CN205660145U - A indirect cooling connects for casting mould - Google Patents

Abstract

The utility model provides an indirect cooling connects for casting mould, it includes that outlet pipe (21), inlet tube (22), inlet tube lock nut (23), water inlet pipe connector (24), disk connect main part (25), the outlet pipe connects (26), outlet pipe lock nut (27), adapter sleeve (28) and intakes honeycomb duct (29). Mould overall arrangement space can effectively be saved to the neotype device of this full mold in the use, do not influence the cooling effect simultaneously, brings very big convenience with laying for the design of mould water cooling pipeline, and is particularly suitable to the limited circumstances of die space overall arrangement. In use can improve die casting die's life effectively, avoids the influence that hot alternating stress produced in the cooling process to the mould, owing to adopt the copper product, the indirect heat exchange of this kind can not influence the cooling effect simultaneously.

Description

A kind of indirect cooling joint for casting mould

Technical field

This utility model relates to field of metal casting technology, more particularly to a kind of indirect cooling joint for casting mould.

Background technology

At present, during low pressure counter-pressure casting, generally use Local cooling mode portion each to foundry goods to cool down, make casting Part reaches consecutive solidification, accelerates casting beat simultaneously, improves Die Casting efficiency, it is ensured that cast structure structure and mechanical property. This kind of Local cooling mode is commonly called as " putting cold ".It is that traditional point cools down elongated joint design schematic diagram as shown in Figure 1.This kind Form cooling joint is installed on mould upstream and outer edge-on end face region to be cooled.This kind of cooling joint is long due to its length, In the mould that some arrangement spaces are compacter, use and be just restricted.The particularly outer edge-on end face of mould is due to core rod and mould Between core, spatial gaps is the least, it is impossible to be horizontally mounted this kind of long strip type water-cooling joint, it is obvious that arrange and cooling to mould cooling Pipe laying brings inconvenience.

Summary of the invention

In order to overcome the shortcoming of above-mentioned prior art, the purpose of this utility model is to design the mould that a kind of space hold is little Cooling joint, during to adapt to mold layout, can install and use during relatively small gap between core rod and core rod.Thus ensureing normally Under conditions of cooling technique, complete foundry goods cooling purpose, do not affect the mold use life-span simultaneously.

At an aspect of the present utility model, it is provided that a kind of indirect cooling joint for casting mould, it includes Water pipe (21), water inlet pipe (22), water inlet pipe locking nut (23), admitting pipe joint (24), dish type adapter body (25), outlet pipe Joint (26), outlet pipe locking nut (27), connection sleeve pipe (28) and water inlet mozzle (29), it is characterised in that: described enters Water pipe (22) is fixedly attached to dish type adapter body (25), and described water inlet pipe (21) by water inlet pipe locking nut (23) It is in fluid communication with water inlet mozzle (29)；Described outlet pipe (21) is fixedly attached to by outlet pipe locking nut (27) Dish type adapter body (25), and described outlet pipe (21) is in fluid communication with being connected sleeve pipe (28)；Described adapter sleeve Pipe (28) is placed on the outside into water mozzle (29), connects sleeve pipe (28) and is disposed as being opened on mould with water inlet mozzle (29) In Cooling Holes, and the opening of mozzle of intaking (29) is positioned at the outside connecting sleeve pipe (28).

At a preferred aspect of the present utility model, the described indirect cooling joint for casting mould is by copper Become.

At a preferred aspect of the present utility model, the described indirect cooling joint for casting mould passes through interference In coordinating the Cooling Holes embedding mould.

At other aspects of the present utility model, additionally provide following technical scheme: a kind of disc for die shape water-cooling joint, By outlet pipe, water inlet pipe, water inlet pipe locking nut, admitting pipe joint, dish type adapter body, titting water outlet, outlet pipe locking Nut, connection sleeve pipe, water inlet mozzle composition.It is connected as it is shown on figure 3, connect sleeve pipe one end with dish type adapter body, other end It is installed on core rod.In use, water inlet pipe is arranged on water supply connector top, is sealed by sealing ring, to ensure Water is not revealed.Water inlet mozzle is installed on the endoporus of water supply connector lower end so that cooling water can flow in mould Cooling Holes smoothly. Copper core adapter body lower end extension is embedded in mould Cooling Holes by interference fit, it is ensured that extension outer wall is cold with mould But hole wall good contact.Outlet pipe is arranged on outside titting water outlet, and titting water outlet one end is by pipe screw thread and copper core joint Main body is locked, and ensures good seal simultaneously.Cooling water enters from water inlet pipe one end, flow to bottom, by intaking outside mozzle Hollow space between wall and copper core adapter body extension inner hole wall upwards backflows, to water out adapter portion, from outlet pipe Flow out.It is thusly-formed a closed circuit, thus plays heat exchange action.

At other aspects of the present utility model, also describe and use the indirect cooling joint described in claim to cool down Method: it is internal that cooling water enters into admitting pipe joint (5) through water inlet pipe (5), passes through and enters into copper core into water mozzle (8) Adapter body (4) extension endoporus, after cooling water fills copper core adapter body (4) extension endoporus, now cools down water Absorbing most heats of copper core adapter body (4), cooling water starts to back up, through titting water outlet (3), then via Outlet pipe (2) flows out.The turnover of cooling water all performs according to strict time rule, and so, cooling water is by copper core joint master The heat of body (4) is taken away, and the heat that copper core adapter body (4) is absorbed is both from mould (1), thus indirectly serves office The effect of portion's cooling mould.

