CN208261793U - Casting mould containing radiator structure - Google Patents

Abstract

The utility model relates to a kind of casting moulds containing radiator structure, it include at least two mode blocks, moulding is faced the wall and meditated before being provided on the mode block, all preceding moulding of the mode blocks are faced the wall and meditated the casting type chamber surrounded for casting, it is characterized in that, caveli is provided on the mode block described at least one of which, the caveli is arranged in the dead astern that the preceding moulding is faced the wall and meditated, multiple rows of heat dissipation wooden partition is provided in the caveli, the root of the heat dissipation wooden partition is directly connected on the bottom of chamber wall of the caveli, the heat dissipation wooden partition is criss-cross arranged and forms the snakelike refrigerant passage for capableing of guiding refrigerant detour and sequential flowing in the caveli；Further include the cover board for thering is lid to be enclosed in the accent portion of the caveli, refrigerant input port and refrigerant delivery outlet are provided on the cover board, the refrigerant input port and the refrigerant delivery outlet are respectively communicated with the snakelike refrigerant passage.In such manner, it is possible to optimize cooling effect.

Description

Casting mould containing radiator structure

Technical field

The present invention relates to the side form on a kind of casting mould, in particular to a kind of casting mould containing radiator structure.

Background technique

Want to cast out flawless casting, the mold temperature field at the thick big position of control casting is of crucial importance in casting process A ring.Therefore cooling body is often equipped on casting mould.Such as Chinese utility model patent A kind of air duct cover board molding die convenient for heat dissipation disclosed in CN201720753325.6, including dynamic model disposed in parallel are fixed Plate and cover half fixed plate, the dynamic mould fixing plate and cover half fixed plate side adjacent to each other are respectively equipped with dynamic model and cover half, institute It states and is formed with type chamber between dynamic model and cover half.It is equipped with the pit being equally spaced on the cover half, is arranged in the pit There is cooling fin, heat dissipation needle is provided at the top of the cooling fin.It further include having the first heat dissipation channel, first heat dissipation channel One end is connected with water inlet pipe, and the other end is connected with outlet pipe.Heat dissipation needle at the top of the cooling fin is plugged in the pit, and The tail portion of the cooling fin is plugged into first heat dissipation channel.When work, provided by water inlet pipe to the first heat dissipation channel Cold water, the tail portion of the cooling fin are immersed in the cold water in first heat dissipation channel.Heat dissipation needle at the top of the cooling fin Quickly by the heat transfer at type chamber to the tail portion of the cooling fin, the cold water that is then transmitted in first heat dissipation channel In, so that the heat of the type chamber be made quickly to scatter and disappear, it is effectively guaranteed the Forming Quality of casting.Or China is practical Improved air-cooled casting wheel die in new patent CN201620468207.6, the air-cooled point setting heat-transfer device, leads Thermal is made of heat exchange matrix 4, cooling fin 5, air exhaust slot 6, blast pipe 3.When work, by the blast pipe 3 to the row Wind groove 6 blows cold wind, and carries out heat exchange with the cooling fin 5, heat exchange matrix 4 by cold wind and carry out cooling come out to casting.

Summary of the invention

It is found after carrying out test of many times, analysis to the cooling body disclosed in above-mentioned two patent, above two cooling The cooling effect of mechanism is unsatisfactory.Such as the heat-transfer device in patent CN201620468207.6, by the blast pipe into Entering to the air-flow in the air exhaust slot will collide with each other due to lacking effectively guiding and irregular movement occur, be formed extremely multiple Turbulent flow miscellaneous, with different flow path.The turbulent flow can not only drag the whole flow velocity of slow cooling gas and influence cold But speed, the also randomness as possessed by its own and be shaped to cooling blind area, make the local thermal center region of the type chamber In the condition of high temperature, part thermal center region is in the state of cooling, and inhomogeneous cooling is even.

