CN204009862U - A kind of for copper bar production line milling train circulating cooling system - Google Patents

Abstract

The utility model discloses one for copper bar production line milling train circulating cooling system, belong to rolling mill structure manufacture field.It comprises emulsion entrance pond, emulsion filtering ponds and emulsion outlet pond, described milling train is connected with described emulsion entrance pond and described emulsion outlet pond respectively with the second emulsion delivery pipe by the first emulsion delivery pipe, described the first emulsion passage is connected with emulsion entrance pond and emulsion filtering ponds respectively, and described the second emulsion passage is connected with emulsion filtering ponds and emulsion outlet pond respectively.The utility model can filter the metal powder precipitating remove, and has ensured the high-purity of emulsion under long-term use, has also utilized the cooling principle of bottom in and top out, has realized the interior circulating cooling of emulsion, has improved the cooling effectiveness of emulsion.And have advantages of simple in structure, reasonable in design, be easy to manufacture.

Description

A kind of for copper bar production line milling train circulating cooling system

Technical field

The utility model belongs to rolling mill structure manufacture field, more particularly, relates to a kind of for copper bar production line milling train circulating cooling system.

Background technology

Milling train produces amount of heat under hot environment or due to the course of work and causes rolling machine temperature to raise, thus in the time that rolling machine temperature rises to uniform temperature because expanded by heating causes body deformation, operating accuracy sharply reduces, and even cannot normally work.Therefore we need to carry out milling train body coolingly, reduce the temperature of body, reduce expanded by heating variable, to ensure operating accuracy, guarantee the normal use of machine.

At present cooling technology mainly contains air-cooled, water-cooled and the emulsion type of cooling.Air-cooled cooling effect is poor, can not meet the requirement of milling train High-temperature cooling; Cooling by water effect is better, can occasionally meet the requirement of milling train High-temperature cooling, but there is following problem 1 for milling train is cooling in water-cooling pattern: current can form incrustation scale by milling train for a long time in body, and the formation meeting of incrustation scale directly affects the dynamic balance accuracy of milling train body; 2: milling train contacts inside for a long time and can get rusty with water, after using, internal body can be by heavy corrosion throughout the year; 3: chilled water refluxes throughout the year, if do not have retracting device can cause serious waste.Generally the liquid coolant of use is emulsion now, but has equally also occurred some problems, as, 1: the in the situation that of the long-term use of milling train, chilled water does not obtain well cooling, and cooling effect is reduced; 2: the in the situation that of the long-term use of milling train, in emulsion, can mix and have a lot of metal powders, cause emulsion impure, and easily stop up the pipeline that emulsion is flowed through, cooling effect declines.

Utility model content

the problem that 1, will solve

For the above-mentioned problems in the prior art, it is a kind of for copper bar production line milling train circulating cooling system that the utility model provides.Milling train is connected with emulsion entrance pond by the first emulsion delivery pipe, emulsion entrance pond is connected with emulsion filtering ponds by the first emulsion passage, emulsion filtering ponds are connected with emulsion outlet pond by the second emulsion passage, then emulsion outlet pond is connected with milling train by the second emulsion delivery pipe, forms the loop of an emulsion circulating cooling circulation.

2, technical scheme

In order to address the above problem, the technical scheme that the utility model adopts is as follows:

A kind of milling train circulating cooling system, comprise milling train, emulsion entrance pond, emulsion filtering ponds and emulsion outlet pond, described milling train is connected with described emulsion entrance pond and described emulsion outlet pond respectively with the second emulsion delivery pipe by the first emulsion delivery pipe, described the first emulsion passage is connected with described emulsion entrance pond and described emulsion filtering ponds respectively, and described the second emulsion passage is connected with described emulsion filtering ponds and described emulsion outlet pond respectively.

Further, described the first emulsion passage is rectangular configuration, and its length is less than the width of described emulsion entrance pond and described emulsion filtering ponds.

Further, the length of described the first emulsion passage equals the width of described emulsion entrance pond or described emulsion filtering ponds.

Further, described the first emulsion passage is located at described emulsion entrance pond or described emulsion filtering ponds bottom upwards between 30 centimeters and the half of described emulsion entrance pond or described emulsion filtering ponds height.

More enter a ground, ground, the size of described the second emulsion passage and described the first emulsion passage, shape, setting height(from bottom) is identical.

3, beneficial effect

Than prior art, the beneficial effects of the utility model are:

(1) first emulsion channel setting is in emulsion entrance pond and emulsion filtering ponds bottom more than 30 centimetres, easily the metal powder precipitating is filtered, so that remove, ensure the high-purity of emulsion under long-term use, reduce the content that again flows into metal powder in the inner emulsion of milling train, reduce the working temperature of milling train, avoid occurring after metal powder precipitation, emulsion passage being stopped up, cause the emulsion in emulsion outlet pond to be pumped, and the phenomenon that emulsion in emulsion entrance pond sharply increases.

The height of (2) first emulsion passages is no more than the half of emulsion entrance pond or emulsion filtering ponds height, takes full advantage of the cooling principle of bottom in and top out, has improved greatly the cooling effectiveness of emulsion.

(3) the utility model has adopted emulsion entrance pond, emulsion filtering ponds and three, pond of emulsion outlet emulsification liquid pool fully to realize the interior circulating cooling of emulsion, has reduced and has flowed into the emulsion temperature in milling train, improves its cooling effect.

Brief description of the drawings

Fig. 1 is structural representation of the present utility model.

