CN210362347U - Integrated shingle nail forming die - Google Patents

Abstract

The utility model discloses an integrated shingle nail forming die, which comprises a die neck, a preheating transition plate, a connecting plate and a neck die, wherein one side of the preheating transition plate is provided with the die neck, the other side of the preheating transition plate is provided with the connecting plate, the other side of the connecting plate is connected with the neck die, the preheating transition plate is internally provided with a forming cavity, the die neck is internally provided with a feed inlet which can be matched with the inlet end of the forming cavity, the feed inlet is communicated with the forming cavity, the connecting plate is internally provided with a connecting plate transition cavity which can be matched with the forming cavity, the neck die is internally provided with a forming extrusion opening, the utility model discloses a heating cavity, a heating rod and heat conducting oil are arranged at the upper end and the lower end of the preheating transition plate, the preheating transition plate is heated and preheated by the heating rod, the temperature of the preheating transition plate is improved, the sizing material can not be, the quality of the finished product is improved.

Description

Integrated shingle nail forming die

[ technical field ] A method for producing a semiconductor device

The utility model relates to a technical field of mould, especially integrated shingle nail forming die's technical field.

[ background of the invention ]

The integrated wall surface is an integrated whole house decoration solution provided in 2009 aiming at the defects of house decoration pollution, complicated working procedures and the like, and compared with the traditional house decoration material, the integrated wall surface has the characteristics of convenience in installation, no toxicity, harmlessness, environmental friendliness, sound insulation, flame retardance, attractiveness, elegance and the like, so that the integrated wall surface becomes a house decoration material for hot doors at present. The processing of integrated wall mainly carries out extrusion through passing through the mould with the raw materials, and current extrusion die does not have the autonomous heating function many times, and waste heat when can only extruding the sizing material through the extruder guarantees that the sizing material presents the molten state in the runner, but this will lead to some sizing material can be because of the not enough solidification of temperature, causes the sizing material quality uneven to influence the off-the-shelf quality of plastic.

[ Utility model ] content

The utility model aims at solving the problem among the prior art, provide an integrated shingle nail forming die, can preheat the mould through heating device, the mould can not be because the low sizing material cooling solidification that causes of temperature when initial use improves finished product quality.

In order to realize the purpose, the utility model provides an integrated shingle nail forming die, include the mould neck, preheat cab apron, connecting plate, bush, preheat cab apron one side and be equipped with the mould neck, preheat cab apron opposite side and be equipped with the connecting plate, the connecting plate opposite side be connected with the bush, preheat and be equipped with the shaping chamber in the cab apron, the mould neck in be equipped with can with shaping chamber entry end complex feed inlet, feed inlet and shaping chamber intercommunication, the connecting plate in be equipped with can with shaping chamber complex connecting plate transition chamber, the bush in be equipped with and extrude the mouth by the shaping, connecting plate transition chamber both ends respectively with shaping chamber and shaping and extrude the mouth intercommunication.

Preferably, the upper side and the lower side of the preheating transition plate are respectively provided with a first preheating cavity and a second preheating cavity, the first preheating cavity and the second preheating cavity are filled with heat conduction oil, the opening parts of the first preheating cavity and the second preheating cavity are respectively provided with a preheating cavity cover plate, the preheating cavity cover plate seals the first preheating cavity and the second preheating cavity, the preheating cavity cover plates are detachably connected, the first preheating cavity and the second preheating cavity are respectively provided with a heating rod, the heating rods are transversely arranged, and the power input end of each heating rod penetrates through the side walls of the first preheating cavity and the second preheating cavity and is arranged on the side edge of the preheating transition plate.

Preferably, the upper side and the lower side of the preheating transition plate are respectively provided with a first preheating cavity and a second preheating cavity, the first preheating cavity and the second preheating cavity are filled with heat conduction oil, the opening parts of the first preheating cavity and the second preheating cavity are respectively provided with a preheating cavity cover plate, the preheating cavity cover plate seals the first preheating cavity and the second preheating cavity, the preheating cavity cover plates are detachably connected, the first preheating cavity and the second preheating cavity are respectively provided with a heating rod, the heating rods are transversely arranged, and the power input end of each heating rod penetrates through the side walls of the first preheating cavity and the second preheating cavity and is arranged on the side edge of the preheating transition plate.

