CN204421710U - A kind of multicell combined type refrigerating module - Google Patents

Abstract

The utility model discloses a kind of multicell combined type refrigerating module, a total framework is set up in parallel one or more water radiator heat-sink unit, one or more charge air cooler heat-sink unit, one or more oil radiator heat-sink unit, one or more condenser heat-sink unit, the two ends up and down of total framework are equipped with the casing of Multicarity, cavity corresponding in upper and lower casing is connected by each similar heat-sink unit, forms the closed circuit of respective medium.The utility model takes up room little, and radiating efficiency is high.

Description

A kind of multicell combined type refrigerating module

Technical field

The utility model relates to a kind of radiator, particularly relates to a kind of multicell combined type refrigerating module.

Background technology

Along with the develop rapidly of industry, client has higher requirement in energy-conservation, efficient, environmental protection, cheapness etc. to parts.Also each doing his best in every respect for radiator industry, carry out deep research from every side, different heat-sink units is incorporated in a framework one of problem becoming wherein important, the degree integrated is higher, cost drops into fewer, mass production degree is higher, and product interchangeability improves, and power effective rate of utilization increases.Existing combined heat radiator is generally simple pin-connected panel, and degree of integration is low, and radiating efficiency is also lower.

Summary of the invention

The purpose of this utility model is: provide one to take up room little, the much higher unit-combination type refrigerating module of radiating efficiency.

The technical solution of the utility model is: a kind of multicell combined type refrigerating module, comprise water radiator heat-sink unit, charge air cooler heat-sink unit, oil radiator heat-sink unit, condenser heat-sink unit and casing, a total framework is set up in parallel one or more water radiator heat-sink unit, one or more charge air cooler heat-sink unit, one or more oil radiator heat-sink unit, one or more condenser heat-sink unit, the two ends up and down of total framework are equipped with the casing of Multicarity, each similar heat-sink unit is by upper, cavity corresponding in lower box is connected, form the closed circuit of respective medium, the cavity that similar heat-sink unit is corresponding is provided with an interface be connected with main frame.

Further, box house is provided with multiple dividing plate, and box house is divided into multiple independent cavity by dividing plate, and each cavity is provided with one or more interface be connected with heat-sink unit.

Further, water radiator heat-sink unit, charge air cooler heat-sink unit, oil radiator heat-sink unit are arranged on before total framework, and condenser heat-sink unit is arranged on the back side of total framework.

Further, the gap between the adjacent radiant module of same row is 10 ~ 30mm.

Further, a total framework is set up in parallel three water radiator heat-sink units, two charge air cooler heat-sink units, oil radiator heat-sink unit, two condenser heat-sink units.

The beneficial effects of the utility model are: the utility model is set up in parallel one or more water radiator heat-sink unit, one or more charge air cooler heat-sink unit, one or more oil radiator heat-sink unit, one or more condenser heat-sink unit on a total framework, the two ends up and down of total framework are equipped with the casing of Multicarity, cavity corresponding in upper and lower casing is connected by each similar heat-sink unit, forms the closed circuit of respective medium; The utility model is mainly used in Generator Set, and according to the performance requirement combination different size of equipment, the heat-sink unit of quantity, the integration of many heat-sink units, reduces taking up room of radiator, and while raising entirety is withstand voltage, radiating efficiency gets a promotion; Same heat-sink unit uses same core, because this reducing the input of mould, reduces production cost; Product is installed under total framework, and operation is more simple, and interchangeability is higher; Under many heat-sink units are incorporated into same framework, be applicable to batch production, reduce and drop into large-scale production equipment and production line.

Accompanying drawing explanation

Fig. 1 is main TV structure schematic diagram of the present utility model;

Fig. 2 is stereogram of the present utility model;

Fig. 3 is backsight structural representation of the present utility model.

Detailed description of the invention

From Fig. 1 main TV structure schematic diagram of the present utility model, the stereogram of Fig. 2, the backsight structural representation of Fig. 3 can be found out, the utility model comprises water radiator heat-sink unit 1, charge air cooler heat-sink unit 2, oil radiator heat-sink unit 3, condenser heat-sink unit 4 and casing 5, carry out assembling combination by multiple heat-sink unit according to integral layout and requirement to form, a total framework is set up in parallel one or more water radiator heat-sink unit 1 according to the demand of complete machine, one or more charge air cooler heat-sink unit 2, one or more oil radiator heat-sink unit 3, one or more condenser heat-sink unit 4.Water radiator heat-sink unit 1, charge air cooler heat-sink unit 2, oil radiator heat-sink unit 3 are arranged on before total framework, are set up in parallel same row, and the gap between same row's adjacent radiant module is 10 ~ 30mm; Condenser heat-sink unit 4 is arranged on the back side of total framework.The two ends up and down of total framework are equipped with the casing 5 of Multicarity, and casing 5 inside is provided with multiple dividing plate, and upper and lower box house is divided into multiple independent cavity 501,502,503,501 ', 502 ', 503 ' by dividing plate, for holding different heat eliminating mediums.Cavity corresponding in upper and lower casing is connected by each similar heat-sink unit, forms the closed circuit of respective medium.Each cavity is provided with one or more interface be connected with heat-sink unit, and in the same side of upper lower box, the cavity that similar heat-sink unit is corresponding is provided with an interface be connected with main frame 510,520,530,511,521,531.

