CN205927109U - Can adjust neodymium iron boron forming die of oriented direction angle wantonly - Google Patents

Abstract

The utility model discloses a can adjust neodymium iron boron forming die of oriented direction angle wantonly, this mould includes ejector half chamber rotary device and die cavity, the die cavity includes the design chamber, ejector half chamber and ejector half cavity fixed mounting board, design intracavity portion is circular hollow structure, ejector half intracavity portion is the hollow structure the same with the preformed compact shape, ejector half chamber cover is established in the design intracavity portion and the chamber rotation of can stereotyping relatively, ejector half chamber lower extreme with ejector half cavity fixed mounting board the interlock be in the same place, ejector half chamber rotary device connects the press in the upper end, the special -shaped pressure head of lower extreme can insert the ejector half chamber and carry out the pressed compact and can drive the ejector half chamber rotatoryly, the utility model relates to a rationally, convenient to use, simple structure, low in manufacturing cost, speed adjusting mould preparation utensil is suppressed soon, improves production efficiency, reduces the cost of manufacture of mould and product.

Description

A kind of molding neodymium iron boron mould that can arbitrarily adjust differently- oriented directivity angle

Technical field

This utility model belongs to mould applications and in particular to a kind of neodymium iron boron that can arbitrarily adjust differently- oriented directivity angle becomes Pattern has.

Background technology

With increasing client, product system design is become single differently- oriented directivity to deflect along certain angle, then group again The pattern of dress, that is, the apparent size of every, an order all equally only differently-s oriented directivity are along certain angle deflection.So result in Actual production needs make multiple blank specifications, or how secondary mould is produced；Material, time resource waste tight Weight, inefficiency.

In order to produce saving manufacturing cost, improve production efficiency in such order specification, devise this mould.Mould Ejector half chamber chamber is used for the Dimensions size needed for shaped article, then leans on relative with the angle of sizing chamber angle scale instruction Rotate and to realize the angular deflection of product differently- oriented directivity.While greatling save Making mold and materials cost, efficiency also carries Gao Liao.

Utility model content

For problems of the prior art, this utility model offer is a kind of can arbitrarily to adjust differently- oriented directivity angle Molding neodymium iron boron mould, has quick adjustment mould and is suppressed, the advantages of improve production efficiency.

For achieving the above object, this utility model employs the following technical solutions：

A kind of molding neodymium iron boron mould that can arbitrarily adjust differently- oriented directivity angle, this mould includes ejector half chamber rotary apparatuss And die cavity, die cavity includes shape chamber, ejector half chamber and ejector half cavity fixed installation plate, and sizing intracavity portion is circular hollow structure, dynamic It is and preformed compact shape identical hollow structure that ejector half chamber is set in sizing intracavity portion and can revolve in sizing chamber relatively inside die cavity Turn, ejector half chamber lower end and ejector half cavity fixed installation plate are interlocked, and ejector half chamber rotary apparatuss upper end connects press, lower end Pressure head is inserted into ejector half chamber to carry out pressed compact and ejector half chamber can be driven to rotate.

Described sizing chamber includes shape cavity, number of degrees graduated disc, the fixing silk hole of ejector half chamber rotation, and number of degrees graduated disc is arranged on Sizing cavity circular hollow structural edge, can measure to the anglec of rotation in ejector half chamber, and the front and rear surfaces of sizing cavity are symmetrical It is provided with the fixing silk hole of ejector half chamber rotation, ejector half chamber can be fixed by ejector half chamber rotary fixing screw silk.

Described ejector half chamber includes ejector half cavity, ejector half chamber number of rotation locating slot and ejector half cavity and fixes prominent, ejector half chamber Number of rotation locating slot is arranged on the top surface edge of ejector half cavity, can coordinate sizing chamber that the anglec of rotation in ejector half chamber is carried out Read, ejector half cavity fixes the projecting bottom periphery in ejector half cavity, be engaged setting with ejector half cavity fixed installation plate, move Cavity fixed installation plate can be fixed with ejector half chamber by installing plate fixed screw.

Ejector half chamber rotary apparatuss include fixed disk, depression bar and pressure head, and fixed disk is fixedly connected on depression bar by fastening screw One end, fixed disk is evenly arranged with depression bar connecting hole, for connecting press, pressure head is fixedly connected on the other end of depression bar.