Given this present invention is improved further the cooling body on casting mould, and the cooling body is not only With excellent radiator structure, additionally it is possible to carry out orderly guidance to refrigerant by radiator structure.Then the present invention proposes one kind Casting mould containing radiator structure includes at least two mode blocks, and moulding is faced the wall and meditated before being provided on the mode block, whole institutes The preceding moulding for stating mode block is faced the wall and meditated the casting type chamber surrounded for casting, which is characterized in that described at least one of which Caveli is provided on mode block, the caveli is arranged in the dead astern that the preceding moulding is faced the wall and meditated, sets in the caveli It is equipped with multiple rows of heat dissipation wooden partition, the root of the heat dissipation wooden partition is directly connected on the bottom of chamber wall of the caveli, the heat sink Wall is criss-cross arranged and forms the snakelike refrigerant passage for capableing of guiding refrigerant detour and sequential flowing in the caveli；Also Include the cover board that lid is enclosed in the accent portion of the caveli, refrigerant input port and refrigerant output are provided on the cover board Mouthful, the refrigerant input port and the refrigerant delivery outlet are respectively communicated with the snakelike refrigerant passage.

Wherein, it is the working face wall body with setting is adapted to the modeling structure of the casting that the preceding moulding, which is faced the wall and meditated, It can be body of facing the wall and meditating possessed by the mode block itself, belong to the wall body being integrally formed on the mode block, can also be Using separate structure and the sheet member that is connected on the mode block.All the preceding moulding of the mode block, which is faced the wall and meditated, surrounds for casting The casting type chamber of casting is made, the cavity wall of the actually namely described casting type chamber in this way, the preceding moulding of the mode block is faced the wall and meditated.

Wherein, caveli is provided on mode block described at least one of which.It can be read as, wherein a mould It is provided with caveli on benevolence block, or is both provided with caveli on whole mode blocks.In addition, the caveli is The recessed molding body being set up directly on the mode block can pass through the mach mode such as milling cutter, drill or the system of casting Mode is made directly to process the vacancy of recess on the wall body of the mode block and formed.

Wherein, the caveli is arranged in the dead astern that the preceding moulding is faced the wall and meditated.Features described above defines the caveli The positional relationship faced the wall and meditated with the preceding moulding.Arrangement before and after the caveli and the preceding moulding are faced the wall and meditated, and in front-rear direction On, the view field of the caveli faces the wall and meditates Chong Die with the preceding moulding.Entering refrigerant in the caveli in this way can be with It preferably faces the wall and meditates and cools down to the preceding moulding.

Wherein, the root of the heat dissipation wooden partition is directly connected on the bottom of chamber wall of the caveli.Wherein, the caveli Bottom of chamber wall be the wall portion being in the accent portion of the caveli on relative position.It is described heat dissipation wooden partition root with it is described recessed The bottom of chamber wall for falling into chamber is directly connected to, and the heat on the mode block can be made to be directly delivered on the heat dissipation wooden partition and can It quickly scatters and disappears by the heat dissipation wooden partition with relatively large heat dissipation area.The heat dissipation wooden partition has heat sinking function.

Wherein, be criss-cross arranged and formed in the caveli being capable of guiding refrigerant detour and suitable for the heat dissipation wooden partition The snakelike refrigerant passage of sequence flowing.The snakelike refrigerant passage is that the refrigerant for leading out into the caveli flows Runner.The refrigerant entered in the caveli can be along the extension path detour and sequential flowing of the snakelike refrigerant passage. In this way, the refrigerant entered in the caveli be substantially all can olderly flowage and have specific flow path.In addition, institute It states snakelike refrigerant passage and still lies low and be coiled in cooling duct on the bottom of chamber wall of the caveli, it can be led out into The bottom of chamber wall of interior refrigerant close to the caveli flows.

According to the above technical scheme, compared with prior art, the beneficial technical effect of the present invention lies in:

1. being provided in the caveli multiple rows of as being provided with caveli on the mode block described at least one of which Radiate wooden partition.In this way, the setting of the caveli and heat dissipation wooden partition substantially increases the heat dissipation area of the mode block, it can Accelerate the radiating efficiency of the mode block.

