CN217492399U - Rapid disassembly mould for water channel of thermal forming B column reinforcing plate - Google Patents

Abstract

The application discloses hot forming B post reinforcing plate water route quick detach mould, including mould base and at least one shaping module, shaping module detachable sets up on the mould base, be provided with cooling module in the mould base, first cooling channel has been seted up in the shaping module, when the shaping module is installed on the mould base, cooling module is suitable for to support to shaping module and with first cooling channel switch-on, cooling module is suitable for to carry the coolant liquid to first cooling channel, cooling module is suitable for receiving the coolant liquid in the first cooling channel, this water route quick detach mould is the components of a whole that can function independently form with the water route design, need not to dismantle the water route when making the shaping module break away from the mould base, the simplified operation flow, reduce the operation degree of difficulty and consuming time, it is more efficient to make the dimension guarantee process.

Description

Rapid disassembly mould for water channel of thermal forming B column reinforcing plate

Technical Field

The application relates to the technical field of auto-parts production, concretely relates to quick detach mould in hot forming B post reinforcing plate water route.

Background

Hot stamping, also called press hardening, is a new technology specially used for stamping and forming parts of high-strength steel plates of automobiles in recent years, and is one of key technical processes for realizing light weight production of automobiles.

The mold waterway is a penetrating hole machined in the mold frame and the mold core of the mold, and the penetrating hole continuously circulates in the mold frame and the mold core through a certain medium (such as water and oil), so that the heat of the mold is taken out, and the physical cooling is realized.

However, the existing mold with the water channel has the following defects: the mould is equipped with a plurality of inserts, and every inserts all carries out water path connection through the water pipe, and the structure is comparatively dispersed, and when the mould was maintained, need import and export all water routes and tear down one by one, then could go to dismantle one by one and insert, and the operation is consuming time longer, and the dismouting process is comparatively complicated, and the maintenance efficiency of mould is lower.

Disclosure of Invention

An aim at of this application provides a high-efficient convenient thermoforming B post reinforcing plate water route quick detach mould of process is safeguarded in dismouting.

In order to achieve the above purposes, the technical scheme adopted by the application is as follows: the utility model provides a thermoforming B post reinforcing plate water route quick detach mould, includes mould base and at least one shaping module, shaping module detachable set up in on the mould base, be provided with cooling module in the mould base, first cooling channel has been seted up in the shaping module, when the shaping module is installed on the mould base, cooling module is suitable for to support to the shaping module and with first cooling channel switch-on, cooling module is suitable for to first cooling channel carries the coolant liquid, cooling module is suitable for receiving the coolant liquid in the first cooling channel.

Specifically, the cooling assembly comprises a connecting insert and a water path cooling pipeline, the connecting insert is fixedly arranged on the die base, and a second cooling channel is formed in the connecting insert.

As a modification, the second cooling channel is arranged along the vertical direction, the bottom of the second cooling channel is connected with a water path cooling pipeline, and the top of the second cooling channel is suitable for being communicated with the first cooling channel.

As an improvement, a sealing ring is arranged at the top of the connecting insert, and when the forming module is mounted on the mold base, the sealing ring is suitable for abutting against the forming module and sealing the joint of the first cooling channel and the second cooling channel.

As an improvement, at least one pressing component is arranged on the forming module, a third cooling channel is arranged in the pressing component, a fourth cooling channel is arranged between the pressing component and the forming module, and the fourth cooling channel is suitable for being connected with the first cooling channel and the third cooling channel.

As an improvement, the fourth cooling channel comprises a water path cooling pipeline, a cavity is formed in the mold base, and the cavity is suitable for accommodating the fourth cooling channel; when the pressing assemblies are multiple, the fourth cooling channel is suitable for being connected with the first cooling channels of different pressing assemblies.

Specifically, the material pressing assembly comprises a material pressing core, a material pressing base plate and a locking piece, the material pressing core is arranged on the material pressing base plate, the fourth cooling channel is connected to the material pressing base plate, the third cooling channel penetrates through the material pressing base plate to the inside of the material pressing core, and the locking piece is suitable for being fixedly connected with the material pressing base plate and the forming module.

As an improvement, the molding module comprises a mounting base plate and at least one die insert, the mounting base plate is detachably connected with the die base, the die inserts are detachably arranged on the mounting base plate, and the first cooling channel penetrates through the mounting base plate to the inside of the die insert.

As an improvement, the periphery of the mounting base plate is provided with a lifting mechanism for connecting a crane.

