CN206663728U - Conformal cooling component - Google Patents

Abstract

The utility model embodiment discloses a kind of conformal cooling component.Conformal cooling component includes:Molding part to be cooled；Cooling pipe, the cooling pipe includes multiple cooling sections being sequentially connected with, multiple cooling sections are uniformly distributed in outer surface of the upright projection along the molding part of the outer surface of the molding part, be filled with coolant in each cooling section, each cooling section is towards the definite value that the distance between the surface of the molding part and outer surface of the molding part are more than zero.Conformal cooling component provided by the utility model, the uniformity of molding part cooling is improved, cooling effectiveness is added, shortens the molding part production cycle, add the mechanical strength inside molding part, reduce surface defect.

Description

Conformal cooling component

Technical field

It the utility model is related to molding part cooling technology field, more particularly to a kind of conformal cooling component.

Background technology

Cooling is the important step of molding part injection molding, generally requires gun drilling in a mold, forms cooling line, makes Molding part cooling in mould.

Fig. 1 is the structural representation of cooling component in the prior art, and Fig. 2 is the structural representation in A '-A ' sections in Fig. 1. It can be seen that in the prior art from Fig. 1 and Fig. 2, cooling line 1 ' is generally the structure for including multiple linear pattern branch roads, and treats cold But the structure of molding part 2 ' is complex, comes with some shortcomings during using the above-mentioned cooled former of cooling line 1 ' 2 '：First, into The upper vertical range between diverse location and cooling line 1 ' of type part 2 ' is also different, causes cooling line 1 ' to molding part 2 ' Inhomogeneous cooling is even；Second, the cool time of the upper diverse location of molding part 2 ' is inconsistent, influences the production week of whole molding part 2 ' Phase；3rd, the internal residual stress skewness of molding part 2 ', influence the bulk strength of molding part 2 '；3rd, molding part 2 ' Difference is produced at the diverse location on surface, produces surface defect.

Therefore, it is necessary to solves above-mentioned technical problem.

Utility model content

The utility model provides a kind of conformal cooling component, to solve problems of the prior art, improves molding part The uniformity of cooling, increase cooling effectiveness, shorten the molding part production cycle, increase the mechanical strength inside molding part, reduce table Planar defect.

The utility model provides a kind of conformal cooling component, including:Molding part to be cooled；Cooling pipe, it is described cold But pipeline includes multiple cooling sections being sequentially connected with, and multiple cooling sections are on the upright projection edge of the outer surface of the molding part The outer surface of the molding part is uniformly distributed, and coolant is filled with each cooling section, each cooling section direction The distance between the surface of the molding part and the outer surface of the molding part are the definite value more than zero.

Alternatively, the conformal cooling component also includes mould, and the mould includes mounting surface, opened up on the mounting surface There is forming tank, the molding part is located in the forming tank.

Alternatively, the conformal cooling component also includes seal closure, and the seal closure includes locating surface, and the locating surface is set The boss for protruding from the locating surface is equipped with, multiple cooling sections are arranged on the boss, the locating surface and the peace Dress face is relative to be connect, and multiple cooling sections are located in the forming tank.

Alternatively, the seal closure and mould sealed set at snapping.

Alternatively, upright projection of multiple cooling sections on the outer surface of the molding part be arranged in parallel, any phase The distance between two adjacent cooling sections are equal.

Alternatively, arc transition connects between the adjacent cooling section of any two.

Alternatively, the both ends of the cooling pipe are connected to water inlet pipe and outlet pipe.

Alternatively, the conformal cooling component also includes heat sink, the end of the water inlet pipe and the outlet pipe End is connected, and the heat sink is arranged on the outlet pipe.

Alternatively, the shape of the cross section of the cooling section is circular or oval.

Alternatively, the coolant is cooling water.