2. since the heat dissipation wooden partition is criss-cross arranged to which the formation in the caveli being capable of guiding refrigerant detour And the snakelike refrigerant passage of sequential flowing.In this way, the refrigerant entered in the caveli can be in the snakelike refrigerant passage Interior olderly flowage.It compares with the heat-transfer device in patent CN201620468207.6, is orderly flowed in the snakelike refrigerant passage Dynamic refrigerant flowing velocity faster, can relatively quickly flow in the snakelike refrigerant passage, i.e., the described snakelike refrigerant is logical There is quick refrigerant to replace speed in road.And under the guidance of the snakelike refrigerant passage, refrigerant can be cooled effectively spy Fixed thermal center area, avoids the appearance of cooling blind area.In addition, the snakelike refrigerant passage lies low and is coiled in the chamber of the caveli On bottom wall, so that the refrigerant for enabling to enter in it carries out cooling treatment to the bottom of chamber wall of the caveli in large area.

Accordingly as it can be seen that the heat dissipation wooden partition can not only increase the heat dissipation area of the mode block, additionally it is possible to guiding refrigerant Orderly flowing is carried out, to greatly improve cooling efficiency.

Further technical solution is also possible that the preceding moulding faces the wall and meditates to form the bottom of chamber wall of the caveli, described to dissipate The root of hot plate wall is directly connected on the preceding moulding faces the wall and meditates.In this way, the preceding moulding face the wall and meditate on heat can directly pass It is delivered on the heat dissipation wooden partition and can be rapidly lost in air by the heat dissipation wooden partition with big heat dissipation area, had Improve the radiating efficiency that the preceding moulding is faced the wall and meditated in effect ground.

Further technical solution is also possible that the snakelike refrigerant passage is closed loop channel.

Further technical solution is also possible that the bottom of chamber wall of the heat dissipation wooden partition and the caveli is integrally formed.This Sample, integrally formed structure can make to form close heat transfer between heat dissipation wooden partition and the bottom of chamber wall of the caveli Path, the heat of the bottom of chamber wall of the caveli can more, be quickly transmitted on the heat dissipation wooden partition.Also, one at On the one hand the structure of shape can reduce the wall thickness of the mode block, and increase the heat dissipation area of the mode block, on the other hand fill Divide and the manufacture of material possessed by the mode block itself the heat dissipation wooden partition is utilized, can simplify the heat dissipation knot of the mode block Structure does not need in addition to add radiator or reduces the setting quantity of radiator, manufacturing cost is effectively reduced.

Further technical solution is also possible that the top wall surface of the heat dissipation wooden partition is bonded the medial surface of the cover board.This Sample, it is possible to reduce or the refrigerant flowed in the refrigerant channel is avoided to pass through the top wall surface and the cover board of the heat dissipation wooden partition Medial surface between gap leap up in large quantities and go to other regions and short circuit occur in the caveli and formed apparent rapid Stream.

Further technical solution is also possible that further include having conveying pipeline, and the conveying pipeline is generally T-shaped perpendicular to have The conveying of vertical arrangement erects the horizontal branch pipe of conveying of branch pipe and lateral arrangement, and the conveying erects branch pipe and the horizontal branch pipe of conveying is interconnected, It is erected in the conveying and is provided with feed inlet on branch pipe, two discharge ports that left and right is split are provided on the horizontal branch pipe of the conveying, The conveying is erected branch pipe and is connected on the pipeline between two discharge ports；The horizontal branch pipe of conveying is accommodated in described snakelike cold To allow two discharge ports to be connected to the snakelike refrigerant passage in matchmaker channel, the conveying erects branch pipe and is connected to the cover board Refrigerant input port simultaneously extends to outside the snakelike refrigerant passage.It is logical that the snakelike refrigerant is transported to from two discharge ports in this way Refrigerant in road is divided into two bursts of refrigerant tributaries flowed round about, can reduce refrigerant from the refrigerant input port to described Flowing path increment between refrigerant delivery outlet, thus also just reduce heat gradient of the refrigerant in flowing stroke range, And the refrigerant further speeded up in the snakelike refrigerant passage replaces speed.

