CN216779688U - Small-aperture aluminum scrap blowing mechanism for shell and shell cleaning equipment - Google Patents

Abstract

The utility model relates to a small-aperture aluminum scrap blowing mechanism for a shell and shell cleaning equipment. It has solved the clean not clean technical problem of current cleaning device. This shell aperture blows aluminium bits mechanism includes: the upper end of the mounting frame is provided with a mounting platform for supporting the bottom of the shell; the positioning blocks are arranged on the mounting platform at intervals and used for mounting and positioning the shell; the lifting driving device is arranged on the mounting rack and can vertically move along the mounting rack; the air blowing device is arranged on the lifting driving device and is provided with an air blowing needle tube, and the lifting driving device can drive the air blowing device to ascend until one end of the air blowing needle tube extends out of the upper end surface of the mounting platform and correspondingly extends into the small hole of the shell when the air blowing device works. This needle tubing that blows of aluminium bits mechanism is blown in shell aperture can directly stretch into the shell aperture and accomplish the operation of blowing and improved work efficiency and prevented producing shell location unstability scheduling problem simultaneously.

Description

Small-aperture aluminum scrap blowing mechanism for shell and shell cleaning equipment

Technical Field

The utility model belongs to the field of shell cleaning jigs, and relates to a small-aperture aluminum scrap blowing mechanism for a shell and shell cleaning equipment.

Background

The diameter of each threaded hole of the notebook shell is small, the depth is deep, and aluminum scraps are easy to remain in the threaded holes after the threaded holes are tapped. After the processes of cleaning, anode and the like, aluminum scraps still remain, the manual operation time is long, and products can be damaged due to improper operation.

For example, the Chinese patent document discloses a threaded hole aluminum scrap cleaning device [201821137930.1], which comprises an air blowing bracket, wherein the upper end of the air blowing bracket is provided with a product positioning outer cover, the middle part of the air blowing bracket is provided with an ejection cylinder for ejecting a product out of the product positioning outer cover, four corners of the product positioning outer cover are respectively provided with a fixing lug, and each fixing lug is connected with the upper end of the air blowing bracket through a connecting guide rod. The structure can prevent the phenomenon that the air needle product is broken by pressure. And the product location dustcoat can prevent the phenomenon that the aluminium bits splashes everywhere when the air needle blows out the aluminium bits, plays the effect of protection. But its unable lifting stroke of accurate control needle tubing of blowing and the moment of blowing of needle tubing of blowing lead to work efficiency low and appear the shell easily and interfere the problem.

Disclosure of Invention

The utility model aims to solve the problems in the prior art and provides an aluminum scrap blowing mechanism with a small shell aperture and shell cleaning equipment.

The purpose of the utility model can be realized by the following technical scheme:

this shell aperture blows aluminium bits mechanism includes:

the upper end of the mounting frame is provided with a mounting platform for supporting the bottom of the shell;

the positioning blocks are arranged on the mounting platform at intervals and used for mounting and positioning the shell;

the lifting driving device is arranged on the mounting rack and can vertically move along the mounting rack;

the air blowing device is arranged on the lifting driving device and is provided with an air blowing needle tube, when the air blowing device works, the lifting driving device can drive the air blowing device to ascend until one end of the air blowing needle tube extends out of the upper end surface of the mounting platform and correspondingly extends into the shell small hole, and air blown out by the air blowing device passes through the shell small hole.

Furthermore, the mounting platform is provided with a support plane which can be abutted against the bottom of the shell, and a plurality of abdicating planes which are arranged at intervals with the support plane and have different heights.

Further, the locating piece is including setting up the coarse positioning portion on the plane of stepping down to and set up the fine positioning portion on keeping away from the plane of stepping down of coarse positioning portion one side.

Further, the lifting driving device comprises a lifting cylinder and a lifting abutting block arranged on the lifting cylinder.

Furthermore, the bottom of the mounting platform is provided with a propping groove for the lifting propping block to be correspondingly clamped in.

Furthermore, the air blowing device comprises a chuck which is arranged on one side of the lifting abutting block and protrudes out of the edge of the mounting platform, and an air blowing cylinder which is connected with an air blowing needle tube.

Furthermore, the lifting driving device is connected with the blowing device through a double-acting asynchronous control device.

Furthermore, the double-acting asynchronous control device comprises a double-acting cylinder connected with the lifting cylinder, a mechanical valve arranged on one side of the double-acting cylinder and connected with the air blowing cylinder, a cylinder rod arranged on the double-acting cylinder and capable of driving the mechanical valve, and an air valve switch for controlling the double-acting cylinder.

Furthermore, the upper end of the coarse positioning part and the upper end of the fine positioning part are both provided with guide surfaces.

The utility model also provides cleaning equipment which is provided with the small-aperture aluminum scrap blowing mechanism for the shell.

Compared with the prior art, this aluminium bits mechanism is blown in small aperture of shell passes through the preliminary location that thick location portion formed the shell, the accurate location of shell is realized to the accurate location portion of rethread, when the location reliability is guaranteed to the high ground position difference on the mounting platform simultaneously, the needle tubing of blowing can directly stretch into the shell aperture and accomplish the operation of blowing and accomplished lift drive and gas blowing device with the asynchronous stroke's of drive control mode, work efficiency has been improved and also formation between avoiding lift drive and the gas blowing device is interfered, prevent to produce the unstable scheduling problem of shell location simultaneously.

