CN206493549U - The temperature adjustment water route of mould - Google Patents
The temperature adjustment water route of mould Download PDFInfo
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- CN206493549U CN206493549U CN201621194425.1U CN201621194425U CN206493549U CN 206493549 U CN206493549 U CN 206493549U CN 201621194425 U CN201621194425 U CN 201621194425U CN 206493549 U CN206493549 U CN 206493549U
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Abstract
The utility model discloses a kind of temperature adjustment water route of mould.The mould includes body, is arranged at the intrinsic die cavity;The die cavity includes the first section, and cavity surface and the cross section of first section have the first at least partly curved intersection;The temperature adjustment water route is arranged in the body, the temperature adjustment water route includes the profile-followed water route for matching first section, the profile-followed water route includes the first surface of the relatively close cavity surface, the first surface and cross section have the second intersection, second intersection any two to first intersection minimum range it is identical.Compared with prior art, by the profile-followed water route for setting the shape with die cavity to match, the effect that quick cooling/heating is reached in injection molding product can be enable, so as to improve production efficiency;And temperature is uniform, it is ensured that the steady quality of product;And forming mode is simple, and it is formable go out complex model.
Description
Technical field
The utility model is related to injection mold technical field, more particularly to a kind of mould temperature adjustment water route.
Background technology
Mould is blank is turned into the instrument for having given shape and the product of size in industrial production under external force.Extensively
It is general be used to being punched, die forging, cold-heading, extruding, metallic sintered products compacting, compression casting, and the system such as engineering plastics, rubber, ceramics
In the forming of compression moulding or the injection of product.Mould has specific profile or cavity shape, using the wheel profile with cutting edge
Shape can make blank occur separation (punching) by profile wire shaped.Using cavity shape blank can be made to obtain corresponding solid figure
Shape.
In process of injection molding, mold temperature directly influences the quality of workpiece, therefore, it is necessary to using temperature adjustment system
Unite and the temperature of mould is controlled.Humidity control system is divided into cooling, two kinds of heating, and relatively low mould temperature is required for most of
Workpiece, only need to set the cooling system of mould, and the purpose of reduction mold temperature is reached by being passed through cooling water;And for wanting
The workpiece compared with high mold temperature is sought, it is necessary to set the heating system of mould, the purpose of rise mold temperature is reached by being passed through deep fat.
The temperature adjustment water route of existing mold, such as cooling water channel, heated oil, are generally shaped, typically using drill gun
Transversely or longitudinally it is arranged in mould.Join a kind of mold temperature regulation waterway structure of prior art of Fig. 1 ~ Fig. 2 signals, mould
Tool 100 has body 101, die cavity 10 and a cooling water channel, three section 111 of cooling water channel, 112,113 be processed into linear extension
And intersect successively;Join the mold temperature regulation waterway structure of another prior art of Fig. 3 signals, mould 200 has body
201st, cup-shaped die cavity 20 and cooling water channel 21,22.
For complex-shaped die cavity, such as die cavity is cylindricality, taper or other irregular shapes, because this temperature is adjusted
The trend on road of economizing on water and the shape of die cavity are mismatched, and cause the temperature of die cavity everywhere inconsistent so that the cooling/heating of workpiece is not
Uniformly, it have impact on the quality of workpiece;And throughput rate is low, effect is poor, for example, the mould of the deeper cup-shaped work piece of Fig. 3 signals
Cooling water channel 22, it haves the shortcomings that to be unable to reach depths in cooling procedure so that local injection temperature is higher, long-term easily
Cause mould deformation and reduce its working life, increase injection cost.
The content of the invention
In order to solve the above technical problems, the utility model provides a kind of temperature adjustment water route of mould, it can solve existing
The temperature adjustment water route for having injection mold limited and caused by forming technology it is simple in construction, the problem of temperature regulation effect is poor,
So as to improve production efficiency, ensure product quality, extension die life.
To realize above-mentioned utility model purpose, the embodiment of the utility model one provides a kind of temperature adjustment water of mould
Road, the mould includes body, is arranged at the intrinsic die cavity;The die cavity includes the first section, first section
Cavity surface and cross section there is the first at least partly curved intersection;The temperature adjustment water route is arranged at the body
Interior, the temperature adjustment water route includes the profile-followed water route for matching first section, and the profile-followed water route includes relatively close institute
State the first surface of cavity surface, the first surface and cross section have the second intersection, second intersection any two at extremely
The minimum range of first intersection is identical.