Preferably, the upper side and the lower side of the preheating transition plate are respectively provided with a first preheating cavity and a second preheating cavity, the first preheating cavity and the second preheating cavity are filled with heat conduction oil, the opening parts of the first preheating cavity and the second preheating cavity are respectively provided with a preheating cavity cover plate, the preheating cavity cover plate seals the first preheating cavity and the second preheating cavity, the preheating cavity cover plates are detachably connected, the first preheating cavity and the second preheating cavity are respectively provided with a heating rod, the heating rods are transversely arranged, and the power input end of each heating rod penetrates through the side walls of the first preheating cavity and the second preheating cavity and is arranged on the side edge of the preheating transition plate.

Preferably, the die neck, the preheating transition plate, the connecting plate and the die are detachably connected through bolts.

The utility model relates to an integrated shingle nail forming die's beneficial effect: the utility model discloses a will preheat and cross about the cab apron both ends setting heating chamber, heating rod and conduction oil, preheat the cab apron through the heating rod and heat and preheat, improve and preheat the temperature of cab apron, the mould can not be because the temperature crosses low sizing material cooling solidification that causes excessively when initial use, improves the finished product quality.

The features and advantages of the present invention will be described in detail by embodiments with reference to the accompanying drawings.

[ description of the drawings ]

Fig. 1 is a schematic structural view of an integrated shingle nail forming mold according to the present invention;

fig. 2 is a top view cross-sectional view of the integrated shingle nail forming mold of the present invention;

fig. 3 is a schematic structural view of an integrated shingle nail forming mold according to the present invention;

fig. 4 is a front view of the structure of the integrated wall panel forming mold of the present invention;

in the figure: 1-mold neck, 2-preheating transition plate, 3-connecting plate, 4-neck mold, 5-neck mold, 6-preheating cavity cover plate, 7-heating rod, 11-feed inlet, 21-forming cavity, 31-connecting plate transition cavity, 41-forming extrusion opening, 22-first preheating cavity, 23-second preheating cavity and 71-fixed annular sealing baffle plate.

[ detailed description ] embodiments

Referring to fig. 1, 2, 3 and 4, the integrated shingle nail forming die of the present invention comprises a die neck 1, a preheating transition plate 2, a connecting plate 3 and a neck mold 4, wherein the die neck 1 is arranged on one side of the preheating transition plate 2, the connecting plate 3 is arranged on the other side of the preheating transition plate 2, the neck mold 4 is connected to the other side of the connecting plate 3, a forming cavity 21 is arranged in the preheating transition plate 2, a feed inlet 11 which can be matched with the inlet end of the forming cavity 21 is arranged in the die neck 1, the feed inlet 11 is communicated with the forming cavity 21, a connecting plate transition cavity 31 which can be matched with the forming cavity 21 is arranged in the connecting plate 3, a forming extrusion port 41 is arranged in the neck mold 4, both ends of the connecting plate transition cavity 31 are respectively communicated with the forming cavity 21 and the forming extrusion port 41, a first preheating cavity 22 and a second preheating cavity 23 are respectively arranged on the upper and lower sides of the preheating transition plate 2, the preheating device is characterized in that heat conduction oil 5 is filled in the first preheating cavity 22 and the second preheating cavity 23, preheating cavity cover plates 6 are arranged at openings of the first preheating cavity 22 and the second preheating cavity 23, the first preheating cavity 22 and the second preheating cavity 23 are sealed by the preheating cavity cover plates 6, the preheating cavity cover plates 6 are detachably connected, heating rods 7 are arranged in the first preheating cavity 22 and the second preheating cavity 23, the heating rods 7 are transversely arranged, the power input ends of the heating rods 7 penetrate through the side walls of the first preheating cavity 22 and the second preheating cavity 23 and are arranged on the side edge of the preheating transition plate 2, fixed annular sealing baffles 71 are arranged on the power input ends of the heating rods 7, the heating rods 7 are connected with the side edge of the preheating transition plate 2 in a sealing mode through the fixed annular sealing baffles 71, and the height of the forming cavity 21 is gradually reduced from the end close to the connecting plate 3 to the end close to the mold neck 1, the width of the forming cavity 21 is gradually increased from the end close to the mold neck 1 to the end close to the connecting plate 3 to two sides, the cross-sectional area of the forming cavity 21 is gradually reduced from the end close to the mold neck 1 to the end close to the connecting plate 3, and the mold neck 1, the preheating transition plate 2, the connecting plate 3 and the mouth mold 4 are detachably connected through bolts.