Drawings

Fig. 1 is a schematic structural diagram of an aluminum scrap blowing mechanism with a small shell aperture, provided by the utility model.

Fig. 2 is a schematic side view of the small-aperture aluminum scrap blowing mechanism of the housing of fig. 1.

Fig. 3 is a schematic view of a double-acting asynchronous control device of the small-aperture aluminum scrap blowing mechanism of the housing of fig. 1.

Fig. 4 is a schematic view of a second embodiment of the small-aperture aluminum scrap blowing mechanism of the housing of fig. 1.

In the figure, 10, the mounting frame; 20. mounting a platform; 21. a support plane; 22. a yielding plane; 23. abutting against the groove; 30. positioning blocks; 31. a coarse positioning part; 32. a fine positioning part; 40. a lift drive; 41. a lifting cylinder; 42. lifting the abutting block; 43. a limiting column; 50. a blowing device; 51. an air blowing needle tube; 52. a chuck; 53. a blowing cylinder; 60. a double-acting asynchronous control device; 61. a double acting cylinder; 62. a mechanical valve; 63. a cylinder rod; 64. and (4) opening and closing of the air valve.

Detailed Description

Example one

Please refer to fig. 1 to 3, which are schematic structural views of a small-aperture aluminum scrap blowing mechanism for a housing according to the present invention. This shell aperture blows aluminium bits mechanism includes: a mounting frame 10; a mounting platform 20 disposed on the mounting frame 10; positioning blocks 30 arranged on the mounting platform 20 at intervals; a lifting driving device 40 arranged on the mounting rack 10; and an air blowing device 50 provided on the elevation driving device 40. The shell is positioned and placed on the mounting platform 20, the limit is formed through the positioning block 30, and then the air blowing device 50 is driven by the lifting driving device 40 to be close to the shell and reach a set height, and the air blowing device 50 is opened to blow out foreign matters such as aluminum scraps and the like of the small holes of the shell. It is contemplated that the small-bore aluminum scrap blowing mechanism of the housing further includes other functional components and specific structures, such as electrical connection structures, mounting structures, etc., which are well known to those skilled in the art, and therefore, will not be described in detail herein.

The mounting block 10 serves as a mounting carrier that effectively couples together the structural components mounted on the mounting block 10. Mounting platform 20 is the upper end plane of mounting bracket 10, and its surface has a plurality of not co-altitude regions, be equipped with on mounting platform 20 and can butt the support plane 21 in the shell bottom, support plane 21 is the highest plane and is close to one side of gas blowing device 50, and mounting platform 20 still is equipped with the setting of a plurality of and support plane 21 interval and highly different plane of stepping down 22. In this embodiment, the positioning block 30 includes a coarse positioning portion 31 disposed on the abdicating plane 22, and a fine positioning portion 32 disposed on the abdicating plane 22 far from the coarse positioning portion 31, and the upper ends of the coarse positioning portion 31 and the fine positioning portion 32 protrude from the upper end of the supporting plane 21. In the present embodiment, there are one coarse positioning portion 31 and three fine positioning portions 32. The primary positioning of the shell is formed through the coarse positioning part 31, the precise positioning of the shell is realized through the precise positioning part 32, and meanwhile, when the high ground position difference of the mounting platform 20 ensures the positioning reliability, the bottom end of the shell is enabled to have a gap, which is beneficial to taking and discharging materials. The upper end of coarse positioning portion 31 and the upper end of fine positioning portion 32 all are equipped with the spigot surface, and the spigot surface diminishes gradually from lower supreme external diameter, is favorable to the shell to correspond to block in and later stage breaks away from.

It is conceivable that when the housing is positioned and installed on the installation platform 20, one side of the housing close to the plane extends out of the edge of the installation platform 20, so that the small hole of the housing is in a suspended state, and the housing is prevented from moving and interfering with the lifting driving device 40 and the blowing device 50.

The lifting driving device 40 includes a lifting cylinder 41, and a lifting abutting block 42 provided on the lifting cylinder 41. The lifting cylinder 41 is arranged on the mounting frame 10, the lifting abutting block 42 is L-shaped, the air blowing device 50 is arranged on one side of the lifting abutting block 42, the lifting cylinder 41 drives the air blowing device 50 to vertically move along the mounting frame 10, and when the upper end of the lifting abutting block 42 abuts against the abutting groove 23 at the bottom of the mounting platform 20, the air blowing device 50 reaches a set position, namely, the air blowing needle tube 51 extends into a small hole of the shell.

The air blowing device 50 includes a chuck 52 disposed at one side of the elevating abutting block 42 and protruding the edge of the mounting platform 20, and an air blowing cylinder 53 connected to an air blowing needle tube 51. The air blowing device 50 blows air through the small holes of the shell. The clamp 52 is used for fixing the air blowing needle tube 51, air is input into the air blowing cylinder 53 and is output from the air blowing needle tube 51, and formed high-pressure air passes through the small hole of the shell to achieve the effect of blowing out foreign matters in the hole.

