CN201374490Y - Semi-automatic pressing injection mould of diverter - Google Patents
Semi-automatic pressing injection mould of diverter Download PDFInfo
- Publication number
- CN201374490Y CN201374490Y CN200920116516U CN200920116516U CN201374490Y CN 201374490 Y CN201374490 Y CN 201374490Y CN 200920116516 U CN200920116516 U CN 200920116516U CN 200920116516 U CN200920116516 U CN 200920116516U CN 201374490 Y CN201374490 Y CN 201374490Y
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- mould
- die cavity
- plate
- material chamber
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Abstract
The utility model discloses a semi-automatic pressing injection mould of a diverter, which comprises a mould plate, an extrusion material chamber, a mould cavity location plate and a base. A material pressing block is connected to the mould plate, the pressing material block matches with a cavity of the extrusion material chamber, a guide column and a first pull rod are fixed on the mould plate, a second pull rod is fixed on the base, a guide hole, a first guide hole and a second guide hole are respectively arranged on the extrusion material chamber to enable the guide column, the first pull rod and the second pull rod to run through, a mould core is disposed on the base, and a first mould hole matching with the mould core is arranged on the mould cavity location plate. The semi-automatic pressing injection mould of the diverter is characterized in that a slidable mould cavity is disposed on the mould cavity location plate, a second mould hole corresponding to the first mould hole is disposed on the mould cavity, an oblique guide rod is arranged on the base, and a groove matching with the oblique guide rod is arranged on the mould cavity. The structure of the semi-automatic pressing injection mould of the diverter is capable of guiding the mould cavity by the aid of guidance function of the oblique guide rod after the mould is demoulded, portable moving-out of the mould cavity from the mould cavity location plate is achieved, and labor intensity of workers is lessened.
Description
Technical field
The utility model relates to a kind of compression moulding die of commutator.
Background technology
Commutator is when making, and pressure injection is a necessary operation, just in the copper shell with graphite phenolic moulding powder injection in other words commutator.At present, the operational sequence more complicated of its pressure injection.It at first will be placed on die cavity on the mold cores with hand before pressure injection, and then pressing mold material chamber is placed on the die cavity with hand, with copper billet mould is closed tightly, and then opens, and the material cake is put into the material chamber subdue, to certain hour, mould is opened.Its transfer mould material chamber has two kinds, and a kind of is that the injection material chamber is unloaded by anchor clamps in the mould both sides with both sides stationary fixture dress hydraulic press; Another kind is with cylinder rams the material chamber to be pressed down, and scoops out with hand before unloading, and takes out and uses the thimble fixed head, send pressure injection mouth waste material on the specific hydraulic machine equipment, not only loses time but also take resource.The transfer mould material chamber of above-mentioned two kinds of structures all wants the operator with hand die cavity and material chamber to be taken into and taken out, and safety is caused certain hidden danger, and the life-span of mould is caused damage.And the weight of die cavity and material chamber respectively reaches 10 kilograms, and for the operator, its labour intensity is bigger.
The utility model content
In view of the deficiency that background technology exists, the technical problems to be solved in the utility model provides a kind of assurance operator safety, easy operating, the semi-automatic pressure injection molds of commutator that reduces labor intensity.
For this reason, the utility model is realized by the following technical solutions: a kind of semi-automatic pressure injection molds of commutator, comprise template, the pressing material chamber, die cavity location-plate and base, be connected with binder block on the described template, the cavity coupling of described binder block and described pressing material chamber, be fixed with the guide pillar and first pull bar on the described template, be fixed with second pull bar on the described base, be respectively arranged with on the described pressing material chamber for described guide pillar, the guide hole that first pull bar and second pull bar pass, first guide hole and second guide hole, and base is provided with core rod, described die cavity location-plate is provided with first nib with described core rod coupling, it is characterized in that described die cavity location-plate is provided with the die cavity that can slide, this die cavity is provided with second nib corresponding with described first nib, on described base, be provided with inclined guide, on described die cavity, be provided with short slot with described inclined guide coupling; Described die cavity location-plate is provided with chute, and described die cavity places on the die cavity location-plate movably by described chute; Described pressing material chamber is provided with first spring, is provided with steel ball in the end of described first spring, and described steel ball becomes movingly with the end of described guide pillar; Be with second spring on described first pull bar, and described second spring is provided with between die cavity location-plate and the described pressing material chamber.
Structure of the present utility model, when the demoulding, utilize the effect of inclined guide, die cavity is moved, treat the complete demoulding after, the operator only needs light die cavity is taken out, do not need as die cavity and die cavity location-plate were taken out simultaneously in the past, easy operating has alleviated labour intensity, has saved workload and time, and handling safety, the life-span of mould also improves greatly.
