CN218134866U - Unmanned aerial vehicle motor magnet steel forming die - Google Patents

Abstract

The utility model relates to a magnet steel forming die technical field especially discloses an unmanned aerial vehicle motor magnet steel forming die, including base, cover half and movable mould, fixed mounting is gone up to the base the movable mould, be located on the base the cover half be provided with the support column all around, install the backup pad on the support column, the lower terminal surface of backup pad is installed electric putter, the lower extreme of electric putter is connected the movable mould, the movable mould with the cover half phase-match; a plurality of die cavities are uniformly arranged in the fixed die. The utility model provides an unmanned aerial vehicle motor magnet steel forming die, wherein be provided with a plurality of magnet steel die cavities, this structure greatly increased magnet steel one shot forming's production volume, and then improved production efficiency greatly, the setting of heating piece effectively avoids the single runner of moulding plastics inconvenient that brings when a plurality of magnet steel die cavities of pouring, and then is favorable to making during the liquid of moulding plastics flows the magnet steel die cavity smoothly, is favorable to improving injection moulding's magnetic steel's quality.

Description

Unmanned aerial vehicle motor magnet steel forming die

Technical Field

The utility model relates to a magnet steel forming die technical field especially relates to an unmanned aerial vehicle motor magnet steel forming die.

Background

The most original definition of magnetic steel is alnico, which is synthesized from several hard strong metals, such as fe, al, ni, co, and sometimes cu, nb, and ta, and is used to make super-hard permanent-magnet alloy. The magnetic sensor has different metal components, different magnetic properties and different purposes, and is mainly used in the fields of various sensors, instruments, electronics, electromechanics, medical treatment, teaching, automobiles, aviation, military technology and the like.

In the production of current unmanned aerial vehicle motor magnet steel, the use of mould is indispensable, in process of production, adopts steel mould die cavity usually to in order to guarantee the shaping precision, reduce cracked mould that adopts four caves of a mould usually when using, but four caves still output is less in this method, when needing large-scale production, and efficiency is lower, and single runner of moulding plastics also seems not to be relieved when pouring four caves, consequently not only has increased manufacturing cost, and production efficiency is lower.

To above problem, the utility model provides an unmanned aerial vehicle motor magnet steel forming die.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

The utility model aims to solve the problem lie in to above-mentioned prior art in not enough, provide an unmanned aerial vehicle motor magnet steel forming die, can solve current unmanned aerial vehicle motor magnet steel forming die and adopt the mould in four caves of a mould usually, but four caves still output is less in this method, when needs large-scale production, efficiency is lower, and single runner of moulding plastics also seems not following one's mind when four caves of pouring, consequently has not only increased manufacturing cost, the lower problem of production efficiency.

(II) technical scheme

The utility model provides a technical scheme that above-mentioned technical problem adopted is: an unmanned aerial vehicle motor magnetic steel forming die comprises a base, a fixed die and a movable die, wherein the movable die is fixedly mounted on the base, support columns are arranged on the base and positioned around the fixed die, support plates are mounted on the support columns, electric push rods are mounted on the lower end surfaces of the support plates, the lower ends of the electric push rods are connected with the movable die, and the movable die is matched with the fixed die;

a plurality of die cavities are uniformly arranged in the fixed die; the lower end surface of the movable die is provided with a plurality of lugs aligned with the die cavities, the lower ends of the lugs are provided with steps, and the steps and the die cavities are enclosed to form a magnetic steel die cavity;

the movable mould is characterized in that a plurality of hoses are uniformly arranged on the movable mould, the lower ends of the hoses penetrate through the movable mould and the steps and are aligned with the mould cavities, and heating blocks are arranged on the outer walls of the hoses in the movable mould.

The electric push rod works to push the movable die to be matched with the fixed die, so that the lower end face of the movable die is contacted with the lower end face of the fixed die, the step at the lower end of the lug and the die cavity are enclosed to form a magnetic steel die cavity, at the moment, the lower end of the hose is aligned with the die cavity, and injection molding liquid flows into the magnetic steel die cavity through the hose, so that injection molding is facilitated.

