CN210115443U - Car take-up pulley support mould - Google Patents
Car take-up pulley support mould Download PDFInfo
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- CN210115443U CN210115443U CN201920502230.6U CN201920502230U CN210115443U CN 210115443 U CN210115443 U CN 210115443U CN 201920502230 U CN201920502230 U CN 201920502230U CN 210115443 U CN210115443 U CN 210115443U
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Abstract
An automobile tension pulley support die comprises a fixed die core arranged on one side of the middle part of a fixed die base plate, a movable die core arranged on the middle part of a movable die base plate, an ejector plate, a side surface bottom hole forming sliding block and die feet, wherein tooth-shaped exhaust blocks are further arranged on the other sides of the fixed die core and the movable die core and communicated with a die-casting space; the side bottom hole forming sliding block is arranged between the side face of the die-casting space, the fixed die bottom plate and the movable die bottom plate, the side bottom hole forming sliding block stretches out a section of bottom hole forming block to the die-casting space, and the distance of the forming block stretching into the die-casting space is adjustable. The utility model is provided with the tooth-shaped exhaust block at the other side of the fixed die core and the movable die core, and the tooth-shaped exhaust block is communicated with the die casting space to ensure the stable gas exhaust; the fixed die bottom plate and the movable die bottom plate are connected together through a guide mechanism formed by matching the guide pillars with the guide sleeves, so that the stability of the movable die bottom plate and the fixed die bottom plate in the machining process can be ensured, and the separation of the two bottom plates is not influenced.
Description
Technical Field
The utility model belongs to the technical field of the die casting die and specifically relates to a car take-up pulley support mould.
Background
The die-casting die is an important process device for producing various industrial products, and with the rapid development of the design industry of the die-casting die and the popularization and application of precision parts in the industrial departments of aviation, aerospace, electronics, machinery, ships, automobiles and the like, the requirements of products on the die are higher and higher, and the traditional die-casting die design method cannot meet the requirements of product updating and quality improvement.
Disclosure of Invention
The utility model aims to solve the above problem, provide a car take-up pulley support mould, specifically realize by following technical scheme:
an automobile tension pulley bracket die comprises a fixed die core arranged on one side of the middle part of a fixed die base plate, a movable die core arranged on the middle part of a movable die base plate, an ejector pin plate, a side surface bottom hole forming slide block and a die pin, wherein the movable die base plate is fixedly connected with the die pin and forms a movable space between the movable die base plate and the die pin, and the ejector pin plate is positioned in the movable space; the fixed die base plate is opposite to the movable die base plate, so that the fixed die core is opposite to the movable die core, a die-casting space is formed between the fixed die core and the movable die core, and a shunting cone positioned between the fixed die base plate and the movable die base plate is arranged on one side of the fixed die core and one side of the movable die core; a material cylinder is arranged on one side of the top of the fixed die base plate, the material cylinder is connected with a bushing downwards, the bushing penetrates through the fixed die base plate downwards, the bushing is provided with a main runner, the main runner is communicated with the spreader cones through two branch runners, the spreader cones are communicated with a die-casting space, tooth-shaped exhaust blocks are further arranged on the other sides of the fixed die core and the movable die core, and the tooth-shaped exhaust blocks are communicated with the die-casting space; the die-casting die further comprises a pouring gate, the pouring gate is arranged on the upper surface of the material cylinder, the pouring thickness of the pouring gate is more than or equal to 3.5mm, a triangular notch is formed in the outer surface of the pouring gate, a position close to the pouring gate in the die is a product increasing and feeding channel, the feeding channel is a multi-stage variable-volume channel, the cross-sectional area of the variable-volume channel gradually increases from outside to inside, and meanwhile, an internal extraction conversion structure is arranged in the die-casting space to help demoulding; the bottom hole forming block is a small sliding block, two circulating cooling water channels are arranged in the small sliding block, a channel is formed in the small sliding block and used for accommodating the water channels, the two circulating cooling water channels are converged inwards from two ends of the small sliding block to the middle of the small sliding block, and a water outlet is formed in the middle of the small sliding block; the edges of the movable mould kernel and the fixed mould kernel in the die-casting space are provided with profiling cooling structures, and the cooling structures are attached to narrow protruding parts of the mould.
