CN205931352U - A stab magnet mechanism for magnet assemblage mechanism - Google Patents
A stab magnet mechanism for magnet assemblage mechanism Download PDFInfo
- Publication number
- CN205931352U CN205931352U CN201620826385.1U CN201620826385U CN205931352U CN 205931352 U CN205931352 U CN 205931352U CN 201620826385 U CN201620826385 U CN 201620826385U CN 205931352 U CN205931352 U CN 205931352U
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- magnet
- cutting plate
- runner
- hold
- horizontal
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Abstract
The utility model discloses a stab magnet mechanism for magnet assemblage mechanism is by a minute material platform, divide flitch, flat push device and push down the device and constitute, magnet drops downwards through the magnet runner of minute material platform, drops when dividing material runner bottom to the magnet of minute flitch, and the cylinder action of flat push device pushes away magnet to the depths of magnet separation runner, and the cylinder that pushes down the device pushes away magnet and falls the tray dish from the magnet exit. The utility model discloses degree of automation is high, and is efficient, stablizes safety, can effectively replace artifical work, with low costs, is favorable to the application in the processing of various electron trades, and it has its advantage that can not compare in traditional artifical pendulum flich method to compare. The utility model discloses can guarantee the same magnetic pole and all face same orientation and put that the accuracy is high, need not the manual work, alright arrange to the tray dish in from being about to the orderly separation of magnet of multiple specification, one set of magnet of assemblage (300) 50s that is about consuming time, efficiency is high, all is superior to the present mechanism in market in the aspect of automatic positioning and precision.
Description
Technical field
This utility model belongs to Magnet processing assembling field, in particular to a kind of stamp for Magnet assembly mechanism
Magnet mechanism.
Background technology
Magnet has nowadays been widely used in every field in life, the mobile phone row especially developing rapidly in recent years
Industry, Magnet, in speaker, is all important component part in electromagnetic shaker and receiver.
The characteristic being attracted each other due to Magnet and its restriction of overall dimensions, therefore current Magnet method for assembling is still adopted
With artificial pendulum material.But the mode of artificial pendulum material is excessively loaded down with trivial details, inefficiency, and cost is of a relatively high, is difficult to meet daily production
Need.
Utility model content
In order to solve the problems, such as manually to organize, vertical Magnet is excessively loaded down with trivial details and inefficiency, and this utility model has aimed to provide one
Plant the stamp Magnet mechanism for Magnet assembly mechanism, Magnet can be carried out with rapid batch group and stand.
For reaching above-mentioned technical purpose and effect, this utility model is achieved through the following technical solutions:
A kind of stamp Magnet mechanism for Magnet assembly mechanism, by Material distribution platform, cutting plate, horizontal pulling device and hold-down devices group
Become, described cutting plate is arranged on the bottom of described Material distribution platform, described horizontal pulling device is arranged on the front of described Material distribution platform, described under
Pressure device is located at the top of described Material distribution platform;
The upper surface of described Material distribution platform is provided with three shunting zones side by side, and each described shunting zone is all divided into Magnet
Discharging area and hold-down devices working area, each described Magnet discharging area all vertically offers 5 staggered Magnet streams
Road, all overall concave downward in each described hold-down devices working area, and offer 5 lower pressings side by side in bottom and penetrate hole;
The inside of described cutting plate offers 5 parallel magnet sub-material runners, and the upper surface of described cutting plate offers 5
Individual staggered Magnet entrance, the lower surface of described cutting plate offers 5 Magnet outlets side by side, and each described Magnet goes out
Mouth cutting plate all described in up/down perforation;Described Magnet entrance is located at one end of described magnet sub-material runner, and described Magnet exports position
The other end in described magnet sub-material runner;The bottom of described Material distribution platform is provided with 3 described cutting plates, and each described sub-material
Plate forms corresponding up and down respectively with a described shunting zone in described Material distribution platform;Wherein, the described Magnet on described cutting plate
Described Magnet runner on entrance and described Magnet discharging area corresponds, the described Magnet outlet on described cutting plate with described
Described lower pressing on hold-down devices working area penetrates hole and corresponds;
Described horizontal pulling device includes horizontal air cylinder, horizontal air cylinder installing plate, horizontal impelling sheet and horizontal impelling sheet and installs