It is provided with rotating hole, rotating hole is used for rotating depression bar in the middle part of described depression bar.

The shape of described pressure head is identical with the inner hollow section in ejector half chamber.

The inner hollow section in described ejector half chamber can be rectangle, fan-shaped or trapezoidal.

Compared with prior art, the beneficial effects of the utility model are：This utility model is reasonable in design, easy to use, knot Structure is simple, low cost of manufacture, can quickly adjust mould and be suppressed, and improve production efficiency reduces the making of mould and product Cost.

Brief description

Fig. 1 is ejector half chamber of the present utility model rotary device structure schematic diagram.

Fig. 2 is the exploded perspective view of cavity structure of the present utility model.

Fig. 3 vertically places overall schematic for ejector half chamber of the present utility model rotary apparatuss.

Fig. 4 is ejector half chamber of the present utility model rotary apparatuss horizontal positioned overall schematic.

Fig. 5 is sizing chamber of the present utility model and ejector half cavity combining body schematic diagram.

Fig. 6 is sizing chamber of the present utility model and ejector half cavity combining body sectional view.

Specific embodiment

With reference to implementation example and accompanying drawing, the utility model is described in further detail, but it is new should not to limit this practicality with this The protection domain of type.

As shown in Fig. 1 Fig. 6, the present embodiment can arbitrarily adjust the molding neodymium iron boron mould of differently- oriented directivity angle, this mould Tool includes ejector half chamber rotary apparatuss and die cavity, and ejector half chamber rotary apparatuss include fixed disk 1, depression bar 2 and pressure head 3, and fixed disk 1 passes through Fastening screw 5 is fixedly connected on one end of depression bar 2, and fixed disk 1 is evenly arranged with 4 depression bar connecting holes 4, and pressure head 3 is fixing even It is connected on the other end of depression bar 2, die cavity includes shape chamber, ejector half chamber and ejector half cavity fixed installation plate 9, and sizing intracavity portion is circle Hollow structure, ejector half intracavity portion is and preformed compact shape identical hollow structure that ejector half chamber is enclosed within sizing intracavity portion, under ejector half chamber Portion is fixedly connected ejector half cavity by installing plate fixed screw 2 10 and fixedly mounts plate 9, and ejector half chamber lower end and ejector half cavity are fixed Installing plate 9 is interlocked.

Preferably, being provided with rotating hole 6 in the middle part of the present embodiment depression bar 2, rotating hole 6 is used for rotating depression bar 2.

The present embodiment sizing chamber includes shape cavity 7, number of degrees graduated disc 11, the fixing silk hole 12 of ejector half chamber rotation and ejector half chamber Rotary fixing screw silk 1, number of degrees graduated disc 11 is arranged on sizing cavity circular hollow structural edge, table before and after sizing cavity 7 Face is laid from above and is both provided with 2 ejector half chambeies rotation fixation silk hole 12 successively, and ejector half chamber rotary fixing screw silk 1 is arranged on dynamic In the fixing silk hole 12 of die cavity rotation；Ejector half chamber includes ejector half cavity 8, ejector half chamber number of rotation locating slot 14 and ejector half cavity and fixes Prominent 15, ejector half chamber number of rotation locating slot 14 is arranged on the top surface edge of ejector half cavity 8, ejector half cavity fixing prominent 15 Be arranged on ejector half cavity bottom periphery, the fixing prominent 15 occlusion ejector half cavitys fixed installation plates 9 of ejector half cavity.

The inside in the present embodiment ejector half chamber is the pressed compact cross sectional shape of concrete molding, or is rectangle, or is sector, or is it His arbitrary pressed compact cross sectional shape.

The present embodiment installation method：

A, die cavity is installed：Ejector half cavity 8 is inserted in sizing cavity 7, ejector half cavity fixed installation plate 9 is installed and uses screw Fixing, screw in ejector half chamber rotary fixing screw silk 1 in sizing cavity 7 both sides, be installed between press cartridge.

B, ejector half chamber rotary apparatuss are installed：Depression bar 2 is penetrated in fixed disk 1, screws in fastening screw 5, then pressure head 3 is installed On depression bar 2, then fixed disk 1 is installed on press, and so that pressure head 3 is entered in the hollow chamber in ejector half chamber.

