CN101936210A

CN101936210A - Cooling device

Info

Publication number: CN101936210A
Application number: CN 201010239258
Authority: CN
Inventors: 刘美玉
Original assignee: Beijing Erqi Railway Transportation Equipment Co Ltd
Current assignee: Beijing Erqi Railway Transportation Equipment Co Ltd
Priority date: 2010-07-26
Filing date: 2010-07-26
Publication date: 2011-01-05
Anticipated expiration: 2030-07-26
Also published as: CN101936210B

Abstract

The invention provide a cooling device which comprise a separation structure, wherein the separation structure is arranged in an upper collection box and separates the inside of the upper collection box into a first high-temperature water chamber and a first lower-temperature water chamber which are relatively sealed, the length of the separation structure is less than the axial length of the upper collection box, and a first port and a second port at one end of at least one double-runner heat radiator of a double-runner radiator group are communicated with the first high-temperature water chamber or the first low-temperature water chamber at the same time; in addition, the separation structure is arranged in a lower collection box and separates the inside of the lower collection box into a second thigh-temperature water chamber and a second lower-temperature water chamber which are sealed relatively, the length of the separation structure is less than the axial length of the lower collection box, and a third port and a fourth port at the other end of at least one double-runner radiator of the double-runner heat radiator group are communicated with the second high-temperature water chamber or the second low-temperature water chamber at the same time. By the cooling device, the heat radiation area of a water-channel device can be redistributed by redesigning the upper collection box and the lower collection box.

Description

Cooling unit

Technical field

The present invention relates to cooling technology, relate in particular to a kind of cooling unit that is applied to beeliner.

Background technique

Fig. 1 is the front view of cooling unit in the prior art.Fig. 2 is the side view of A-A direction among Fig. 1.In conjunction with illustrated in figures 1 and 2, the cooling unit of diesel engine mainly comprises casing 1 in the internal combustion locomotive at present, power plant 2, cooling fan arrangement 3 and water channel device, wherein, this cooling fan arrangement 3 is arranged at the top in the casing 1, power plant 2 are arranged at the bottom of this cooling fan arrangement 3, the water channel device comprises two water channel structures, be arranged at respectively on the sidewall in the described casing 1, each water channel structure comprises flow-collecting box 41 on, an one double flow channel radiator group 42 and a lower header 43, double flow channel radiator group 42 is between last flow-collecting box 41 and lower header 43, and be communicated with respectively and go up flow-collecting box 41 and lower header 43, double flow channel radiator group 42 comprises 13 double flow channel radiators 421 that are arranged side by side, one end of this double flow channel radiator 421 is provided with first port 4213 and second port 4214, and the other end is provided with the 3rd port 4215 and the 4th port 4216; Again in conjunction with shown in the partial enlarged drawing that Fig. 3 is Fig. 2, structure with single double flow channel radiator 421 is an example, this single double flow channel radiator 421 comprises 7 row's copper bar pipes 4211, and 7 row's copper bar pipes 4211 are divided into two groups by intermediate clapboard 4212, wherein, one group comprises 3 row's copper bar pipes 4211 and first port 4213 that should double flow channel radiator 421 and the 3rd port 4215, another group is comprised 4 row's copper bar pipes 4211 and to second port 4214 and the 4th port 4216 that should double flow channel radiator 421; That is this double flow channel radiator 421 when being communicated with flow-collecting box 41 first high temperature water cavities 411 and lower header 43 second high temperature water cavities 431 respectively, also be communicated with the first low temperature water cavity 412 of going up flow-collecting box 41 and the second low temperature water cavity 432 of lower header 43 respectively.

Again as can be known in conjunction with Fig. 1, Fig. 2 and Fig. 3, the first high temperature water cavity 411 of last flow-collecting box 41 and the first low temperature water cavity 412 are shared each double flow channel radiator 421, be that each double flow channel radiator 421 is communicated with the first high temperature water cavity 411 and the first low temperature water cavity 412 simultaneously, the second high temperature water cavity 431 of lower header 43 and the second low temperature water cavity, 432 same each double flow channel radiator 421 of sharing, promptly each double flow channel radiator 421 is communicated with the second high temperature water cavity 431 and the second low temperature water cavity 432 simultaneously.