Plate;Described horizontal air cylinder is fixed on described horizontal air cylinder installing plate, and described horizontal air cylinder installing plate is provided with two slide rails,
Described horizontal impelling sheet installing plate is arranged on two described slide rails, and the push rod of described horizontal air cylinder is with described horizontal impelling sheet even
Connect;3 described horizontal impelling sheets have been mounted side by side on described horizontal impelling sheet installing plate, and 3 described horizontal impelling sheets and 3
Described cutting plate corresponds;The front portion of each described horizontal impelling sheet is equipped with 5 propulsion pins, and propulsion pin described in every group is respectively
Corresponding with 5 described magnet sub-material runners on each corresponding described cutting plate;
Described hold-down devices include vertical cylinder, vertical cylinder installing plate, lower pressing and lower platen;Described vertical cylinder
It is arranged on the top of described vertical cylinder installing plate, the bottom of described vertical cylinder installing plate is pushed with described by two guide rods
Plate connects, and the push rod of described vertical cylinder is connected through described vertical cylinder installing plate with described lower platen;Described lower platen
Front portion is provided with 3 lower pressing installation sheets, and each described lower pressing installation sheet respectively with described Material distribution platform on one described in
Hold-down devices working area forms and corresponds to up and down;The bottom of each described lower pressing installation sheet is provided with 5 lower pressings, every group of institute
Stating lower pressing, to penetrate hole with 5 described lower pressings on each corresponding described hold-down devices working area respectively corresponding.
Further, described Magnet runner is identical with the size of described Magnet entrance, and the size of the two is all and magnetic
The size coupling of ferrum.
Further, described lower pressing cross section be sized to be slightly smaller than the big of described Magnet runner and described Magnet entrance
Little.
Further, the height of described magnet sub-material runner is equal with the thickness of Magnet.
Further, the size being sized to be slightly smaller than described magnet sub-material flow channel cross-section of described propulsion pin cross section.
Operation principle of the present utility model is as follows:
In a row attracting Magnet is flowed into the described Magnet runner of described Material distribution platform from top to bottom, and is located at bottommost one
The Magnet of row falls in described magnet sub-material runner via the described Magnet entrance on described cutting plate;In described horizontal air cylinder
Under promotion, described in three groups, propulsion pin is inserted simultaneously in 5 described magnet sub-material runners each corresponding on described cutting plate, and then
Promote the Magnet being located in described magnet sub-material runner, until this row's Magnet is pushed to described Magnet outlet;Due to described magnetic
The profile of ferrum sub-material runner limits, and therefore every described magnet sub-material runner can only pass through a Magnet every time;When described Magnet
During the outlet of pushed to the described Magnet of the Magnet in sub-material runner, under the promotion of described vertical cylinder, 3 described lower pressing peaces
Load embeds in each self-corresponding described hold-down devices working area, lower pressing described in three groups be inserted simultaneously into each correspond to described in push
5 on device working area described lower pressings penetrate in the hole, and then are inserted simultaneously into described in each correspond on described cutting plate 5
In Magnet outlet, push down on Magnet;Finally, several rows of Magnet is extruded mechanism by described lower pressing, and fitly falls into
In the Magnet tray disk below mechanism.
The beneficial effects of the utility model are as follows:
Stamp Magnet mechanism high degree of automation for Magnet assembly mechanism of the present utility model, efficiency high, stable, peace
Entirely, can effectively replace manually working, low cost, be conducive to the application in the processing of various electron trades, artificial compared to traditional
Pendulum material method has its incomparable advantage.This utility model can ensure that same pole is all put in the same direction, and accuracy is high,
Need not be artificial, the orderly separation of Magnet that just can certainly be about to plurality of specifications arranges to tray disk, the vertical disk Magnet of group(300)
Time-consuming be about 50s, ultrahigh in efficiency, be automatically positioned and precision aspect is all superior to the existing mechanism in market.
Described above is only the general introduction of technical solutions of the utility model, in order to better understand skill of the present utility model
Art means, and being practiced according to the content of description, below with preferred embodiment of the present utility model and coordinate accompanying drawing detailed
Describe in detail bright as after.Specific embodiment of the present utility model is shown in detail in by following examples and its accompanying drawing.
