CN106043763A - Magnet poking mechanism used for magnet assembling mechanism - Google Patents

Abstract

The invention discloses a magnet poking mechanism used for a magnet assembling mechanism. The magnet poking mechanism consists of a separating table, a separating plate, a horizontal pushing device and a vertical pressing device, wherein magnets fall off via magnet runners of the separating table; when the magnets fall to the bottoms of the magnet separating runners of the separating table, the magnets are pushed to the deep parts of the magnet separating runners under the action of a cylinder of the horizontal pushing device; and the magnets are pushed into a tray from magnet outlets by a cylinder of the vertical pressing device. The magnet poking mechanism is high in automation degree and high in efficiency, is stable and safe, can effectively replace manual work, is low in cost, is favorable to being applied to the processing of various electronic industries, and has incompatible advantages over a traditional manual arrangement method. The magnet poking mechanism can ensure that the same magnetic poles are placed towards the same directions, is high in accuracy, does not need manual work, can automatically separate and arrange various dimensions of magnets in the tray in order, spends about 50s in assembling one tray of magnets (about 300 pieces), is very high in efficiency, and has advantages over the existing mechanisms on the market in the aspects of automatic positioning and precision.

Description

A kind of stamp Magnet mechanism for Magnet assembly mechanism

Technical field

The invention belongs to Magnet processing assembling field, in particular to a kind of stamp Magnet for Magnet assembly mechanism Mechanism.

Background technology

Magnet has been widely used in every field in life, the mobile phone row developed rapidly the most in recent years Industry, Magnet is all important component part in speaker, electromagnetic shaker and receiver.

The characteristic attracted each other due to Magnet and the restriction of overall dimensions thereof, the most current group of magnets cube method is still adopted With manually putting material.But the mode of artificial pendulum material is the most loaded down with trivial details, and inefficiency, cost is of a relatively high, is difficult to meet daily production Need.

Summary of the invention

In order to solve manually to organize, vertical Magnet is the most loaded down with trivial details and the problem of inefficiency, it is desirable to provide a kind of use In the stamp Magnet mechanism of Magnet assembly mechanism, Magnet can be carried out rapid batch group and stand.

For reaching above-mentioned technical purpose and effect, the present invention is achieved through the following technical solutions:

A kind of stamp Magnet mechanism for Magnet assembly mechanism, is made up of Material distribution platform, cutting plate, horizontal pulling device and hold-down devices, Described cutting plate is arranged on the bottom of described Material distribution platform, and described horizontal pulling device is arranged on the front of described Material distribution platform, described under press Device is positioned 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 blanking District and hold-down devices working area, each described Magnet discharging area the most vertically offers 5 staggered Magnet runners, often The all overall concave downward in individual 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 friendships The Magnet entrance of staggered arrangement row, the lower surface of described cutting plate offers 5 Magnet outlets side by side, and the outlet of each described Magnet is all Cutting plate described in up/down perforation；Described Magnet entrance is positioned at one end of described Magnet sub-material runner, and the outlet of described Magnet is positioned at institute State the other end of Magnet sub-material runner；The bottom of described Material distribution platform is provided with 3 described cutting plates, and each described cutting plate divides Do not formed upper and lower corresponding with a described shunting zone in described Material distribution platform；Wherein, the described Magnet entrance on described cutting plate With the described Magnet runner one_to_one corresponding on described Magnet discharging area, the described Magnet outlet on described cutting plate is pressed under described Described lower pressing on device working area penetrates hole one_to_one corresponding；

Described horizontal pulling device includes horizontal air cylinder, horizontal air cylinder installing plate, horizontal impelling sheet and horizontal impelling sheet installing plate；Institute State horizontal air cylinder to be fixed on described horizontal air cylinder installing plate, 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 connected with described horizontal impelling sheet； 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 institutes State cutting plate one_to_one corresponding；The front portion of each described horizontal impelling sheet be equipped with 5 advance pins, often organize described propelling pin respectively with 5 described Magnet sub-material runners on respective corresponding described cutting plate are corresponding；

Described hold-down devices includes vertical cylinder, vertical cylinder installing plate, lower pressing and lower platen；Described vertical cylinder is installed On the top of described vertical cylinder installing plate, the bottom of described vertical cylinder installing plate is by two guide rods with described lower platen even Connecing, the push rod of described vertical cylinder is connected through described vertical cylinder installing plate with described lower platen；The front portion of described lower platen Be provided with 3 lower pressing installation sheets, and each described lower pressing installation sheet described with in described Material distribution platform respectively under press Device working area forms upper and lower correspondence；The bottom of each described lower pressing installation sheet is provided with 5 lower pressings, often organize described under It is corresponding that pressing penetrates hole with 5 described lower pressings on respective corresponding described hold-down devices working area respectively.

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 propelling pin cross section.