High temperature water cavity and low temperature water cavity concrete structure about adfluxion case in the prior art, with lower header 43 is example, can partly cut open figure for lower header among Fig. 1 in conjunction with Fig. 4, Fig. 5 is that the side view of Fig. 4 and Fig. 6 are for shown in the side view of B-B direction among Fig. 4, the second high temperature water cavity 431 and the second low temperature water cavity 432 that in lower header 43, the inner chamber of lower header 43 are divided into relative sealing by the long dividing plate 433 of a folding shape, and the length of this long dividing plate 433 equals the axial length of lower header 43, particularly, prop up an end of this lower header 43 by an end of this long dividing plate 433, the other end of long dividing plate 433 props up the other end of this lower header 43, and one side of this long dividing plate 433 is arranged between the high-temperature water port 434 and low temperature water port 435 of lower header 43, this divides on the inwall that one side of long dividing plate 433 is arranged at lower header 43, is divided into the second high temperature water cavity 431 and the second low temperature water cavity 432 with the inner chamber with lower header 43.

In real work, the fan 31 that power plant 2 drive in the cooling fan arrangement 3 is rotated, be extracted into the inside of casing 1 with air, and can utilize this flow air that the water that flows in the water channel device is carried out heat exchange, thereby reach the purpose of diesel engine in the cooling internal combustion engines car the external world.

The inventor finds that in the process of being engaged in art technology work for a long time there are the following problems at least in the prior art:

1, in the process of novel internal combustion locomotive research and development, because the power of diesel engine there are differences in each internal combustion locomotive, therefore the ratio of the heat dissipating capacity of the high and low temperature system of the cooling unit that requires also is not quite similar; The heat dissipating capacity ratio of the high and low temperature system of cooling unit then embodies a concentrated reflection of on the high and low temperature heat diffusion area proportioning of water channel device; In the prior art often by redesigning the method for double flow channel radiator, to redistribute the heat diffusion area of water channel device at the diesel engine of different capacity, but the redesign of double flow channel radiator needs to order to manufacturer, and the lead time of general production firm is long.Therefore, this scheme of redistributing water channel device radiation area has not only influenced the R﹠D cycle of novel internal combustion locomotive, and has increased the R﹠D costs of novel internal combustion locomotive;

2, because the water cross section excessively of last flow-collecting box 41 is excessive, cause the wind trunk 32 of cooling fan arrangement 3 to have the part vent area to stop, the vent area that is about 15% wind trunk 32 is in actual applications directly blocked by last flow-collecting box 41, and the stereochemical structure that goes up flow-collecting box 41 band corner angle also makes windage too big, be unfavorable for the work of cooling fan arrangement 3, reduced the radiating efficiency of cooling unit.

Summary of the invention

The invention provides a kind of cooling unit, redistribute in the process of water channel device radiation area by redesign double flow channel radiator in order to solve in the prior art, not only influence the R﹠D cycle of novel internal combustion locomotive, and increase the technological deficiency of the R﹠D costs of novel internal combustion locomotive.

The invention provides a kind of cooling unit, comprise casing, power plant, cooling fan arrangement and water channel device, described water channel device comprises two water channel structures, and each described water channel structure comprises flow-collecting box on, a double flow channel radiator group and a lower header, described double flow channel radiator group is made up of a plurality of double flow channel radiators that are arranged side by side, each double flow channel radiator one end is provided with first port and second port, the other end is provided with the 3rd port and the 4th port, wherein, described going up in flow-collecting box and the lower header is provided with separation structure;

The separation structure that is arranged at flow-collecting box inside is separated into described inside of going up flow-collecting box the first high temperature water cavity and the first low temperature water cavity of relative sealing, the length of described separation structure is less than the described axial length of going up flow-collecting box, and first port of an end of at least one the double flow channel radiator in the described double flow channel radiator group and second port are communicated with the described first high temperature water cavity or the first low temperature water cavity simultaneously;

The separation structure that is arranged at lower header inside is separated into the inside of described lower header the second high temperature water cavity and the second low temperature water cavity of relative sealing, the length of described separation structure is less than the axial length of described lower header, and the 3rd port of the other end of described double flow channel radiator and the 4th port are communicated with the described second high temperature water cavity or the second low temperature water cavity simultaneously.