As an improvement, the lifting mechanism comprises a plurality of longitudinal lifting rings and a plurality of transverse lifting rings, the longitudinal lifting rings and the transverse lifting rings are arranged on two sides of the mounting base plate, the longitudinal lifting rings are arranged along the height direction of the mounting base plate, and the transverse lifting rings are arranged along the length direction of the mounting base plate; the longitudinal lifting ring is formed by vertically crossing two circular rings; the transverse lifting ring is formed by vertically and crosswise two circular rings.

Compared with the prior art, the beneficial effect of this application lies in: redesign the water piping connection in traditional mould water route for split type structure, connect the cooling module that can let the first cooling channel of shaping module and mould base through contradicting and carry out the conflict cooperation, cooling module can carry out coolant liquid to first cooling channel and carry out the circulation, realize the cooling, need not to carry out extra dismouting operation, simplify the butt joint flow, the same reason, lift up the shaping module and can break off the connection between first cooling channel and the cooling module, can not influence the dimension of shaping module and protect the flow, it is more high-efficient convenient to make the dimension protect process.

Drawings

FIG. 1 is a perspective view of a preferred embodiment according to the present application;

FIG. 2 is a view of the overall explosive structure according to a preferred embodiment of the present application;

FIG. 3 is an exploded view of a molding die set according to a preferred embodiment of the present application;

fig. 4 is an exploded view of a swage assembly according to a preferred embodiment of the present application;

FIG. 5 is a bottom view of a preferred embodiment according to the present application;

fig. 6 is a cross-sectional view taken along the direction a-a in fig. 5, according to another preferred embodiment of the present application.

In the figure: 1. a mold base; 11. a cooling assembly; 111. connecting the insert; 1111. a second cooling channel; 1112. a seal ring; 12. a cavity; 2. a molding module; 21. a material pressing component; 211. a third cooling channel; 212. a fourth cooling channel; 213. pressing the material core; 214. pressing a backing plate; 215. a locking member; 22. installing a base plate; 23. a die insert; 24. a hoisting mechanism; 25. a first cooling channel; 3. the water path cools the pipeline.

Detailed Description

The present application is further described below with reference to specific embodiments, and it should be noted that, without conflict, any combination between the embodiments or technical features described below may form a new embodiment.

In the description of the present application, it should be noted that, for the terms of orientation, such as "central", "lateral", "longitudinal", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", etc., indicate orientations and positional relationships based on the orientations or positional relationships shown in the drawings, which are only for convenience of description and simplification of the description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and should not be construed as limiting the specific scope of the present application.

It is noted that the terms first, second and the like in the description and in the claims of the present application are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order.

The terms "comprises," "comprising," and "having," and any variations thereof, in the description and claims of this application, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

The present application is further described with reference to the accompanying drawings:

as shown in fig. 1 to 6, a preferred embodiment of the present application includes a mold base 1 and at least one molding module 2, the molding module 2 is detachably disposed on the mold base 1, a cooling module 11 is disposed in the mold base 1, a first cooling channel 25 is disposed in the molding module 2, a plurality of molding modules 2 can be mounted on the mold base 1, and cooling control is performed through one or more cooling modules 11, so as to achieve multi-station processing operation and save space, when the molding module 2 is mounted on the mold base 1, the cooling module 11 is adapted to abut against the molding module 2 and is communicated with the first cooling channel 25, the cooling module 11 is adapted to deliver cooling liquid to the first cooling channel 25, the cooling module 11 is adapted to receive cooling liquid in the first cooling channel 25, the cooling module 11 can circulate cooling liquid to the first cooling channel 25, and quickly take away heat in the molding module 2 to achieve heat dissipation, the normal operation of the molding module 2 is ensured.

Redesign the water piping connection in traditional mould water route for split type structure, connect the cooling module 11 that can let first cooling channel 25 and the mould base 1 of shaping module 2 through contradicting and carry out the conflict cooperation, cooling module 11 can carry out coolant liquid transport circulation to first cooling channel 25, realize the cooling, need not to carry out extra dismouting operation, simplify the butt joint flow, the same reason, lift up shaping module 2 and can break off the connection between first cooling channel 25 and the cooling module 11, can not influence the dimension of shaping module 2 and protect the flow, it is more high-efficient convenient to make the dimension protect process.