As the further improvement of the embodiment of the utility model one, first intersection is rounded, second intersection
In the circle or arc homocentric with first intersection.
As the further improvement of the embodiment of the utility model one, the profile-followed water route includes being relatively distant from the die cavity
The second surface in face, the second surface and cross section have the 3rd intersection, the 3rd intersection any two to described the
The minimum range of one intersection is identical.
As the further improvement of the embodiment of the utility model one, the cavity surface has the 4th intersection with vertical section,
The first surface and vertical section have the 5th intersection, the 5th intersection any two to the 4th intersection most narrow spacing
From identical.
As the further improvement of the embodiment of the utility model one, the second surface has the 6th to hand over vertical section
Line, the 6th intersection any two to the 4th intersection minimum range it is identical.
As the further improvement of the embodiment of the utility model one, the body includes die, and the profile-followed water route is set
It is placed in the die.
As the further improvement of the embodiment of the utility model one, the die cavity is cup die cavity, and the body includes
Cutting part, the profile-followed water route includes the multiple units being separated to form by the cutting part and multiple connections are two neighboring described
The connected unit of unit.
As the further improvement of the embodiment of the utility model one, the mould is set to sprue bush, and the die cavity is set
The hot flow path in the sprue bush is set to, the profile-followed water route is arranged in the sprue bush.
As the further improvement of the embodiment of the utility model one, the body include the first workpiece for being welded to connect and
Second workpiece, the part in the profile-followed water route is formed on first workpiece, and the profile-followed water route another part into
Shape is on the second workpiece.
To realize above-mentioned utility model purpose, embodiment further provides a kind of temperature adjustment of mould for the utility model one
Water route, the mould includes body, is arranged at the intrinsic die cavity;The die cavity includes the first section;The temperature is adjusted
Water saving road is arranged in the body, and the temperature adjustment water route includes the profile-followed water route for matching first section, it is described with
Shape water route follows the distribution of shapes of the cavity surface of first section;The body includes the first workpiece and second being welded to connect
Workpiece, the part in the profile-followed water route is formed on first workpiece, and the another part in the profile-followed water route is formed in
On the second workpiece.
Compared with prior art, the utility model has the advantages that:By setting the shape phase with the die cavity
The profile-followed water route of matching, can enable the effect that quick cooling/heating is reached in injection molding product, so as to improve life
Produce efficiency;And temperature is uniform, it is ensured that the steady quality of product simultaneously can extend die life;And pass through the profile-followed water
The different piece on road is welded after processing respectively and reshaped, and not only forming mode is simple, and it is formable go out complex model.
Brief description of the drawings
Fig. 1 is the longitudinal section in the temperature adjustment water route of the mould of an example in the prior art;
Fig. 2 is the sectional view of the line A-A along along Fig. 1;
Fig. 3 is the longitudinal section in the temperature adjustment water route of the mould of another example in the prior art;
Fig. 4 is the structural representation of the mould of the utility model example 1;
Fig. 5 is the structural representation of another angle of the mould of the utility model example 1;
Fig. 6 is the multistage decomposition texture schematic diagram of the mould of the utility model example 1;
Fig. 7 is another angled arrangement schematic diagram of the multistage decomposition of the mould of the utility model example 1;
Fig. 8 is the structural perspective that the temperature adjustment water route of the mould of the utility model example 1 and the multistage of die cavity are decomposed;
Fig. 9 is the structural representation of the mould of the utility model example 2;
Figure 10 is the part-structure schematic diagram of the mould of the utility model example 2;
Figure 11 is another angle schematic diagram of the part-structure of the mould of the utility model example 2;
Figure 12 is the sectional view of the line B-B along along Figure 11;
Figure 13 is the decomposition chart before the temperature adjustment water route shaping of the mould of the utility model example 2;
Figure 14 is the top view of a workpiece of the utility model example 2.
Embodiment
The utility model is described in detail below with reference to embodiment shown in the drawings.But these embodiment party
Formula is not intended to limit the utility model, structure that one of ordinary skill in the art is made according to these embodiments, method or
Conversion functionally is all contained in protection domain of the present utility model.
The embodiment of the utility model one provides a kind of mould, especially a kind of injection mold, to utilize melted material
Produce injecting products.The mould includes body, is arranged at the intrinsic die cavity and temperature adjustment water route.
Specifically, the die cavity may be configured as form injecting products mold cavity, may also be configured to for melting material
Expect the hot flow path passed through.For ease illustration and understanding, define melted material in the flow direction in the die cavity for longitudinal direction, with
The perpendicular plane in the longitudinal direction is cross section, is vertical section by the plane of the axis of the die cavity.