Conformal cooling component provided by the utility model, by setting multiple cooling sections on cooling pipe in molding part The upright projection of outer surface is uniformly distributed along the outer surface of molding part, and sets the distance between each cooling section and molding part It is definite value, the heat discharged on cooling pipe uniform pickup molding part can be made, be advantageous to molding part uniform decrease in temperature, improves shaping The uniformity of part cooling, improves cooling effectiveness, shortens the time needed for cooling, increases the mechanical strength inside molding part, reduces Open defect.

Brief description of the drawings

Preferred embodiment in the utility model will be described in detail by accompanying drawing below, it will help understand of the present utility model Objects and advantages, wherein:

Fig. 1 is the structural representation of cooling component in the prior art.

Fig. 2 is the structural representation in A '-A ' sections in Fig. 1.

Fig. 3 is the structural representation for the cooling component that the utility model preferred embodiment provides.

Fig. 4 is what is be oppositely arranged between the cooling pipe that the utility model preferred embodiment provides and the outer surface of molding part Structural representation.

Fig. 5 is the structural representation for the mould that the utility model preferred embodiment provides.

Fig. 6 is the structural representation for the seal closure that the utility model preferred embodiment provides.

Fig. 7 is the structural representation that the seal closure that the utility model preferred embodiment provides and mould are interlockingly connected.

Embodiment

Mention in this manual or may mention up, down, left, right, before and after, front, the back side, top, bottom etc. Orientation term is defined relative to the construction shown in each accompanying drawing, and word " interior " and " outer " refer respectively to direction or remote From particular elements geometric center direction they be relative concept, it is therefore possible to can according to its residing diverse location, difference Use state and correspondingly changed.So also these or other orientation terms should not be construed to restricted use Language.

Fig. 3 is the structural representation for the cooling component that the utility model preferred embodiment provides.Fig. 4 is that the utility model is excellent The structural representation being oppositely arranged between the cooling pipe of embodiment offer and the outer surface of molding part is provided.Such as Fig. 3 to Fig. 4 institutes Show, the utility model provides a kind of conformal cooling component, including molding part 1 and cooling pipe 2 to be cooled.

Referring to Fig. 1 and Fig. 2, the present embodiment provide molding part 1 for the preliminary molding part of hot-working, it is necessary to cool down after It could finally be molded, define the outer surface of molding part 1 as area on molding part 1 is larger and the relatively small number of table of parts of installation Face.The cooling pipe 2 includes multiple cooling sections 23 being sequentially connected with, and cooling pipe 2 can be straight pipeline or have certain The crooked pipeline of radian.When the molding part 1 of required cooling is strip, cooling pipe 2 can be considered as by multiple cooling sections 23 The straight pipeline being spliced, and the bearing of trend of the molding part 1 along strip is set, for cooling to molding part 1；When required When the structure of the molding part 1 of cooling is complex, multiple cooling sections 23 can form concentric multiple circular or swan-necks Road etc., to realize the technique effect of effective temperature-reducing.Projection of multiple cooling sections 23 on the outer surface of the molding part 1 is equal Even distribution, ensure that multiple cooling sections 23 are uniformly distributed relative to molding part 1, be advantageous to the uniformity that cooling section 23 absorbs heat, And then improve the uniformity that molding part 1 cools down.Coolant is filled with each cooling section 23, coolant is in flowing State.

Alternatively, the both ends of the cooling pipe 2 can be connected to water inlet pipe 21 and outlet pipe 22.The temperature after heat exchange Elevated coolant flows out from outlet pipe 22, and new cryogenic liquid flows into from water inlet pipe 21 and next round is carried out in cooling pipe 2 Cooling.Each cooling section 23 towards the distance between the surface of molding part 1 and outer surface of molding part 1 be to be more than Zero definite value, i.e., each gap that same widths are left between the cooling section 23 and the molding part 1, can make each cooling section The distance between 23 and the molding part 1 all same, it further ensure that cooling pipe 2 absorbs the uniformity of heat.

