CN108372330B

CN108372330B - Automatic aluminum hull equipment of tearing open of microphone

Info

Publication number: CN108372330B
Application number: CN201711459999.6A
Authority: CN
Inventors: 郭智成
Original assignee: Ganzhou Fengsen Intelligent Equipment Co ltd
Current assignee: Ganzhou Fengsen Intelligent Equipment Co ltd
Priority date: 2017-12-28
Filing date: 2017-12-28
Publication date: 2023-08-25
Anticipated expiration: 2037-12-28
Also published as: CN108372330A

Abstract

The invention relates to automatic aluminum shell disassembly equipment for a microphone, which comprises a base, wherein a product vibration disc and a support frame are arranged on the base, the support frame consists of a support threaded rod and a support plate positioned at the top end of the support threaded rod, a rotary cutting mechanism and a guide mechanism are respectively arranged on the support frame, and a feeding pipeline communicated with the guide mechanism is arranged on the product vibration disc; the rotary cutting mechanism comprises a gear motor, knurling wheels and a circular blade, the guide mechanism comprises two groups of guide blocks positioned on two sides of the knurling wheels, one ends of the two groups of guide blocks are provided with arc-shaped notches corresponding to the knurling wheels, the arc-shaped notches of one group of guide blocks are clung to the side wall of the knurling wheels, an arc-shaped channel is formed between the arc-shaped notch of the other group of guide blocks and the knurling wheels, and an arc-shaped guide channel communicated with the arc-shaped channel is further arranged on the top corner of the bottom of the guide block adjacent to the arc-shaped channel. The invention can greatly improve the shell disassembly efficiency and reduce the probability of damaging components in the aluminum shell.

Description

Automatic aluminum hull equipment of tearing open of microphone

Technical Field

The invention relates to the technical field of microphone manufacturing, in particular to automatic aluminum shell disassembly equipment for a microphone.

Background

The microphone is one of the main components of a microphone, and is an energy conversion device for converting an acoustic signal into an electrical signal, and is a device (electric→acoustic) which is the opposite of a horn. Is two terminals of the sound equipment, the microphone is input, and the loudspeaker is output. Also known as a microphone, a microphone. The microphone can be divided into a carbon grain microphone, an electromagnetic microphone, a capacitance microphone, an electret microphone, a piezoelectric crystal microphone and a piezoelectric ceramic microphone from the working principle. Among them, electret microphones are widely used.

The aluminum shell outside the microphone is required to be cut in the production process, so that electronic components inside the aluminum shell are taken out and good products are selected for recycling, and the production cost is reduced.

Disclosure of Invention

The invention aims to provide automatic microphone shell removing equipment, which can greatly improve shell removing efficiency, reduce the probability of damaging components in an aluminum shell and reduce production cost.

The technical problems of the invention are mainly solved by the following technical scheme:

the automatic aluminum shell disassembly device for the microphone comprises a base, wherein a product vibration disc and a support frame are arranged on the base, the support frame consists of a support threaded rod and a support plate positioned at the top end of the support threaded rod, a rotary cutting mechanism and a guide mechanism are respectively arranged on the support frame, and a feeding pipeline communicated with the guide mechanism is arranged on the product vibration disc;

the rotary cutting mechanism comprises a speed reducing motor, a knurling wheel and a circular blade, wherein the speed reducing motor is fixed at the bottom of the supporting plate, and an output shaft of the speed reducing motor sequentially penetrates through the supporting plate, the knurling wheel and the circular blade which are positioned at the top of the supporting plate from bottom to top;

the guide mechanism comprises two groups of guide blocks positioned on two sides of the knurling wheel, one ends of the two groups of guide blocks are respectively provided with an arc notch corresponding to the knurling wheel, the arc notch of one group of guide blocks is clung to the side wall of the knurling wheel, an arc channel is formed between the arc notch of the other group of guide blocks and the knurling wheel, and an arc guide channel communicated with the arc channel is further arranged on the top corner of the bottom of the guide block adjacent to the arc channel.