Brief description
Accompanying drawing described herein is used for providing further understanding to of the present utility model, constitutes the part of the application,
Schematic description and description of the present utility model is used for explaining this utility model, does not constitute to of the present utility model improper
Limit.In the accompanying drawings:
Fig. 1 is overall structure top view of the present utility model;
Fig. 2 is overall structure upward view of the present utility model;
Fig. 3 is the structural representation of Material distribution platform of the present utility model;
Fig. 4 is the positive structure schematic of cutting plate of the present utility model;
Fig. 5 is the structure schematic diagram of cutting plate of the present utility model;
Fig. 6 is the side view of cutting plate of the present utility model;
Fig. 7 is the structural representation of horizontal pulling device of the present utility model;
Fig. 8 is the matching relationship schematic diagram of propulsion pin of the present utility model and cutting plate;
Fig. 9 is the structural representation of hold-down devices of the present utility model;
Figure 10 is the matching relationship schematic diagram of lower pressing of the present utility model and cutting plate.
Specific embodiment
Below with reference to the accompanying drawings and in conjunction with the embodiments, to describe this utility model in detail.
Referring to shown in Fig. 1, Fig. 2, a kind of stamp Magnet mechanism for Magnet assembly mechanism, by Material distribution platform 1, cutting plate 2, flat
Pushing device and hold-down devices composition, described cutting plate 2 is arranged on the bottom of described Material distribution platform 1, and described horizontal pulling device is located at described
The front of Material distribution platform 1, described hold-down devices are located at the top of described Material distribution platform 1.
Referring to shown in Fig. 1-3, the upper surface of described Material distribution platform 1 is provided with three shunting zones side by side, each described shunting
Magnet discharging area and hold-down devices working area are all divided on area, each described Magnet discharging area all vertically offers 5
Staggered Magnet runner 3, all overall concave downward in each described hold-down devices working area, and offer 5 simultaneously in bottom
The lower pressing of row penetrates hole 4.
Referring to shown in Fig. 4-6, the inside of described cutting plate 2 offers 5 parallel magnet sub-material runners 5, described sub-material
The upper surface of plate 2 offers 5 staggered Magnet entrances 6, and the lower surface of described cutting plate 2 offers 5 magnetic side by side
Ferrum outlet 7, each described Magnet exports cutting plate 2 described in 7 equal up/down perforations;Described Magnet entrance 6 is located at described magnet sub-material
One end of runner 5, described Magnet outlet 7 is located at the other end of described magnet sub-material runner 5;The bottom setting of described Material distribution platform 1
There are 3 described cutting plates 2, and each described cutting plate 2 is formed with a described shunting zone in described Material distribution platform 1 respectively up and down
Corresponding;Wherein, a pair of the described Magnet runner 3 one on the described Magnet entrance 6 and described Magnet discharging area on described cutting plate 2
Should, the described Magnet outlet 7 on described cutting plate 2 penetrates hole 4 one by one with the described lower pressing on described hold-down devices working area
Corresponding.
Referring to shown in Fig. 7, Fig. 8, described horizontal pulling device includes horizontal air cylinder 8, horizontal air cylinder installing plate 9, level propulsion
Piece 11 and horizontal impelling sheet installing plate 12;Described horizontal air cylinder 8 is fixed on described horizontal air cylinder installing plate 9, described horizontal gas
Two slide rails 13 are provided with cylinder installing plate 9, described horizontal impelling sheet installing plate 12 is arranged on two described slide rails 13, described
The push rod of horizontal air cylinder 8 is connected with described horizontal impelling sheet 11;3 institutes have been mounted side by side on described horizontal impelling sheet installing plate 12
State horizontal impelling sheet 11, and 3 described horizontal impelling sheets 11 are corresponded with 3 described cutting plates 2;Each described level propulsion
It is one group of propulsion pins 14 that the front portion of piece 11 is equipped with 5, propulsion pin 14 described in every group respectively with each corresponding described cutting plate 2
On 5 described magnet sub-material runners 5 corresponding.
Referring to shown in Fig. 9, Figure 10, described hold-down devices include vertical cylinder 15, vertical cylinder installing plate 16, lower pressing
17 and lower platen 18;Described vertical cylinder 15 is arranged on the top of described vertical cylinder installing plate 16, and described vertical cylinder is installed
The bottom of plate 16 is connected with described lower platen 18 by two guide rods 19, and the push rod of described vertical cylinder 15 passes through described vertical gas
Cylinder installing plate 16 is connected with described lower platen 18;The front portion of described lower platen 18 is provided with 3 lower pressing installation sheets 20, and each
Described lower pressing installation sheet 20 forms corresponding up and down respectively with a described hold-down devices working area in described Material distribution platform 1;Often
It is one group of lower pressings 17 that the bottom of individual described lower pressing installation sheet 20 is provided with 5, lower pressing 17 described in every group respectively with
Each 5 described lower pressings on corresponding described hold-down devices working area penetrate hole 4 and correspond to.