It is alternatively possible to define any point on an outer surface with the molding part 1 is apart from the face of all same Cooling surface, the external diameter of the cooling pipe 2 is definite value, and cooling pipe 2 is uniformly distributed on cooling surface, with further accurate cold But the position of pipeline 2, be advantageous to the installation of cooling pipe 2, ensure the uniform decrease in temperature of molding part 1.

The conformal cooling component that the utility model embodiment provides, by setting multiple cooling sections 23 on cooling pipe 2 Be uniformly distributed on outer surface of the upright projection along molding part 1 of the outer surface of molding part 2, and set each cooling section 23 with into The distance between type part 1 is definite value, can make the heat discharged on the uniform pickup molding part 1 of cooling pipe 2, be advantageous to molding part 1 uniform decrease in temperature, the uniformity that molding part 1 cools down is improved, improve cooling effectiveness, shorten the time needed for cooling, increase shaping Mechanical strength inside part 1, reduce open defect.

Fig. 5 is the structural representation for the mould that the utility model preferred embodiment provides.

Referring to Fig. 3 to Fig. 5, further, the conformal cooling component also includes mould 3, and the mould 3 includes Mounting surface 31, forming tank 32 is offered on the mounting surface 31, the molding part 1 is located in the forming tank 32.Mould 3 is Cooled former 1 provides space.Alternatively, molding part 1 can the injection molding in mould 3, simplify molding part 1 injection and Technological process and space needed for cooling, improve the shaping efficiency of molding part 1.

Fig. 6 is the structural representation for the seal closure that the utility model preferred embodiment provides, and Fig. 7 is that the utility model is preferred The structural representation that the seal closure and mould that embodiment provides are interlockingly connected.

Referring to Fig. 3 to Fig. 7, alternatively, the conformal cooling component also includes seal closure 4, and the seal closure 4 wraps Locating surface 41 is included, the locating surface 41 is provided with the boss 42 for protruding from the locating surface 41, and multiple cooling sections 23 are set On the outer surface of the boss 42, the locating surface 41 is relative with the mounting surface 31 to be connect, and multiple cooling sections 23 are located at In the forming tank 32.Each cooling section 23 in forming tank 32 is that molding part 1 is cold with the spaced set of molding part 1 But uniform low-temperature receiver is provided, forming tank 32 provides the space of heat exchange, can reduce energy loss, is advantageous to shorten cool time.

It is preferred that the seal closure 4 can further reduce cooling pipe 2 at snapping with the mould 3 with sealed set In cooled former 1, the loss of energy, effectively shortens cool time.

Alternatively, upright projection of multiple cooling sections 23 on the outer surface of the molding part 1 be arranged in parallel, arbitrarily It is multiple 23 preferable connected modes of cooling section that the distance between two adjacent cooling sections 23 are equal, in the distribution mode Under, the spacing that multiple cooling sections 23 absorb heat is identical, can be the uniform decrease in temperature of molding part 1.

As an alternatively embodiment, arc transition connects between the adjacent cooling section 23 of any two, can be with Coolant is reduced during flowing, to adjacent cooling section 23 in the percussion of junction, advantageously ensures that structure Stability.

It is preferred that the conformal cooling component also includes heat sink, end and the outlet pipe of the water inlet pipe 21 22 end is connected, and the heat sink is provided with the outlet pipe 22.The coolant flowed out from outlet pipe 22 is passed through The operative temperature that exchanges heat is higher, and after the cooling effect of heat sink, temperature declines, and enters cooling pipe from water inlet pipe 21 again Enter the cooling of next next round in 2, improve the utilization ratio of coolant.Wherein, heat sink can be air-conditioning etc..

Further, the cross section of the cooling section 23 can be circular or oval.It is cold when circular or oval But the cooling surface of section 23 is larger, is advantageous to increase the heat absorption efficiency of cooling section 23.But the cross-sectional area of cooling section 23 not only limits In circular or ellipse, hexagon or pentagon etc. can also be.

Alternatively, the coolant is cooling water, and the thermal capacitance of cooling water is larger, raises same temperature, the heat of absorption It is more, be advantageous to increase the heat absorption efficiency of coolant, improve the cooling effectiveness of molding part 1.

