CN206536741U - A kind of 3D metallic print mold inserts with the profile-followed heating function of conformal cooling - Google Patents
A kind of 3D metallic print mold inserts with the profile-followed heating function of conformal cooling Download PDFInfo
- Publication number
- CN206536741U CN206536741U CN201720163357.0U CN201720163357U CN206536741U CN 206536741 U CN206536741 U CN 206536741U CN 201720163357 U CN201720163357 U CN 201720163357U CN 206536741 U CN206536741 U CN 206536741U
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- CN
- China
- Prior art keywords
- profile
- apopore
- inlet opening
- conformal cooling
- heating function
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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Abstract
The utility model discloses a kind of 3D metallic print mold inserts with the profile-followed heating function of conformal cooling, including:Base part;Sizing material moulding section, its grafting is in the top of the base part;The profile-followed heating part of conformal cooling, it includes inlet opening, apopore and the water stream channel connected respectively with the inlet opening and the apopore, the inlet opening and the apopore are opened in the base part, and its upper surface is extended to from the lower surface of the base part, the water stream channel is opened in the inside of the sizing material moulding section.The disclosed 3D metallic prints mold insert with the profile-followed heating function of conformal cooling of the utility model can be when the sizing material of melting be in the injection molding of mold insert surface, fully conformal cooling or profile-followed heating are carried out to mold insert, use process stabilization, the service life of mold insert is extended, the production cycle of product is reduced.
Description
Technical field
The utility model is related to product use in injection molding mold insert technical field, and more specifically, the utility model is related to one
Plant the 3D metallic print mold inserts with the profile-followed heating function of conformal cooling.
Background technology
The mold insert is mainly used in plastic mold cavity glue bit position, and mold insert upper surface shape is shape of product, in product
Have very big heat during injection to be delivered on mold insert from shaped article, so the cooling effect of mold insert is of crucial importance.
The sizing material of melting, can be by substantial amounts of heat transfer to mold insert, in order to shorten sizing material on mold insert during injection molding
Molding time is, it is necessary to which the heat transfer on mold insert is gone out, and traditional insert structure can not be accomplished in the forming process of sizing material
Conformal cooling is carried out to mold insert, prior art is the material by changing mold insert, because the heat conductivility of steel is due to the heat conduction of steel
Performance, therefore the mold insert of steel material is changed into the mold insert of beryllium copper material, although the heat conduction of mold insert is improved to a certain extent
Performance, but it is unobvious to the overall cooling effect of mold insert.
Utility model content
A purpose of the present utility model is to solve at least the above, and provides the advantage that at least will be described later.
The utility model also has a purpose to there is provided a kind of 3D metals with the profile-followed heating function of conformal cooling to beat
Print mold insert, the mold insert can when the sizing material of melting is in the injection molding of mold insert surface, to mold insert carry out fully conformal cooling or
Profile-followed heating, using process stabilization, extends the service life of mold insert, reduces the production cycle of product.
To achieve these goals, the utility model provides a kind of 3D metals with the profile-followed heating function of conformal cooling
Mold insert is printed, including:
Base part;
Sizing material moulding section, its grafting is in the top of the base part;
The profile-followed heating part of conformal cooling, it include inlet opening, apopore and respectively with the inlet opening and it is described go out
The water stream channel of water hole connection, the inlet opening and the apopore are opened in the base part, and from the base portion
The lower surface divided extends to its upper surface, and the water stream channel is opened in the inside of the sizing material moulding section;
Wherein, cooling water or heating water enter the water stream channel from the inlet opening, and pass through the water stream channel
Discharged afterwards by the apopore.
3D metallic prints mold insert described in the utility model with the profile-followed heating function of conformal cooling is added by traditional
Work technique processes base part, then uses 3D metallic print sizing material moulding sections in impact faces, it is combined into one
Complete entirety, is not required to assembling, so as to increase the stability of the structure of mold insert, it is to avoid conformal cooling is profile-followed heated
Cheng Fasheng drainages.
The sizing material of 3D metallic prints mold insert in melting described in the utility model for just having a profile-followed heating function of conformal cooling
When the sizing material moulding section is molded, the sizing material of melting can transfer heat to sizing material moulding section, now can be to inlet opening
Cooling water is passed through, the cooling water that cooling water enters in water stream channel, water stream channel from inlet opening carries out hot with sizing material moulding section
Discharged after exchange from apopore, cooling water endlessly flows into water stream channel from inlet opening, to be carried out to sizing material moulding section
Cooling, cooling is uniform and abundant, so as to substantially increase cooling effect, cool time shortens 60%, so as to reduce product
Production cycle, manufacturing cost is reduced, while ensure that cooling or heating process are water-tight, extend the use longevity of mold insert
Life.
