CN115647216A - Cooling component and high-precision stamping die - Google Patents

Cooling component and high-precision stamping die Download PDF

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Publication number
CN115647216A
CN115647216A CN202211673562.3A CN202211673562A CN115647216A CN 115647216 A CN115647216 A CN 115647216A CN 202211673562 A CN202211673562 A CN 202211673562A CN 115647216 A CN115647216 A CN 115647216A
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China
Prior art keywords
cooling
pipe
assembly
water
control
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CN202211673562.3A
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CN115647216B (en
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胥骁
耿义林
贺芳
汪美美
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Suzhou Goutech Precision Technology Co ltd
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Suzhou Goutech Precision Technology Co ltd
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Abstract

The invention discloses a cooling assembly and a high-precision stamping die.A lower module cooling assembly is arranged in a lower module to cool and radiate the lower module, and an upper module cooling assembly is arranged to be matched with a butt joint assembly and a regulation and control assembly to cool and radiate an upper module; and can divide into first regulation and control subassembly and second regulation and control subassembly to the regulation and control subassembly that sets up on the connecting pipe, not only can realize quantitative control, the speed that rethread second control motor drove the second carousel rotation is different, can realize carrying out quantitative control to the volume of different cooling waters, has fine work flexibility, according to actual cooling work demand, under the prerequisite of guaranteeing its cooling work, the water economy resource improves whole work economic benefits.

Description

Cooling component and high-precision stamping die
Technical Field
The invention relates to the technical field of stamping dies, in particular to a cooling assembly and a high-precision stamping die.
Background
The stamping die is a special process device for processing materials (metal or nonmetal) into parts (or semi-finished products) in cold stamping processing, and is called as a cold stamping die (commonly called as a cold stamping die); stamping is a press working method in which a die mounted on a press is used to apply pressure to a material at room temperature to cause separation or plastic deformation of the material, thereby obtaining a desired part.
The method comprises the following steps of (1) disclosing a high-precision bearing stamping die for Chinese patent documents with the prior publication number of CN210966656U and the publication number of 20200710; the die is improved and optimized aiming at the problems that when the existing stamping die is used, the die needs to be detached through mechanical tension after stamping due to the stamping forming condition, and the die is easy to generate the conditions of flower drawing damage and the like in the detaching process, so that the service life of the die is influenced, and the die is easy to generate larger heat in the stamping forming process, so that the damage condition is generated when the die is stamped for a long time, and the inconvenience is brought to the use of people; namely, through the punching press buffer gear who sets up, can be when the mould punching press, elasticity through inside reset spring self, with the inside of the ejecting punching press locating hole of punching press locating bearing, avoid appearing the damaged condition such as friction spangle between the in-process punching press locating bearing that strikes and the punching press locating hole, and the mechanical equipment that can also be convenient for carries out the split with the mould, thereby the secondary die of being convenient for uses, through the cooling body who sets up, be connected water pipe and water inlet, and the drain pipe is connected with the outlet, thereby make the water source pass through inside the water inlet entering cooling U type pipe, thereby cool down the mould through cooling U type pipe, carry thermal water source and discharge through the outlet again, thereby accomplish cooling work, thereby can be convenient for the long-time use of mould.
According to the scheme, flowing water flow is adopted to cool the lower module, but in the actual stamping process, on one hand, heat can be generated in the upper module, and a corresponding heat dissipation cooling mechanism is not arranged for the upper module, so that certain heat can be accumulated in the repeated stamping process, and the stamping work can be influenced; on the other hand, lower module adopts cooling U type pipe to inlay wherein, and the cooling water through the circulation carries out cooling to it, but its cooling U type pipe is longer in module flow path down, and the heat in its lower module also can transmit the aquatic, and the flow direction of rivers is single, causes cooling inhomogeneous, insufficient very easily, reduces its cooling effect, can not satisfy the in-service use demand.
Therefore, the invention provides a cooling assembly and a high-precision stamping die for solving the problems.
