CN207422962U - Fluid heat exchanger - Google Patents

Abstract

The utility model discloses a kind of fluid heat exchangers, including housing and heat exchanger body, oil inlet and oil outlet are respectively equipped at the top of housing both sides, medium entrance and media outlet are respectively equipped at the top of the front and rear sides of housing, if heat exchanger body is transversely provided with dried layer oil flow channel layer；If heat exchanger body front-rear direction is equipped with dried layer medium channel layer；Medium channel layer is arranged at intervals successively with oil flow channel layer, and to having an oil stream accommodating space, oil stream accommodating space connects and closed with medium channel layer the oil inlet, oil outlet at left and right sides of housing with oil flow channel layer；To having a medium accommodating space, medium accommodating space connects and closed with oil flow channel layer the medium entrance and media outlet of housing front and rear sides with medium channel layer；Housing is equipped with the stent being fixedly mounted for fluid heat exchanger；The utility model design structure is reasonable, small, the hot area of heat exchange is big, heat exchanger effectiveness is high.

Description

Fluid heat exchanger

Technical field

The utility model is related to a kind of heat-exchange device more particularly to a kind of fluid radiators.

Background technology

Existing common heat exchanger substantially has following several, pipe type water cold type oil cooler, the cooling of shell-type water-cooling type oil Device, soldering formula plate heat exchanger, plate coil (exchanger), existing such as pipe type water cold type oil cooler, with water come cooling oil, category It is finned in pipe, the cooler or heat exchanger of the iron pipe either outer surface cover cooling fin existing structure of copper pipe, due to material and knot Structure is limited including technique, there are interior heat dissipation area is small, and it is limited between exhaust therefore bigger than normal there are volume, effect is preferable not to the utmost； Shell-tube type water-cooled oil cooling machine, by light pipe or tapped pipe, no inner fin, the opposite internal surface area that exchanges heat is small, and Mostly stainless steel or copper pipe, material are not that heat transfer effect is bad, are exactly material cost costliness, in order to which the heat dissipation for reaching certain is worked as Amount, volume is bigger, and weight is relatively heavy, and installation and transport are all more not convenient；The board-like sample heat exchanger of soldering formula, although heat dissipation Structure is relatively reasonable, but less there is also relative deficiencies for heat exchange area；Plate coil (exchanger), although radiator structure is involutory Reason, but originally heat exchange area flows section since the big effect of the temperature difference is pretty good, but the small effect of the second half section temperature difference is not there is also problem Ideal, and also without inner fin, heat dissipation area is restricted, ineffective.Domestic existing heat exchanger has following defect and deficiency, It is as follows：Material is ironwork or stainless steel, and poor heat radiation actually can not meet actual demand or for copper material, of high cost, knot Structure is restricted, ineffective；Existing radiator, there is no inner fin, even if there is the structure of improvement, such as be brazed formula stainless steel Plate changes, and inside just there is concaveconvex structure in face to increase inner surface, but reasons in structure, the very limited system of the increased area of surface area；Separately Exogenous wind cold type brazed aluminum plate formula heat exchanger although inner surface structure is very excellent, cools down due to the use of the wind of environment, To summer, small by the temperature difference of scattered hot medium and environment temperature, summer, there are the drawbacks of poor heat radiation.

Utility model content

In view of this, technical problem to be solved in the utility model is：One kind is provided in view of the deficiencies of the prior art to set Count fluid heat exchanger rational in infrastructure, small, that the hot area of heat exchange is big, heat exchange property is good.

In order to reach said effect, what the utility model adopts the following technical solution to realize：

Including housing and heat exchanger body, oil inlet is respectively equipped at the top of the housing both sides for a kind of fluid heat exchanger And oil outlet, the front and rear sides top of the housing are respectively equipped with medium entrance and media outlet, the heat exchanger body is horizontal If equipped with dried layer oil flow channel layer；If the heat exchanger body front-rear direction is equipped with dried layer medium channel layer；The medium channel Layer is arranged at intervals successively with oil flow channel layer, and the oil inlet, oil outlet at left and right sides of the housing house sky to oil stream is had Between, the oil stream accommodating space connects and closed with medium channel layer with oil flow channel layer；The medium of the housing front and rear sides Import and media outlet are connected with medium channel layer and led to oil stream to medium accommodating space, the medium accommodating space is had Channel layer is closed；The housing is equipped with the stent being fixedly mounted for fluid heat exchanger.

It is further improved, the oil flow channel pipe structure that the oil flow channel layer is formed by several inner fin intervals being arranged in parallel Into.

It is further improved, the medium channel pipe structure that the medium channel layer is formed by several inner fin intervals being arranged in parallel Into.

It is further improved, the heat exchanger body is integrally formed.

It is further improved, the heat exchanger body material is aluminium.

It is further improved, the medium is water.

