CN218425143U - Various cooling and heat dissipation's continuous forming die - Google Patents

Various cooling and heat dissipation's continuous forming die Download PDF

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Publication number
CN218425143U
CN218425143U CN202220999295.8U CN202220999295U CN218425143U CN 218425143 U CN218425143 U CN 218425143U CN 202220999295 U CN202220999295 U CN 202220999295U CN 218425143 U CN218425143 U CN 218425143U
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reinforcing
shell
cooling
die
limiting
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CN202220999295.8U
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Chinese (zh)
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曹宏斌
王桂平
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Suzhou Hongguangxing Electronic Technology Co ltd
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Suzhou Hongguangxing Electronic Technology Co ltd
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Abstract

The utility model discloses a various cooling heat dissipation's continuous forming die, concretely relates to mould technical field, which comprises a base, the top of base is provided with cooling forming mechanism, cooling forming mechanism is including setting up the mounting panel at the base top, the outside of mounting panel is provided with a plurality of backup pads. The utility model discloses a set up cooling forming mechanism, the refrigeration subassembly refrigeration and through the produced low temperature quick transmission of copper pipe with the refrigeration subassembly, make mould cavity and the cooling water rapid cooling who strengthens between the shell, avoid the material fracture deformation when carrying out continuous stamping forming, and when the inner wall of material cross mould cavity takes place deformation, the kicking block can contact with the fashioned material outside through the transition chamber pipe, the kicking block takes place slight displacement in the transition chamber pipe, make the fashioned material in the die cavity ejecting, the overall design is simple, and is rational in infrastructure, when the mould radiating cooling effect is good, make things convenient for staff's operation more, and convenient to use.