C, adjustment angle：Rotate so as to drive ejector half chamber and ejector half chamber in the rotating hole 6 inserting depression bar 2 with a crow bar Rotary apparatuss rotate simultaneously, make ejector half chamber number of rotation locating slot 14 rotate to the institute of instruction on sizing chamber number of degrees graduated disc 11 Need the number of degrees, then screw each fastening screw 5 on die cavity and pressure head, fixed system.Needs if adjustment angle, unclamp again Each fastening screw 5, rotates to specified angle, fixing.

Although above-described embodiment makes specific descriptions to this utility model, for those of ordinary skill in the art For it is understood that can within without departing from spirit and scope of the present utility model be based on this utility model disclosed in interior Hold and modify or improve, these modification and improvement are all within spirit and scope of the present utility model.

Claims (7)

1. a kind of molding neodymium iron boron mould that can arbitrarily adjust differently- oriented directivity angle it is characterised in that：This mould includes ejector half Chamber rotary apparatuss and die cavity, die cavity includes shape chamber, ejector half chamber and ejector half cavity fixed installation plate（9）, sizing intracavity portion is circle Shape hollow structure, ejector half intracavity portion is and preformed compact shape identical hollow structure, and ejector half chamber is set in sizing intracavity portion can Rotate relative to sizing chamber, ejector half chamber lower end and ejector half cavity fixedly mount plate（9）It is interlocked, ejector half chamber rotary apparatuss upper end Connect press, the pressure head of lower end（3）It is inserted into ejector half chamber to carry out pressed compact and ejector half chamber can be driven to rotate.

2. a kind of molding neodymium iron boron mould that can arbitrarily adjust differently- oriented directivity angle according to claim 1, its feature It is：Described sizing chamber includes cavity of shaping（7）, number of degrees graduated disc（11）, the fixing silk hole of ejector half chamber rotation（12）, number of degrees scale Disk（11）It is arranged on sizing cavity（7）Circular hollow structural edge, can measure to the anglec of rotation in ejector half chamber, cavity of shaping （7）Front and rear surfaces be symmetrically arranged with the fixing silk hole of ejector half chamber rotation（12）, ejector half chamber rotary fixing screw silk one can be passed through（13） Fixing ejector half chamber.

3. a kind of molding neodymium iron boron mould that can arbitrarily adjust differently- oriented directivity angle according to claim 1, its feature It is：Described ejector half chamber includes ejector half cavity（8）, ejector half chamber number of rotation locating slot（14）Fixing with ejector half cavity prominent （15）, ejector half chamber number of rotation locating slot（14）It is arranged on ejector half cavity（8）Top surface edge, sizing chamber can be coordinated to dynamic The anglec of rotation of die cavity is read out, and ejector half cavity is fixing prominent（15）It is arranged on ejector half cavity（8）Bottom periphery, with ejector half Cavity fixedly mounts plate（9）Occlusion setting, ejector half cavity fixedly mounts plate（9）Installing plate fixed screw two can be passed through（10）With dynamic Die cavity is fixed.

4. a kind of molding neodymium iron boron mould that can arbitrarily adjust differently- oriented directivity angle according to claim 1, its feature It is：Ejector half chamber rotary apparatuss include fixed disk（1）, depression bar（2）And pressure head（3）, fixed disk（1）By fastening screw（5）Gu Surely it is connected to depression bar（2）One end, fixed disk（1）On be evenly arranged with depression bar connecting hole（4）, for connecting press, pressure head（3） It is fixedly connected on depression bar（2）The other end.

5. a kind of molding neodymium iron boron mould that can arbitrarily adjust differently- oriented directivity angle according to claim 4, its feature It is：Described depression bar（2）Middle part is provided with rotating hole（6）, rotating hole（6）For rotating depression bar（2）.

6. a kind of molding neodymium iron boron mould that can arbitrarily adjust differently- oriented directivity angle according to claim 1, its feature It is：Described pressure head（3）Shape identical with the inner hollow section in ejector half chamber.

7. a kind of molding neodymium iron boron mould that can arbitrarily adjust differently- oriented directivity angle according to claim 1, its feature It is：The inner hollow rectangular cross-section in described ejector half chamber, fan-shaped or trapezoidal.