In the embodiment of the utility model one, the die cavity includes the first section.According to demand, position corresponds to described
The body at first section, which need to be cooled, to be cooled or is heated up, so that the melted material in first section is cold
But it is or heated.
The temperature adjustment water route is arranged in the body, and for forming cooling water or deep fat equitemperature regulation medium
Circulation path.When the body that position corresponds at first section need to be cooled cooling, the temperature adjustment water
Road is set to cooling water channel;When the body that position corresponds at first section need to be heated up, the temperature
Regulation water route is set to heated oil.
Specifically, the temperature adjustment water route includes water inlet water route, water outlet water route and is arranged at the water inlet water route and institute
State the profile-followed water route between water outlet water route.In the embodiment of the utility model one, the profile-followed water route and first section
Match, and the profile-followed water route follows the distribution of shapes of the cavity surface of first section.
Further, in the embodiment of the utility model one, the cavity surface of first section and cross section have the
One intersection, at least part of first intersection is curved.That is, first intersection can be in the circle of arc, sector,
Arch, multistage arc etc..Certainly, in present embodiment, cavity surface and the cross section of first section are not limited to only have institute
The first intersection is stated, can also have other intersections in addition to first intersection.
Accordingly, the profile-followed water route includes the arc water route corresponding with the cavity surface of first section.Specifically,
The profile-followed water route includes first surface and second surface, and the first surface has the second intersection, described second with cross section
Surface has the 3rd intersection with cross section;Wherein, relatively close first intersection of second intersection and the 3rd intersection
It is relatively distant from first intersection.In other words, the cavity surface of relatively close first section of the first surface, described
Two surfaces are relatively distant from the cavity surface of first section.
In the embodiment of the utility model one, at least part of second intersection is curved, and second intersection
Any two to first intersection minimum range it is identical, so, the profile-followed water route can be made in injection molding product
The effect of Quick temperature adjustment can be reached, so as to improve production efficiency;And cooling/heating is uniform, it is ensured that the quality of product
Stabilization simultaneously can extend die life.
Further, first intersection is rounded;Corresponding, second intersection is in homocentric with first intersection
Circle, so, the speed of temperature change on same circumferencial direction can be made identical.In another embodiment, described second
At least part of intersection is in the arc homocentric with first intersection, preferably in major arc shape, so speeds Cooling rate and reality
The uniformity of existing temperature.
In the embodiment of the utility model one, the 3rd intersection any two to first intersection most narrow spacing
From identical.In other words, in the frontier distance in the profile-followed water route is defined as institute on the direction away from the die cavity on cross section
State the width in profile-followed water route, the profile-followed water route any two at width it is identical so that the temperature in the profile-followed water route is adjusted
The uniform flow of medium is saved, to reach the effect of preferably uniform alternating temperature.
Further, in the embodiment of the utility model one, the profile-followed water route and the water inlet water route, the water outlet
Connected between water route by cambered surface.
Further, in the embodiment of the utility model one, the body includes the first workpiece and second workpiece, described
First finished surface of the first workpiece is formed with the part in the profile-followed water route, the second finished surface of the second workpiece into
Shape has an another part in the profile-followed water route, first finished surface of first workpiece and the second workpiece it is described
Second finished surface is connected by seamless welding, and the profile-followed water route or the local profile-followed water route are formed to join.That is, complete
The whole profile-followed water route is formed after being joined by the welding of at least two workpiece.
In addition, the manufacturing process in the temperature adjustment water route of the mould of the embodiment of the utility model one is:
The pre-designed temperature adjustment water route matched with the die cavity;Specifically, shape and note that can be according to the die cavity
Mould temperature requirements during shaped article, be pre-designed the temperature adjustment water route, the temperature adjustment water route at least with the type
First section of chamber matches;
At least two workpiece are provided, in the part for processing the temperature adjustment water route on each workpiece respectively;
Workpiece described in welding at least two, shapes the temperature adjustment water route.
Further, the temperature adjustment water route includes the profile-followed water route, and the profile-followed water route follows firstth area
The distribution of shapes of the cavity surface of section, the step " provides at least two workpiece, described in being processed respectively on each workpiece
The part in temperature adjustment water route " includes:
Workpiece described at least two is provided, in the part for processing the profile-followed water route described in one on workpiece, in another
The another part in the profile-followed water route is formed described in one on workpiece.