Description

Various cooling and heat dissipation's continuous forming die
Technical Field
The utility model relates to the technical field of mold, more specifically say, the utility model relates to a various radiating continuous forming die of cooling.
Background
In short, the die is a tool for manufacturing a formed article, the tool is composed of various parts, different dies are composed of different parts, and the processing of the appearance of the article is realized mainly through the change of the physical state of a formed material.
At present, when materials are subjected to continuous stamping forming by using the conventional forming die, the die can generate certain heat due to the fact that the die and the materials are mutually rubbed for many times, so that the materials are easily cracked and deformed during the continuous stamping forming, for example, aluminum profiles have the defect of low cooling performance.
SUMMERY OF THE UTILITY MODEL
In order to overcome the above-mentioned defect of prior art, the embodiment of the utility model provides a various cooling radiating continuous forming die, refrigerate through refrigeration subassembly and through the produced low temperature rapid transfer of copper pipe with refrigeration subassembly, make mould cavity and strengthen the cooling water rapid cooling between the shell, avoid the material deformation of ftractureing when carrying out continuous stamping forming, the overall design is simple, and is rational in infrastructure, when mould heat dissipation cooling effect is good, make things convenient for the staff operation more, convenient to use, in order to solve the problem that proposes among the above-mentioned background art.
In order to achieve the above object, the utility model provides a following technical scheme: a continuous forming die with various cooling and heat dissipation functions comprises a base, wherein a cooling forming mechanism is arranged at the top of the base;
the cooling forming mechanism comprises a mounting plate arranged at the top of the base, a plurality of support plates are arranged on the outer side of the mounting plate, reinforcing shells are arranged at the tops of the support plates, a supporting plate connected with an external press is arranged at the top of each reinforcing shell, and a pressing module for pressing and forming materials is arranged at the bottom of each supporting plate;
a die cavity matched with the die block is arranged in the reinforcing shell, and a reinforcing limiting ring is arranged between the outer side of the die cavity and the reinforcing shell;
the top of mounting panel is provided with a plurality of refrigeration subassemblies that are used for cooling down the die cavity, the inner wall bottom of strengthening the shell and have a plurality of copper pipes along the axle center point circumference distribution of strengthening the shell, and is a plurality of the one end of refrigeration subassembly extends to in the copper pipe.
In a preferred embodiment, a transition cavity tube communicated with the reinforcement shell is arranged outside the mold cavity and inside the reinforcement shell, a clamping groove is arranged on one side of the top of the mounting plate, a top column penetrating through the transition cavity tube and extending into the reinforcement shell is clamped inside the clamping groove, and a top block is arranged at one end of the top column and at the joint of the reinforcement shell and the transition cavity tube.
In a preferred embodiment, the inner wall of the reinforcing spacing ring is provided with a transition hole matched with the transition cavity tube, the outer sides of the reinforcing spacing ring and the reinforcing shell are both provided with a plurality of spacing grooves, and the bottom of the base is provided with a plurality of spacing clamping pieces respectively matched with the spacing grooves.
In a preferred embodiment, a plurality of reinforcing rods are arranged on the top of the mounting plate, a plurality of limiting sleeves are arranged on the bottom of the inner wall of the reinforcing shell, the tops of the limiting sleeves are in contact with the die cavity, and one ends of the reinforcing rods penetrate through the reinforcing shell and extend into the die cavity.
In a preferred embodiment, a surface side of the reinforcing shell is provided with a reinforcing cylinder communicated with the reinforcing shell and used for conducting flow.
In a preferred embodiment, the base, the mounting plate, the support plate, the reinforcement shell, the mold cavity, the reinforcement cage, and the reinforcement cage are all made of stainless steel.
The utility model discloses a technological effect and advantage:
1. through arranging the cooling forming mechanism, compared with the prior art, cooling water is injected into a cavity between the die cavity and the reinforcing shell through a copper pipe, and is cooled by the cooling component and quickly transferred at low temperature generated by the cooling component through the copper pipe, so that the cooling water between the die cavity and the reinforcing shell is quickly cooled, the cracking and deformation of materials during continuous punch forming are avoided, and when the inner wall of the material passing through the die cavity is deformed, the top block can be contacted with the outer side of the formed material through the transition cavity pipe to support the formed material, the top column is pulled to drive the top block to slightly displace in the transition cavity pipe, so that the formed material in the die cavity can be ejected;
2. through setting up the enhancement spacing collar, the spacing groove, spacing card, the stiffener and, strengthen the setting of spacing collar, make mould cavity and enhancement shell can the whole of articulamentum, use through the corresponding cooperation of spacing groove and spacing card simultaneously, can lead to and spacing effect to the moulding-die piece, avoid pressing the module and taking place the displacement when pressurizeing the material, increase the fashioned effect of material, and use through mutually supporting of stiffener and, can play the performance of stable support to the mould cavity, increase the bearing performance of mould cavity.