Description of drawings
Further describe relevant details of the present utility model below more in conjunction with the accompanying drawings.
Fig. 1 is a structure chart of the present utility model;
Fig. 2 is the structure chart of the utility model pressing material chamber;
Fig. 3 is the structure chart of the utility model die cavity;
Fig. 4 is the structure chart of the utility model die cavity location-plate;
Fig. 5 is the structure chart of the utility model base;
Fig. 6 is the cutaway view of the utility model pressing material chamber;
Fig. 7 is the structure chart of the utility model first pull bar;
Fig. 8 is the structure chart of the utility model second pull bar;
Fig. 9 is the structure chart before the utility model commutator product pressure injection;
Figure 10 is the structure chart after the utility model commutator product pressure injection.
Embodiment
With reference to accompanying drawing, this semi-automatic pressure injection molds of commutator, comprise template 1, pressing material chamber 4, die cavity location-plate 12 and base 9, be connected with binder block 3 on the described template 1, described binder block 3 mates with the cavity 15 of described pressing material chamber 4, be fixed with four guide pillars 2 and four first pull bars 13 on the described template 1, be fixed with two second pull bars 11 on the described base 9, be respectively arranged with on the described pressing material chamber 4 for described guide pillar 2, the guide hole 17 that first pull bar 13 and second pull bar 11 pass, first guide hole 16 and second guide hole 18, and base 9 is provided with core rod 10, described die cavity location-plate 12 is provided with first nib 21 with described core rod 10 couplings, and be provided with for described guide pillar 2, the guide hole (not marking among the figure) that first pull bar 13 and second pull bar 11 pass, described die cavity location-plate 12 is provided with the die cavity 7 that can slide, this die cavity 7 is to slide like this: described die cavity location-plate 12 is provided with chute 22, the side of described die cavity 7 has flange 20, described die cavity 7 inserts described chute 22 by described flange 20 and can place on the die cavity location-plate 12, pulling die cavity 7 just can skid off from chute 22, be highly susceptible to operation, this die cavity 7 is provided with and the second corresponding nib 19 of described first nib 21, make second nib 19 also corresponding, be convenient to pressure injection with described core rod 10; On described base 9, be provided with inclined guide 24, on described die cavity 7, be provided with short slot 27 with described inclined guide 24 couplings; When die cavity location-plate 12 moved up and down, this inclined guide 24 just can promote die cavity 7; Described pressing material chamber 4 is provided with first spring 26, is provided with steel ball 25 in the end of described first spring 26, and described steel ball 25 becomes movingly with the end of described guide pillar 13; Be with second spring 5 on described first pull bar 2, and described second spring 5 is provided with between die cavity location-plate 12 and the described pressing material chamber 4.
When the utility model is worked, at first will need the commutator casing of pressure injection to place on the die cavity 7, and die cavity 7 is placed on the die cavity location-plate 12 by the mobile of chute 22, and in the cavity 15 of pressing material chamber 4, add phenolic moulding powder, the hydraulic test that cooperates with the utility model presses down template 1, when template 1 presses down, because guide pillar 13 is subjected to the pressure of template 1, be not enough to overcome the elastic force of first spring 26, make the steel ball 25 of spring 26 ends of winning withstand guide pillar 2, make guide pillar 2 drive pressing material chamber 4 and glide; The downslide of pressing material chamber 4, because the effect of second spring 5, to promote die cavity location-plate 12 glides, when the die cavity location-plate slides into for 12 times when contacting with base 9, in place in first nib 21 of core rod 10 on the base 9 on die cavity location-plate 12, in place in second nib 19 on die cavity 7 simultaneously, when die cavity location-plate 12 contacts with base 9, continue to glide in pressing material chamber 4, until contacting with die cavity location-plate 12, when pressing material chamber 4 with after die cavity location-plate 12 contacts, because hydraulic test continues template 1 application of force, make the guide pillar 13 on the template 1 can overcome the elastic force of first spring 5, steel ball 25 is headed in the spring eye of pressing material chamber 4, and make guide pillar 13 pass guide hole 17, template 1 continues to glide, because binder block 3 on the template 1 and the cavity of pressing material chamber 4 15 couplings make binder block 3 be pressed into the cavity 15 of pressing material chamber 4, the phenolic moulding powder in the pressing material chamber body 15 are injected in the commutator casing on the die cavity 7.Then, because the effect of hydraulic test, to draw on the template 1, because binder block 3 extruding phenolic moulding powder, make binder block 3 and pressing material chamber body 15 form one " viscous force ", simultaneously, also, core rod 10 also has bigger frictional force in first nib 21 on the die cavity location-plate 12 because being enclosed within, so, during the demoulding, when hydraulic