Further technical solution be also possible that the refrigerant input port be connected to the snakelike refrigerant passage upside it is logical Road, the refrigerant delivery outlet are connected to the lower wing passage of the snakelike refrigerant passage.

Due to the present invention have the advantages that These characteristics and, can be applied to the casting mould containing radiator structure thus, such as On the side form of the Metallic Casting Die & Mold of casting hub.

Detailed description of the invention

Fig. 1 is using the schematic cross-sectional view of the casting mould containing radiator structure of technical solution of the present invention, for letter Change view, the display of related hatching is omitted in figure；

Fig. 2 is the schematic perspective view of the mode block 1, be equipped on the mode block 1 in figure the cover board and Conveying pipeline；

Fig. 3 is the schematic perspective view of the mode block 1；

Fig. 4 is the structural schematic diagram of the main view direction of the mode block 1；

Fig. 5 is the schematic cross-sectional view in the direction A-A in Fig. 2;

Fig. 6 is the schematic perspective view of the conveying pipeline.

Specific embodiment

The structure of the casting mould containing radiator structure of application technical solution of the present invention is made with reference to the accompanying drawing further Explanation.

As shown in Figure 1, a kind of casting mould of radiator structure, includes 4 mode blocks (1,1a, 1b and 1c).The mould (11,11a, 11b and 11c) are faced the wall and meditated in moulding before being respectively arranged on benevolence block (1,1a, 1b and 1c).The preceding moulding face the wall and meditate (11, 11a, 11b and 11c) be be adapted to the modeling structure of the casting setting working face wall body, for the mode block (1, 1a, 1b and 1c) body of facing the wall and meditating possessed by itself, it is integrally formed with the mode block (1,1a, 1b and 1c).All mode blocks The preceding moulding of (1,1a, 1b and 1c) face the wall and meditate (11,11a, 11b and 11c) surround casting type chamber 10 for casting, in this way, The preceding moulding of the mode block (1,1a, 1b and 1c) is faced the wall and meditated (11,11a, 11b and 11c) actually namely described casting type chamber 10 cavity wall.

As shown in Fig. 2, Fig. 3, Fig. 4 and Fig. 5, caveli 14 is set on the mode block 1, and the caveli 14 is direct Recessed molding body on the mode block 1 is set, the mach mode such as milling cutter, drill or the manufacturer of casting can be passed through Formula directly processes the vacancy of recess on the wall body of the mode block 1 and is formed.The caveli 14 be arranged in it is described before Moulding face the wall and meditate 11 dead astern, and the preceding moulding is faced the wall and meditated the bottom of chamber wall of the 11 formation caveli 14.Certainly in others It 11 for different wall bodies is also feasible that the bottom of chamber wall of caveli 14 described in embodiment and the preceding moulding, which are faced the wall and meditated,.Described Multiple rows of heat dissipation wooden partition 12 is provided in caveli 14, the root 120 of the heat dissipation wooden partition 12 is directly connected to the preceding moulding face It faces the wall and meditates on wall 11 and with preceding moulding 11 integrally formed.In this way, integrally formed structure can make described dissipate compared with separate structure Hot plate wall 12 and the preceding moulding, which are faced the wall and meditated, forms close heat transfer path between 11, the preceding moulding face the wall and meditate 11 heat energy It is enough more, to be quickly transmitted on the heat dissipation wooden partition 12.Also, on the one hand integrally formed structure can reduce the mode The wall thickness of block 1 increases the heat dissipation area of the mode block 1, on the other hand takes full advantage of possessed by the mode block 1 itself Material manufactures the heat dissipation wooden partition 12, can simplify the radiator structure of the mode block 1, does not need in addition to add radiator or subtract The setting quantity of few radiator, is effectively reduced manufacturing cost.Certain heat dissipation wooden partition 12 described in other implementations Facing the wall and meditating with the preceding moulding 11 can also be using separate structure, and only heat dissipation effect is slightly inferior.