Disclosure of Invention
The present invention is directed to a cooling assembly and a high-precision stamping die, so as to solve the problems of the background art.
In order to achieve the purpose, the invention provides the following technical scheme: a cooling assembly comprises a mold fixing bottom plate and a supporting carrier plate, wherein a lower module cooling assembly is connected and arranged on the mold fixing bottom plate, a lower module is fixedly connected and arranged on the lower module cooling assembly and cools the lower module, positioning pieces are symmetrically and fixedly arranged on the fixing bottom plate and are in adaptive insertion connection with positioning holes, the positioning holes are symmetrically arranged in the supporting carrier plate, an upper module cooling assembly is connected and arranged on the bottom side of the supporting carrier plate, an upper module is fixedly connected and arranged on the bottom side of the upper module cooling assembly, and the upper module cooling assembly is matched with a butt joint assembly and a regulation and control assembly to cool the upper module;
the lower module cooling assembly comprises a first cooling plate, a water inlet connector, a cooling pipe network and a water outlet connector;
the upper module cooling assembly comprises a second cooling plate, a rectangular cooling pipe, a water inlet pipe, a water outlet pipe, a first fixed body, a first placing groove, a first movable plugging block, a first connecting spring and a water through hole;
the butt joint component comprises a supporting rod, a second fixing body, a second placing groove, a second movable plugging block, a second connecting spring, a connecting pipe and a storage body.
Preferably, first cooling plate is fixed to be set up on PMKD, and the fixed module that is provided with down on the first cooling plate, and the scarf joint is provided with the cooling pipe network in the first cooling plate, the both ends of cooling pipe network are connected and are provided with into water connector, both sides connection and are provided with out the water connector, it all scarves fixedly with the connector that intakes to go out the water connector and sets up in first cooling plate.
Preferably, the water outlet connector and the water inlet connector are respectively provided with two groups, the water outlet connector is connected with the water outlet pipe, and the water inlet connector is connected with the water inlet pipe.
Preferably, the second cooling plate is fixedly arranged at the bottom side of the support carrier plate, rectangular cooling pipes are symmetrically embedded and arranged in the second cooling plate, a water inlet pipe is connected and arranged at one end of each rectangular cooling pipe, a water outlet pipe is connected and arranged at the other end of each rectangular cooling pipe, a first fixing body is fixedly arranged at the end parts of the water outlet pipe and the water inlet pipe, the water outlet pipe and the water inlet pipe are communicated and arranged with the first fixing body, a first placing groove is formed in the first fixing body, a first movable plugging block is movably arranged in the first placing groove, a first connecting spring is fixedly arranged at one end of the first movable plugging block, one end of the first connecting spring is fixedly arranged in the first placing groove, and a water through hole is formed in the first fixing body and communicated and arranged with the first placing groove.
Preferably, the supporting rods are symmetrically and fixedly arranged on the mold fixing bottom plate, the end parts of the supporting rods are fixedly provided with second fixing bodies, second placing grooves are formed in the second fixing bodies, second movable plugging blocks are movably arranged in the second placing grooves, one ends of the second movable plugging blocks are fixedly provided with second connecting springs, one ends of the second connecting springs are fixedly arranged in the second placing grooves, the connecting pipes are fixedly connected and arranged on one sides of the second fixing bodies and communicated with the second fixing bodies, and the storage bodies are fixedly arranged on the connecting pipes; and a regulating assembly is arranged in the storage body, wherein a connecting pipe at one end of the fixed bottom plate is connected with the cold water conveying pipe, and a connecting pipe at the other end of the fixed bottom plate is connected with the cold water output pipe.
Preferably, the second fixing body corresponds to the first placing groove in arrangement position and is provided with the same number of groups; the second placing groove is corresponding to the setting position of the first fixing body and has the same number of sets.
Preferably, the connecting pipes correspond to the arrangement positions of the limber holes and the water inlet pipes and are arranged in the same number.
