed to the corresponding position of the bullet positioning tool, the bullet in the bullet bearing hole loses support and is adjusted into the bullet positioning tool, and then subsequent press fitting is carried out. The middle of the sliding block 8 is provided with a bullet limiting groove along the length direction, and two sides of the sliding block are provided with positioning edges along the length direction so as to ensure the relative sliding effect of the sliding block 8. In a preferred embodiment, a bullet blanking positioning buffer 10 is further disposed between the slider 8 and the feeding channel 2, so that bullets in the feeding channel 2 can orderly and accurately enter the bullet bearing holes, and the maintenance and debugging are facilitated.

Referring to the attached drawings, a blanking limiting hole is formed in the middle of the bullet positioning tool, the aperture of the blanking limiting hole is matched with that of the bullet, and when the sliding block 8 runs above the bullet positioning tool, the position of the bullet bearing hole corresponds to that of the blanking limiting hole, so that the bullet falls into the blanking limiting hole; meanwhile, the anode assembly is conveyed to the position below the blanking limiting hole, and the axis position of the anode assembly is aligned with the blanking limiting hole, so that the bullet can be accurately pressed into the axis position of the anode assembly by the action of the pressure bar assembly 5. In this embodiment, the feeding rail 3, the bullet positioning table 4 and the compression bar assembly 5 are installed on an adjustable platform 11, and the adjustable platform 11 includes an adjusting structure for finely adjusting the feeding rail 3, the bullet positioning table 4 and the compression bar assembly 5, so that the blanking limiting hole of the bullet positioning tool can accurately align to the axis position of the anode assembly conveyed below, and the anode blade is not damaged by the bullet during press-fitting.

In other embodiments, the anode assembly bullet press-mounting device is provided with a re-pressing station 12, a re-pressing rod 13 and a re-pressing die 14 are arranged on the re-pressing station 12, the re-pressing rod 13 is driven by a screw rod, and the bullet in the anode assembly is re-pressed through a re-pressing through hole in the middle of the re-pressing die 14 to be completely pressed in; the shape of the re-pressing die 14 is matched with that of the anode assembly, and the re-pressing die is used for re-pressing the anode assembly, flattening the anode blade in the anode assembly, improving the levelness of the anode blade and improving the overall assembly quality of the anode assembly.

The foregoing is illustrative of the preferred embodiments of the present invention only and is not to be construed as limiting the claims. The utility model is not limited to the above embodiments, the specific construction of which allows variations, and in any case variations, which are within the scope of the utility model as defined in the independent claims.

Claims (10)

1. The utility model provides an anode assembly bullet pressure equipment device which characterized in that: comprises a vibration feeding tray, a feeding channel, a feeding rail, a bullet positioning table and a pressure lever assembly; the feeding disc is connected with a feeding port end of the feeding channel and used for sequencing bullets in a uniform direction and feeding the bullets into the feeding channel; the feeding channel is used for conveying the sequenced bullets to the feeding rail; the feeding rail is arranged at the discharge port end of the feeding channel and is used for conveying the bullets to the bullet positioning table one by one; the bullet positioning table comprises a bullet positioning tool to form assembly limitation on the bullets; the compression bar assembly is arranged corresponding to the positioning tool and used for press mounting of the bullet; the anode assembly bullet press-fitting device is used for automatically pressing a bullet into the center of the anode assembly, so that the anode assembly forms a fastened whole.

2. The anode assembly bullet press-fitting device according to claim 1, wherein: the feeding channel comprises a horizontal section, a turning section and a vertical section, the horizontal section, the turning section and the vertical section are sequentially connected, the horizontal section is connected with the vibration feeding disc, bullets are horizontally fed out from the horizontal section and then are converted into a vertical state through the turning section, a certain number of bullets are stacked in the vertical section, and automatic feeding is realized at the discharge port by utilizing the gravity of the bullets.

3. The anode assembly bullet press-fitting device according to claim 1, wherein: a closable enclosure wall is provided, the vibratory feed tray being disposed within the enclosure wall.

4. The anode assembly bullet press-fitting device according to claim 1, wherein: the feeding rail is a sliding feeding rail and comprises a sliding groove, a sliding block and a first driving cylinder, the sliding block is arranged in the sliding groove in a sliding mode and driven by the first driving cylinder, a bullet bearing hole is formed in the sliding block, and the bullet bearing hole corresponds to the discharge port end of the feeding channel when the sliding block is located at an initial position.

5. The anode assembly bullet press-fitting device according to claim 4, wherein: the middle of the sliding block is provided with a bullet limiting groove along the length direction, and two sides of the sliding block are provided with positioning edges along the length direction.

6. The anode assembly bullet press-fitting device according to claim 4, wherein: and a bullet blanking positioning buffer piece is also arranged between the sliding block and the feeding channel.

7. The anode assembly bullet press-fitting device according to claim 4, wherein: and a blanking limiting hole is formed in the middle of the bullet positioning tool, and the aperture of the blanking limiting hole is matched with that of the bullet.

8. The anode assembly bullet press-fitting device according to claim 4, wherein: the feeding rail, the bullet positioning table and the compression bar assembly are mounted on an adjustable platform, and the adjustable platform comprises an adjusting structure used for finely adjusting the feeding rail, the bullet positioning table and the compression bar assembly.

9. The anode assembly bullet press-fitting device according to claim 1, wherein: the anode assembly bullet press-mounting device is provided with a re-pressing station, and a re-pressing rod and a re-pressing die are arranged on the re-pressing station; the shape of the re-pressing die is matched with that of the anode assembly, and the re-pressing die is used for re-pressing the anode assembly; and a re-pressing through hole is formed in the middle of the re-pressing mold, and the re-pressing rod penetrates through the re-pressing through hole to perform bullet re-pressing action.

10. The anode assembly bullet press-fitting device according to claim 9, wherein: the compound pressure rod is driven by a screw rod.

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