Preferably, the inner parts of the fixed mold core and the movable mold core are respectively provided with a water cooling channel for containing cooling water.
Preferably, the branch flow channels are cross-shaped and symmetrically arranged on two sides of the main flow channel.
Preferably, the fixed die bottom plate and the movable die bottom plate are connected together through a guide mechanism formed by matching of a guide pillar and a guide sleeve.
The utility model discloses set up the spreader cone in the side of movable mould benevolence, cover half benevolence, connect the die-casting space by the spreader cone, add man-hour from the material jar unloading, get into the spreader cone after sprue to the sprue reposition of redundant personnel, the spreader cone can improve the trend of molten metal, the shaping of casting piece in the die-casting space of real-time control, simultaneously still can reduce the production in die-casting in-process gas pocket, the opposite side of cover half benevolence and movable mould benevolence still is equipped with profile of tooth exhaust piece, profile of tooth exhaust piece intercommunication die-casting space, in the in-process that cover half benevolence and movable mould benevolence are foldd, gas can be discharged from the well, a plurality of gas pockets in the die-casting piece can be caused to the untimely exhaust, and the exhaust should not too fast simultaneously, also produce harmful effects to the shaping of die-casting piece easily; the die casting die also comprises a side bottom hole forming slider arranged on the side of the die casting space and between the fixed die bottom plate and the movable die bottom plate, wherein the side bottom hole forming slider extends out of a section of bottom hole forming block into the die casting space, and the distance of the forming block extending into the die casting space is adjustable, so that one process is saved for processing the bottom hole on the side of the product, the forming block can be adjusted to more conveniently process bottom holes with different specifications, and the problem that the extending feet of the product are easy to deform in the production process of the product is solved; the utility model also comprises a pouring gate, the pouring gate is arranged on the upper surface of the material cylinder, the pouring gate is controlled to be more than or equal to 3.5mm in thickness, the present high-speed die casting production is more and more considered, the pouring gate is controlled to be more than or equal to 3.5mm in thickness, which is enough to meet the requirement of high-speed die casting, the outer surface of the pouring gate is provided with a triangular notch, which is more convenient for the pouring gate to be removed after the die casting is finished, the triangular notch is arranged on the outer surface of the pouring gate when the pouring gate is removed, thus the force on the surface of the pouring gate is unbalanced, the force on the pouring gate can be concentrated on the triangular notch, the triangular shape can better destroy the contact surface between the notch and the pouring gate, the pouring gate can be removed more efficiently, in the process of producing products, the far end of the pouring gate can substitute a large amount of air and lead to, thereby lead to the product defective rate to improve, in order to solve this gas pocket problem, the utility model discloses a position that the mould is inside to be close to the runner increases the feeding passageway for the product, this feeding passageway is multistage varactor passageway, from outside-in feeding passageway's cross-sectional area grow gradually, the feeding has a process of adaptation step by step like this, can not bring in a large amount of air because the passageway aperture increases suddenly and the feed liquid can't adapt to the change of volume when feeding, thereby solve the gas pocket problem, such structure can lead to the drawing of patterns difficulty simultaneously, the utility model discloses be equipped with inside in the die-casting space and take out conversion structure to help the drawing of patterns; the bottom hole forming block is specifically a small sliding block, two circulating cooling water channels are arranged inside the small sliding block, a channel is formed inside the small sliding block and used for accommodating the water channels, the two circulating cooling water channels are converged from the two ends of the small sliding block inwards to the middle of the small sliding block, a water outlet is formed in the middle of the small sliding block, and compared with a traditional mold, a circulating water channel is arranged outside the sliding block; the edge of the inside movable mould benevolence in die-casting space and decide mould benevolence is equipped with profile modeling cooling structure, and the narrow bulge of cooling structure laminating mould, traditional some cold charge is put the inflow and is few, and is poor to the mould cooling effect, and the narrow bulge of mould is because the heat is concentrated when die-casting, and the heat dissipation difficulty arouses the sticking die, the utility model discloses a profile modeling cooling structure improves the cooling water yield greatly, increases cooling heat transfer area, improves the mould cooling effect, avoids the product sticking die.