Preferably, the regulation and control assembly can be a first regulation and control assembly which comprises a first control motor, a first rotary disc and a regulation and control through groove; the first control motor is fixedly arranged on the storage body, a rotating shaft is arranged at one end of the first control motor, a first rotating disc is connected and arranged at one end of the rotating shaft, the first rotating disc is movably arranged in the storage body, and regulating through grooves are equidistantly arranged on the first rotating disc; the regulating through grooves are arranged in a round table shape, the diameter of a large-end groove opening of each regulating through groove is the same as that of the connecting pipe, the diameter of a small-end groove opening of each regulating through groove is different, and the purpose of controlling the flow speed and the flow rate of cooling water can be achieved; the regulating through grooves correspond to the arrangement positions of the connecting pipes and are the same in the number of the arrangement groups.
Preferably, the regulation and control assembly can be a second regulation and control assembly which comprises a second control motor, a second rotary disc and an arc quantitative control groove; the second control motor is fixedly arranged on the storage body, a rotating shaft is arranged at one end of the second control motor, a second rotary table is connected and arranged at one end of the rotating shaft, an arc quantitative control groove is arranged in the second rotary table in a penetrating mode, inner side walls at two ends of the arc quantitative control groove are arranged to be arc-shaped surfaces, and the corresponding diameter is equal to the pipe diameter of the connecting pipe.
A high-precision stamping die comprises a cooling assembly.
Compared with the prior art, the invention has the beneficial effects that:
when the high-precision stamping die is cooled, the lower module cooling assembly is arranged in the lower module to cool and radiate the high-precision stamping die, and the upper module cooling assembly is matched with the butt joint assembly and the regulation and control assembly to cool and radiate the upper module, so that the stamping die has a good heat dissipation and cooling effect, the quality of a processed product of the stamping die is guaranteed, and the service life of the stamping die is prolonged; the regulating and controlling components arranged on the connecting pipe can be divided into a first regulating and controlling component and a second regulating and controlling component, the first regulating and controlling component drives the first rotary table to rotate through the first control motor, and the cooling water is controlled through regulating and controlling through grooves with different calibers on the first rotary table, so that the flexible control of the cooling work of the lower module is realized, and the working flexibility of the lower module is improved; to the second regulation and control subassembly, drive the second carousel through the second control motor and rotate a week, through the setting of arc quantitative control groove, not only can realize quantitative control, the speed that rethread second control motor drove the second carousel rotating is different, can realize carrying out quantitative control to the volume of different cooling waters, fine work flexibility has, according to actual cooling work demand, under the prerequisite of guaranteeing its best cooling work, the water economy resource improves whole work economic benefits.
Drawings
FIG. 1 is a right side schematic view of a high precision stamping die cooling assembly structural connection according to the present invention;
FIG. 2 is an enlarged partial view of the structural joint of FIG. 1 according to the present invention;
FIG. 3 is a left side schematic view of a high precision stamping die cooling assembly of the present invention;
FIG. 4 is an enlarged partial view of the structural joint of FIG. 3 according to the present invention;
FIG. 5 is a schematic view of the structural connection of the lower modular cooling assembly of the present invention;
FIG. 6 is a right side schematic view of the upper module cooling assembly in connection with the upper module structure in accordance with the present invention;
FIG. 7 is an enlarged partial view of the structural joint of FIG. 6 according to the present invention;
FIG. 8 is a left side schematic view of the upper module cooling assembly in connection with the upper module structure in accordance with the present invention;
FIG. 9 is a partial cross-sectional view of a structural attachment for the upper module cooling assembly of the present invention;
FIG. 10 is an enlarged partial view of the structural joint of FIG. 9 according to the present invention;
FIG. 11 is a partial sectional view of the structural connection of the docking assembly and the conditioning assembly of the present invention;
FIG. 12 is an enlarged partial schematic view of the structural joint of FIG. 11 according to the present invention;
FIG. 13 is a schematic view of a first regulatory component structure coupled to a front side of the present invention;
FIG. 14 is a schematic view of the first regulatory component of the present invention structurally coupled to the rear side;
FIG. 15 is a schematic structural connection diagram of a second regulatory component according to the present invention.