Be arranged at the described separation structure of going up flow-collecting box inside and comprise a dividing plate and a closure plate, described dividing plate is along described axial setting of going up flow-collecting box, and the length of described dividing plate is less than the described axial length of going up flow-collecting box; One side of described dividing plate is arranged between the high-temperature water port and low temperature water port of described upward flow-collecting box, and the another side of described dividing plate is arranged on the inwall of described upward flow-collecting box; And an end of described dividing plate is arranged at a described end of going up flow-collecting box, and the set-up mode of described closure plate is for the other end of the described dividing plate of sealing, to form the described first high temperature water cavity of relative sealing and the first low temperature water cavity; And,

The separation structure that is arranged at described lower header inside comprises a dividing plate and a closure plate, and described dividing plate is along the axial setting of described lower header, and the length of described dividing plate is less than the axial length of described lower header;

One side of described dividing plate is arranged between the high-temperature water port and low temperature water port of described lower header, and the another side of described dividing plate is arranged on the inwall of described lower header; And an end of described dividing plate is arranged at an end of described lower header, and the set-up mode of described closure plate is for the other end of the described dividing plate of sealing, to form the described second high temperature water cavity of relative sealing and the second low temperature water cavity.

The described outer wall of going up the first high temperature water cavity of flow-collecting box is an arc.

The cooling unit of the embodiment of the invention, by inside separation structure is set at last flow-collecting box, with the first high temperature water cavity and the first low temperature water cavity that forms relative sealing, and make first port and second port of an end of at least one double flow channel radiator be communicated with the described first high temperature water cavity or the first low temperature water cavity simultaneously; And a same separation structure is set in the inside of lower header, with the second high temperature water cavity and the second low temperature water cavity that forms relative sealing, and make the 3rd port and the 4th port of the other end of this double flow channel radiator be communicated with the described second high temperature water cavity or the second low temperature water cavity simultaneously; Solved in the prior art and redistributed in the process of water channel device radiation area by redesign double flow channel radiator, not only influence the R﹠D cycle of novel internal combustion locomotive, and the technological deficiency of the R﹠D costs of increase novel internal combustion locomotive, realized going up flow-collecting box and lower header by redesign, can redistribute the purpose of water channel device radiation area, when having shortened the novel internal combustion locomotive R﹠D cycle, the R﹠D costs of novel internal combustion locomotive have also been reduced.

Description of drawings

In order to be illustrated more clearly in the embodiment of the invention or technological scheme of the prior art, to do one to the accompanying drawing of required use in embodiment or the description of the Prior Art below introduces simply, apparently, accompanying drawing in describing below is some embodiments of the present invention, for those of ordinary skills, under the prerequisite of not paying creative work, can also obtain other accompanying drawing according to these accompanying drawings.

Fig. 1 is the front view of cooling unit in the prior art;

Fig. 2 is the side view of A-A direction among Fig. 1;

Fig. 3 is the partial enlarged drawing of Fig. 2;

Fig. 4 partly cuts open figure for lower header among Fig. 1;

Fig. 5 is the side view of Fig. 4;

Fig. 6 is the side view of B-B direction among Fig. 4;

Fig. 7 partly cuts open figure for lower header in the cooling unit of the present invention;

Fig. 8 is the side view of B-B direction among Fig. 7;

Fig. 9 is the structural representation of closure plate in the cooling unit of the present invention;

Figure 10 is the side view of cooling unit of the present invention;

Figure 11 is for going up the side view of flow-collecting box in the cooling unit of the present invention.

Embodiment

For the purpose, technological scheme and the advantage that make the embodiment of the invention clearer, below in conjunction with the accompanying drawing in the embodiment of the invention, technological scheme in the embodiment of the invention is clearly and completely described, obviously, described embodiment is the present invention's part embodiment, rather than whole embodiments.Based on the embodiment among the present invention, those of ordinary skills belong to the scope of protection of the invention not making the every other embodiment who is obtained under the creative work prerequisite.

In the process of novel internal combustion locomotive research and development, because the power difference of each diesel engine, need the distribution of the heat diffusion area that is applied in the cooling unit on the diesel engine is improved.In the present invention, by the technological scheme of separation structure is set in last flow-collecting box and lower header, can redesigns last flow-collecting box and lower header, and then can realize redistributing the purpose of water channel device radiation area.

In actual applications, need last flow-collecting box and lower header are improved simultaneously, to redistribute water channel device radiation area.Introduce the structure of the lower header after the improvement below.