The operation principle of the present invention is as follows:

The most attracting Magnet is flowed into the described Magnet runner of described Material distribution platform from top to bottom, and is positioned at bottommost one row's Magnet falls in described Magnet sub-material runner via the described Magnet entrance on described cutting plate；Promotion at described horizontal air cylinder Under, in advancing, described in three groups, 5 described Magnet sub-material runners that pin is inserted simultaneously on respective corresponding described cutting plate, and then promote It is positioned at the Magnet of described Magnet sub-material runner, until this row's Magnet to be pushed to the outlet of described Magnet；Owing to described Magnet divides The profile in stream road limits, and therefore every described Magnet sub-material runner can only pass through a Magnet every time；When described Magnet sub-material When pushed to the described Magnet of Magnet in runner exports, under the promotion of described vertical cylinder, 3 described lower pressing installation sheets Embedding in each self-corresponding described hold-down devices working area, described in three groups, lower pressing is inserted simultaneously into respective corresponding described hold-down devices 5 described lower pressings on working area penetrate in hole, and then are inserted simultaneously into 5 described Magnet on respective corresponding described cutting plate In outlet, push down on Magnet；Finally, described lower pressing is by several rows of Magnet extrusion mechanism, and fitly falls into and be positioned at In Magnet tray dish below mechanism.

Beneficial effects of the present invention is as follows:

The stamp Magnet mechanism automaticity for Magnet assembly mechanism of the present invention is high, and efficiency is high, stable, and safety can be effective Replace artificial work, low cost, the application in the processing of the most various electron trades, have compared to traditional artificial pendulum material method Its incomparable advantage.The present invention can ensure that same pole is put the most in the same direction, and accuracy is high, it is not necessary to artificial, just may be used From being about to the orderly separation arrangement of the Magnet of plurality of specifications in tray dish, the vertical dish Magnet (300) of group is time-consumingly about 50s, Ultrahigh in efficiency, being automatically positioned and be all superior to the existing mechanism in market in terms of precision.

Described above is only the general introduction of technical solution of the present invention, in order to better understand the technological means of the present invention, And can be practiced according to the content of description, below with presently preferred embodiments of the present invention and coordinate accompanying drawing describe in detail as after. The detailed description of the invention of the present invention is shown in detail in by following example and accompanying drawing thereof.

Accompanying drawing explanation

Accompanying drawing described herein is used for providing a further understanding of the present invention, constitutes the part of the application, this Bright schematic description and description is used for explaining the present invention, is not intended that inappropriate limitation of the present invention.In the accompanying drawings:

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

Fig. 2 is the overall structure upward view of the present invention；

Fig. 3 is the structural representation of the Material distribution platform of the present invention；

Fig. 4 is the Facad structure schematic diagram of the cutting plate of the present invention；

Fig. 5 is the structure schematic diagram of the cutting plate of the present invention；

Fig. 6 is the side view of the cutting plate of the present invention；

Fig. 7 is the structural representation of the horizontal pulling device of the present invention；

Fig. 8 is the matching relationship schematic diagram advancing pin and cutting plate of the present invention；

Fig. 9 is the structural representation of the hold-down devices of the present invention；

Figure 10 is the lower pressing matching relationship schematic diagram with cutting plate of the present invention.

Detailed description of the invention

Below with reference to the accompanying drawings and in conjunction with the embodiments, the present invention is described in detail.

Seeing 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 positioned at described The front of Material distribution platform 1, described hold-down devices is positioned at the top of described Material distribution platform 1.

Seeing 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 All it is divided into Magnet discharging area and hold-down devices working area in district, each described Magnet discharging area the most vertically offers 5 Staggered Magnet runner 3, all overall concave downward in each described hold-down devices working area, and offer 5 in bottom also The lower pressing of row penetrates hole 4.

Seeing 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 positioned at described Magnet sub-material One end of runner 5, described Magnet outlet 7 is positioned at the other end of described Magnet sub-material runner 5；The bottom of described Material distribution platform 1 is arranged 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, described Magnet entrance on described cutting plate 26 and the described Magnet runner 3 one a pair on described Magnet discharging area 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.

Seeing shown in Fig. 7, Fig. 8, described horizontal pulling device includes that horizontal air cylinder 8, horizontal air cylinder installing plate 9, level advance Sheet 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 Being provided with two slide rails 13 on 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 and 3 described cutting plate 2 one_to_one corresponding；Each described level advances The front portion of sheet 11 is equipped with the propelling pin 14 that 5 is a group, often organize described propelling pin 14 respectively with respective corresponding described cutting plate 2 On 5 described Magnet sub-material runners 5 corresponding.

Seeing shown in Fig. 9, Figure 10, described hold-down devices includes 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 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 hold-down devices working area described with in described Material distribution platform 1 respectively is formed upper and lower corresponding；Often The bottom of individual described lower pressing installation sheet 20 is provided with the lower pressing 17 that 5 is a group, often organize described lower pressing 17 respectively with It is corresponding that 5 described lower pressings on respective corresponding described hold-down devices working area penetrate hole 4.

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 propelling pin 14 cross section.