In the figure: the mold cooling device comprises a mold fixing bottom plate 1, a positioning piece 2, a lower module 3, a support carrier plate 4, a positioning hole 5, an upper module 6, a lower module cooling assembly 7, a first cooling plate 701, a water inlet connector 702, a cooling pipe network 703, a water outlet connector 704, an upper module cooling assembly 8, a second cooling plate 801, a rectangular cooling pipe 802, a water inlet pipe 803, a water outlet pipe 804, a first fixing body 805, a first placing groove 806, a first movable blocking block 807, a first connecting spring 808, a water through hole 809, a butt joint assembly 9, a support rod 901, a second fixing body 902, a second placing groove 903, a second movable blocking block 904, a second connecting spring 905, a connecting pipe 906, a storage body 907, a first regulating and controlling assembly 10, a first controlling motor 1001, a first rotating disc 1002, a regulating and controlling through groove 1003, a second regulating and controlling assembly 11, a second controlling motor 1101, a second rotating disc 1102 and an arc quantitative controlling groove 1103.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below. The embodiments of the present invention, and all other embodiments obtained by a person of ordinary skill in the art without any inventive work, belong to the scope of protection of the present invention.
The first embodiment is as follows: referring to fig. 1-15, a cooling assembly comprises a mold fixing base plate 1 and a supporting carrier plate 4, wherein a lower module cooling assembly 7 is connected and arranged on the mold fixing base plate 1, a lower module 3 is fixedly connected and arranged on the lower module cooling assembly 7, the lower module cooling assembly 7 cools the lower module 3, positioning pieces 2 are symmetrically and fixedly arranged on the fixing base plate 1, the positioning pieces 2 are in adaptive insertion with positioning holes 5, the positioning holes 5 are symmetrically arranged in the supporting carrier plate 4, an upper module cooling assembly 8 is connected and arranged on the bottom side of the supporting carrier plate 4, an upper module 6 is fixedly connected and arranged on the bottom side of the upper module cooling assembly 8, and the upper module cooling assembly 8 is matched with a butt joint assembly 9 and a regulation assembly to cool the upper module 6;
the lower module cooling component 7 comprises a first cooling plate 701, a water inlet connector 702, a cooling network pipe 703 and a water outlet connector 704;
the upper module cooling assembly 8 comprises a second cooling plate 801, a rectangular cooling pipe 802, a water inlet pipe 803, a water outlet pipe 804, a first fixing body 805, a first placing groove 806, a first movable plugging block 807, a first connecting spring 808 and a water through hole 809;
the docking assembly 9 comprises a support rod 901, a second fixed body 902, a second placing groove 903, a second movable blocking block 904, a second connecting spring 905, a connecting pipe 906 and a storage body 907.
First cooling plate 701 is fixed to be set up on PMKD 1, and fixed being provided with down module 3 on first cooling plate 701, and the scarf joint is provided with cooling pipe network 703 in first cooling plate 701, the both ends of cooling pipe network 703 are connected and are provided with into water connector 702, both sides are connected and are provided with out water connector 704, it all scarves fixed the setting in first cooling plate 701 with into water connector 702 to go out water connector 704.
The water outlet connector 704 and the water inlet connector 702 are respectively provided with two groups, the water outlet connector 704 is connected with a water outlet pipe, and the water inlet connector 702 is connected with a water inlet pipe.
The second cooling plate 801 is fixedly arranged at the bottom side of the supporting carrier plate 4, the second cooling plate 801 is symmetrically embedded with a rectangular cooling pipe 802, one end of the rectangular cooling pipe 802 is connected with a water inlet pipe 803, the other end of the rectangular cooling pipe 802 is connected with a water outlet pipe 804, the end parts of the water outlet pipe 804 and the water inlet pipe 803 are fixedly provided with a first fixing body 805, the water outlet pipe 804 and the water inlet pipe 803 are communicated with the first fixing body 805, the first fixing body 805 is provided with a first placing groove 806, a first movable blocking block 807 is movably arranged in the first placing groove 806, one end of the first movable blocking block 807 is fixedly provided with a first connecting spring 808, one end of the first connecting spring 808 is fixedly arranged in the first placing groove 806, and a water through hole 809 is arranged in the first fixing body 805 and is communicated with the first placing groove 806.