Fig. 7 partly cuts open figure for lower header in the cooling unit of the present invention.Fig. 8 is the side view of B-B direction among Fig. 7.Fig. 9 is the structural representation of closure plate in the cooling unit of the present invention.In conjunction with Fig. 7, Fig. 8 and shown in Figure 9, separation structure 5 is arranged at the inside of lower header 43, this separation structure 5 comprises a dividing plate 51 and a closure plate 52, and this dividing plate 51 is along the axial setting of lower header 43, and the length of this dividing plate 51 is less than the axial length of lower header 43; As Fig. 8 and shown in Figure 9, one side between the high-temperature water port 434 and low temperature water port 435 that are arranged at lower header 43 of dividing plate 51, another side is arranged on the inwall of lower header 43; And an end of dividing plate 51 is arranged at an end of lower header 43, and the set-up mode of closure plate 52 is for sealing up dividing plate 51 and the formed opening of the second low temperature water cavity, 432 inwalls, with the second high temperature water cavity 431 and the second low temperature water cavity 432 that forms relative sealing, particularly, the setting of closure plate 52 has been given the second high temperature water cavity 431 with the part of the second low temperature water cavity, 432 volumes in the prior art in the present embodiment, has reached the purpose that redesigns the double flow channel radiator and redistribute water channel device radiation area.Certainly also another closure plate can be sealed up dividing plate 51 and the formed opening of the second high temperature water cavity, 431 inwalls, redistribute the purpose of water channel device radiation area to reach redesign double flow channel radiator, just closure plate 52 is different with the shape of another closure plate.

In actual applications, dividing plate 51 still can be folding shape structure of the prior art, its function and effect can be understood in conjunction with the description of prior art, promptly, different capacity according to each diesel engine, in conjunction with Fig. 1 is that the front view of cooling unit in the prior art, side view and Fig. 3 that Fig. 2 is A-A direction among Fig. 1 are shown in the partial enlarged drawing of Fig. 2, at least one double flow channel radiator 421 the 3rd port 4215 and the 4th port 4216 in the double flow channel radiator group 42 can be communicated with the second high temperature water cavity 431 or the second low temperature water cavity 432 simultaneously.

Be partly the cuing open shown in the figure of lower header among Fig. 1 in conjunction with Fig. 4, in actual mechanical process, can be separation structure 5 detailed processes are set in the lower header 43:

Actual power according to diesel engine is improved the lower header 43 that existing in type inside is provided with long dividing plate 433, can be earlier that long dividing plate 433 saws are short in to become dividing plate 51; Because the two ends of long dividing plate 433 prop up the two ends of lower header 43 respectively among Fig. 6, and one side of this long dividing plate 433 is arranged between the high-temperature water port 434 and low temperature water port 435 of lower header 43, promptly, one side of this long dividing plate 433 is arranged on the inwall of lower header 43, is divided into the second high temperature water cavity 431 and the second low temperature water cavity 432 with the inner chamber with lower header 43; Therefore, after long dividing plate 433 improved, one side of this dividing plate 51 is arranged between the high-temperature water port 434 and low temperature water port 435 of lower header 43, but dividing plate 51 has only an end to prop up an end of this lower header 43, and the second high temperature water cavity 431 and the second low temperature water cavity 432 have been communicated with; At this moment, one closure plate 52 can be set at the other end of dividing plate 51, so that closure plate 52 seals up dividing plate 51 and the formed opening of the second low temperature water cavity, 432 inwalls, thereby the inner chamber of lower header 43 is divided into the second high temperature water cavity 431 and the second low temperature water cavity 432 of relative sealing.

In practical application embodiment, can make the second high temperature water cavity 431 or the second low temperature water cavity 432 when sharing 11 double flow channel radiators 421, all be communicated with other 2 double flow channel radiators 421 on the second high temperature water cavity 431, thereby realized proportioning, i.e. the proportioning of water channel device high and low temperature heat diffusion area to single lower header 43 inner second high temperature water cavities 431 and the second low temperature water cavity, 432 volumes.

In like manner, go up to single that flow-collecting box 41 carries out improved process and single lower header 43 to be carried out improved process identical, repeat no more here.To on after flow-collecting box 41 and lower header 43 all improved, can be implemented in and not redesign under the double flow channel radiator prerequisite, and adjust the purpose of water channel device high and low temperature heat diffusion area proportioning.

Moreover, by on when the improvement of flow-collecting box 41 and lower header 43 solved high and low temperature heat diffusion area matching problem, can make different automobile types adorn the model unification of the double flow channel radiator 421 of usefulness, and the double flow channel radiator 421 of different automobile types dress usefulness is exchanged, when having improved double flow channel radiator 421 interchangeability, reduced the cost that returns maintenance double flow channel radiator 421.