The most attracting Magnet is flowed into the described Magnet runner 3 of described Material distribution platform 1 from top to bottom, and is positioned 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, pin 14 described in three groups, is advanced to be inserted simultaneously into 5 described Magnet sub-materials on respective corresponding described cutting plate 2 In runner 5, and then promote the Magnet being positioned at described Magnet sub-material runner 5, go out until this row's Magnet is pushed to described Magnet Mouth 7；Owing to the profile of described Magnet sub-material runner 5 limits, therefore every described Magnet sub-material runner 5 every time can only be by one Magnet；When pushed to the described Magnet of Magnet in described Magnet sub-material runner 5 exports 7, pushing away of described vertical cylinder 15 Under Dong, 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 5 the described lower pressings being inserted simultaneously on respective corresponding described hold-down devices working area penetrate in hole 4, and then are inserted simultaneously into each In 5 described Magnet outlets 7 on corresponding described cutting plate 2, push down on Magnet；Finally, described lower pressing 17 is by several rows of Magnet extrusion mechanism, and fitly fall in the Magnet tray dish being positioned at below mechanism.

The foregoing is only the preferred embodiments of the present invention, be not limited to the present invention, for the skill of this area For art personnel, the present invention can have various modifications and variations.All within the spirit and principles in the present invention, that is made any repaiies Change, equivalent, improvement etc., should be included within the scope of the present invention.

Claims (5)

1. the 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) is arranged on the bottom of described Material distribution platform (1), and described horizontal pulling device is arranged on The front of described Material distribution platform (1), described hold-down devices is positioned at the top of described Material distribution platform (1)；

The upper surface of described Material distribution platform (1) 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 the most 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)；

The inside of described cutting plate (2) offers 5 parallel Magnet sub-material runner (5), and the upper surface of described cutting plate (2) is opened Being provided with 5 staggered Magnet entrances (6), the lower surface of described cutting plate (2) offers 5 Magnet outlet (7) side by side, Cutting plate (2) described in each described Magnet outlet (7) all up/down perforations；One end of described Magnet sub-material runner (5) and described magnetic Ferrum entrance (6) connects, and the other end exports (7) and connects with described Magnet；The bottom of described Material distribution platform (1) is provided with described in 3 to be divided Flitch (2), and each described cutting plate (2) forms upper and lower corresponding with a described shunting zone in described Material distribution platform (1) respectively； Wherein, the described Magnet entrance (6) on described cutting plate (2) is with the described Magnet runner (3) on described Magnet discharging area one by one Correspondence, described Magnet outlet (7) on described cutting plate (2) penetrates hole with the described lower pressing on described hold-down devices working area (4) one_to_one corresponding；

Described horizontal pulling device includes that horizontal air cylinder (8), horizontal air cylinder installing plate (9), horizontal impelling sheet (11) and level advance Sheet installing plate (12)；Described horizontal air cylinder (8) is fixed on described horizontal air cylinder installing plate (9), described horizontal air cylinder installing plate (9) being provided with two slide rails (13) on, 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)；It is mounted side by side on described horizontal impelling sheet installing plate (12) There are 3 described horizontal impelling sheets (11), and 3 described horizontal impelling sheets (11) and 3 described cutting plate (2) one_to_one corresponding；Often The front portion of individual described horizontal impelling sheet (11) is equipped with 5 and advances pin (14), under the promotion of described horizontal air cylinder (8), three groups Described propelling pin (14) can be inserted simultaneously into 5 described Magnet sub-material runner (5) on respective corresponding described cutting plate (2) Nei, directly (7) are exported to described Magnet；

Described hold-down devices includes 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), under described vertical cylinder installing plate (16) Portion is connected with described lower platen (18) by two guide rods (19), and the push rod of described vertical cylinder (15) passes described vertical 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) hold-down devices working area described with in described Material distribution platform (1) respectively is formed Lower correspondence；The bottom of each described lower pressing installation sheet (20) is provided with 5 lower pressings (17), in described vertical cylinder (15) Promotion under, 3 described lower pressing installation sheets (20) embed in each self-corresponding described hold-down devices working area, described in three groups under 5 described lower pressings that pressing (17) can be inserted simultaneously on respective corresponding described hold-down devices working area penetrate in hole (4), and then In 5 described Magnet outlet (7) being inserted simultaneously on respective corresponding described cutting plate (2).

2. require the stamp Magnet mechanism for Magnet assembly mechanism described in 1 according to claim, it is characterised in that: described Magnet Runner (3) is identical with the size of described Magnet entrance (6), and the size of the two is all mated with the size of Magnet.

3. require the stamp Magnet mechanism for Magnet assembly mechanism described in 2 according to claim, it is characterised in that: press under described Pin (17) cross section be sized to be slightly smaller than described Magnet runner (3) and the size of described Magnet entrance (6).

4. require the stamp Magnet mechanism for Magnet assembly mechanism described in 1 according to claim, it is characterised in that: described Magnet The height of sub-material runner (5) is equal with the thickness of Magnet.

5. require the stamp Magnet mechanism for Magnet assembly mechanism described in 1 according to claim, it is characterised in that: described propelling The size being sized to be slightly smaller than described Magnet sub-material runner (5) cross section of pin (14) cross section.