The supporting rod 901 is symmetrically and fixedly arranged on the mold fixing bottom plate 1, a second fixing body 902 is fixedly arranged at the end part of the supporting rod 901, a second placing groove 903 is arranged in the second fixing body 902, a second movable blocking block 904 is movably arranged in the second placing groove 903, a second connecting spring 905 is fixedly arranged at one end of the second movable blocking block 904, one end of the second connecting spring 905 is fixedly arranged in the second placing groove 903, a connecting pipe 906 is fixedly connected and arranged at one side of the second fixing body 902 and communicated with the second fixing block 904, and the storage body 907 is fixedly arranged on the connecting pipe 906; and a regulating and controlling assembly is provided in the storage body 907, wherein the connecting pipe 906 of one end of the fixed base plate 1 is connected with the cold water delivery pipe, and the connecting pipe 906 of the other end is connected with the cold water output pipe.
The second fixing bodies 902 correspond to the first placement grooves 806 in arrangement position and are arranged in the same number of groups; the second placement grooves 903 correspond to the first fixing bodies 805 in the same number of sets.
The connecting pipes 906 correspond to the water through holes 809 and the water inlet pipes 803 in the same number of sets.
When the high-precision stamping die is cooled, the lower module cooling assembly 7 is arranged in the lower module 3 to cool and radiate the high-precision stamping die, and the upper module cooling assembly 8 is matched with the butt joint assembly 9 and the regulating assembly to cool and radiate the upper module 6, so that the high-precision stamping die has a good heat dissipation and cooling effect, the quality of a processed product of the stamping die is guaranteed, and the service life of the stamping die is prolonged;
for the lower module cooling assembly 7 in the lower module 3, cooling water enters from the water inlet connectors 702 at the two ends of the first cooling plate 701, is circularly cooled in the cooling pipe network 703 and then exits from the water outlet connectors 704 at the two sides of the first cooling plate, so that the cooling water is prevented from being heated when flowing in the cooling pipe network 703 in the process, and the cooling effect of the lower module 3 is ensured; for the cooling work of the upper module 6, the cooling work is realized by matching the upper module cooling assembly 8 with the butt joint assembly 9 and the regulating assembly, that is, when the stamping work is performed, the first fixing body 805 is clamped with the second placing groove 903 on the second fixing body 902, and meanwhile, the second fixing body 902 is clamped with the first placing groove 806 on the first fixing body 805; the first movable blocking block 807 in the first placing groove 806 and the second movable blocking block 904 in the second placing groove 903 are both squeezed, that is, the first movable blocking block 807 blocks the water through hole 809 and the water inlet pipe 803, at the same time, the blocking of the water outlet pipe 804 at the other end of the second cooling plate 801 is also released, the blocking of the connecting pipe 906 by the second movable blocking block 904 is released, and at the same time, cooling water enters the water inlet pipe 803 from the connecting pipe 906, then enters the rectangular cooling pipe 802 in the second cooling plate 801, and flows out from the water outlet pipe 804 at the other end, so that the cooling and heat dissipation work of the upper module 6 is realized; in the process, the flow velocity and the flow rate of cooling water can be controlled through a regulating and controlling assembly arranged on the connecting pipe 906, after the stamping is finished, the upper module 6 is lifted, the first fixed body 805, the first placing groove 806, the second fixed body 902 and the second placing groove 903 are clamped and released, meanwhile, the first movable blocking block 807 and the second movable blocking block 904 return to the initial positions under the action of the first connecting spring 808 and the second connecting spring 905 respectively, namely the first movable blocking block 807 continues to block the water inlet pipe 803, the water outlet pipe 804 and the water through hole 809, so that the cooling water is left in the rectangular cooling pipe 802 in the second cooling plate 801, and the upper module 6 is cooled and cooled continuously; when the punching operation is performed again, the cooling water in the rectangular cooling pipe 802 is replaced, and the efficient cooling and heat dissipation operation is realized.