The utility model discloses the working process:

the utility model relates to an integrated shingle nail forming die is in the course of the work, install the mould on injection moulding device, injection moulding device moulds plastics in to the mould through feed inlet 11, extrude mouth 41 extrusion moulding through the shaping, can preheat the mould earlier before moulding plastics, control heating rod 7 preheats the conduction oil in chamber 22 and the second preheats chamber 23 to the first, the conduction oil sends the heat and gives and preheats cab apron 2, the mould can not be because the temperature crosses low sizing material cooling solidification that causes when using initially, improve the finished product quality.

The above-mentioned embodiment is right the utility model discloses an explanation, it is not right the utility model discloses a limited, any right the scheme after the simple transform of the utility model all belongs to the protection scope of the utility model.

Claims (5)

1. The utility model provides an integrated shingle nail forming die which characterized in that: comprises a die neck (1), a preheating transition plate (2), a connecting plate (3) and a mouth die (4), one side of the preheating transition plate (2) is provided with a mould neck (1), the other side of the preheating transition plate (2) is provided with a connecting plate (3), the other side of the connecting plate (3) is connected with a mouth mold (4), a molding cavity (21) is arranged in the preheating transition plate (2), a feed inlet (11) which can be matched with the inlet end of the molding cavity (21) is arranged in the mold neck (1), the feed inlet (11) is communicated with the molding cavity (21), a connecting plate transition cavity (31) which can be matched with the molding cavity (21) is arranged in the connecting plate (3), the mouth mold (4) is internally provided with a forming extrusion port (41), and two ends of the connecting plate transition cavity (31) are respectively communicated with the forming cavity (21) and the forming extrusion port (41).

2. An integrated shingle forming die as defined in claim 1 wherein: preheat and cross cab apron (2) upper and lower both sides and be equipped with first preheating chamber (22) and second respectively and preheat chamber (23), first preheating chamber (22) and second preheat chamber (23) in all filled conduction oil (5), first preheating chamber (22) and second preheat chamber (23) opening part and all be equipped with preheating chamber apron (6), preheating chamber apron (6) preheat first preheating chamber (22) and second and preheat chamber (23) and seal, preheating chamber apron (6) can dismantle the connection, first preheating chamber (22) and second preheat chamber (23) in all be equipped with heating rod (7), heating rod (7) transversely set up, the electric power input end of heating rod (7) run through first preheating chamber (22) and second and preheat chamber (23) lateral wall and locate and cross cab apron (2) side.

3. An integrated shingle forming die as defined in claim 2 wherein: the electric power input end of the heating rod (7) is provided with a fixed annular sealing baffle (71), and the heating rod (7) is connected with the side edge of the preheating transition plate (2) in a sealing mode through the fixed annular sealing baffle (71).

4. An integrated shingle forming die as defined in claim 1 wherein: the height of one-tenth die cavity (21) by being close to die neck (1) end to being close to connecting plate (3) end taper reduction, the width of one-tenth die cavity (21) by being close to die neck (1) end to being close to connecting plate (3) end taper to both sides increase, the cross-sectional area of one-tenth die cavity (21) by being close to die neck (1) end to being close to connecting plate (3) end taper reduction.

5. An integrated shingle forming die as defined in claim 1 wherein: the die neck (1), the preheating transition plate (2), the connecting plate (3) and the die (4) are detachably connected through bolts.

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