Drawings
Fig. 1 is a schematic structural diagram of the present invention.
Fig. 2 is a top view of the present invention.
In the figure: 1. a fixed die bottom plate; 2. fixing a mold core; 3. a movable mold base plate; 4. a movable mould core; 5. an ejector plate; 6. a mould leg; 7. a die casting space; 8. a spreader cone; 9. a material cylinder; 10. a toothed exhaust block; 11. a gate; 12. forming a sliding block through a side bottom hole; 13. a bottom hole forming block; 14. a profiling cooling structure.
Detailed Description
Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present invention, and should not be construed as limiting the present invention.
In the description of the present invention, unless otherwise specified and limited, it is to be understood that the terms "mounted," "connected," and "connected" are used in a broad sense and can be, for example, mechanically or electrically connected, or can be connected by two elements through internal communication, either directly or indirectly via an intermediate medium. The specific meaning of the above terms can be understood by those of ordinary skill in the art as appropriate.
The following describes an automobile tension pulley support die according to an embodiment of the present invention with reference to fig. 1 to 2, including a fixed die core 2 disposed on one side of the middle of a fixed die base plate 1, a movable die core 4 disposed in the middle of a movable die base plate 3, an ejector plate 5, a side bottom hole forming slider 12 and a die leg 6, wherein the movable die base plate 3 is fixedly connected with the die leg 6 and forms a movable space therebetween, and the ejector plate 5 is located in the movable space; the fixed die base plate 1 is opposite to the movable die base plate 3, so that the fixed die core 2 is opposite to the movable die core 4, a die-casting space 7 is formed between the fixed die core 2 and the movable die core 4, and a shunting cone 8 positioned between the fixed die base plate 1 and the movable die base plate 3 is arranged on one side of the fixed die core 2 and one side of the movable die core 4; a material cylinder 9 is arranged on one side of the top of the fixed die base plate 1, the material cylinder 9 is connected with a bushing downwards, the bushing penetrates through the fixed die base plate 1 downwards, the bushing is provided with a main runner, the main runner is communicated with the sprue spreader 8 through two branch runners, the sprue spreader 8 is communicated with a die-casting space 7, a tooth-shaped exhaust block 10 is further arranged on the other side of the fixed die core 2 and the movable die core 4, and the tooth-shaped exhaust block 10 is communicated with the die-casting space 7; the side bottom hole forming slide block 12 is arranged on the side surface of the die-casting space 7 and between the fixed die base plate 1 and the movable die base plate 3, the side bottom hole forming slide block 12 extends into the die-casting space 7 for a section to form a bottom hole forming block 13, the distance of the forming block 13 extending into the die-casting space 7 is adjustable, a reinforcing rib is arranged between two legs of the fixed die core 2 close to a product, the die-casting die further comprises a pouring gate 11, the pouring gate 11 is arranged on the upper surface of the material cylinder 9, the pouring thickness of the pouring gate 11 is more than or equal to 3.5mm, a triangular notch is arranged on the outer surface of the pouring gate 11, a position close to the pouring gate in the die is a product feeding channel, the feeding channel is a multistage variable-volume channel, the cross-sectional area of the feeding channel is gradually increased from the outside to the inside; the bottom hole forming block 13 is a small sliding block, two circulating cooling water channels are arranged in the small sliding block, a channel is formed in the small sliding block to accommodate the water channels, the two circulating cooling water channels are converged inwards from two ends of the small sliding block to the middle of the small sliding block, and a water outlet is formed in the middle of the small sliding block; the edges of the movable mould core 4 and the fixed mould core 2 in the die-casting space 7 are provided with a profiling cooling structure 14, and the cooling structure 14 is attached to the narrow convex part of the mould.