So, according to the requirement of specific cooling/heating, optimal temperature adjustment water route is designed, by by profile-followed water route
Different piece is processed on different workpieces respectively, then seamless welding, it is formable go out complex model profile-followed water route, improve
The effect of temperature adjustment;Difficulty of processing is reduced, and reduces punching space unnecessary in mould, effective to ensure the strong of object
Degree.
The technical solution of the utility model is illustrated with two examples below.
Example 1
Referring to Fig. 4 ~ Fig. 8, this example illustrates a kind of temperature adjustment water route of mould 300, in this example, shown mould
300 be sprue bush.The mould 300 includes body 301, die cavity 30 and temperature adjustment water route, wherein, the die cavity 30 can be used as
For the hot flow path flowed for melted material, the temperature adjustment water route is cooling water channel.
Join Fig. 6 ~ 7, illustrate the multistage decomposition texture of mould 300, wherein the divisional plane between each section and the mould 300
Cross section it is parallel or overlapping.The die cavity 30 is arranged in the body 301, and including the first section, in this example, root
According to the demand of sprue bush, the part that the position of the body 301 corresponds at first section need to be cooled cooling, so as to flow
Melted material cooling through first section.First section include cavity surface 3001, the cavity surface 3001 with it is transversal
Face has the first intersection, and first intersection is rounded.
The temperature adjustment water route is arranged in the body 301 and is at least used for being carried out at first section position
Cool.Join Fig. 6 ~ 8, the temperature adjustment water route includes water inlet water route 311, water outlet water route 312 and is arranged at the water inlet
Profile-followed water route 313 between water route 311 and the water outlet water route 312.
The profile-followed water route 313 matches with first section, and the profile-followed water route 313 follows first section
Cavity surface 3001 distribution of shapes.Specifically, the profile-followed water route 313 is surrounded on the outside of first section.It is described with
Shape water route 313 includes first surface 3131, second surface 3132 and end surfaces 3133,3134.The first surface 3131 is relative
Close to the cavity surface 3001, the second surface 3132 is relatively distant from the cavity surface 3001.
Further, the first surface 3131 and cross section have the second intersection, and second intersection is in and described the
Minimum range at the homocentric arc of one intersection, and any the two of second intersection to first intersection is identical, so, can
The profile-followed water route 313 is set to reach the effect quickly cooled down in injection molding product, so as to improve processing efficiency;And
Cooling is uniform, it is ensured that the steady quality of product simultaneously can extend die life.
Further, the second surface 3132 and cross section have the 3rd intersection, the 3rd intersection any two at
Minimum range to first intersection is identical.That is, along the bearing of trend in the profile-followed water route 313, the profile-followed water route 313
Isometrical extension, so that the cooling water flow in the profile-followed water route 313 is uniform, to reach the effect preferably uniformly cooled down.
The end surfaces 3133,3134 are located at the end on the profile-followed bearing of trend of water route 313, and connect described first
Surface 3131 and the second surface 3132.The end surfaces 3133,3134 have the 4th curved intersection, institute with cross section
State the 4th intersection arc and connect second intersection and the 3rd intersection.
Join Fig. 8, further, the water inlet water route 311 is communicated to the end surfaces 3134, and the water outlet water route 312 connects
Pass to the end surfaces 3133.When water flowing is cooled down, cooling water leads to the profile-followed water route from the water inlet water route 311
In 313, flowed from bearing of trend of the end surfaces 3134 along the profile-followed water route 313 to the direction of the end surfaces 3133,
Then flowed out by the water outlet water route 312.
Further, referring to Fig. 6 ~ 8, the forming process in the temperature adjustment water route of the mould 300 is:According to described
The shape and cooling requirement of die cavity 30, are pre-designed the temperature adjustment water route matched with the die cavity 30;Workpiece is provided
3011st, workpiece 3012 and workpiece 3013, in the upper part that the temperature adjustment water route is processed on the workpiece 3011, in described
The middle part in the temperature adjustment water route is processed on workpiece 3012, in processing the temperature adjustment water on the workpiece 3013
The lower part on road;The workpiece 3011, the workpiece 3012 and the workpiece 3013 are welded, the upper part, the middle part
Divide and the lower part slitless connection, shape the temperature adjustment water route.
Wherein, the upper part includes the part water inlet water route 311 and part the water outlet water route 312, the middle part
Dividing includes water inlet water route 311 described in another part, the upper half in water outlet water route 312 and the profile-followed water route 313 described in another part
Part, the bottom point includes the latter half in the profile-followed water route 313.