Preferably, evenly be provided with a plurality of through-hole on the movable mould and supply the hose passes, the movable mould up end is located the position in the through-hole outside is provided with the recess, the piece of heating is installed in the recess, the upper end of recess is located the up end buckle of movable mould is connected with the enclosing cover, the hose runs through the enclosing cover.

The heating block is typically connected with a power supply, the heating block is of a circular ring-shaped structure, the hose penetrates through a middle hole of the heating block, and the structure is favorable for enabling the heating block to uniformly heat the hose.

Preferably, a storage tank is fixed on the support plate, and injection molding liquid is stored in the storage tank; the supporting plate is provided with a leakage hole, and the hose penetrates through the leakage hole to be connected with the storage box.

Preferably, a ring groove communicated with the cavity is formed in the cavity on the surface of the fixed die; the lower end of the lug is matched with the annular groove.

Preferably, the upper end surface of the fixed die is located around the die cavity, a connecting table is arranged on the lower end surface of the movable die, a connecting groove matched with the connecting table is arranged on the lower end surface of the movable die, and the connecting groove is matched with the connecting table.

Preferably, the base is provided with a plurality of guide rods at positions around the movable die, the movable die is provided with guide holes matched with the guide rods, the movable die is connected with the guide rods in a sliding manner, and the upper ends of the guide rods are provided with limit pads.

(III) advantageous effects

1. The utility model provides an unmanned aerial vehicle motor magnet steel forming die, wherein be provided with a plurality of magnet steel die cavities, this structure greatly increased magnet steel one shot forming's production volume, and then improved production efficiency greatly, the setting of heating piece effectively avoids the single runner of moulding plastics inconvenient that brings when pouring a plurality of magnet steel die cavities, and then is favorable to making the liquid of moulding plastics smoothly flow to the magnet steel die cavity, is favorable to improving injection moulding's magnetic steel's quality.

2. The utility model provides an unmanned aerial vehicle motor magnet steel forming die, wherein after movable mould and cover half matched with the compound die, mould plastics through the hose, after injection moulding and cooling, drive movable mould rebound and then make the movable mould keep away from the cover half through electric putter, at this moment, the lug leaves mould cavity and annular, the annular exposes, makes things convenient for the staff to take out the magnet steel from the annular this moment.

3. The utility model provides an unmanned aerial vehicle motor magnet steel forming die, wherein connect and mutually support between platform and the spread groove to and the movable mould when removing, movable mould and guide arm sliding connection all are favorable to making movable mould and cover half more accurate when the compound die, avoid taking place the offset between movable mould and the cover half.

Drawings

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

FIG. 2 is a schematic view of the overall cross-sectional structure of the present invention;

fig. 3 is a schematic sectional view of the movable mold and the fixed mold when closing the mold of the present invention.

Wherein: the device comprises a base 1, support columns 11, support plates 12, an electric push rod 13, a guide rod 14, a limiting pad 15, a fixed die 2, a connecting table 20, a movable die 3, a convex block 31, a step 32, a hose 33, a heating block 34, a through hole 35, a groove 36, an outer cover 37, a connecting groove 38, a guide hole 39, a die cavity 4, a magnetic steel die cavity 41, an annular groove 42 and a storage tank 5.

Detailed Description

The following detailed description of the embodiments of the present invention is made with reference to the accompanying drawings and examples. The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention.

Referring to fig. 1-3, an unmanned aerial vehicle motor magnetic steel forming die comprises a base 1, a fixed die 2 and a movable die 3, wherein the movable die 3 is fixedly mounted on the base 1, supporting columns 11 are arranged on the base 1 and positioned around the fixed die 2, supporting plates 12 are mounted on the supporting columns 11, electric push rods 13 are mounted on the lower end surfaces of the supporting plates 12, the lower ends of the electric push rods 13 are connected with the movable die 3, and the movable die 3 is matched with the fixed die 2;

referring to fig. 2-3, a plurality of cavity pockets 4 are uniformly arranged in the fixed mold 2; the lower end surface of the movable mold 3 is provided with a plurality of bumps 31 aligned with the mold cavities 4, the lower ends of the bumps 31 are provided with steps 32, and the steps 32 and the mold cavities 4 enclose to form a magnetic steel mold cavity 41; wherein, the die cavity 4 is provided with nine and the lug 31 is also nine.