Example two: on the basis of the first embodiment, please refer to fig. 12-14, the adjusting and controlling component may be a first adjusting and controlling component 10, which includes a first control motor 1001, a first rotating disc 1002, and an adjusting and controlling through slot 1003; the first control motor 1001 is fixedly arranged on the storage body 907, a rotating shaft is arranged at one end of the first control motor 1001, a first rotating disc 1002 is connected and arranged at one end of the rotating shaft, the first rotating disc 1002 is movably arranged in the storage body 907, and regulating through grooves 1003 are formed in the first rotating disc 1002 at equal intervals; the regulating through grooves 1003 are in a circular truncated cone shape, the diameter of a large-end notch of each regulating through groove 1003 is the same as the diameter of the connecting pipe 906, the diameter of a small-end notch of each regulating through groove 1003 is different, and the purpose of controlling the flow speed and the flow rate of cooling water can be achieved; the regulating through slots 1003 correspond to the connecting pipes 906 in arrangement positions and are arranged in the same number.
Flow rate and flow of cooling water in the connecting pipe 906 are controlled through the first regulation and control assembly 10, so that flexible control of cooling work of the lower module 3 is realized, the working flexibility of the lower module is improved, namely, the first rotary table 1002 is driven to rotate through the first control motor 1001, and the cooling water is controlled through the regulation and control through grooves 1003 with different calibers on the first rotary table 1002.
Example three: on the basis of the second embodiment, please refer to fig. 15, the adjusting and controlling component may be a second adjusting and controlling component 11, which includes a second control motor 1101, a second turntable 1102, and an arc quantitative control slot 1103; the second control motor 1101 is fixedly arranged on the storage body 907, a rotating shaft is arranged at one end of the second control motor 1101, one end of the rotating shaft is connected with a second rotating disc 1102, an arc quantitative control groove 1103 runs through the second rotating disc 1102, inner side walls of two ends of the arc quantitative control groove 1103 are arranged to be arc-shaped surfaces, and the corresponding diameter is equal to the pipe diameter of the connecting pipe 906.
Can realize carrying out quantitative control to the filling of cooling water to second regulation and control subassembly 11, avoid causing the waste of water resource, drive second carousel 1102 through second control motor 1101 promptly and rotate a week, setting through arc quantitative control groove 1103, not only can realize quantitative control, the speed that rethread second control motor 1101 drove second carousel 1102 rotation is different, can realize carrying out quantitative control to the volume of different cooling waters, have fine work flexibility, according to actual cooling work demand, guarantee under its best cooling work's the prerequisite, water economy resource, whole work economic benefits is improved.
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. A cooling assembly, characterized by: the cooling device comprises a mold fixing bottom plate (1) and a supporting carrier plate (4), wherein a lower module cooling assembly (7) is connected to the mold fixing bottom plate (1), a lower module (3) is fixedly connected to the lower module cooling assembly (7), the lower module cooling assembly (7) cools the lower module (3), positioning pieces (2) are symmetrically and fixedly arranged on the fixing bottom plate (1), the positioning pieces (2) are in adaptive insertion connection with positioning holes (5), the positioning holes (5) are symmetrically arranged in the supporting carrier plate (4), an upper module cooling assembly (8) is connected to the bottom side of the supporting carrier plate (4), an upper module (6) is fixedly connected to the bottom side of the upper module cooling assembly (8), and the upper module cooling assembly (8), a butt joint assembly (9) and a regulation and control assembly are matched with each other to cool an upper module (6);
the lower module cooling assembly (7) comprises a first cooling plate (701), a water inlet connector (702), a cooling pipe network (703) and a water outlet connector (704);
the upper module cooling assembly (8) comprises a second cooling plate (801), a rectangular cooling pipe (802), a water inlet pipe (803), a water outlet pipe (804), a first fixed body (805), a first placing groove (806), a first movable blocking block (807), a first connecting spring (808) and a water through hole (809);
the butt joint component (9) comprises a supporting rod (901), a second fixed body (902), a second placing groove (903), a second movable blocking block (904), a second connecting spring (905), a connecting pipe (906) and a storage body (907).