Specifically, the top half forms in the first finished surface of the workpiece 3012 by process for machining
On 30120, the latter half is formed on the second finished surface 30130 of the workpiece 3013 by process for machining, institute
The first finished surface 30120 and the seamless welding of the second finished surface 30130 are stated, so that the top half and the lower half
Part snap-fit joins into the profile-followed water route 313, and forming mode is simple and can realize the variation of pattern form.
Example 2
Referring to Fig. 9 ~ Figure 13, the present embodiment illustrates a kind of temperature adjustment water route 41 of mould 400.The mould 400 is wrapped
Include body, die cavity 40 and temperature adjustment water route 41.In this example, the body includes die 401, and the die cavity 40 is cup
Die cavity simultaneously is used to process cup injecting products.The die 401 includes the cavity surface 4001 of the die cavity 40.
The die cavity 40 is arranged in the body, and including the first section, in this example, according to process requirements, in
The melted material of first section need to be cooled cooling, and the temperature adjustment water route 41 is set to cooling water channel.Described first
The cavity surface 4001 of section has the first intersection with cross section, and first intersection is rounded.
The temperature adjustment water route 41 is arranged in the die 401 and is at least used for entering at first section position
Row cools.Join Figure 12 ~ 14, the temperature adjustment water route 41 includes water inlet water route 411, water outlet water route 412 and is arranged at institute
State into the profile-followed water route 413 between water water route 411 and the water outlet water route 412.
The profile-followed water route 413 matches with first section, and the profile-followed water route 413 follows first section
The cavity surface 4001 distribution of shapes.Specifically, the profile-followed water route 413 includes the inside and outside first surface being oppositely arranged
4131 and second surface 4132, the relatively close cavity surface 4001 of first surface 4131, the phase of second surface 4132
To away from the cavity surface 4001.
Further, the first surface 4131 and cross section have the second intersection, and second intersection is in and described the
Minimum range at the homocentric arc of one intersection, and any the two of second intersection to first intersection is identical, so, can
The profile-followed water route 413 is set to reach the effect quickly cooled down in injection molding product, so as to improve processing efficiency;And
Cooling is uniform, it is ensured that the steady quality of product simultaneously can extend die life.
Further, the second surface 4132 and cross section have the 3rd intersection, the 3rd intersection any two at
Minimum range to first intersection is identical.That is, the profile-followed water route 413 is in the constant width in inward-outward direction, so that
Cooling water flow in the profile-followed water route 413 is uniform, to reach the effect preferably uniformly cooled down.
Further, join Figure 12, the cavity surface 4001 and vertical section have the 4th intersection, the first surface 4131 with
Vertical section have the 5th intersection, the 5th intersection any two to the 4th intersection minimum range R1 it is identical, so,
First section can be made uniform along the cooldown rate everywhere on longitudinal direction.In addition, the second surface 4132 has with vertical section
6th intersection, the 6th intersection any two to the 4th intersection minimum range R2 it is also identical.
Further, the die 401 includes cutting part 421, and the profile-followed water route 413 is included by the cutting part 421
The connected unit 414 of two units above and below the multiple units for the stacked distribution being separated to form and multiple connections, so, can
Cooling water is set to form pahtfinder hard in the profile-followed water route 413, to increase cooling effectiveness.
Further, referring to Figure 13, the forming process in the temperature adjustment water route 41 of the mould 400 is:First, according to
According to the die cavity 40 and cooling requirement of mould 400, the temperature adjustment water route 41 matched with the die cavity 40 is pre-designed;Carry
For the workpiece 4011 and the workpiece 4012, in processing first of the temperature adjustment water route 41 on the workpiece 4011
Point, in the Part II for processing the temperature adjustment water route 41 on the workpiece 4012 by process for machining;Then weld
The workpiece 4012 and the workpiece 4011, shape the temperature adjustment water route 41.
Specifically, the Part I includes the first surface 4131 in the profile-followed water route 413, the Part II
The second surface 4132, the water inlet water route 411 and the water outlet water route 412 including the profile-followed water route 413.
Compared with prior art, the utility model has the advantages that:By setting the shape phase with the die cavity
The profile-followed water route of matching, can enable the effect that quick cooling/heating is reached in injection molding product, so as to improve life
Produce efficiency;And temperature is uniform, it is ensured that the steady quality of product simultaneously can extend die life;And pass through the profile-followed water
The different piece on road is welded after processing respectively and reshaped, and not only forming mode is simple, and it is formable go out complex model.