Preferably, the transverse section of the output shaft positioned at the top of the supporting plate is arched, wherein the knurling wheels and the circle centers of the circular blades are respectively provided with a through hole used for the part of the output shaft to pass through and be matched with the output shaft, the number of the knurling wheels is two, the circular blades are positioned between the upper knurling wheel and the lower knurling wheel, the output shaft positioned at the top of the uppermost knurling wheel is also provided with a fixed column, the circle centers of the bottom of the fixed column are provided with screw holes a, the screw holes a are in threaded connection with the outer side wall of the output shaft, two sides of the top of the fixed column are respectively provided with bolts, the two bolts sequentially pass through the fixed column, the knurling wheels and the circular blades from top to bottom, the bottom ends of the bolts are fixed in the knurling wheels positioned at the bottom, and the circular blades are respectively provided with screw holes b in threaded connection with the bolts.

Preferably, a discharge hole tangential to the knurling wheel is formed in the support plate at one end of the arc-shaped guide channel, and a feed channel communicated with the feed pipeline is formed at the other end of the arc-shaped channel, the feed channel is formed between the corresponding top ends of the two groups of guide blocks, and a straight line is formed between the feed channel and the feed pipeline.

Preferably, the two ends of the supporting threaded rod are respectively in threaded connection with the base and the supporting plate, and the bottom of the supporting plate is welded with a bracket, wherein the speed reducing motor is fixed on the bracket.

Preferably, each vertex angle area of base bottom all is provided with rubber cushion, and wherein rubber cushion can effectually prevent that the base from taking place to skid and the problem of sliding at will on supporting platform.

Preferably, the guide block is locked on the support plate through a bolt.

Preferably, the guide block vertex angles at two ends of the arc-shaped guide channel are all provided with rounding angles, wherein the rounding angles positioned at the feed end of the arc-shaped guide channel, namely, near the feed channel, can play a role in guiding the microphone in the feed channel to smoothly flow into the arc-shaped guide channel, and the rounding angles positioned at the discharge end of the arc-shaped guide channel are convenient for guiding the microphone to flow into the discharge hole.

The beneficial effects of the invention are as follows: according to the invention, the electret microphone positioned in the electret microphone is vibrated into the feeding pipeline through the vibrating product vibration disc, the electret microphone flows into the feeding channel along the feeding pipeline, then is guided into the arc-shaped guide channel through the rounding corner of the feeding end of the arc-shaped guide channel, the wiring terminal of the electret microphone is positioned in the arc-shaped channel, and the working gear motor drives the two groups of straight knurling wheels, the circular blades and the fixed column to perform anticlockwise rotation through the output shaft, so that the tooth patterns on the knurling wheels act on the aluminum shell of the electret microphone, thereby driving the electret microphone to turn in the arc-shaped guide channel and rotationally move towards the discharging hole, and the circular blades rotating together with the knurling wheels cut the aluminum shell of the electret microphone, when the electret microphone moves to the discharging end of the arc-shaped guide channel after the cutting is finished, the electret microphone flows into the discharging hole and falls into the tray on the base, so that workers can peel the aluminum shell of the electret microphone after the cutting in the tray, and pick up electronic components in the aluminum shell and pick up the electronic components in the aluminum shell for recycling. The invention can greatly improve the shell disassembly efficiency and reduce the probability of damaging components in the aluminum shell.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a schematic view of another angle configuration of the present invention;

FIG. 3 is a top view of the present invention;

FIG. 4 is a schematic view of a first partial construction of the present invention;

FIG. 5 is a schematic view of a second partial structure of the present invention;

FIG. 6 is a schematic view of a rotary cutting mechanism according to the present invention;

fig. 7 is a schematic view of the structure of fig. 4 with the fixing post removed and the knurling wheel positioned above.