Preferably, in the described 3D metallic print mold inserts with the profile-followed heating function of conformal cooling, the inlet opening
Diameter and the apopore diameter it is identical with the diameter of the water stream channel.
Preferably, in the described 3D metallic print mold inserts with the profile-followed heating function of conformal cooling, the inlet opening
Diameter and the diameter of the apopore be all higher than the diameter of the water stream channel.
Preferably, in the described 3D metallic print mold inserts with the profile-followed heating function of conformal cooling, the inlet opening
Diameter it is identical with the diameter of the water stream channel, and be all higher than the diameter of the apopore.
Preferably, in the described 3D metallic print mold inserts with the profile-followed heating function of conformal cooling, the inlet opening
Minimum diameter with the apopore is 2mm.
Preferably, in the described 3D metallic print mold inserts with the profile-followed heating function of conformal cooling, the inlet opening
Set up separately with the apopore in the both sides of the base part.
Preferably, in the described 3D metallic print mold inserts with the profile-followed heating function of conformal cooling, the current lead to
The minimum diameter in road is 2mm.
Preferably, in the described 3D metallic print mold inserts with the profile-followed heating function of conformal cooling, the inlet opening
It is identical with the height of the base part with the length of the apopore.
The utility model at least includes following beneficial effect:
1st, the inside of the 3D metallic print mold inserts described in the utility model with the profile-followed heating function of conformal cooling can be walked
Cooling water or heating water, mold insert can be carried out fully profile-followed when the sizing material of melting is in the injection molding of mold insert surface to mold insert
Cooling or profile-followed heating, cool time shorten 60% relative to prior art, reduce the depanning time of plastic mould product,
The production cycle is reduced, thus it is cost-effective, improve production efficiency.
2nd, the 3D metallic print mold inserts described in the utility model with the profile-followed heating function of conformal cooling is simple in construction,
The phenomenon that leak occurs in conformal cooling or profile-followed heating process is avoided, the service life of mold insert is improved.
Further advantage of the present utility model, target and feature embody part by following explanation, and part will also pass through
Research of the present utility model and practice are understood by the person skilled in the art.
Brief description of the drawings
Fig. 1 is the 3D metals with the profile-followed heating function of conformal cooling described in the one of embodiment of the utility model
Print the profile of mold insert.
Embodiment
Below in conjunction with the accompanying drawings and embodiment is described in further detail to the utility model, to make people in the art
Member can implement according to this with reference to specification word.
It should be appreciated that such as " having ", "comprising" and " comprising " term used herein are not precluded from one or many
The presence or addition of individual other elements or its combination.
As shown in figure 1, providing one kind in the one of embodiment of the utility model there is conformal cooling to heat work(with the shape
The 3D metallic print mold inserts of energy, including:
Base part 1;
Sizing material moulding section 2, its grafting is in the top of the base part 1;
The profile-followed heating part 3 of conformal cooling, it include inlet opening 310, apopore 320 and respectively with the inlet opening
310 water stream channels 330 connected with the apopore 320, the inlet opening 310 and the apopore 320 are opened in described
Base part 1, and its upper surface is extended to from the lower surface of the base part 1, the water stream channel 330 is opened in the glue
Expect the inside of moulding section 2;
Wherein, cooling water or heating water enter the water stream channel 330 from the inlet opening 310, and pass through the water
Discharged after circulation road 330 by the apopore 320.
3D metallic prints mold insert described in the utility model with the profile-followed heating function of conformal cooling is added by traditional
Work technique processes base part 1, is then combined into it using 3D metallic print sizing materials moulding section 2 on base part 1
For a complete entirety, assembling is not required to, so as to increase the stability of the structure of mold insert, it is to avoid conformal cooling or profile-followed
Drainage occurs for heating process.
The sizing material of 3D metallic prints mold insert in melting described in the utility model for just having a profile-followed heating function of conformal cooling
When the sizing material moulding section 2 is molded, the sizing material of melting can transfer heat to sizing material moulding section 2, now can be to water inlet
Hole 310 is passed through cooling water, cooling water and sizing material that cooling water enters in water stream channel 330, water stream channel 330 from inlet opening 310
Moulding section 2 is discharged after carrying out heat exchange from apopore 320, and cooling water endlessly flows into water stream channel from inlet opening 310
330, to be cooled down to sizing material moulding section 2, cooling is uniform and abundant, so that cooling effect is substantially increased, cool time
Shorten 60%, so as to reduce the production cycle of product, reduce manufacturing cost, while ensure that cooling or heating process not
Leak, extends the service life of mold insert.