The heat dissipation wooden partition 12 be criss-cross arranged to the caveli 14 be divided into multiple refrigerant channels (131, 132,133,134), formed being capable of guiding refrigerant a detour for the connection of whole refrigerant channel (131,132,133,134) head and the tail concatenation And the snakelike refrigerant passage 13 of closed loop of sequential flowing.Certainly in other implementations, the snakelike refrigerant passage 13 is gone back It can be open loop type channel.Entering refrigerant in the caveli 14 will be from the refrigerant channel such as refrigerant for being in upstream Runner 131 is flowed into adjacent and is located in the refrigerant channel 132 in downstream, then is successively flowed into refrigerant channel 133, refrigerant channel It in 134, so follows and gradually guides, the refrigerant a entered in the caveli 14 can be along the extension of the snakelike refrigerant passage 13 Path detour and sequential flowing.In this way, the refrigerant a entered in the caveli 14, which is substantially all, olderly flowage and to be had Specific flow path.It is compared with the heat-transfer device in patent CN201620468207.6, in the snakelike refrigerant passage 13 The refrigerant flowing velocity of olderly flowage faster, can relatively quickly flow in the snakelike refrigerant passage 13, i.e., the described snake There is shape refrigerant passage 13 quick refrigerant to replace speed.And under the guidance of the snakelike refrigerant passage 13, refrigerant can Specific thermal center area is effectively cooled down, the appearance of cooling blind area is avoided.In addition, the snakelike refrigerant passage 13 lies low and is coiled in The preceding moulding is faced the wall and meditated on 11, so that it is cold to the preceding moulding 11 carry out of facing the wall and meditating in large area to enable to enter refrigerant in it But it handles.Accordingly as it can be seen that the heat dissipation wooden partition 12 can not only increase the heat dissipation area of the mode block 1, additionally it is possible to guide cold Matchmaker orderly, in large area face the wall and meditate 11 carry out cooling treatments to the preceding moulding, greatly improves cooling efficiency.

It as shown in Figure 2 and Figure 6, further include the cover board 2 for thering is lid to be enclosed in the accent portion of the caveli 14, the heat sink The top wall surface 121 of wall 12 is bonded the medial surface of the cover board 2.In this way, can be reduced or avoided the refrigerant channel (131, 132,133,134) in the refrigerant a that flows pass through between the top wall surface of the heat dissipation wooden partition 12 and the medial surface of the cover board 2 Gap is leapt up in large quantities goes to other regions, and short circuit occurs in the caveli 14 and form apparent turbulent flow.In the lid Be provided on plate 2 refrigerant input port (in figure by conveying pipeline 3 block and not in label) and refrigerant delivery outlet 21, the refrigerant inputs Mouth is connected to the upper channel of the snakelike refrigerant passage 13, and the refrigerant delivery outlet 21 is connected under the snakelike refrigerant passage 13 Wing passage.Refrigerant will flow from top to bottom in an orderly manner in this way.

It should be noted that in actual application, depending on the quantity of the mode block is the structure according to casting, Two mode blocks can be only set in other embodiments.And it can also be the sheet member of absolute construction that the preceding moulding, which is faced the wall and meditated, And be connected on the mode block, it is separate structure between the mode block.It radiates when needing to configure for whole mode blocks When mechanism, caveli and heat dissipation wooden partition can be respectively arranged on whole mode blocks.