In the figure: 1. the device comprises a base, 2, a product vibration disc, 3, a supporting frame, 31, a supporting threaded rod, 32, a supporting plate, 4, a rotary cutting mechanism, 41, a gear motor, 42, an output shaft, 43, a knurling wheel, 44, a circular blade, 45, a fixed column, 5, a guiding mechanism, 51, a guiding block, 52, an arc notch, 53, an arc channel, 54, an arc guiding channel, 6, a feeding pipeline, 7, a screw hole a,8, a bolt, 9, a screw hole b,10, a discharging hole, 11, a feeding channel, 12, a rubber cushion, 13 and a rounding angle.

Detailed Description

The technical scheme of the invention is further specifically described below by means of examples and with reference to fig. 1-7.

The utility model provides an automatic aluminum hull equipment of tearing open of microphone, including base 1, each apex angle region of base 1 bottom all is provided with rubber cushion 12, wherein rubber cushion 12 can effectually prevent that base 1 from taking place to skid and the problem of sliding at will on supporting platform, is provided with product vibration dish 2 simultaneously in base 1 top left side, and is provided with support frame 3 on its top right side, and this support frame 3 comprises support threaded rod 31 and the backup pad 32 that is located support threaded rod 31 top, as shown in fig. 1, 2, the both ends of support threaded rod 31 are fixed with the spiro union between base 1 and the backup pad 32 respectively.

Simultaneously be provided with rotatory cutting mechanism 4 and guiding mechanism 5 on support frame 3 respectively, and be provided with on the product vibration dish 2 with guiding mechanism 5 feed pipeline 6, product vibration dish 2 through the vibration will be located its inside electret miaow head vibration to feed pipeline 6 in, electret miaow head flows into guiding mechanism 5 feed inlet department along feed pipeline 6, rotatory cutting mechanism 4 drives electret miaow head and rotates in guiding mechanism 5 and cut its outside aluminum hull, so as to make things convenient for follow-up workman to peel open the aluminum hull that cuts, thereby take out the inside electronic components of aluminum hull and select the yields and wait recycle.

The rotary cutting mechanism 4 comprises a gear motor 41, straight knurling wheels 43 and circular blades 44, wherein the gear motor 41 is fixed on a bracket welded at the bottom of the supporting plate 32, an output shaft 42 of the gear motor 41 penetrates through the supporting plate upwards, two groups of knurling wheels 43 are arranged on the top of the supporting plate 32 in parallel up and down, a group of circular blades 44 are arranged between the two groups of knurling wheels 43, the output shaft 42 penetrates through the knurling wheels 43 and the circular blades 44 in sequence, in order to prevent the knurling wheels 43 and the circular blades 44 from falling off from the top end of the output shaft 42, a fixing column 45 is further arranged at the top end of the output shaft 42, a screw hole a7 is arranged at the center of the bottom end of the fixing column 45, threads are arranged on the outer side wall of the output shaft 42, and then the fixing column 45 is screwed and fixed on the output shaft 42 in a threaded connection mode through the screw hole a7 and the threads on the output shaft 42 during installation, and the fixing column 45 also locks the two groups of knurling wheels 43 and the circular blades 44 on the output shaft 42 at the bottom.

Meanwhile, in order to prevent the gear motor 41 from driving the output shaft 42 to rotate anticlockwise, the knurling wheel 43 and the circular blade 44 do not rotate together with the output shaft 42, in this embodiment, the transverse section of the output shaft 42 located at the top of the support plate 32 is arched, and through holes for the part of the output shaft 42 to pass through and to be matched with the knurling wheel 43 and the circular blade 44 are arranged at the circle centers, so that when the output shaft 42 rotates anticlockwise, the corresponding knurling wheel 43 and the circular blade 44 are driven to rotate anticlockwise in a manner that the part of the transverse section of the top of the output shaft 42 is clamped on the corresponding through holes, and the problem that the knurling wheel 43 and the circular blade 44 do not rotate together with the output shaft 42 due to the fact that the output shaft 42 is in a columnar structure in the past is prevented.