In figure: 1, milling train; 2, the first emulsion delivery pipe; 3, emulsion entrance pond; 4, the first emulsion passage; 5, emulsion filtering ponds; 6, the second emulsion passage; 7, emulsion outlet pond; 8, the second emulsion delivery pipe.

Embodiment

Below in conjunction with specific embodiment, the utility model is further described.

As shown in Figure 1, a kind of for copper bar production line milling train circulating cooling system, comprise milling train 1, emulsion entrance pond 3, emulsion filtering ponds 5 and emulsion outlet pond 7.Wherein, milling train 1 is connected with emulsion entrance pond 3 by the first emulsion delivery pipe 2, emulsion entrance pond 3 is connected with emulsion filtering ponds 5 by the first emulsion passage 4, emulsion filtering ponds 5 are connected with emulsion outlet pond 7 by the second emulsion passage 6, then emulsion outlet pond 7 is connected with milling train 1 by the second emulsion delivery pipe, forms the loop of an emulsion circulating cooling circulation.

Emulsion filtering ponds 5 are connected by the first emulsion passage 4 and the second emulsion passage 6 respectively with emulsion entrance pond 3 and emulsion outlet pond 7, wherein the first emulsion passage 4 is rectangular configuration, its length is equal to or less than the width of emulsion entrance pond 3 or emulsion filtering ponds 5, such the first emulsion circulation 4 more even; And be placed in 30 centimetres of emulsion entrance pond 3 and emulsion filtering ponds 5 bottoms with upper part, but it is highly no more than the half of emulsion entrance pond 3 or emulsion filtering ponds 5 height.Such advantage is the in the situation that of the long-term use of emulsion, in emulsion, can mix and have many metal powders, the metal powder emulsification liquid pool of flowing through easily precipitates, the metal powder that precipitation does not occur again flows into milling train 1 inside with emulsion and carries out cooling, metal powder and the friction of milling train body can cause rolling machine temperature to raise sharp, thereby thereby milling train body expanded by heating causes body deformation, operating accuracy sharply reduces, and even cannot normally work.If the position of the first emulsion passage 4 is too low, metal powder precipitation may be stopped up the first emulsion passage 4, causes the emulsion in emulsion outlet pond 7 to be pumped, and emulsion in emulsion entrance pond 3 sharply increases; If the position of the first emulsion passage 4 is too high, the interior circulating cooling poor effect of emulsion.And the first emulsion passage 4 is arranged on to emulsion entrance pond 3 and emulsion filtering ponds 5 bottoms more than 30 centimetres, it is highly but no more than the half of emulsion entrance pond 3 or emulsion filtering ponds 5 height, so both metal powder sedimentation and filtration can be got off, and take away in time, ensure the high-purity of emulsion under long-term use, reduce the content that again flows into metal powder in the inner emulsion of milling train, reduced the working temperature of milling train; Can also make full use of the cooling principle of bottom in and top out, improve greatly the cooling effectiveness of emulsion.Emulsion filtering ponds 5 are connected with emulsion outlet pond 7 by the second emulsion passage 6, wherein the second emulsion passage 6 and the first emulsion passage 4 sizes, and shape, installation site is identical.

The in the situation that of the long-term use of milling train, chilled water can not obtain well cooling, cooling effect is reduced, for addressing this problem, the utility model adopts emulsion entrance pond 3, emulsion filtering ponds 5 and 7 three, pond of emulsion outlet emulsification liquid pool fully to realize the interior circulating cooling of emulsion, reduce and flowed into the emulsion temperature in milling train, improved its cooling effect.

Below schematically the utility model and embodiment thereof are described, this description does not have restricted, and shown in accompanying drawing is also one of embodiment of the present utility model, and actual structure is not limited to this.So, if those of ordinary skill in the art is enlightened by it, in the situation that not departing from the utility model creation aim, without the creationary frame mode similar to this technical scheme and the embodiment of designing, all should belong to protection domain of the present utility model.

Claims (5)

1. one kind for copper bar production line milling train circulating cooling system, comprise milling train (1), it is characterized in that: also comprise emulsion entrance pond (3), emulsion filtering ponds (5) and emulsion outlet pond (7), described milling train (1) is connected with described emulsion entrance pond (3) and described emulsion outlet pond (7) respectively with the second emulsion delivery pipe (8) by the first emulsion delivery pipe (2), described the first emulsion passage (4) is connected with described emulsion entrance pond (3) and described emulsion filtering ponds (5) respectively, described the second emulsion passage (6) is connected with described emulsion filtering ponds (5) and described emulsion outlet pond (7) respectively.

2. one according to claim 1 is for copper bar production line milling train circulating cooling system, it is characterized in that: described the first emulsion passage (4) is rectangular configuration, and its length is less than the width of described emulsion entrance pond (3) and described emulsion filtering ponds (5).

3. one according to claim 1, for copper bar production line milling train circulating cooling system, is characterized in that: the length of described the first emulsion passage (4) equals the width of described emulsion entrance pond (3) or described emulsion filtering ponds (5).

4. one according to claim 1 for copper bar production line milling train circulating cooling system, is characterized in that: described the first emulsion passage (4) is located at described emulsion entrance pond (3) or described emulsion filtering ponds (5) bottom upwards between 30 centimeters and described emulsion entrance pond (3) or described emulsion filtering ponds (5) half highly.

5. one according to claim 1, for copper bar production line milling train circulating cooling system, is characterized in that: the size of described the second emulsion passage (6) and described the first emulsion passage (4), and shape, setting height(from bottom) is identical.