Preferably, the inner parts of the fixed die core 2 and the movable die core 4 are respectively provided with a water cooling channel for containing cooling water.
Preferably, the branch flow channels are cross-shaped and symmetrically arranged on two sides of the main flow channel.
Preferably, the fixed die bottom plate 1 and the movable die bottom plate 3 are connected together through a guide mechanism formed by matching a guide pillar and a guide sleeve.
The utility model discloses set up the spreader cone in the side of movable mould benevolence, cover half benevolence, connect the die-casting space by the spreader cone, add man-hour from the material jar unloading, get into the spreader cone after sprue to the sprue reposition of redundant personnel, the spreader cone can improve the trend of molten metal, the shaping of casting piece in the die-casting space of real-time control, simultaneously still can reduce the production in die-casting in-process gas pocket, the opposite side of cover half benevolence and movable mould benevolence still is equipped with profile of tooth exhaust piece, profile of tooth exhaust piece intercommunication die-casting space, in the in-process that cover half benevolence and movable mould benevolence are foldd, gas can be discharged from the well, a plurality of gas pockets in the die-casting piece can be caused to the untimely exhaust, and the exhaust should not too fast simultaneously, also produce harmful effects to the shaping of die-casting piece easily; the die casting die also comprises a side bottom hole forming slider arranged on the side of the die casting space and between the fixed die bottom plate and the movable die bottom plate, wherein the side bottom hole forming slider extends out of a section of bottom hole forming block into the die casting space, and the distance of the forming block extending into the die casting space is adjustable, so that one process is saved for processing the bottom hole on the side of the product, the forming block can be adjusted to more conveniently process bottom holes with different specifications, and the problem that the extending feet of the product are easy to deform in the production process of the product is solved; the utility model also comprises a pouring gate, the pouring gate is arranged on the upper surface of the material cylinder, the pouring gate is controlled to be more than or equal to 3.5mm in thickness, the present high-speed die casting production is more and more considered, the pouring gate is controlled to be more than or equal to 3.5mm in thickness, which is enough to meet the requirement of high-speed die casting, the outer surface of the pouring gate is provided with a triangular notch, which is more convenient for the pouring gate to be removed after the die casting is finished, the triangular notch is arranged on the outer surface of the pouring gate when the pouring gate is removed, thus the force on the surface of the pouring gate is unbalanced, the force on the pouring gate can be concentrated on the triangular notch, the triangular shape can better destroy the contact surface between the notch and the pouring gate, the pouring gate can be removed more efficiently, in the process of producing products, the far end of the pouring gate can substitute a large amount of air and lead to, thereby lead to the product defective rate to improve, in order to solve this gas pocket problem, the utility model discloses a position that the mould is inside to be close to the runner increases the feeding passageway for the product, this feeding passageway is multistage varactor passageway, from outside-in feeding passageway's cross-sectional area grow gradually, the feeding has a process of adaptation step by step like this, can not bring in a large amount of air because the passageway aperture increases suddenly and the feed liquid can't adapt to the change of volume when feeding, thereby solve the gas pocket problem, such structure can lead to the drawing of patterns difficulty simultaneously, the utility model discloses be equipped with inside in the die-casting space and take out conversion structure to help the drawing of patterns; the bottom hole forming block is specifically a small sliding block, two circulating cooling water channels are arranged inside the small sliding block, a channel is formed inside the small sliding block and used for accommodating the water channels, the two circulating cooling water channels are converged from the two ends of the small sliding block inwards to the middle of the small sliding block, a water outlet is formed in the middle of the small sliding block, and compared with a traditional mold, a circulating water channel is arranged outside the sliding block; the edge of the inside movable mould benevolence in die-casting space and decide mould benevolence is equipped with profile modeling cooling structure, and the narrow bulge of cooling structure laminating mould, traditional some cold charge is put the inflow and is few, and is poor to the mould cooling effect, and the narrow bulge of mould is because the heat is concentrated when die-casting, and the heat dissipation difficulty arouses the sticking die, the utility model discloses a profile modeling cooling structure improves the cooling water yield greatly, increases cooling heat transfer area, improves the mould cooling effect, avoids the product sticking die.