A plurality of hoses 33 are uniformly arranged on the movable die 3, the lower ends of the hoses 33 penetrate through the movable die 3 and the step 32 and are aligned with the die cavity 4, and a heating block 34 is arranged on the outer wall of the movable die 3, which is positioned on the hoses 33; wherein the number of the flexible pipes 33 is equal to that of the die cavities 4 and is also nine,

in the above technical scheme, electric putter 13 work, promote movable mould 3 and cover half 2 and cooperate for the lower terminal surface of movable mould 3 contacts with cover half 2 lower terminal surface, the step 32 of lug 31 lower extreme with mould cave 4 encloses and closes and form magnet steel die cavity 41, at this moment, the lower extreme and the die cave 4 of hose 33 are aligned, and the liquid of moulding plastics flows into magnet steel die cavity 41 through hose 33 in, and then make things convenient for injection moulding, and in this structure, nine magnet steel die cavities 41 are formed in the setting of nine die caves 4, and this structure greatly increased magnet steel one shot forming's output, and then improved production efficiency greatly, and the setting of heating piece 34 effectively avoids the inconvenience that single runner of moulding plastics brought when pouring a plurality of magnet steel die cavities 41, and then be favorable to making the liquid of moulding plastics smoothly flow into magnet steel die cavity 41, is favorable to improving injection moulding's magnet steel quality.

A plurality of through holes 35 are uniformly formed in the movable die 3 for the hoses 33 to pass through, a groove 36 is formed in the position, located on the outer side of the through holes 35, of the upper end surface of the movable die 3, the heating block 34 is installed in the groove 36, the upper end of the groove 36 is located on the upper end surface of the movable die 3 and is connected with an outer cover 37 in a buckling mode, and the hoses 33 penetrate through the outer cover 37; the heating block 34 is typically connected to a power supply, the heating block 34 is of a circular ring structure, and the hose 33 passes through a middle hole of the heating block 34, which is beneficial to enabling the heating block 34 to uniformly heat the hose 33.

In the above technical solution, the arrangement of the outer cover 37 and the groove 36 facilitates installation of the heating block 34, and covers the heating block 34, so that the heating block 34 can work conveniently, and the heating block 34 can be prevented from being exposed to affect the work effectively.

A storage tank 5 is fixed on the support plate 12, and injection liquid is stored in the storage tank 5; the supporting plate 12 is provided with a leak hole, and the hose 33 is connected with the storage box 5 through the leak hole; wherein, the storage tank 5 delivers the injection molding liquid to the magnetic steel mold cavity 41 through a hose 33.

A ring groove 42 communicated with the die cavity 4 is formed in the surface, located on the fixed die 2, of the die cavity 4; the lower end of the projection 31 is matched with the annular groove 42.

In the above technical solution, the ring groove 42 and the protrusion 31 are mutually matched, so that the magnetic steel after injection molding is convenient to take down from the mold cavity 4.

At concrete during operation, behind the movable mould 3 and the matched die of cover half 2, mould plastics through hose 33, and after injection moulding and cooling, drive movable mould 3 rebound through electric putter 13 and then make movable mould 3 keep away from cover half 2, at this moment, lug 31 leaves die cavity 4 and annular 42, and annular 42 exposes, makes things convenient for the staff to take out the magnet steel from annular 42 this moment.

The upper end face of the fixed die 2 is located around the die cavity 4 and is provided with a connecting table 20, the lower end face of the movable die 3 is provided with a connecting groove 38 matched with the connecting table 20, and the connecting groove 38 is matched with the connecting table 20.

In the above technical solution, the connection between the movable mold 3 and the fixed mold 2 is increased by the mutual matching between the connecting table 20 and the connecting groove 38, so that the movable mold 3 and the fixed mold 2 are more accurate when the mold is closed, and the position deviation between the movable mold 3 and the fixed mold 2 is avoided.