As shown in fig. 2, the cooling assembly 11 includes a connecting insert 111 and a water channel cooling conduit 3, the connecting insert 111 is fixedly disposed on the mold base 1, a second cooling channel 1111 is formed in the connecting insert 111, the second cooling channel 1111 is disposed in a vertical direction, the bottom of the second cooling channel 1111 is connected to the water channel cooling conduit 3, the top of the second cooling channel 1111 is suitable for being communicated with the first cooling channel 25, when the molding module 2 is mounted on the mold base 1, the bottom of the molding module 2 can abut against the connecting insert 111, and the second cooling channel 1111 is in butt joint with the first cooling channel 25, at this time, the water channel cooling conduit 3 can convey or receive the cooling liquid to the first cooling channel 25, so as to achieve circulation and heat dissipation of the cooling liquid in the molding module 2, and at the same time, in a manner that the top of the second cooling channel 1111 is communicated with the first cooling channel 25, after the circulation of the cooling liquid is stopped, the cooling liquid in the first cooling channel 25 can flow back into the second cooling channel 1111 to return under the influence of gravity to perform the return back flow Receive, make molding die set 2 can reduce the outflow of coolant liquid from first cooling channel 25's passway after the dismouting rises, reduce extravagantly, avoid causing the influence to the production environment.

The top of connecting the insert 111 is provided with sealing washer 1112, and when shaping module 2 was installed on the mould base 1, sealing washer 1112 was suitable for to support shaping module 2 and sealed the junction of first cooling channel 25 and second cooling channel 1111, because connect for contradicting between insert 111 and the shaping module 2 and connect, sealing washer 1112 can increase the sealing performance between first cooling channel 25 and the second cooling channel 1111, reduces the probability that takes place the weeping.

As shown in fig. 3, the molding module 2 includes a mounting pad 22 and at least one die insert 23, the mounting pad 22 is detachably connected to the die base 1, the die inserts 23 are detachably arranged on the mounting pad 22, the first cooling channel 25 penetrates through the mounting pad 22 to the die insert 23, the die insert 23 can form a plurality of cavities after being replaced, arranged and combined, and used for processing and molding different parts, in addition, because of loss in the use process of the die, the design of the die insert 23 can be conveniently maintained and replaced, and the maintenance cost is reduced.

The installation backing plate 22 is provided with a lifting mechanism 24 for connecting a crane at the periphery, and the installation backing plate 22 can be lifted by the lifting mechanism 24, so that the whole molding module 2 is lifted.

The hoisting mechanism 24 comprises a plurality of longitudinal hoisting rings and a plurality of transverse hoisting rings, the longitudinal hoisting rings and the transverse hoisting rings are arranged on two sides of the mounting base plate 22, the longitudinal hoisting rings are arranged along the height direction of the mounting base plate 22, and the transverse hoisting rings are arranged along the length direction of the mounting base plate 22; the longitudinal hanging ring is formed by vertically crossing two circular rings; horizontal rings are formed by two rings in a vertical crossing mode, and the rings in various forms can increase the lifting stability, so that the lifting device is not easy to interfere with other equipment.

As shown in fig. 4, at least one pressing assembly 21 is disposed on the forming module 2, the pressing assembly 21 is used for forming a pressing surface, the pressing surface is an important component of process supplement and plays an important role in deep drawing of the covering part, before the male die begins to draw the blank, the blank is pressed on the pressing surface of the female die by the blank holder, and after the deep drawing begins, the acting force of the male die and the resistance on the pressing surface form a deformation force of the blank together, so that the blank is plastically deformed, and the deep drawing process of the covering part is realized.

Press and to have seted up third cooling channel 211 in the material subassembly 21, be provided with fourth cooling channel 212 between material subassembly 21 and the shaping module 2, fourth cooling channel 212 is suitable for connecting first cooling channel 25 and third cooling channel 211, make and press material subassembly 21 can carry out the refrigerated coolant liquid in together receiving circulation shaping module 2 when shaping module 2, realize synchronous cooling, press material subassembly 21 and fourth cooling channel 212 and shaping module 2 to be connected simultaneously, can follow shaping module 2 and dismantle, it is more convenient to make the maintenance process.

When a plurality of pressing assemblies 21 are provided, the fourth cooling channel 212 is suitable for connecting the first cooling channels 25 of different pressing assemblies 21, and the cooling systems of the pressing assemblies 21 are connected in series, so that a cooling cycle can be formed between different pressing assemblies 21 and the molding module 2.

The pressing assembly 21 comprises a pressing core 213, a pressing backing plate 214 and a locking piece 215, the pressing core 213 is arranged on the pressing backing plate 214, the fourth cooling channel 212 is connected to the pressing backing plate 214, the third cooling channel 211 penetrates through the pressing backing plate 214 to the inside of the pressing core 213, the locking piece 215 is suitable for being fixedly connected with the pressing backing plate 214 and the forming module 2, the pressing core 213 is detachably connected with the forming module 2, and the pressing assembly 21 is suitable for being arranged along the vertical direction and can be accommodated in the accommodating cavity 12 together with the fourth cooling channel 212.