test imposes the power of drawing to template 1, simultaneously because the effect of second spring 5 between pressing material chamber 4 and the die cavity location-plate 12 at first is that die cavity location-plate 12 separates with pressing material chamber 4, when pressing material chamber 4 rises to desired location, the top of second pull bar 11 is provided with in the second card cap, 28, the second guide holes 18 second ladder 29, so, when pressing material chamber 4 rises to certain position, the second card cap 28 blocks second ladder 29, make pressing material chamber 4 to rise, and template 1 continues to rise.When template 1 continues to rise, the first card cap 31 of first pull bar, 2 ends blocks first ladder (not drawing among the figure) on the die cavity location-plate 12, making the pull bar 2 of winning drive die cavity location-plates 12 breaks away from core rods 10 and rises, its first ladder is at the back side of die cavity location-plate 12 shown in Figure 4, and structure is identical with described second ladder.When die cavity location-plate 12 rises, because inclined guide 24 is mobile in the short slot 27 of die cavity 7, and stir die cavity 7, make die cavity 7 in the chute 22 of die cavity location-plate 12, move; And when die cavity location-plate 12 rose to certain height, four lower link bars 8 on the base 9 were held die cavity location-plate 12 again, made it can not be up; This moment, template 1 continued to rise, and made the chamber 15 that binder block 3 breaks away from pressing material chambers 4.Then, the operator takes out die cavity 7, and the commutator casing taking-up that pressure injection is good on the die cavity 7 is got final product.Simple to operation, reduced labour intensity, and as safe as a house, the useful life of having improved mould simultaneously.
Claims (4)
1, a kind of semi-automatic pressure injection molds of commutator, comprise template (1), pressing material chamber (4), die cavity location-plate (12) and base (9), be connected with binder block (3) on the described template (1), described binder block (3) mates with the cavity (15) of described pressing material chamber (4), be fixed with guide pillar (13) and first pull bar (2) on the described template (1), be fixed with second pull bar (11) on the described base (9), be respectively arranged with on the described pressing material chamber (4) for described guide pillar (13), the guide hole (17) that first pull bar (2) and second pull bar (13) pass, first guide hole (16) and second guide hole (18), and base (9) is provided with core rod (10), described die cavity location-plate (12) is provided with first nib (21) with described core rod (10) coupling, it is characterized in that described die cavity location-plate (12) is provided with the die cavity (7) that can slide, this die cavity (7) is provided with second nib (19) corresponding with described first nib (21), on described base (9), be provided with inclined guide (24), on described die cavity (7), be provided with short slot (27) with described inclined guide (24) coupling.
2, semi-automatic pressure injection molds of commutator according to claim 1 is characterized in that described die cavity location-plate (12) is provided with chute (22), and described die cavity (7) places on the die cavity location-plate (12) movably by described chute (22).
3, semi-automatic pressure injection molds of commutator according to claim 1, it is characterized in that described pressing material chamber (4) is provided with first spring (26), be provided with steel ball (25) in the end of described first spring (26), described steel ball (25) becomes movingly with the end of described guide pillar (13).
4, semi-automatic pressure injection molds of commutator according to claim 1 it is characterized in that being with second spring (5) on described first pull bar (2), and described second spring (5) is provided with between die cavity location-plate (12) and the described pressing material chamber (4).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN200920116516U CN201374490Y (en) | 2009-03-26 | 2009-03-26 | Semi-automatic pressing injection mould of diverter |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN200920116516U CN201374490Y (en) | 2009-03-26 | 2009-03-26 | Semi-automatic pressing injection mould of diverter |
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CN201374490Y true CN201374490Y (en) | 2009-12-30 |
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CN200920116516U Expired - Lifetime CN201374490Y (en) | 2009-03-26 | 2009-03-26 | Semi-automatic pressing injection mould of diverter |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101552420B (en) * | 2009-03-26 | 2010-10-06 | 安固集团有限公司 | Semi-automatic pressure injection molds of commutator |
CN105449488A (en) * | 2014-08-20 | 2016-03-30 | 苏州科固电器有限公司 | Automatic commutator-pressing apparatus |
-
2009
- 2009-03-26 CN CN200920116516U patent/CN201374490Y/en not_active Expired - Lifetime
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101552420B (en) * | 2009-03-26 | 2010-10-06 | 安固集团有限公司 | Semi-automatic pressure injection molds of commutator |
CN105449488A (en) * | 2014-08-20 | 2016-03-30 | 苏州科固电器有限公司 | Automatic commutator-pressing apparatus |
CN105449488B (en) * | 2014-08-20 | 2018-02-13 | 苏州科固电器有限公司 | The automatic pressure setting of commutator |
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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: 20091230 Effective date of abandoning: 20090326 |