CN221278165U - Enhanced radiator oil chamber - Google Patents

Abstract

The application discloses an enhanced radiator oil chamber, which belongs to the technical field of oil cooling and is used for increasing the oil cooling effect and comprises an oil chamber, wherein a cooling mechanism is arranged in the oil chamber, the oil chamber comprises two chambers, a connecting pipe is fixedly connected between the two chambers, the connecting pipe is of a Z-shaped structure, the cooling mechanism comprises a plurality of first cooling fins and a plurality of second cooling fins, the number of the second cooling fins is twice that of the first cooling fins, two second cooling fins are arranged on the first cooling fins, a gap is reserved between the two transversely adjacent second cooling fins, and the middle bending part of the connecting pipe is positioned in the gap. The utility model discloses can all absorb the heat of the front and the back of pipeline, the condition that only reduces pipeline one side temperature can not appear, can effectually increase fluid radiating effect, convenient to use.

Description

Enhanced radiator oil chamber

Technical Field

The application relates to the technical field of oil cooling, in particular to an enhanced radiator oil chamber.

Background

At present, the temperature of oil in a hydraulic system can be increased in the processes of compression, friction and the like, the property of the oil with higher temperature can be changed, the continuous operation of equipment is not facilitated, and the oil temperature of the oil needs to be reduced to the working temperature in order to ensure that the machine can continuously perform normal operation, so that the work can be smoothly carried out.

However, the existing enhanced radiator oil chamber has the following defects: the pipeline that the fluid that uses always dispels the heat can pass installs the one side at the radiator with fluid, and rethread radiator cools down the pipeline, reaches the purpose to the fluid cooling, but the fluid temperature that the pipeline is close to the radiator one side reduces in such operation can appear, and the fluid temperature that the pipeline kept away from the radiator one side is still higher, leads to the radiating effect not ideal, is inconvenient for the fluid cooling.

Disclosure of Invention

The application aims to provide the radiator oil chamber which can absorb heat on the front surface and the back surface of a pipeline, can not reduce the temperature of one surface of the pipeline, and can effectively increase the radiating effect of oil.

In order to achieve the above purpose, the application adopts the following technical scheme: the heat dissipation mechanism comprises an oil chamber, the oil chamber is internally provided with heat dissipation mechanisms, the oil chamber comprises two chambers, two chambers are fixedly connected with connecting pipes between the two chambers, the structure of each connecting pipe is of a Z-shaped structure, each heat dissipation mechanism comprises a first heat dissipation fin and a second heat dissipation fin, the number of the first heat dissipation fins is multiple, the number of the second heat dissipation fins is twice that of the first heat dissipation fins, two second heat dissipation fins are arranged on the first heat dissipation fins, gaps are reserved between every two adjacent second heat dissipation fins, and the middle bending part of each connecting pipe is located inside the gaps.

Preferably, the top of the chamber is fixedly connected with a mounting port, and the mounting port is communicated with the interior of the chamber.

As another preferable mode, the outer surface of the cavity is fixedly connected with a side plate, and the side edge of the side plate is fixedly connected with an upper fixing plate through a connecting pin.

Further preferably, a bump is fixedly connected to the bottom of the cavity, and a lower fixing plate is mounted at the bottom of the bump.

Further preferably, the top of the first cooling fin is fixedly connected with a first connecting port, the first connecting port is communicated with the inside of the first cooling fin, and the outer side of the first connecting port is movably connected with a first connecting nut.

Further preferably, the bottom of the second cooling fin is fixedly connected with a fourth connecting port, the fourth connecting port is communicated with the bottom of the second cooling fin, the outer surface of the fourth connecting port is provided with first connecting threads, the first connecting port is arranged in the fourth connecting port, and the first connecting nut is in threaded connection with the outer surface of the fourth connecting port.

Further preferably, the bottom of the first radiating fin is fixedly connected with a second connecting port, the second connecting port is communicated with the inside of the first radiating fin, and the outer surface of the second connecting port is provided with second connecting threads.

Further preferably, a third connecting port is fixedly connected to the top of the second radiating fin, a second connecting nut is movably connected to the outer side of the third connecting port, the third connecting port is installed in the second connecting port, and the second connecting nut is in threaded connection with the outer surface of the second connecting port.