The guide device is characterized in that a plurality of guide rods 14 are arranged at the periphery of the movable die 3 on the base 1, guide holes 39 matched with the guide rods 14 are formed in the movable die 3, the movable die 3 is in sliding connection with the guide rods 14, and limiting pads 15 are arranged at the upper ends of the guide rods 14.

In the technical scheme, when the movable die 3 moves, the movable die 3 is in sliding connection with the guide rod 14, so that the movable die 3 and the fixed die 2 are more accurate in die assembly, and the position deviation between the movable die 3 and the fixed die 2 is avoided; the limiting pad 15 is arranged to effectively prevent the movable mold 3 from falling off the guide rod 14.

The utility model discloses in be provided with a plurality of magnet steel mold cavities 41, this structure greatly increased magnet steel one shot forming's the amount of production, and then improved production efficiency greatly, the setting of heating piece 34 effectively avoids the single runner of moulding plastics inconvenient that brings when pouring a plurality of magnet steel mold cavities 41, and then is favorable to making during the liquid of moulding plastics flows smoothly magnet steel mold cavity 41, is favorable to improving injection moulding's the quality of magnet steel.

The above is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the technical principle of the present invention, and these improvements and decorations should also be regarded as the protection scope of the present invention.

Claims (6)

1. An unmanned aerial vehicle motor magnetic steel forming die comprises a base (1), a fixed die (2) and a movable die (3), and is characterized in that the movable die (3) is fixedly mounted on the base (1), supporting columns (11) are arranged on the base (1) and located around the fixed die (2), a supporting plate (12) is mounted on the supporting columns (11), an electric push rod (13) is mounted on the lower end face of the supporting plate (12), the lower end of the electric push rod (13) is connected with the movable die (3), and the movable die (3) is matched with the fixed die (2);

a plurality of die cavities (4) are uniformly arranged in the fixed die (2); the lower end face of the movable die (3) is provided with a plurality of bumps (31) aligned with the die cavity (4), the lower end of each bump (31) is provided with a step (32), and the steps (32) and the die cavity (4) are enclosed to form a magnetic steel die cavity (41);

evenly be provided with a plurality of hose (33) on the movable mould (3), the lower extreme of hose (33) runs through movable mould (3) with step (32) and with mould cave (4) align, lie in movable mould (3) the outer wall of hose (33) is provided with heating piece (34).

2. The unmanned aerial vehicle motor magnet steel forming die of claim 1, characterized in that: evenly be provided with a plurality of through-hole (35) confession on movable mould (3) hose (33) are passed, movable mould (3) up end is located the position in through-hole (35) outside is provided with recess (36), install heating piece (34) in recess (36), the upper end of recess (36) is located the up end buckle of movable mould (3) is connected with enclosing cover (37), hose (33) run through enclosing cover (37).

3. The unmanned aerial vehicle motor magnet steel forming die of claim 1, characterized in that: a storage tank (5) is fixed on the support plate (12), and injection molding liquid is stored in the storage tank (5); the supporting plate (12) is provided with a leakage hole, and the hose (33) penetrates through the leakage hole to be connected with the storage box (5).

4. The unmanned aerial vehicle motor magnet steel forming die of claim 1, characterized in that: a ring groove (42) communicated with the die cavity (4) is formed in the surface, located on the fixed die (2), of the die cavity (4); the lower end of the lug (31) is matched with the annular groove (42).

5. The unmanned aerial vehicle motor magnet steel forming die of claim 1, characterized in that: the up end of cover half (2) is located the position all around of mould cave (4) is provided with connects platform (20), the lower terminal surface of movable mould (3) be provided with connect platform (20) assorted spread groove (38), spread groove (38) with connect platform (20) phase-match.

6. The unmanned aerial vehicle motor magnet steel forming die of claim 1, characterized in that: the novel guide die is characterized in that the base (1) is provided with a plurality of guide rods (14) at the periphery of the movable die (3), guide holes (39) matched with the guide rods (14) are formed in the movable die (3), the movable die (3) is connected with the guide rods (14) in a sliding mode, and limiting pads (15) are arranged at the upper ends of the guide rods (14).

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