In order to strengthen the stability among the knurling wheel 43, the circular blade 44 and the fixed column 45, two groups of screw holes b9 are correspondingly arranged in the fixed column 45, the screw holes b9 on the fixed column 45 are internally and spirally connected with the bolts 8, and meanwhile, the bottom ends of the bolts 8 sequentially penetrate through the screw holes b9 on the knurling wheel 43 and the circular blade 44, the stability among the knurling wheel 43, the circular blade 44 and the fixed column 45 is further enhanced in a mode that the bolts 8 are spirally connected with the screw holes b9 on the knurling wheel 43, the circular blade 44 and the fixed column 45, and meanwhile, the bottom ends of the bolts 8 are slightly higher than the bottom end horizontal plane of the lowest knurling wheel 43, so that the rotation action of the knurling wheel 43 can be prevented from being influenced by the bolts 8.

Wherein the guiding mechanism 5 comprises two groups of guiding blocks 51 positioned at the front side and the rear side of the knurling wheel 43, the circular blade 44 and the fixed column 45, meanwhile, the rear end of the front guiding block 51 and the front end of the rear guiding block 51 are respectively provided with an arc notch 52 corresponding to the knurling wheel 43, the arc notch 42 of the rear guiding block 41 is clung to the side wall of the knurling wheel 43 (that is to say, the spacing between the arc notch 42 and the knurling wheel 43 is 0.5-2 mm, which ensures that when the gear motor 41 drives the knurling wheel 43, the circular blade 44 and the fixed column 45 to rotate anticlockwise through the output shaft 42, the guiding block 51 positioned at the rear side is not contacted with the knurling wheel 43, the circular blade 44 and the fixed column 45, so that the normal rotation of the gear motor is not influenced), an arc-shaped channel 53 is formed between the arc-shaped notch 52 of the front guide block 51 and the knurling wheel 43, and an arc-shaped guide channel 54 which is communicated with the arc-shaped channel 53 and used for passing through an electret microphone is also arranged on the top angle at the bottom of the front guide block 51, wherein a wiring terminal of the electret microphone is positioned in the arc-shaped channel 53, a feeding channel 11 which is communicated with the arc-shaped channel 53 and the arc-shaped guide channel 54 is formed between the front guide block 51 and the rear guide block 51 positioned at the left side of the rotary cutting mechanism 4, and a discharging hole 10 which is tangential to the knurling wheel 43 is arranged on the supporting plate 32 positioned at the right side of the rotary cutting mechanism 4, wherein a straight line is formed between the feeding channel 11 and the feeding pipeline 6.

In this embodiment, the guide block 51 is locked on the support plate 32 by a bolt, and the bolt on the guide block 51 can be unscrewed, so that the distance between the guide block 51 on the front side and the rotary cutting mechanism 4 can be changed, the purposes of adjusting the sizes of the arc-shaped channel 53 and the arc-shaped guide channel 54 can be achieved, and the guide block 51 can be locked on the support plate 32 again after the guide block 51 is moved by the bolt.

And rounded corners 13 are arranged on the top corners of the guide blocks 51 at the two ends of the arc-shaped guide channel 54, wherein the rounded corners 13 at the feeding end of the arc-shaped guide channel 54, namely, near the feeding channel 11, can serve the purpose of guiding the microphone in the feeding channel 11 to smoothly flow into the arc-shaped guide channel 54, and the rounded corners 13 at the discharging end of the arc-shaped guide channel 54 are convenient for guiding the microphone to flow into the discharging hole 10.