The lifting driving device 40 is connected with the blowing device 50 through a double-acting asynchronous control device 60. The double-acting asynchronous control device 60 comprises a double-acting cylinder 61 connected with the lifting cylinder 41, a mechanical valve 62 arranged on one side of the double-acting cylinder 61 and connected with the air blowing cylinder 53, a cylinder rod 63 arranged on the double-acting cylinder 61 and capable of driving the mechanical valve 62, and an air valve switch 64 for controlling the double-acting cylinder 61. In the embodiment, the air valve switch 64 is a foot control valve, the air valve switch 64 is started, the double-acting cylinder 61 is driven bidirectionally, one end of the double-acting cylinder is connected with the lifting driving device 40 to complete the height adjustment of the air blowing device 50, the driving cylinder rod 63 at one end of the double-acting cylinder contacts the mechanical valve 62 to force the air blowing device 50 to be communicated, so that the air blowing operation is completed, the double-acting asynchronous control device 60 completes the control mode of the same driving asynchronous stroke of the lifting driving device 40 and the air blowing device 50, the working efficiency is improved, meanwhile, the interference between the lifting driving device 40 and the air blowing device 50 is avoided, and the problems of unstable shell positioning and the like are prevented.

Example two

Referring to fig. 4, the structure and principle of the present embodiment are substantially the same as those of the first embodiment, and the only difference is that: the lifting driving device 40 includes a lifting cylinder 41 connected to the mounting platform 20, and a limiting post 43 disposed on the mounting frame 10 for preventing the mounting platform 20 from excessively descending. The driving mode is that the mounting platform 20 descends, and the height of the limiting column 43 and the blowing needle tube 51 is controlled, so that accurate debugging is easier to perform.

EXAMPLE III

The utility model also provides cleaning equipment which is provided with the shell small-aperture aluminum scrap blowing mechanism, and other parts except the shell small-aperture aluminum scrap blowing mechanism are all the prior art or commercially available parts.

The specific embodiments described herein are merely illustrative of the spirit of the utility model. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the utility model as defined in the appended claims.

Claims (10)

1. The utility model provides an aluminium bits mechanism is blown in shell aperture, its characterized in that, the aluminium bits mechanism is blown in shell aperture includes:

the upper end of the mounting frame is provided with a mounting platform for supporting the bottom of the shell;

the positioning blocks are arranged on the mounting platform at intervals and used for mounting and positioning the shell;

the lifting driving device is arranged on the mounting rack and can vertically move along the mounting rack;

the air blowing device is arranged on the lifting driving device and is provided with an air blowing needle tube, when the air blowing device works, the lifting driving device can drive the air blowing device to ascend until one end of the air blowing needle tube extends out of the upper end surface of the mounting platform and correspondingly extends into the shell small hole, and air blown out by the air blowing device passes through the shell small hole.

2. The small-aperture aluminum scrap blowing mechanism for the shell as claimed in claim 1, wherein a supporting plane capable of abutting against the bottom of the shell and a plurality of yielding planes which are arranged at intervals with the supporting plane and have different heights are arranged on the mounting platform.

3. The small-aperture aluminum scrap blowing mechanism for the shell as claimed in claim 2, wherein the positioning block comprises a coarse positioning portion arranged on the abdicating plane and a fine positioning portion arranged on the abdicating plane on one side far away from the coarse positioning portion.

4. The small-aperture aluminum scrap blowing mechanism for the shell as claimed in claim 1, wherein the lifting driving device comprises a lifting cylinder and a lifting abutting block arranged on the lifting cylinder.

5. The small-aperture aluminum scrap blowing mechanism for the shell as claimed in claim 4, wherein the bottom of the mounting platform is provided with an abutting groove for the lifting abutting block to be correspondingly clamped in.

6. The small-aperture aluminum scrap blowing mechanism for the housing as claimed in claim 4, wherein the blowing device comprises a chuck which is arranged at one side of the lifting abutting block and protrudes out of the edge of the mounting platform, and a blowing cylinder which is connected with a blowing needle tube.

7. The small-aperture aluminum scrap blowing mechanism for the shell as claimed in claim 6, wherein the lifting driving device is connected with the air blowing device through a double-acting asynchronous control device.

8. The small-aperture aluminum scrap blowing mechanism for the shell as claimed in claim 7, wherein the double-acting asynchronous control device comprises a double-acting cylinder connected with the lifting cylinder, a mechanical valve arranged on one side of the double-acting cylinder and connected with the blowing cylinder, a cylinder rod arranged on the double-acting cylinder and capable of driving the mechanical valve, and a gas valve switch for controlling the double-acting cylinder.

9. The small-aperture aluminum scrap blowing mechanism for the shell as claimed in claim 3, wherein the upper ends of the coarse positioning portion and the fine positioning portion are provided with guide surfaces.

10. A housing cleaning apparatus characterized by having the housing small-aperture aluminum scrap blowing mechanism of any one of claims 1 to 9.

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