2. A cooling assembly as claimed in claim 1, wherein: first cooling plate (701) are fixed to be set up on PMKD (1), and fixed being provided with down module (3) on first cooling plate (701), the scarf joint is provided with cooling pipe network (703) in first cooling plate (701), the both ends of cooling pipe network (703) are connected and are provided with into water connector (702), both sides are connected and are provided with out water connector (704), go out water connector (704) and all scarf joint of connector (702) of intaking are fixed to be set up in first cooling plate (701).
3. A cooling assembly as claimed in claim 2, wherein: the water outlet connectors (704) and the water inlet connectors (702) are respectively provided with two groups, the water outlet connectors (704) are connected with the water outlet pipe, and the water inlet connectors (702) are connected with the water inlet pipe.
4. A cooling assembly as claimed in claim 1, wherein: the second cooling plate (801) is fixedly arranged on the bottom side of the supporting carrier plate (4), the second cooling plate (801) is symmetrically embedded with a rectangular cooling pipe (802), one end of the rectangular cooling pipe (802) is connected with a water inlet pipe (803), the other end of the rectangular cooling pipe (802) is connected with a water outlet pipe (804), the end portions of the water outlet pipe (804) and the water inlet pipe (803) are fixedly provided with a first fixing body (805), the water outlet pipe (804) and the water inlet pipe (803) are communicated with the first fixing body (805), the first fixing body (805) is provided with a first placing groove (806), a first movable blocking block (807) is movably arranged in the first placing groove (806), one end of the first movable blocking block (807) is fixedly provided with a first connecting spring (808), one end of the first connecting spring (808) is fixedly arranged in the first placing groove (806), and a water through hole (809) is arranged in the first fixing body (805) and is communicated with the first placing groove (806).
5. A cooling assembly as claimed in claim 1, wherein: the supporting rods (901) are symmetrically and fixedly arranged on the mold fixing bottom plate (1), a second fixing body (902) is fixedly arranged at the end part of each supporting rod (901), a second placing groove (903) is formed in each second fixing body (902), a second movable blocking block (904) is movably arranged in each second placing groove (903), a second connecting spring (905) is fixedly arranged at one end of each second movable blocking block (904), one end of each second connecting spring (905) is fixedly arranged in each second placing groove (903), the connecting pipes (906) are fixedly connected and arranged on one side of each second fixing body (902) and are communicated with each other, and the storage bodies (907) are fixedly arranged on the connecting pipes (906); and a regulating and controlling assembly is arranged in the storage body (907), wherein a connecting pipe (906) at one end of the fixed bottom plate (1) is connected with a cold water conveying pipe, and a connecting pipe (906) at the other end of the fixed bottom plate is connected with a cold water output pipe.
6. A cooling assembly as claimed in claim 5, wherein: the second fixing body (902) corresponds to the first placing groove (806) in arrangement position and has the same arrangement group number; the second placement grooves (903) correspond to the first fixing bodies (805) in arrangement positions and are arranged in the same number of groups.
7. A cooling assembly as claimed in claim 5, wherein: the connecting pipe (906) corresponds to the arrangement positions of the water through holes (809) and the water inlet pipes (803) and has the same arrangement number.
8. A cooling assembly as claimed in claim 1, wherein: the regulation and control assembly selects a first regulation and control assembly (10) which comprises a first control motor (1001), a first rotary disc (1002) and a regulation and control through groove (1003); the first control motor (1001) is fixedly arranged on the storage body (907), one end of the first control motor (1001) is provided with a rotating shaft, one end of the rotating shaft is connected with a first rotating disc (1002), the first rotating disc (1002) is movably arranged in the storage body (907), and the first rotating disc (1002) is equidistantly provided with a regulation and control through groove (1003); the regulating through grooves (1003) are arranged to be in a round platform shape, the diameter of a large-end notch of each regulating through groove (1003) is the same as that of the connecting pipe (906), and the diameter of a small-end notch of each regulating through groove (1003) is different, so that the purpose of controlling the flow speed and the flow rate of cooling water can be achieved; the regulating through grooves (1003) correspond to the connecting pipes (906) in arrangement positions and are arranged in the same number.