The modeling process of the conformal cooling component of the utility model embodiment offer is provided：First, molding part 1 is designed Die joint, after molding part 1 is placed in mould 3, pull out die joint, by die joint according to the demoulding direction bias one section Distance generation screw rotor；Then, cooling pipe 2 is arranged according to certain spacing L (5mm≤L≤20mm) on screw rotor Center line, according to the shape of the cross section of cooling pipe 2, generation cooling pipe 2 is scanned along center line；Finally, entity is built, The cooling pipe 2 of generation is coated on the inside of entity, because cooling pipe 2 is generated with the center line on screw rotor, because This all cooling pipe 2 is divided into two by screw rotor, during entity is built, it is necessary to by by separated cooling pipe 2 two parts are reunited, and the means such as sealing strip can be specifically used by Diffusion Welding, soldering or outside to knot Conjunction face is sealed.

Conformal cooling component provided by the utility model, by setting multiple cooling sections 23 on cooling pipe 2 being molded Projection on part 1 is uniformly distributed, and is definite value with the distance between molding part 1, can make the uniform pickup molding part 1 of cooling pipe 2 The heat of upper release, be advantageous to the uniform decrease in temperature of molding part 1, improve the uniformity that molding part 1 cools down, improve cooling effectiveness, shorten Time needed for cooling, increase the mechanical strength inside molding part 1, reduce open defect.

Finally it should be noted that：Above example is only to illustrate the technical solution of the utility model, rather than its limitations； Although the utility model is described in detail with reference to the foregoing embodiments, it will be understood by those within the art that： It can still modify to the technical scheme described in foregoing embodiments, or which part technical characteristic is carried out etc. With replacement；And these modifications or replacement, the essence of appropriate technical solution is departed from various embodiments of the utility model technology The scope of scheme.

Claims (10)

1. A kind of 1. conformal cooling component, it is characterised in that including:

   Molding part to be cooled；

   Cooling pipe, the cooling pipe include multiple cooling sections being sequentially connected with, and multiple cooling sections are in the molding part The upright projection of outer surface be evenly distributed on the outer surface of the molding part, filled with cooling in each cooling section Liquid, each cooling section towards the distance between the surface of the molding part and the outer surface of the molding part be more than zero Definite value.
2. 2. conformal cooling component according to claim 1, it is characterised in that the conformal cooling component also includes mould, The mould includes mounting surface, and forming tank is offered on the mounting surface, and the molding part is located in the forming tank.
3. 3. conformal cooling component according to claim 2, it is characterised in that the conformal cooling component also includes sealing Cover, the seal closure include locating surface, and the locating surface is provided with the boss for protruding from the locating surface, multiple cooling sections It is arranged on the boss, the locating surface is relative with the mounting surface to be connect, and multiple cooling sections are located in the forming tank.
4. 4. conformal cooling component according to claim 3, it is characterised in that the seal closure is with the mould at snapping Sealed set.
5. 5. conformal cooling component according to claim 1, it is characterised in that multiple cooling sections are in the molding part Upright projection on outer surface be arranged in parallel, and the distance between two cooling sections of arbitrary neighborhood are equal.
6. 6. conformal cooling component according to claim 1, it is characterised in that between the adjacent cooling section of any two Arc transition connects.
7. 7. conformal cooling component according to claim 1, it is characterised in that the both ends of the cooling pipe are connected to Water inlet pipe and outlet pipe.
8. 8. conformal cooling component according to claim 7, it is characterised in that the conformal cooling component also includes cooling dress Put, the end of the water inlet pipe is connected with the end of the outlet pipe, and the heat sink is arranged on the outlet pipe.
9. 9. according to the conformal cooling component described in claim 1-8 any one, it is characterised in that the cross section of the cooling section Shape be circular or ellipse.
10. 10. according to the conformal cooling component described in claim 1-8 any one, it is characterised in that the coolant is cooling Water.