As shown in Figure 5 and Figure 6, the casting mould further includes having conveying pipeline 3, and the conveying pipeline 3 is generally T-shaped to have There is the conveying erect and arranged to erect the horizontal branch pipe 31 of conveying of branch pipe 32 and lateral arrangement, the conveying erects branch pipe 32 and the horizontal branch pipe of conveying 31 are interconnected, and erect in the conveying and are provided with feed inlet 320 on branch pipe 32, be provided on the horizontal branch pipe 31 of the conveying it is left, Two discharge ports (311,312) that the right side is split, the conveying are erected branch pipe 32 and are connected between two discharge ports (311,312) Pipeline on；The horizontal branch pipe 31 of conveying be accommodated in the snakelike refrigerant passage 13 to allow two discharge ports (311, 312) it is connected to the snakelike refrigerant passage 13, the conveying erects branch pipe 32 and is connected to the refrigerant input port of the cover board 2 and extends to Outside the snakelike refrigerant passage 13.It is transported in the snakelike refrigerant passage 13 from two discharge ports (311,312) in this way Refrigerant be divided into two bursts of refrigerant tributaries flowed round about, refrigerant can be reduced from the refrigerant input port to the refrigerant Flowing path increment between delivery outlet 21, thus also just reduce heat gradient of the refrigerant a in flowing stroke range, with And the refrigerant further speeded up in the snakelike refrigerant passage 13 replaces speed.

Claims (7)

1. the casting mould containing radiator structure includes at least two mode blocks, moulding is faced the wall and meditated before being provided on the mode block, All preceding moulding of the mode blocks are faced the wall and meditated the casting type chamber surrounded for casting, which is characterized in that at least one of Caveli is provided on a mode block, the caveli is arranged in the dead astern that the preceding moulding is faced the wall and meditated, in the recess Intracavitary to be provided with multiple rows of heat dissipation wooden partition, the root of the heat dissipation wooden partition is directly connected on the bottom of chamber wall of the caveli, described Heat dissipation wooden partition is criss-cross arranged and forms the snakelike refrigerant for capableing of guiding refrigerant detour and sequential flowing in the caveli Channel；Further include the cover board for thering is lid to be enclosed in the accent portion of the caveli, be provided on the cover board refrigerant input port and Refrigerant delivery outlet, the refrigerant input port and the refrigerant delivery outlet are respectively communicated with the snakelike refrigerant passage.

2. the casting mould according to claim 1 containing radiator structure, which is characterized in that the preceding moulding faces the wall and meditates to form institute State the bottom of chamber wall of caveli, the root of the heat dissipation wooden partition is directly connected on the preceding moulding faces the wall and meditates.

3. the casting mould according to claim 1 containing radiator structure, which is characterized in that the snakelike refrigerant passage is to close Ring type channel.

4. the casting mould according to claim 1 containing radiator structure, which is characterized in that the heat dissipation wooden partition with it is described recessed The bottom of chamber wall for falling into chamber is integrally formed.

5. the casting mould according to claim 1 containing radiator structure, which is characterized in that the top wall surface of the heat dissipation wooden partition It is bonded the medial surface of the cover board.

6. the casting mould according to any one of claims 1 to 5 containing radiator structure, which is characterized in that further include have it is defeated Expects pipe, the conveying pipeline are generally T-shaped to have the conveying for erectting arrangement to erect the horizontal branch pipe of conveying of branch pipe and lateral arrangement, institute It states the perpendicular branch pipe of conveying and the horizontal branch pipe of conveying is interconnected, erected in the conveying and be provided with feed inlet on branch pipe, it is horizontal in the conveying Two discharge ports that left and right is split are provided on branch pipe, the conveying erects branch pipe and is connected to the pipeline between two discharge ports On；The horizontal branch pipe of conveying is accommodated in the snakelike refrigerant passage that two discharge ports is allowed to be connected to the snakelike refrigerant Channel, the conveying erect branch pipe and are connected to the refrigerant input port of the cover board and extend to outside the snakelike refrigerant passage.

7. the casting mould according to any one of claims 1 to 5 containing radiator structure, which is characterized in that the refrigerant is defeated Entrance is connected to the upper channel of the snakelike refrigerant passage, and the downside that the refrigerant delivery outlet is connected to the snakelike refrigerant passage is logical Road.