Further, described Magnet runner 3 is identical with the size of described Magnet entrance 6, and the size of the two all with
The size coupling of Magnet.
Further, described lower pressing 17 cross section be sized to be slightly smaller than described Magnet runner 3 and described Magnet entrance 6
Size.
Further, the height of described magnet sub-material runner 5 is equal with the thickness of Magnet.
Further, the size being sized to be slightly smaller than described magnet sub-material runner 5 cross section of described propulsion pin 14 cross section.
In a row attracting Magnet is flowed into the described Magnet runner 3 of described Material distribution platform 1 from top to bottom, and is located at bottommost
The Magnet of one row falls in described magnet sub-material runner 5 via the described Magnet entrance 6 on described cutting plate 2;In described level
Under the promotion of cylinder 8, described in three groups, propulsion pin 14 is inserted simultaneously into 5 described magnet sub-materials each corresponding on described cutting plate 2
In runner 5, and then promote the Magnet being located in described magnet sub-material runner 5, go out until this row's Magnet is pushed to described Magnet
Mouth 7;Profile due to described magnet sub-material runner 5 limits, and therefore every described magnet sub-material runner 5 can only pass through one every time
Magnet;When Magnet pushed to the described Magnet outlet 7 in described magnet sub-material runner 5, in pushing away of described vertical cylinder 15
Under dynamic, 3 described lower pressing installation sheets 20 embed in each self-corresponding described hold-down devices working area, lower pressing 17 described in three groups
It is inserted simultaneously into 5 described lower pressings each corresponding on described hold-down devices working area to penetrate in hole 4, and then be inserted simultaneously into each
In 5 on corresponding described cutting plate 2 described Magnet outlets 7, push down on Magnet;Finally, described lower pressing 17 will be several rows of
Magnet extrusion mechanism, and fitly fall in the Magnet tray disk below mechanism.
The foregoing is only preferred embodiment of the present utility model, be not limited to this utility model, for this
For the technical staff in field, this utility model can have various modifications and variations.All of the present utility model spirit and principle
Within, any modification, equivalent substitution and improvement made etc., should be included within protection domain of the present utility model.
Claims (5)
1. a kind of stamp Magnet mechanism for Magnet assembly mechanism it is characterised in that:By Material distribution platform(1), cutting plate(2), horizontal sliding
Device and hold-down devices composition, described cutting plate(2)It is arranged on described Material distribution platform(1)Bottom, described horizontal pulling device is arranged on
Described Material distribution platform(1)Front, described hold-down devices be located at described Material distribution platform(1)Top;
Described Material distribution platform(1)Upper surface be provided with three shunting zones side by side, each described shunting zone is all divided into Magnet
Discharging area and hold-down devices working area, each described Magnet discharging area all vertically offers 5 staggered Magnet streams
Road(3), all overall concave downward in each described hold-down devices working area, and offer 5 lower pressings side by side in bottom and penetrate
Hole(4);
Described cutting plate(2)Inside offer 5 parallel magnet sub-material runners(5), described cutting plate(2)Upper surface open
It is provided with 5 staggered Magnet entrances(6), described cutting plate(2)Lower surface offer 5 side by side Magnet outlet(7),
Each described Magnet outlet(7)Cutting plate all described in up/down perforation(2);Described magnet sub-material runner(5)One end and described magnetic
Ferrum entrance(6)Connection, the other end and described Magnet outlet(7)Connection;Described Material distribution platform(1)Bottom be provided with described in 3 point
Flitch(2), and each described cutting plate(2)Respectively with described Material distribution platform(1)On a described shunting zone formed and correspond to up and down;
Wherein, described cutting plate(2)On described Magnet entrance(6)With the described Magnet runner on described Magnet discharging area(3)One by one
Corresponding, described cutting plate(2)On the outlet of described Magnet(7)Penetrate hole with the described lower pressing on described hold-down devices working area
(4)Correspond;
Described horizontal pulling device includes horizontal air cylinder(8), horizontal air cylinder installing plate(9), horizontal impelling sheet(11)With level propulsion