In the description herein, references to the description of "one embodiment," "an example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.
While embodiments of the present invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.
Claims (4)
1. An automobile tension pulley support die is characterized by comprising a fixed die core arranged on one side of the middle part of a fixed die base plate, a movable die core arranged in the middle part of a movable die base plate, an ejector plate, a side surface bottom hole forming sliding block and a die pin, wherein the movable die base plate is fixedly connected with the die pin, a movable space is formed between the movable die base plate and the die pin, and the ejector plate is positioned in the movable space; the fixed die base plate is opposite to the movable die base plate, so that the fixed die core is opposite to the movable die core, a die-casting space is formed between the fixed die core and the movable die core, and a shunting cone positioned between the fixed die base plate and the movable die base plate is arranged on one side of the fixed die core and one side of the movable die core; a material cylinder is arranged on one side of the top of the fixed die base plate, the material cylinder is connected with a bushing downwards, the bushing penetrates through the fixed die base plate downwards, the bushing is provided with a main runner, the main runner is communicated with the spreader cones through two branch runners, the spreader cones are communicated with a die-casting space, tooth-shaped exhaust blocks are further arranged on the other sides of the fixed die core and the movable die core, and the tooth-shaped exhaust blocks are communicated with the die-casting space; the die-casting die further comprises a pouring gate, the pouring gate is arranged on the upper surface of the material cylinder, the pouring thickness of the pouring gate is more than or equal to 3.5mm, a triangular notch is formed in the outer surface of the pouring gate, a position close to the pouring gate in the die is a product increasing and feeding channel, the feeding channel is a multi-stage variable-volume channel, the cross-sectional area of the variable-volume channel gradually increases from outside to inside, and meanwhile, an internal extraction conversion structure is arranged in the die-casting space to help demoulding; the bottom hole forming block is a small sliding block, two circulating cooling water channels are arranged in the small sliding block, a channel is formed in the small sliding block and used for accommodating the water channels, the two circulating cooling water channels are converged inwards from two ends of the small sliding block to the middle of the small sliding block, and a water outlet is formed in the middle of the small sliding block; the edges of the movable mould kernel and the fixed mould kernel in the die-casting space are provided with profiling cooling structures, and the cooling structures are attached to narrow protruding parts of the mould.
2. The mold according to claim 1, wherein the cavity insert and the core insert are provided with water cooling channels for containing cooling water therein, respectively.
3. The mold according to claim 2, wherein the branch runners are cross-shaped and symmetrically arranged on both sides of the main runner.
4. The mold according to claim 1, wherein the fixed mold bottom plate and the movable mold bottom plate are connected together through a guide mechanism formed by matching guide posts and guide sleeves.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201920502230.6U CN210115443U (en) | 2019-04-15 | 2019-04-15 | Car take-up pulley support mould |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201920502230.6U CN210115443U (en) | 2019-04-15 | 2019-04-15 | Car take-up pulley support mould |
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Publication Number | Publication Date |
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CN210115443U true CN210115443U (en) | 2020-02-28 |
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201920502230.6U Active CN210115443U (en) | 2019-04-15 | 2019-04-15 | Car take-up pulley support mould |
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CN (1) | CN210115443U (en) |
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2019
- 2019-04-15 CN CN201920502230.6U patent/CN210115443U/en active Active
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