CN207629179U - Hub mold water cooling plant - Google Patents

Abstract

The utility model discloses a kind of hub mold water cooling plants, including pedestal and the bed die being set on the base, side mould and upper mold, bed die, cast cavity is formed after side mould and upper mold docking, upper mold body outer patch is equipped with the spiral cooler pan of annular, have around the spiral water-cooling channel that disk body is arranged inside spiral cooler pan, the water inlet in spiral water-cooling channel is set to spiral cooler pan upper end, the water outlet in spiral water-cooling channel is set to spiral cooler pan lower end, Bian Monei is equipped with cyclic annular water-cooling channel, cyclic annular water-cooling channel is between bed die and upper mold close to the position of cast cavity.By using said program, while cooling water being passed through in spiral cooler pan on the outside of upper mold from top to bottom and is cooled down, it is also passed into cooling water in the cyclic annular water-cooling channel of Bian Monei, rapidly and efficiently the spoke formed in cast cavity can be cooled down, it is integrally cooling to achieve the effect that, cooling efficiency is improved, shortens opening period, improve production efficiency.

Description

Hub mold water cooling plant

Technical field

The utility model is related to cooling system, more particularly to a kind of aluminium alloy wheel hub mold water cooling plant.

Background technology

The mold of existing low pressure casting forming technique, the type of cooling generally have compressed air cooling, aforesaid way cooling Effect is slow, it is strong cold to be unable to reach, and has evolved into the mode of mold water cooling now to realize that casting high intensity is cooling, contracts Short opening period improves production efficiency, reduces pneumatics, improves product mechanical performance, realization product lightweight etc., is the following casting Make the development trend that technique is promoted and the same industry competes.

Chinese patent notification number CN204321158U discloses a kind of low-pressure casting mould for wheel hub with spiral cooler pan, Including the pedestal and bed die being set on the base, Bian Mo and upper mold, there is bed die lower die cooling component, upper mold to have upper mold Cooling component, casting mould further include spiral cooler pan, and spiral cooler pan is annular disk body, and the outer wall of spiral cooler pan with it is upper It fits closely between mould body, has around the spiral water-cooling channel that disk body is arranged, spiral water-cooling inside the disk body of spiral cooler pan The water inlet in channel is arranged in the upper end of disk body, and the water outlet in spiral water-cooling channel is arranged in the lower end of disk body.It is cold in casting But water is entered in cooler pan by pipeline above mold and is from top to bottom cooled down successively along helical duct, achievees the purpose that be quickly cooled down, But since the aluminium alloy stock between upper mold and bed die is more than the aluminium alloy stock between upper mold and side mould, upper mold with Heat between bed die is more compared with the heat between upper mold and side mould, and cooling water also can under being flowed to from above in spiral water-cooling channel Heating can cause the cooling velocity of the aluminium alloy stock between upper mold and bed die can be slower, to influence whole cooling efficiency, It is further improved.

Utility model content

The purpose of this utility model is to provide a kind of hub mold water cooling plant, has whole fast quickly cooling to hub mold But advantage.

The above-mentioned technical purpose of the utility model technical scheme is that：

A kind of hub mold water cooling plant, including pedestal and the bed die, Bian Mo and the upper mold that are set on the base, it is described Cast cavity is formed after bed die, Bian Mo and upper mold docking, the upper mold body outer patch is equipped with the spiral cooler pan of annular, the spiral shell Revolving inside cooler pan has around the spiral water-cooling channel that disk body is arranged, and the water inlet in the spiral water-cooling channel is cooled down set on spiral The water outlet of disk upper end, the spiral water-cooling channel is set to spiral cooler pan lower end, and the Bian Monei is equipped with cyclic annular water-cooling channel, The ring-type water-cooling channel is between bed die and upper mold close to the position of cast cavity.

By using said program, cooling water is passed through in the spiral cooler pan on the outside of upper mold from top to bottom and carries out cooling Meanwhile it being also passed into cooling water in the cyclic annular water-cooling channel of Bian Monei, it can be rapidly and efficiently to pouring into a mould the spoke formed in cavity It is cooled down, it is integrally cooling to achieve the effect that, cooling efficiency is improved, shortens opening period, improve production efficiency.

As a kind of improvement of the utility model, the Bian Monei is circumferentially uniformly provided with multiple connection limbers, institute It states connection limbers by near side (ns) mould inner wall to be arranged, one end of the connection limbers is connected to cyclic annular water-cooling channel, and the other end is opened On the outside of the mould of side, the inlet opening being connected to cyclic annular water-cooling channel is offered on the side mould.