As shown from the above technical solution, the beneficial effects of the utility model are：

Compared with prior art, the utility model by the top oil inlets of the housing both sides, oil outlet to having oil Accommodating space is flowed, oil stream accommodating space connects and closed with medium channel layer with oil flow channel layer；At the top of the front and rear sides of housing Medium entrance and media outlet are connected with medium channel layer and led to oil stream to medium accommodating space, medium accommodating space is had Channel layer is closed；Medium channel layer is spaced integrated molding with oil flow channel layer and sets successively；It parallel is set by several in oil flow channel layer The oil flow channel pipe that the inner fin interval put is formed；Jie formed in medium channel layer by several inner fin intervals being arranged in parallel Matter tube channel；The heat exchange area of stream oil and medium is increased, while enhances the heat friendship of oil flow channel layer and medium channel layer Change efficiency.

Description of the drawings

Fig. 1 is the cross section structure schematic diagram of the utility model；

Fig. 2 is left side structure schematic diagram in Fig. 1；

Fig. 3 is the utility model overlooking the structure diagram；

Fig. 4 is the utility model heat exchanger body enlarged structure schematic diagram；

Fig. 5 is the enlarged structure schematic diagram in I portions in Fig. 4；

Fig. 6 is the enlarged structure schematic diagram in H portions in Fig. 4.

Specific embodiment

In order to those skilled in the art is enable to be further understood that the feature and technology contents of the utility model, refer to Under detailed description in relation to the utility model and attached drawing.

As shown in Figs 1-4, a kind of fluid heat exchanger 1, including housing 11 and heat exchanger body 12, the top of 11 both sides of housing Portion is respectively equipped with oil inlet 111 and oil outlet 112, and water inlet 113 and water out are respectively equipped at the top of the front and rear sides of housing 11 114, heat exchanger body 12 horizontal (B-B direction in Fig. 3, Fig. 4) is if equipped with dried layer oil flow channel layer 121；Before and after heat exchanger body 12 Direction (C-C directions in Fig. 3) is if equipped with dried layer aquaporin layer 122；Aquaporin layer 122 with oil flow channel layer 121 is spaced and sets successively It puts, the oil inlet 111 of the left and right sides of housing 11, oil outlet 112 are to having oil stream accommodating space 113, oil stream accommodating space 113 Connected with oil flow channel layer 121 and with aquaporin layer 122 is closed is separated by；The water inlet 113 and water out of 11 front and rear sides of housing 114 to have the water capacity empty between 115, water accommodating space 115 connects and closed with oil flow channel layer 121 with aquaporin layer 122 It is separated by.

As shown in Figure 4, Figure 5, the oil flow channel layer 121 of aluminium heat-exchange device body 12 is by between several inner fins being arranged in parallel It is formed every the oil flow channel pipe 1211 of formation；The water formed in aquaporin layer 122 by several inner fin intervals being arranged in parallel leads to Deferent 1221.

As shown in figure 3, housing 11 is equipped with the stent 13 being fixedly mounted for fluid heat exchanger 1.

The foregoing is merely the preferable possible embodiments of the utility model, not limiting to the patent model of the utility model It encloses, therefore all equivalent structure variations made with the utility model specification and accompanying drawing content, it is new to be similarly included in this practicality In the range of type.

Claims (6)

1. fluid heat exchanger, it is characterised in that：Including housing and heat exchanger body, be respectively equipped at the top of the housing both sides into Hydraulic fluid port and oil outlet, the front and rear sides top of the housing are respectively equipped with medium entrance and media outlet, the heat exchanger body If it is transversely provided with dried layer oil flow channel layer；If the heat exchanger body front-rear direction is equipped with dried layer medium channel layer；The medium Channel layer is arranged at intervals successively with oil flow channel layer, and the oil inlet, oil outlet at left and right sides of the housing hold to oil stream is had Between emptying, the oil stream accommodating space connects and closed with medium channel layer with oil flow channel layer；The housing front and rear sides Medium entrance and media outlet to having a medium accommodating space, the medium accommodating space connected with medium channel layer and with oil The channel layer that circulates is closed；The housing is equipped with the stent being fixedly mounted for fluid heat exchanger.

2. fluid heat exchanger as described in claim 1, it is characterised in that：The oil flow channel layer is by several be arranged in parallel The oil flow channel pipe that fin interval is formed is formed.

3. fluid heat exchanger as described in claim 1, it is characterised in that：The medium channel layer 1 is arranged in parallel by several The medium channel pipe that inner fin interval is formed is formed.

4. fluid heat exchanger as described in claim 1, it is characterised in that：The heat exchanger body is integrally formed.

5. fluid heat exchanger as described in claim 1, it is characterised in that：The heat exchanger body material is aluminium.

6. fluid heat exchanger as described in claim 1, it is characterised in that：The medium is water.