Drawings
Fig. 1 is a schematic view of the overall structure of the present invention.
Fig. 2 is a cross-sectional view of the overall structure of the present invention.
Fig. 3 is an exploded view of the whole structure of the present invention.
Figure 4 is a front view of the reinforcement shell and mold cavity of the present invention.
The reference signs are: 1. a base; 2. mounting a plate; 3. a support plate; 4. a reinforcement shell; 5. pressing the module; 6. A mold cavity; 7. a reinforcing limiting ring 8 and a refrigerating assembly; 9. a copper pipe; 10. a transition lumen; 11. a card slot; 12. a top pillar; 13. a top block; 14. a transition hole; 15. a limiting groove; 16. a limiting card; 17. a support plate; 18. a reinforcing rod; 19. a reinforcement cylinder; 20. a position-limiting sleeve.
Detailed Description
The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.
The continuous forming die with various cooling and heat dissipation functions as shown in the attached figures 1-4 comprises a base 1, wherein a cooling forming mechanism is arranged at the top of the base 1;
the cooling forming mechanism comprises a mounting plate 2 arranged at the top of the base 1, a plurality of support plates 3 are arranged on the outer side of the mounting plate 2, reinforcing shells 4 are arranged at the tops of the support plates 3, a supporting plate 17 connected with an external press is arranged at the top of each reinforcing shell 4, and a pressing module 5 for pressing and forming materials is arranged at the bottom of each supporting plate 17;
a die cavity chamber 6 matched with the die block 5 is arranged in the reinforcing shell 4, and a reinforcing limiting ring 7 is arranged between the outer side of the die cavity chamber 6 and the reinforcing shell 4;
the top of mounting panel 2 is provided with a plurality of refrigeration subassemblies 8 that are used for carrying out the cooling to the die cavity 6, strengthens the inner wall bottom of shell 4 and has a plurality of copper pipes 9 along the axle center point circumference distribution of shell 4, and a plurality of refrigeration subassemblies 8's one end extends to in the copper pipe 9.
Referring to the attached drawings 1, 3 and 4, a transition cavity tube 10 communicated with a reinforcing shell 4 is arranged outside a mold cavity 6 and in the reinforcing shell 4, a clamping groove 11 is arranged on one side of the top of a mounting plate 2, a top column 12 penetrating through the transition cavity tube 10 and extending into the reinforcing shell 4 is clamped in the clamping groove 11, a top block 13 is arranged at one end of the top column 12 and at the joint of the reinforcing shell 4 and the transition cavity tube 10, the clamping groove 11 and the transition cavity tube 10 are arranged, the interference between the reinforcing shell 4 and the mold cavity 6 and the top column 12 is staggered, meanwhile, due to the arrangement of the top block 13, the material formed in the reinforcing shell 4 can be jacked up and down through the top column 12 conveniently, and workers can take materials conveniently.
Referring to the attached drawings 1, 3 and 4, a transition hole 14 matched with the transition cavity tube 10 is formed in the inner wall of the reinforcing limiting ring 7, a plurality of limiting grooves 15 are formed in the outer sides of the reinforcing limiting ring 7 and the reinforcing shell 4, a plurality of limiting clamping pieces 16 respectively matched with the limiting grooves 15 are arranged at the bottom of the base 1, the limiting grooves 15 can play a role in transition, the staggered pressing module 5 is attached to the cavity chamber 6 for use, the interference between the limiting clamping pieces 16 and the reinforcing shell 4 can play a role in guiding and limiting the pressing module 5, and the effect of the material during compression molding is further improved.
Referring to fig. 2, 3 and 4, the top of the mounting plate 2 is provided with a plurality of reinforcing rods 18, the bottom of the inner wall of the reinforcing shell 4 is provided with a plurality of limiting sleeves 20, the tops of the limiting sleeves 20 are in contact with the die cavity 6, one ends of the reinforcing rods 18 penetrate through the reinforcing shell 4 and extend into the limiting sleeves 20, the reinforcing rods 18 and the limiting sleeves 20 are correspondingly matched for use, the die cavity 6 can be supported, the stability of the die cavity 6 in the reinforcing shell 4 is improved, and the bearing performance of the die cavity 6 is further improved.
Referring to fig. 1 and 2, a reinforcing cylinder 19 communicated with the reinforcing shell 4 and used for guiding flow is arranged on one side of the surface of the reinforcing shell 4, and the arrangement of the reinforcing cylinder 19 can play a role in guiding the flow inside the reinforcing shell 4, so that external cooling water can be conveniently guided into the reinforcing shell 4 and guided out of the reinforcing shell 4.
Referring to fig. 1, 2, 3 and 4, the base 1, the mounting plate 2, the supporting plate 3, the reinforcing shell 4, the die cavity 6, the reinforcing limiting ring 7 and the limiting sleeve 20 are all made of stainless steel, and the stainless steel has good hardness and is not easy to deform, so that the service life of the mechanism can be effectively prolonged.
The utility model discloses the theory of operation: firstly, the working personnel install the device manufactured by the utility model at the appointed position, when in use, the supporting plate 17 is connected with an external press, one end of the reinforcing cylinder 19 is connected with an external water pump, when the material is formed, cooling water is injected into a cavity between the die cavity 6 and the reinforcing shell 4 through the copper pipe 9 by the external water pump, and simultaneously, the cooling water is quickly cooled by the cooling component 8 and the low temperature generated by the cooling component 8 is quickly transmitted through the copper pipe 9, so that the cooling water between the die cavity 6 and the reinforcing shell 4 is quickly cooled, the cooling of the die cavity 6 is completed, and the material is prevented from cracking and deforming when being subjected to continuous punch forming;