By using said program, the cooling water in cyclic annular water-cooling channel can from bottom to up will out of connection limbers Heat is taken out of, when cooling water is flowed out out of connection limbers can with the heat of the casting between ABSORPTION EDGE mould and upper mold, into One step improves cooling efficiency.

It is opposite it to be formed by wheel spoke as a kind of improvement of the utility model, in the connection limbers and cast cavity Setting.

By using said program, by the taken up space maximum of wheel spoke of institute's shape in cast cavity, casting feedstock is most, Heat is also more, when connect flow through cooling water in limbers after, faster its heat can be taken away, achieve the purpose that integrally cooling, carried High cooling efficiency shortens opening period, improves production efficiency.

As a kind of improvement of the utility model, lower die cooling component, the lower die cooling group are equipped on the outside of the bed die Lower die Water-cooling circulating channel is equipped in part.

By using said program, quickly the casting in the middle part of cast cavity can be cooled down, improve cooling efficiency.

As a kind of improvement of the utility model, upper mold cooling component, the upper mold cooling group are equipped on the outside of the upper mold Upper mold Water-cooling circulating channel is equipped in part.

By using said program, quickly the casting in the middle part of cast cavity can be cooled down, improve cooling efficiency.

In conclusion the utility model has the advantages that：

On the basis of spiral cooler pan is arranged in upper mold, increase cyclic annular water-cooling channel, cyclic annular water-cooling channel position in Bian Monei Close to the position of cast cavity between bed die and upper mold, it is passed through cooling water from top to bottom in the spiral cooler pan on the outside of upper mold While cooling, it is also passed into cooling water in the cyclic annular water-cooling channel of Bian Monei, it can be rapidly and efficiently in cast cavity The spoke of formation is cooled down, integrally cooling to achieve the effect that, improves cooling efficiency, is shortened opening period, is improved production Efficiency；Multiple connection limbers are circumferentially uniformly provided in Bian Monei, connection limbers is arranged by near side (ns) mould inner wall, and connection is logical The one end in water hole is connected to cyclic annular water-cooling channel, and the other end is opened on the outside of the mould of side, is offered on the mould of side and cyclic annular water-cooling channel Wheel spoke is formed by the inlet opening of connection, connection limbers and cast cavity to be oppositely arranged, in cyclic annular water-cooling channel Cooling water from bottom to up can take heat out of out of connection limbers, can be with when cooling water is flowed out out of connection limbers The heat of casting between ABSORPTION EDGE mould and upper mold, by the taken up space maximum of wheel spoke of institute's shape in cast cavity, casting is former Material is most, and heat is also more, after flowing through cooling water in connection limbers, can faster take away its heat, reach integrally cooling Purpose；Middle side part is equipped with lower die cooling component outside bed die, and 4 outer middle side part of upper mold is equipped with upper mold cooling component 12, can be fast Speed cools down the casting in the middle part of cast cavity, improves whole cooling efficiency.

Description of the drawings

Fig. 1 is the structural schematic diagram of hub mold water cooling plant；

Fig. 2 is the structural schematic diagram of spiral cooler pan.

In figure, 1, pedestal；2, bed die；3, Bian Mo；301, cyclic annular water-cooling channel；302, limbers is connected；303, inlet opening； 4, upper mold；5, cavity is poured into a mould；6, spiral cooler pan；7, spiral water-cooling channel；8, water inlet；9, water outlet；10, lower die cooling group Part；11, lower die Water-cooling circulating channel；12, upper mold cooling component；13, upper mold Water-cooling circulating channel；14, outlet pipe；15, it intakes Pipe.

Specific implementation mode

The utility model is described in further detail below in conjunction with attached drawing.

Embodiment：

Referring to Fig. 1, a kind of hub mold water cooling plant, including pedestal 1 and the bed die 2, the side mould 3 that are arranged on pedestal 1 And upper mold 4, bed die 2, side mould 3 and upper mold 4 form cast cavity 5 after docking, in upper mold, 4 are closely fitted with annular in vitro Spiral cooler pan 6, in conjunction with Fig. 2,6 inside of spiral cooler pan has around the spiral water-cooling channel 7 that disk body is arranged, spiral water-cooling channel 7 water inlet 8 is set to 6 upper end of spiral cooler pan, and the water outlet 9 in spiral water-cooling channel 7 is set to 6 lower end of spiral cooler pan.