According to the invention, the electret microphone positioned in the electret microphone is vibrated into the feeding pipeline 6 through the vibrating product vibration disc 2, the electret microphone flows into the feeding channel 11 along the feeding pipeline 6, then the electret microphone is guided into the arc-shaped guide channel 54 through the round corners 13 at the feeding end of the arc-shaped guide channel 54, the wiring terminals of the electret microphone are positioned in the arc-shaped channel 53, the working gear motor 41 drives the two groups of straight knurling wheels 43, the round blades 44 and the fixed columns 45 to perform anticlockwise rotation through the output shaft 42, then the insection on the edges of the knurling wheels 43 acts on the aluminum shell of the electret microphone, so that the electret microphone is driven to rotate in the arc-shaped guide channel 54 and rotate towards the discharge hole 10, the round blades 44 rotating together with the knurling wheels 43 cut the aluminum shell of the electret microphone, after the cutting is finished, the electret microphone flows into the discharge hole 10 and falls into the tray on the base 1, and then workers can strip the cut aluminum shell of the electret microphone into the tray, so that the electronic components inside the aluminum shell can be picked out and the electronic components to be recycled.

The foregoing detailed description of the invention has been presented for purposes of illustration and description, but is not intended to limit the scope of the invention. All equivalent changes and modifications within the scope of the present invention are intended to be covered by the present invention.

Claims

1. The automatic aluminum shell disassembly device for the microphone comprises a base and is characterized in that a product vibration disc and a support frame are arranged on the base, the support frame consists of a support threaded rod and a support plate positioned at the top end of the support threaded rod, a rotary cutting mechanism and a guide mechanism are respectively arranged on the support frame, and a feeding pipeline communicated with the guide mechanism is arranged on the product vibration disc;

the guide mechanism comprises two groups of guide blocks positioned at two sides of the knurling wheel, one ends of the two groups of guide blocks are respectively provided with an arc notch corresponding to the knurling wheel, the arc notch of one group of guide blocks is clung to the side wall of the knurling wheel, an arc channel is formed between the arc notch of the other group of guide blocks and the knurling wheel, and an arc guide channel communicated with the arc channel is further arranged on the top corner of the bottom of the guide block adjacent to the arc channel;

the transverse section of the output shaft positioned at the top of the supporting plate is arched, wherein through holes for the part of the output shaft to pass through and be matched with the output shaft are respectively formed in the circle centers of the knurling wheels and the circular blades, the number of the knurling wheels is two, the circular blades are positioned between the upper knurling wheel and the lower knurling wheel, a fixed column is further arranged on the output shaft positioned at the top of the uppermost knurling wheel, the circle center of the bottom of the fixed column is provided with a screw hole a, the screw hole a is in threaded connection with threads arranged on the outer side wall of the output shaft, bolts are respectively arranged on two sides of the top of the fixed column, the two bolts sequentially pass through the fixed column, the knurling wheels and the circular blades from top to bottom, the bottom ends of the bolts are fixed in the knurling wheels positioned at the bottom, and the screw holes b in threaded connection with the bolts are respectively formed in the fixed column, the knurling wheels and the circular blades;

a discharge hole tangential to the knurling wheel is formed in a support plate positioned at one end of the arc-shaped guide channel, a feed channel communicated with a feed pipeline is formed at the other end of the arc-shaped channel, the feed channel is formed between the corresponding top ends of the two groups of guide blocks, and a straight line is formed between the feed channel and the feed pipeline;

the both ends of supporting the threaded rod are fixed with base and backup pad spiro union respectively, and the backup pad bottom welding has the support, and wherein gear motor fixes on the support.

2. The automatic aluminum shell disassembly device for microphones of claim 1, wherein rubber pads are arranged at the bottoms of the bases.

3. The automatic aluminum shell disassembly device for microphones of claim 1, wherein the guide block is locked on the support plate through bolts.

4. The automatic aluminum shell disassembly device for microphones of claim 1, wherein rounded corners are arranged on top angles of guide blocks at two ends of the arc-shaped guide channel.