Further, again as shown in Figure 2, owing to last flow-collecting box 41 is provided with near cooling fan arrangement 3, it is excessive that it crosses the water cross section, and the stereochemical structure of its band corner angle, thus cause the wind trunk 32 of cooling fan arrangement 3 to have the part vent area to stop, make the air intake windage of cooling fan arrangement 3 too big simultaneously, be unfavorable for the work of cooling fan arrangement 3, reduced the radiating efficiency of cooling unit.At this problem, in conjunction with Figure 10 for the side view of cooling unit of the present invention and Figure 11 for shown in the side view of going up flow-collecting box in the cooling unit of the present invention, the cross section that can go up flow-collecting box 41 is set to elongated shape than prior art, and the outer wall that will go up the first low temperature water cavity 412 of flow-collecting box 41 is an arc, reduce last flow-collecting box 41 water cross section excessively thereby can reach, and reduce the purpose of cooling fan arrangement 3 air intake windages, improved the radiating efficiency of cooling unit.

The cooling unit of the embodiment of the invention, by inside the separation structure that is made of dividing plate and closure plate is set at last flow-collecting box, with the first high temperature water cavity and the first low temperature water cavity that forms relative sealing, and make first port and second port of an end of at least one double flow channel radiator be communicated with the described first high temperature water cavity or the first low temperature water cavity simultaneously; And same separation structure is set in the inside of lower header, with the second high temperature water cavity and the second low temperature water cavity that forms relative sealing, and make the 3rd port and the 4th port of the other end of this double flow channel radiator be communicated with the described second high temperature water cavity or the second low temperature water cavity simultaneously; Solved in the prior art and redistributed in the process of water channel device radiation area by redesign double flow channel radiator, not only influence the R﹠D cycle of novel internal combustion locomotive, and the technological deficiency of the R﹠D costs of increase novel internal combustion locomotive, realized going up flow-collecting box and lower header by redesign, can redistribute the purpose of water channel device radiation area, when having shortened the novel internal combustion locomotive R﹠D cycle, the R﹠D costs of novel internal combustion locomotive have also been reduced.

It should be noted that at last: above embodiment only in order to technological scheme of the present invention to be described, is not intended to limit; Although with reference to previous embodiment the present invention is had been described in detail, those of ordinary skill in the art is to be understood that: it still can be made amendment to the technological scheme that aforementioned each embodiment put down in writing, and perhaps part technical characteristics wherein is equal to replacement; And these modifications or replacement do not make the essence of appropriate technical solution break away from the spirit and scope of various embodiments of the present invention technological scheme.

Claims

1. cooling unit, comprise casing, power plant, cooling fan arrangement and water channel device, described water channel device comprises two water channel structures, and each described water channel structure comprises flow-collecting box on, an one double flow channel radiator group and a lower header, described double flow channel radiator group is communicated with last flow-collecting box and lower header respectively, described double flow channel radiator group is made up of a plurality of double flow channel radiators that are arranged side by side, each double flow channel radiator one end is provided with first port and second port, the other end is provided with the 3rd port and the 4th port, it is characterized in that described going up in flow-collecting box and the lower header is provided with separation structure;

2. cooling unit according to claim 1, it is characterized in that, be arranged at the described separation structure of going up flow-collecting box inside and comprise a dividing plate and a closure plate, described dividing plate is along described axial setting of going up flow-collecting box, and the length of described dividing plate is less than the described axial length of going up flow-collecting box; One side of described dividing plate is arranged between the high-temperature water port and low temperature water port of described upward flow-collecting box, and the another side of described dividing plate is arranged on the inwall of described upward flow-collecting box; And an end of described dividing plate is arranged at a described end of going up flow-collecting box, and the set-up mode of described closure plate is for the other end of the described dividing plate of sealing, to form the described first high temperature water cavity of relative sealing and the first low temperature water cavity; And,

The separation structure that is arranged at described lower header inside comprises a dividing plate and a closure plate, and described dividing plate is along the axial setting of described lower header, and the length of described dividing plate is less than the axial length of described lower header; One side of described dividing plate is arranged between the high-temperature water port and low temperature water port of described lower header, and the another side of described dividing plate is arranged on the inwall of described lower header; And an end of described dividing plate is arranged at an end of described lower header, and the set-up mode of described closure plate is for the other end of the described dividing plate of sealing, to form the described second high temperature water cavity of relative sealing and the second low temperature water cavity.

3. cooling unit according to claim 2 is characterized in that, the described outer wall of going up the first high temperature water cavity of flow-collecting box is an arc.