9. A cooling assembly as claimed in claim 1, wherein: the regulation and control assembly selects a second regulation and control assembly (11) which comprises a second control motor (1101), a second turntable (1102) and an arc quantitative control groove (1103); the second control motor (1101) is fixedly arranged on the storage body (907), a rotating shaft is arranged at one end of the second control motor (1101), a second rotating disc (1102) is connected and arranged at one end of the rotating shaft, an arc quantitative control groove (1103) penetrates through the second rotating disc (1102), inner side walls of two ends of the arc quantitative control groove (1103) are arranged to be arc-shaped surfaces, and the corresponding diameter is equal to the pipe diameter of the connecting pipe (906).
10. The utility model provides a high accuracy stamping die which characterized in that: a cooling module comprising a cooling module as claimed in any one of claims 1 to 9.
CN202211673562.3A 2022-12-26 2022-12-26 Cooling component and high-precision stamping die Active CN115647216B (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202211673562.3A CN115647216B (en) 2022-12-26 2022-12-26 Cooling component and high-precision stamping die

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202211673562.3A CN115647216B (en) 2022-12-26 2022-12-26 Cooling component and high-precision stamping die

Publications (2)

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CN115647216A true CN115647216A (en) 2023-01-31
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Citations (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102233385A (en) * 2010-04-29 2011-11-09 昆山嘉华电子有限公司 High speed stamping die with cooling structure
CN207941862U (en) * 2017-05-27 2018-10-09 江西科技学院 A kind of hot stamping die
CN108637063A (en) * 2018-03-12 2018-10-12 浙江彪马自动化设备有限公司 A kind of red multifunctional processor structure for rushing raw material of hydraulic pressure
CN213591566U (en) * 2020-09-04 2021-07-02 苏州海强机械有限公司 Quick refrigerated hot stamping forming die
CN113523118A (en) * 2021-08-12 2021-10-22 张国繁 Regulation type drift cooling system of battery case press line
CN214726273U (en) * 2021-04-12 2021-11-16 润升塑胶五金(深圳)有限公司 Workpiece cooling mechanism of plastic mold
CN215314965U (en) * 2021-01-28 2021-12-28 深圳市科瑞诚精密五金有限公司 Hardware fitting stamping die of accurate location
CN115026200A (en) * 2022-06-21 2022-09-09 宣城海通模具有限公司 Stamping die for automobile panel with good stability

Patent Citations (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102233385A (en) * 2010-04-29 2011-11-09 昆山嘉华电子有限公司 High speed stamping die with cooling structure
CN207941862U (en) * 2017-05-27 2018-10-09 江西科技学院 A kind of hot stamping die
CN108637063A (en) * 2018-03-12 2018-10-12 浙江彪马自动化设备有限公司 A kind of red multifunctional processor structure for rushing raw material of hydraulic pressure
CN213591566U (en) * 2020-09-04 2021-07-02 苏州海强机械有限公司 Quick refrigerated hot stamping forming die
CN215314965U (en) * 2021-01-28 2021-12-28 深圳市科瑞诚精密五金有限公司 Hardware fitting stamping die of accurate location
CN214726273U (en) * 2021-04-12 2021-11-16 润升塑胶五金(深圳)有限公司 Workpiece cooling mechanism of plastic mold
CN113523118A (en) * 2021-08-12 2021-10-22 张国繁 Regulation type drift cooling system of battery case press line
CN115026200A (en) * 2022-06-21 2022-09-09 宣城海通模具有限公司 Stamping die for automobile panel with good stability

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