Cyclic annular water-cooling channel 301 is offered in side mould 3, cyclic annular water-cooling channel 301 leans between bed die 2 and upper mold 4 The position of nearly cast cavity 5, is circumferentially uniformly provided with multiple connection limbers 302 in side mould 3, connect limbers 302 and It is formed by wheel spoke in cast cavity 5 to be oppositely arranged, and connects limbers 302 and be obliquely installed vertically by 3 inner wall of near side (ns) mould, even The one end for connecting water hole 302 is connected to cyclic annular water-cooling channel 301, and the other end is opened in 3 outside of side mould and is connected with outlet pipe 14, side Offering the inlet opening 303 being connected to cyclic annular water-cooling channel 301 on mould 3, in the present embodiment, inlet opening 303 is arranged with two, Inlet opening 303 is connected to water inlet pipe 15.

Lower die cooling component 10 is installed in 2 outer middle side part of bed die, lower die Water-cooling circulating is equipped in lower die cooling component 10 Channel 11,4 outer middle side part of upper mold are equipped with upper mold cooling component 12, upper mold Water-cooling circulating channel are equipped in upper mold cooling component 12 13。

In actual use, when casting carries out low pressure casting, cooling water is out of spiral water-cooling channel 7 from top to bottom to upper Mould 4, which cool down, takes away casting heat, while cooling water is in from the entrance of water inlet pipe 15 301 opposite side mould 3 of cyclic annular water-cooling channel Part between bed die 1 and upper mold 4 is cooled down, and by casting heat from bottom to up by connecting limbers 302 from outlet pipe 14 discharges form cycle, to quickly take away the heat being formed by cast cavity 5 on spoke；Lower die cooling component 10 simultaneously Upper mold Water-cooling circulating channel 13 in interior lower die Water-cooling circulating channel 11 and upper mold cooling component 12 is also passed into cooling water so that The middle part of bed die 2 and upper mold 4 is cooled down, and the amount of heat of cast 5 middle part casting of cavity can be quickly taken away, to fast implement The whole high intensity cooling for pouring into a mould casting in cavity 5, shortens opening period, improves production efficiency, improve the machine of product Tool performance realizes product lightweight manufacture.

This specific embodiment is only the explanation to the utility model, is not limitations of the present invention, ability Field technique personnel can as needed make the present embodiment the modification of not creative contribution after reading this specification, but As long as all being protected by Patent Law in the right of the utility model.

Claims (5)

1. a kind of hub mold water cooling plant, including pedestal (1) and be arranged on pedestal (1) bed die (2), side mould (3) with And upper mold (4), cast cavity (5) is formed after the bed die (2), side mould (3) and upper mold (4) docking, the upper mold (4) is originally external Being sticked has the spiral cooler pan (6) of annular, has around the spiral water-cooling channel that disk body is arranged inside the spiral cooler pan (6) (7), the water inlet (8) of the spiral water-cooling channel (7) is set to spiral cooler pan (6) upper end, the spiral water-cooling channel (7) Water outlet (9) is set to spiral cooler pan (6) lower end, which is characterized in that cyclic annular water-cooling channel (301) is equipped in the side mould (3), The ring-type water-cooling channel (301) is located between bed die (2) and upper mold (4) close to the position of cast cavity (5).

2. hub mold water cooling plant according to claim 1, which is characterized in that in the side mould (3) circumferentially uniformly Multiple connection limbers (302) are offered, the connection limbers (302) is arranged by near side (ns) mould (3) inner wall, the connection water flowing The one end in hole (302) is connected to cyclic annular water-cooling channel (301), and the other end is opened on the outside of side mould (3), is opened on the side mould (3) Equipped with the inlet opening (303) being connected to cyclic annular water-cooling channel (301).

3. hub mold water cooling plant according to claim 2, which is characterized in that the connection limbers (302) with pour Wheel spoke is formed by note cavity (5) to be oppositely arranged.

4. hub mold water cooling plant according to claim 3, which is characterized in that the outer middle side part of the bed die (2) is equipped with Lower die cooling component (10), the lower die cooling component (10) is interior to be equipped with lower die Water-cooling circulating channel (11).

5. hub mold water cooling plant according to claim 4, which is characterized in that the outer middle side part of the upper mold (4) is equipped with Upper mold cooling component (12), the upper mold cooling component (12) is interior to be equipped with upper mold Water-cooling circulating channel (13).