Piece installing plate(12);Described horizontal air cylinder(8)It is fixed on described horizontal air cylinder installing plate(9)On, described horizontal air cylinder installing plate
(9)On be provided with two slide rails(13), described horizontal impelling sheet installing plate(12)It is arranged on two described slide rails(13)On, described
Horizontal air cylinder(8)Push rod and described horizontal impelling sheet(11)Connect;Described horizontal impelling sheet installing plate(12)On be mounted side by side
There are 3 described horizontal impelling sheets(11), and 3 described horizontal impelling sheets(11)With 3 described cutting plates(2)Correspond;Often
Individual described horizontal impelling sheet(11)Front portion be equipped with 5 propulsion pins(14), in described horizontal air cylinder(8)Promotion under, three groups
Described propulsion pin(14)Can be inserted simultaneously into and each correspond to described cutting plate(2)On 5 described magnet sub-material runners(5)Interior, directly
To described Magnet outlet(7);
Described hold-down devices include vertical cylinder(15), vertical cylinder installing plate(16), lower pressing(17)And lower platen(18);
Described vertical cylinder(15)It is arranged on described vertical cylinder installing plate(16)Top, described vertical cylinder installing plate(16)Under
Portion passes through two guide rods(19)With described lower platen(18)Connect, described vertical cylinder(15)Push rod pass through described vertical cylinder
Installing plate(16)With described lower platen(18)Connect;Described lower platen(18)Front portion be provided with 3 lower pressing installation sheets(20),
And each described lower pressing installation sheet(20)Respectively with described Material distribution platform(1)On a described hold-down devices working area formed
Lower correspondence;Each described lower pressing installation sheet(20)Bottom be provided with 5 lower pressings(17), in described vertical cylinder(15)
Promotion under, 3 described lower pressing installation sheets(20)Embed each self-corresponding described hold-down devices working area in, described in three groups under
Pressing(17)5 described lower pressings each corresponding on described hold-down devices working area can be inserted simultaneously into and penetrate hole(4)Interior, and then
It is inserted simultaneously into and each correspond to described cutting plate(2)On 5 described Magnet outlets(7)Interior.
2. according to claim require 1 described in the stamp Magnet mechanism for Magnet assembly mechanism it is characterised in that:Described Magnet
Runner(3)With described Magnet entrance(6)Size identical, and the size of the two all mated with the size of Magnet.
3. according to claim require 2 described in the stamp Magnet mechanism for Magnet assembly mechanism it is characterised in that:Described push
Pin(17)Cross section be sized to be slightly smaller than described Magnet runner(3)And described Magnet entrance(6)Size.
4. according to claim require 1 described in the stamp Magnet mechanism for Magnet assembly mechanism it is characterised in that:Described Magnet
Sub-material runner(5)Height equal with the thickness of Magnet.
5. according to claim require 1 described in the stamp Magnet mechanism for Magnet assembly mechanism it is characterised in that:Described propulsion
Pin(14)Cross section be sized to be slightly smaller than described magnet sub-material runner(5)The size of cross section.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201620826385.1U CN205931352U (en) | 2016-08-02 | 2016-08-02 | A stab magnet mechanism for magnet assemblage mechanism |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201620826385.1U CN205931352U (en) | 2016-08-02 | 2016-08-02 | A stab magnet mechanism for magnet assemblage mechanism |
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Publication Number | Publication Date |
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CN205931352U true CN205931352U (en) | 2017-02-08 |
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Application Number | Title | Priority Date | Filing Date |
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CN201620826385.1U Withdrawn - After Issue CN205931352U (en) | 2016-08-02 | 2016-08-02 | A stab magnet mechanism for magnet assemblage mechanism |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106043763A (en) * | 2016-08-02 | 2016-10-26 | 苏州茂特斯自动化设备有限公司 | Magnet poking mechanism used for magnet assembling mechanism |
-
2016
- 2016-08-02 CN CN201620826385.1U patent/CN205931352U/en not_active Withdrawn - After Issue
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106043763A (en) * | 2016-08-02 | 2016-10-26 | 苏州茂特斯自动化设备有限公司 | Magnet poking mechanism used for magnet assembling mechanism |
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20170208 Effective date of abandoning: 20180403 |
|
AV01 | Patent right actively abandoned |