This full mold new device in use can effectively save mold layout space, does not affect cooling effect simultaneously Really, bring great convenience to mould water cooling circuit design and laying, especially suitable for die space layout limited circumstances.This The advantage of the technical scheme of utility model also includes: in use can be effectively improved the service life of die casting, it is to avoid The impact that in cooling procedure, mould is produced by alternating thermal stress, simultaneously because use copper product, this kind indirectly heat exchange is not Influence whether cooling effect.Owing to copper core adapter body is copper product, specific heat is relatively big, and heat absorption is fast, and heat radiation is also fast, can rise very well To heat exchange effect, and matter is soft, and elongation percentage is high, is susceptible to alternating thermal stress impact, thus it is direct with mould to avoid cooling water Contact, will not make mould cause deformation or cracking because producing " Quench ", effectively extend the mold use life-span.

Accompanying drawing explanation

Hereinafter, embodiment of the present utility model is described in detail in conjunction with accompanying drawing, wherein:

Fig. 1 is the structural representation of the indirect cooling joint being traditionally used for casting mould；

Fig. 2 is the top view of the indirect cooling joint for casting mould of the present utility model；And

Fig. 3 is the side view of the indirect cooling joint for casting mould of the present utility model；

In figure: 11-traditional moulds, 12-tradition intervalve, 13-convention body joint, 14-tradition admitting pipe joint, 15- Tradition water inlet pipe, 16-tradition outlet pipe, 17-tradition titting water outlet, 21-outlet pipe, 22-water inlet pipe, the locking of 23-water inlet pipe Nut, 24-admitting pipe joint, 25-dish type adapter body, 26-titting water outlet, 27-outlet pipe locking nut, 28-adapter sleeve Manage, 29-intakes mozzle.

Detailed description of the invention

Embodiment 1

Below in conjunction with the accompanying drawings 2 and accompanying drawing 3 illustrate according to the details of concrete device that the utility model proposes and work feelings Condition:

Indirect cooling joint of the present utility model include outlet pipe (21), water inlet pipe (22), water inlet pipe locking nut (23), Admitting pipe joint (24), dish type adapter body (25), titting water outlet (26), outlet pipe locking nut (27), connection sleeve pipe And water inlet mozzle (29) (28), it is characterised in that: described water inlet pipe (22) is fixing even by water inlet pipe locking nut (23) Receive dish type adapter body (25), and described water inlet pipe (22) is in fluid communication with water inlet mozzle (29)；Described Outlet pipe (21) is fixedly attached to dish type adapter body (25), and described outlet pipe by outlet pipe locking nut (27) (21) be connected sleeve pipe (28) and be in fluid communication；Described connection sleeve pipe (28) is placed on the outside into water mozzle (29), even Female connector pipe (28) is disposed as being opened in mould Cooling Holes with water inlet mozzle (29), and the opening of mozzle of intaking (29) End is positioned at the outside connecting sleeve pipe (28).The described indirect cooling joint for casting mould is made of copper.Described is used for The indirect cooling joint of casting mould is embedded in the Cooling Holes of mould by interference fit.

In practical work process, first cooling water enter into inside admitting pipe joint through water inlet pipe, passes through and leads into water Flow tube enters into copper core adapter body extension endoporus.Copper core adapter body extension outer wall with mould cooling hole wall was Being full of cooperation, contact is good, and copper core adapter body extension outer wall quickly absorbs mould cylindricality cooling water hole neighboring area heat. After cooling water fills copper core adapter body extension endoporus, cooling water backs up, and now cooling water has absorbed copper The heat of core adapter body, through titting water outlet, then flows out via outlet pipe.Cooling water entered also according to the time period of regulation Flow out, the heat of copper core adapter body is taken away, and the heat that copper core adapter body is absorbed is both from mould, thus indirectly Serve the effect of cooling mould.

Claims (3)

1., for an indirect cooling joint for casting mould, it includes outlet pipe (21), water inlet pipe (22), water inlet pipe locking screw Female (23), admitting pipe joint (24), dish type adapter body (25), titting water outlet (26), outlet pipe locking nut (27), connection Sleeve pipe (28) and water inlet mozzle (29), it is characterised in that: described water inlet pipe (22) is solid by water inlet pipe locking nut (23) Surely it is connected to dish type adapter body (25), and described water inlet pipe (22) is in fluid communication with water inlet mozzle (29)；Institute The outlet pipe (21) stated is fixedly attached to dish type adapter body (25), and described water outlet by outlet pipe locking nut (27) Pipe (21) is in fluid communication with being connected sleeve pipe (28)；Described connection sleeve pipe (28) is placed on the outside into water mozzle (29), Connect sleeve pipe (28) to be disposed as being opened in mould Cooling Holes with water inlet mozzle (29), and the opening of mozzle of intaking (29) Mouth end is positioned at the outside connecting sleeve pipe (28).

Indirect cooling joint for casting mould the most according to claim 1, it is characterised in that described being used for casts The indirect cooling joint of mould is made of copper.

Indirect cooling joint for casting mould the most according to claim 1, it is characterised in that described being used for casts The indirect cooling joint of mould is embedded in the Cooling Holes of mould by interference fit.