As shown in fig. 5 to 6, the fourth cooling channel 212 includes a water path cooling pipeline 3, the mold base 1 is provided with a cavity 12, the cavity 12 is suitable for accommodating the fourth cooling channel 212, two ends of the fourth cooling channel 212 can be provided with L-shaped connecting elbows, and the L-shaped connecting elbows can help the fourth cooling channel 212 to bend downwards, so as to be conveniently matched with the cavity 12 for accommodating, thereby avoiding interference when the forming module 2 is disassembled and assembled.

The foregoing has described the general principles, essential features, and advantages of the application. It will be understood by those skilled in the art that the present application is not limited to the embodiments described above, which are merely illustrative of the principles of the application, but that various changes and modifications may be made without departing from the spirit and scope of the application, and these changes and modifications are intended to be within the scope of the application as claimed. The scope of protection claimed by this application is defined by the following claims and their equivalents.

Claims (10)

1. The utility model provides a thermoforming B post reinforcing plate water route quick detach mould which characterized in that: including mould base and at least one shaping module, shaping module detachable set up in on the mould base, be provided with cooling module in the mould base, first cooling channel has been seted up in the shaping module, the shaping module install in when on the mould base, cooling module is suitable for to support to the shaping module and with first cooling channel switch-on, cooling module be suitable for to first cooling channel carries the coolant liquid, cooling module is suitable for to receive the coolant liquid in the first cooling channel.

2. The rapid-dismounting die for the waterway of the thermoformed B-pillar reinforcing plate as claimed in claim 1, wherein: the cooling assembly comprises a connecting insert and a water path cooling pipeline, the connecting insert is fixedly arranged on the die base, and a second cooling channel is formed in the connecting insert.

3. The rapid-dismounting mold for the waterway of the thermoformed B-pillar reinforcing plate as claimed in claim 2, wherein: the second cooling channel is arranged in the vertical direction, the bottom of the second cooling channel is connected with the water path cooling pipeline, and the top of the second cooling channel is suitable for being communicated with the first cooling channel.

4. The rapid-dismounting die for the waterway of the thermoformed B-pillar reinforcing plate as claimed in claim 3, wherein: the top of the connecting insert is provided with a sealing ring, and when the forming module is arranged on the die base, the sealing ring is suitable for abutting against the forming module and sealing the joint of the first cooling channel and the second cooling channel.

5. The rapid-dismounting mold for the waterway of the thermoformed B-pillar reinforcing plate as claimed in claim 1, wherein: the material pressing device is characterized in that at least one material pressing assembly is arranged on the forming module, a third cooling channel is formed in the material pressing assembly, a fourth cooling channel is arranged between the material pressing assembly and the forming module, and the fourth cooling channel is suitable for being connected with the first cooling channel and the third cooling channel.

6. The rapid-dismounting die for the waterway of the thermoformed B-pillar reinforcing plate as claimed in claim 5, wherein: the fourth cooling channel comprises a waterway cooling pipeline, a cavity is formed in the mold base, and the cavity is suitable for accommodating the fourth cooling channel; when the pressing assemblies are multiple, the fourth cooling channel is suitable for being connected with the first cooling channels of different pressing assemblies.

7. The rapid-dismounting die for the waterway of the thermoformed B-pillar reinforcing plate as claimed in claim 5, wherein: the material pressing assembly comprises a material pressing core, a material pressing base plate and a locking piece, the material pressing core is arranged on the material pressing base plate, the fourth cooling channel is connected to the material pressing base plate, the third cooling channel penetrates through the material pressing base plate to the inside of the material pressing core, and the locking piece is suitable for being fixedly connected with the material pressing base plate and the forming module.

8. The rapid-dismounting die for the waterway of the thermoformed B-pillar reinforcing plate as claimed in claim 1, wherein: the forming module comprises a mounting base plate and at least one die insert, the mounting base plate is detachably connected with the die base, the die insert is detachably arranged on the mounting base plate, and the first cooling channel penetrates through the mounting base plate to the inside of the die insert.

9. The rapid-dismounting die for the waterway of the thermoformed B-pillar reinforcing plate as claimed in claim 8, wherein: and lifting mechanisms for connecting a crane are arranged around the mounting base plate.

10. The rapid-dismounting die for the waterway of the thermoformed B-pillar reinforcing plate as claimed in claim 9, wherein: the lifting mechanism comprises a plurality of longitudinal lifting rings and a plurality of transverse lifting rings, the longitudinal lifting rings and the transverse lifting rings are arranged on two sides of the mounting base plate, the longitudinal lifting rings are arranged along the height direction of the mounting base plate, and the transverse lifting rings are arranged along the length direction of the mounting base plate; the longitudinal lifting ring is formed by vertically crossing two circular rings; the transverse lifting ring is formed by vertically and crosswise two circular rings.

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