Those listed above describes illustrating only for feasibility embodiment of the present utility model in detail, it
And be not used to limit protection domain of the present utility model, all equivalence enforcement sides made without departing from the utility model skill spirit
Formula or change should be included within protection domain of the present utility model.
Claims (10)
1. a kind of temperature adjustment water route of mould, the mould includes body, is arranged at the intrinsic die cavity;The die cavity
Including the first section, cavity surface and the cross section of first section have the first at least partly curved intersection;The temperature
Degree regulation water route is arranged in the body, it is characterised in that the temperature adjustment water route includes matching first section
Profile-followed water route, the profile-followed water route includes the first surface of the relatively close cavity surface, the first surface and transversal mask
Have the second intersection, second intersection any two to first intersection minimum range it is identical.
2. the temperature adjustment water route of mould according to claim 1, it is characterised in that first intersection is rounded, institute
The second intersection is stated in the circle or arc homocentric with first intersection.
3. the temperature adjustment water route of mould according to claim 1, it is characterised in that the profile-followed water route includes relatively remote
From the second surface of the cavity surface, the second surface has the 3rd intersection, any the two of the 3rd intersection with cross section
Place is identical to the minimum range of first intersection.
4. the temperature adjustment water route of mould according to claim 3, it is characterised in that the cavity surface has with vertical section
4th intersection, the first surface and vertical section have the 5th intersection, the 5th intersection any two at hand over to the described 4th
The minimum range of line is identical.
5. the temperature adjustment water route of mould according to claim 4, it is characterised in that the second surface and vertical profile mask
Have the 6th intersection, the 6th intersection any two to the 4th intersection minimum range it is identical.
6. the temperature adjustment water route of mould according to claim 1, the body includes die, it is characterised in that described
Profile-followed water route is arranged in the die.
7. the temperature adjustment water route of mould according to claim 6, the die cavity is cup die cavity, it is characterised in that institute
Stating body includes cutting part, and the profile-followed water route includes the multiple units being separated to form by the cutting part and multiple connection phases
The connected unit of adjacent two units.
8. the temperature adjustment water route of mould according to claim 1, the mould is set to sprue bush, the die cavity is set
For the hot flow path in the sprue bush, it is characterised in that the profile-followed water route is arranged in the sprue bush.
9. the temperature adjustment water route of mould according to claim 1, it is characterised in that the body includes what is be welded to connect
First workpiece and second workpiece, the part in the profile-followed water route are formed on first workpiece, and the profile-followed water route
Another part is formed on the second workpiece.
10. a kind of temperature adjustment water route of mould, the mould includes body, is arranged at the intrinsic die cavity;The type
Chamber includes the first section;The temperature adjustment water route is arranged in the body, it is characterised in that the temperature adjustment water route bag
The profile-followed water route for matching first section is included, the profile-followed water route follows the distribution of shapes of the cavity surface of first section;
The body includes the first workpiece and second workpiece being welded to connect, and the part in the profile-followed water route forms in first work
On part, and the another part in the profile-followed water route is formed on the second workpiece.
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108016010A (en) * | 2016-11-04 | 2018-05-11 | 柳道万和(苏州)热流道系统有限公司 | The temperature adjustment water route of mould and its manufacturing process |
CN110053224A (en) * | 2018-01-19 | 2019-07-26 | 苏州汉扬精密电子有限公司 | Cooling jacket |
CN110126143A (en) * | 2019-05-30 | 2019-08-16 | 开平市盈光机电科技有限公司 | A kind of water channel device of mobile mould mold core |
CN110126195A (en) * | 2019-05-30 | 2019-08-16 | 开平市盈光机电科技有限公司 | A kind of sprue bushing being provided with special water channel device |
-
2016
- 2016-11-04 CN CN201621194425.1U patent/CN206493549U/en active Active
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108016010A (en) * | 2016-11-04 | 2018-05-11 | 柳道万和(苏州)热流道系统有限公司 | The temperature adjustment water route of mould and its manufacturing process |
CN110053224A (en) * | 2018-01-19 | 2019-07-26 | 苏州汉扬精密电子有限公司 | Cooling jacket |
CN110126143A (en) * | 2019-05-30 | 2019-08-16 | 开平市盈光机电科技有限公司 | A kind of water channel device of mobile mould mold core |
CN110126195A (en) * | 2019-05-30 | 2019-08-16 | 开平市盈光机电科技有限公司 | A kind of sprue bushing being provided with special water channel device |
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