and the material is placed on die cavity 6, start through outside press, drive layer board 17 drives pressure module 5 downward displacement, pressurize the material, and take place deformation through the inner wall of die cavity 6, kicking block 13 can contact with the fashioned material outside through transition chamber pipe 10, support the fashioned material, and when pressure module 5 breaks away from in die cavity 6, break off top post 12 with the fingers and thumb, drive kicking block 13 and take place slight displacement in transition chamber pipe 10, make the fashioned material in the die cavity 6 ejecting.
The points to be finally explained are: first, in the description of the present application, it should be noted that, unless otherwise specified and limited, the terms "mounted," "connected," and "connected" should be understood broadly, and may be a mechanical connection or an electrical connection, or a communication between two elements, and may be a direct connection, and "upper," "lower," "left," and "right" are only used to indicate a relative positional relationship, and when the absolute position of the object to be described is changed, the relative positional relationship may be changed;
secondly, the method comprises the following steps: in the drawings of the disclosed embodiments of the present invention, only the structures related to the disclosed embodiments are referred to, and other structures can refer to common designs, and under the condition of no conflict, the same embodiment and different embodiments of the present invention can be combined with each other;
and finally: the above description is only for the preferred embodiment of the present invention and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. The utility model provides a radiating continuous forming die of various cooling, includes base (1), its characterized in that: the top of the base (1) is provided with a cooling forming mechanism;
the cooling forming mechanism comprises a mounting plate (2) arranged at the top of a base (1), a plurality of support plates (3) are arranged on the outer side of the mounting plate (2), reinforcing shells (4) are arranged at the tops of the support plates (3), a supporting plate (17) connected with an external press is arranged at the top of each reinforcing shell (4), and a pressing module (5) used for pressing and forming materials is arranged at the bottom of each supporting plate (17);
a die cavity chamber (6) matched with the die block (5) is arranged in the reinforcing shell (4), and a reinforcing limit ring (7) is arranged between the outer side of the die cavity chamber (6) and the reinforcing shell (4);
the top of mounting panel (2) is provided with a plurality of refrigeration subassemblies (8) that are used for carrying out the cooling to mould cavity (6), the inner wall bottom of strengthening shell (4) just distributes along the axle center point circumference of strengthening shell (4) has a plurality of copper pipes (9), and is a plurality of the one end of refrigeration subassembly (8) extends to in the copper pipe (9).
2. A multiple cooling and heat dissipating continuous forming die as claimed in claim 1, wherein: a transition cavity tube (10) communicated with the reinforcing shell (4) is arranged on the outer side of the mold cavity (6) and located in the reinforcing shell (4), a clamping groove (11) is arranged on one side of the top of the mounting plate (2), a top column (12) penetrating through the transition cavity tube (10) and extending into the reinforcing shell (4) is connected in the clamping groove (11) in a clamping mode, and a top block (13) is arranged at one end of the top column (12) and located at the connecting position of the reinforcing shell (4) and the transition cavity tube (10).
3. A multiple cooling and heat dissipating continuous forming die as claimed in claim 1, wherein: transition holes (14) matched with the transition cavity tube (10) are formed in the inner wall of the reinforcing limiting ring (7), a plurality of limiting grooves (15) are formed in the outer sides of the reinforcing limiting ring (7) and the reinforcing shell (4), and a plurality of limiting clamping pieces (16) respectively matched with the limiting grooves (15) are arranged at the bottom of the base (1).
4. A multiple cooling and heat dissipating continuous forming die as claimed in claim 1, wherein: the top of the mounting plate (2) is provided with a plurality of reinforcing rods (18), the bottom of the inner wall of the reinforcing shell (4) is provided with a plurality of limiting sleeves (20), the tops of the limiting sleeves (20) are in contact with the die cavity (6), and one ends of the reinforcing rods (18) penetrate through the reinforcing shell (4) and extend into the limiting sleeves (20).
5. A multiple cooling and heat dissipating continuous forming die as claimed in claim 1, wherein: and one side of the surface of the reinforcing shell (4) is provided with a reinforcing cylinder (19) which is communicated with the reinforcing shell (4) and is used for guiding flow.
6. A multiple cooling and heat dissipating continuous forming die as claimed in claim 4, wherein: the base (1), the mounting plate (2), the support plate (3), the reinforcing shell (4), the die cavity chamber (6), the reinforcing limiting ring (7) and the limiting sleeve (20) are all made of stainless steel.
CN202220999295.8U 2022-04-27 2022-04-27 Various cooling and heat dissipation's continuous forming die Active CN218425143U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202220999295.8U CN218425143U (en) 2022-04-27 2022-04-27 Various cooling and heat dissipation's continuous forming die

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202220999295.8U CN218425143U (en) 2022-04-27 2022-04-27 Various cooling and heat dissipation's continuous forming die

Publications (1)

Publication Number Publication Date
CN218425143U true CN218425143U (en) 2023-02-03

Family

ID=85079680

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202220999295.8U Active CN218425143U (en) 2022-04-27 2022-04-27 Various cooling and heat dissipation's continuous forming die

Country Status (1)

Country Link
CN (1) CN218425143U (en)

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