In order to adjust cooling effect, the diameter of inlet opening 310, apopore 320 and water stream channel 330 can be changed, for example, institute
State inlet opening 310 diameter and the apopore 320 diameter it is identical with the diameter of the water stream channel 330.And for example, it is described
The diameter of the diameter of inlet opening 310 and the apopore 320 is all higher than the diameter of the water stream channel 330.Again or, it is described enter
The diameter in water hole 310 is identical with the diameter of the water stream channel 330, and is all higher than the diameter of the apopore 320, this design
Effect improves the utilization rate of cooling water, has slowed down the speed that cooling water flows out from apopore 320.
The minimum diameter of the inlet opening 310 and the apopore 320 is 2mm.The minimum of the water stream channel 330 is straight
Footpath is 2mm.
As shown in figure 1, the inlet opening 310 and the apopore 320 set up separately in the both sides of the base part 1.It is described
The length of inlet opening 310 and the apopore 320 is identical with the height of the base part 1.Water stream channel 330 and inlet opening
It is 2 that one end of 310 connections, which are extended to from the lower end of sizing material moulding section 2 to upper end with the distance of the upper end of sizing material moulding section 2,
After~20mm, then for example, 10mm is re-extended to the lower end of sizing material moulding section.
Although embodiment of the present utility model is disclosed as above, it is not restricted in specification and embodiment
Listed to use, it can be applied to various suitable fields of the present utility model completely, for those skilled in the art,
Other modification is easily achieved, therefore under the universal limited without departing substantially from claim and equivalency range, this reality
Specific details is not limited to new and shown here as the legend with description.
Claims (8)
1. a kind of 3D metallic print mold inserts with the profile-followed heating function of conformal cooling, it is characterised in that including:
Base part;
Sizing material moulding section, its grafting is in the top of the base part;
The profile-followed heating part of conformal cooling, it include inlet opening, apopore and respectively with the inlet opening and the apopore
The water stream channel of connection, the inlet opening and the apopore are opened in the base part, and from the base part
Lower surface extends to its upper surface, and the water stream channel is opened in the inside of the sizing material moulding section;
Wherein, cooling water or heating water from the inlet opening enter the water stream channel, and after the water stream channel by
The apopore discharge.
2. the 3D metallic print mold inserts according to claim 1 with the profile-followed heating function of conformal cooling, it is characterised in that
The diameter of the diameter of the inlet opening and the apopore is identical with the diameter of the water stream channel.
3. the 3D metallic print mold inserts according to claim 1 with the profile-followed heating function of conformal cooling, it is characterised in that
The diameter of the diameter of the inlet opening and the apopore is all higher than the diameter of the water stream channel.
4. the 3D metallic print mold inserts according to claim 1 with the profile-followed heating function of conformal cooling, it is characterised in that
The diameter of the inlet opening is identical with the diameter of the water stream channel, and is all higher than the diameter of the apopore.
5. the 3D metallic print mold inserts according to claim 1 with the profile-followed heating function of conformal cooling, it is characterised in that
The minimum diameter of the inlet opening and the apopore is 2mm.
6. the 3D metallic print mold inserts according to claim 1 with the profile-followed heating function of conformal cooling, it is characterised in that
The inlet opening and the apopore set up separately in the both sides of the base part.
7. the 3D metallic print mold inserts according to claim 1 with the profile-followed heating function of conformal cooling, it is characterised in that
The minimum diameter of the water stream channel is 2mm.
8. the 3D metallic print mold inserts according to claim 1 with the profile-followed heating function of conformal cooling, it is characterised in that
The length of the inlet opening and the apopore is identical with the height of the base part.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201720163357.0U CN206536741U (en) | 2017-02-22 | 2017-02-22 | A kind of 3D metallic print mold inserts with the profile-followed heating function of conformal cooling |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201720163357.0U CN206536741U (en) | 2017-02-22 | 2017-02-22 | A kind of 3D metallic print mold inserts with the profile-followed heating function of conformal cooling |
Publications (1)
Publication Number | Publication Date |
---|---|
CN206536741U true CN206536741U (en) | 2017-10-03 |
Family
ID=59945905
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201720163357.0U Expired - Fee Related CN206536741U (en) | 2017-02-22 | 2017-02-22 | A kind of 3D metallic print mold inserts with the profile-followed heating function of conformal cooling |
Country Status (1)
Country | Link |
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CN (1) | CN206536741U (en) |
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2017
- 2017-02-22 CN CN201720163357.0U patent/CN206536741U/en not_active Expired - Fee Related
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Legal Events
Date | Code | Title | Description |
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20171003 Termination date: 20210222 |