The present embodiment has been set up in parallel three water radiator heat-sink units, 1, two charge air cooler heat-sink units, 2, oil radiator heat-sink unit, 3, two condenser heat-sink units 4 on a total framework, water radiator heat-sink unit 1, charge air cooler heat-sink unit 2, oil radiator heat-sink unit 3 are arranged on before total framework, and condenser heat-sink unit 4 is arranged on the back side of total framework.Cavity 501 above on casing, 502, 503 and cavity 501 ' below on casing, 502 ', 503 ' is provided with the interface be connected with each heat-sink unit, cavity 501, 501 ' is provided with and water radiator heat-sink unit I 102, water radiator heat-sink unit II 103, the interface 512 that water radiator heat-sink unit III 104 connects, 513, 514, 515, 516, 517, cavity 502, 502 ' is provided with and charge air cooler heat-sink unit I 202, the interface 522 that charge air cooler heat-sink unit II 203 connects, 523, 524, 525, cavity 503, 503 ' is provided with the interface 532 be connected with oil radiator heat-sink unit I 302, 533.Cavity 501 is connected with water radiator heat-sink unit 1, for holding cooling fluid, as hydroecium.The water radiator heat-sink unit I 102 of water radiator heat-sink unit 1, water radiator heat-sink unit II 103, water radiator heat-sink unit III 104 3 unit, be provided with the inlet tube and outlet tube be connected with cavity 501, upper and lower hydroecium is provided with the connecting plate be connected with framework, and the gap between each unit of each water radiator, between water radiator heat-sink unit 1 and oil radiator heat-sink unit 3 is all set to 10 ~ 30mm.Closed circuit is as follows: by generating set and the cooling fluid of carrying heat enters cavity 501 by total water inlet interface 510, cooling fluid is shunted in cavity 501, the isocon interface 512,513,514 be connected with water radiator heat-sink unit 1 respectively by cavity 501 enters respective water radiator heat-sink unit and dispels the heat, then the cavity 501 ' of framework bottom is entered through the interface 515,516,517 of water radiator heat-sink unit and lower cavity, generating set is entered, to its heat radiation from total outlet pipe interface 511.Cavity 502 is connected with charge air cooler heat-sink unit 2, for holding gas, as air chamber.The charge air cooler heat-sink unit I 202 of charge air cooler heat-sink unit 2, charge air cooler heat-sink unit II 203 be provided be connected with cavity 502 into and out of tracheae, upper and lower hydroecium is provided with the connecting plate be connected with framework, and the gap between each unit of each charge air cooler, between charge air cooler heat-sink unit 2 and oil radiator heat-sink unit 3 is all set to 10 ~ 30mm.Cavity 502 is entered by the total inlet pipe interface 520 on cavity through turbo charged gas, be equivalent to total air chamber, through being diverted through, isocon interface 522,523 enters charge air cooler heat-sink unit I 202, charge air cooler heat-sink unit II 203 dispels the heat, interface 524,525 through escape pipe and lower cavity carries out afflux, enter cavity 502 ', enter engine from total escape pipe interface 521.Cavity 503 is connected with oil radiator heat-sink unit 3, as grease chamber.The oil radiator heat-sink unit I 302 of oil radiator heat-sink unit 3 be provided be connected with cavity 503 into and out of oil pipe, upper lower oil chamber is provided with the connecting plate be connected with framework, and the gap between oil radiator heat-sink unit I 302 and other heat-sink units is set to 10 ~ 30mm.Cold oil through decelerator enters cavity 503 by total oil inlet pipe interface 530, the I 302 pairs of cold oil heat radiations of oil radiator heat-sink unit are entered through interface 532, cold oil after heat radiation enters cavity 503 ' through interface 533, enters decelerator from total flowline interface 531.Two condenser heat-sink units 4 are arranged on the back side of framework, and each condenser radiator is provided with the connecting plate be connected with framework.Whole total framework contains many closed circuits of different medium, under total framework of same refrigerating module, achieve the effect of dispelling the heat to different parts, and joint space-efficient simultaneously, improves the efficiency of heat radiation.

Claims (5)

1. a multicell combined type refrigerating module, it is characterized in that: comprise water radiator heat-sink unit (1), charge air cooler heat-sink unit (2), oil radiator heat-sink unit (3), condenser heat-sink unit (4) and casing (5), a total framework is set up in parallel one or more water radiator heat-sink unit (1), one or more charge air cooler heat-sink unit (2), one or more oil radiator heat-sink unit (3), one or more condenser heat-sink unit (4), the two ends up and down of total framework are equipped with the casing (5) of Multicarity, each similar heat-sink unit is by upper, cavity corresponding in lower box is connected, form the closed circuit of respective medium, the cavity that similar heat-sink unit is corresponding is provided with an interface be connected with main frame.

2. multicell combined type refrigerating module according to claim 1, it is characterized in that: described casing (5) inside is provided with multiple dividing plate, box house is divided into multiple independent cavity by dividing plate, and each cavity is provided with one or more interface be connected with heat-sink unit.

3. multicell combined type refrigerating module according to claim 1, it is characterized in that: described water radiator heat-sink unit (1), charge air cooler heat-sink unit (2), oil radiator heat-sink unit (3) are arranged on before total framework, and condenser heat-sink unit (4) is arranged on the back side of total framework.

4. multicell combined type refrigerating module according to claim 1, is characterized in that: the gap between the adjacent radiant module of same row is 10 ~ 30mm.

5. multicell combined type refrigerating module according to claim 3, is characterized in that: on a total framework, be set up in parallel three water radiator heat-sink units (1), two charge air cooler heat-sink units (2), an oil radiator heat-sink unit (3), two condenser heat-sink units (4).