Compared with the prior art, the application has the beneficial effects that:

(1) The oil chamber and the heat dissipation mechanism penetrate through a gap between the two second heat dissipation fins, so that half of the connecting pipe is positioned on the front side of the heat dissipation mechanism, the other half of the connecting pipe is positioned on the back side of the heat dissipation mechanism, the left heat dissipation fin can absorb heat on the back side of the connecting pipe, the right heat dissipation fin can absorb heat on the front side of the connecting pipe, compared with the conventional radiator oil chamber, when the pipeline is arranged on one side of the radiator, the temperature of oil liquid on the side of the pipeline close to the radiator is reduced, the temperature of the oil liquid on the side of the pipeline far away from the radiator is still higher, the heat dissipation effect is unsatisfactory, the oil liquid is not cooled conveniently, the heat dissipation effect on the front side and the back side of the pipeline can be absorbed by the oil tank of the radiator when the radiator is used, the temperature of one side of the pipeline is not reduced, the oil liquid heat dissipation effect can be effectively increased, and the radiator is convenient to use;

(2) The first radiating fin, second radiating fin can be assembled with the second radiating fin through coupling nut and dismantle when using, with the connecting pipe parcel cooling down inside, convenient to use to can adjust the quantity of first radiating fin and second radiating fin according to the quantity of connecting pipe, be convenient for dispel the heat to the fluid of different volumes.

Drawings

FIG. 1 is a schematic view of the overall structure of the enhanced radiator oil chamber;

fig. 2 is a sectional view of the internal structure of the enhanced radiator oil chamber;

FIG. 3 is an enlarged view of the structure of the enhanced radiator oil chamber at A in FIG. 2;

FIG. 4 is a schematic diagram of the oil chamber structure of the enhanced radiator oil chamber;

FIG. 5 is an exploded view of the first view heat dissipation mechanism of the enhanced radiator oil chamber;

Fig. 6 is an exploded view of the second view heat dissipation mechanism of the enhanced radiator oil chamber.

In the figure: 1. an oil chamber; 101. a chamber; 102. a connecting pipe; 103. a mounting port; 104. a side plate; 105. an upper fixing plate; 106. a bump; 107. a lower fixing plate; 2. a heat dissipation mechanism; 201. a first heat sink; 202. a first connection port; 203. a first coupling nut; 204. a second connection port; 205. a second heat sink; 206. a third connection port; 207. a second coupling nut; 208. and a fourth connection port.

Detailed Description

The present application will be further described with reference to the following specific embodiments, and it should be noted that, on the premise of no conflict, new embodiments may be formed by any combination of the embodiments or technical features described below.

In the description of the present application, it should be noted that, for the azimuth words such as terms "center", "lateral", "longitudinal", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", etc., the azimuth and positional relationships are based on the azimuth or positional relationships shown in the drawings, it is merely for convenience of describing the present application and simplifying the description, and it is not to be construed as limiting the specific scope of protection of the present application that the device or element referred to must have a specific azimuth configuration and operation.

It should be noted that the terms "first," "second," and the like in the description and in the claims are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order.

The terms "comprises" and "comprising," along with any variations thereof, in the description and claims, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

The enhanced radiator oil chamber shown in fig. 1-6 comprises an oil chamber 1, a heat dissipation mechanism 2 is arranged in the oil chamber 1 to dissipate heat and cool oil in the oil chamber 1, the oil chamber 1 comprises two chambers 101, the number of the chambers 101 is two and is used for storing the oil, a connecting pipe 102 is fixedly connected between the two chambers 101, the oil can conveniently penetrate through the heat dissipation mechanism 2 to dissipate heat and cool, the structure of the connecting pipe 102 is in a Z-shaped structure, the heat dissipation mechanism 2 comprises first radiating fins 201 and second radiating fins 205, the number of the first radiating fins 201 is multiple, the number of the second radiating fins 205 is twice that of the first radiating fins 201, two second radiating fins 205 are arranged on the first radiating fins 201, a gap is reserved between two transversely adjacent second radiating fins 205, the middle bending part of the connecting pipe 102 is located in the gap, when in use, half of the connecting pipe 102 is located on the front of the other half of the heat dissipation mechanism 2, the radiating fins on the left side can absorb heat of the connecting pipe 102, and the right side of the connecting pipe can absorb heat of the connecting pipe 102.

The top of the chamber 101 is fixedly connected with a mounting opening 103, and the mounting opening 103 is communicated with the inside of the chamber 101, so that oil can be conveniently added into the chamber 101 and extracted out of the chamber 101.

The surface fixedly connected with curb plate 104 of cavity 101, the side of curb plate 104 is through connecting pin fixedly connected with upper fixed plate 105, and the bottom fixedly connected with lug 106 of cavity 101, lower fixed plate 107 is installed to the bottom of lug 106, and lug 106 passes through screw fixed connection with lower fixed plate 107, is connected the top and the bottom of two cavities 101 through upper fixed plate 105 and lower fixed plate 107, increases the stability between two cavities 101.

The top fixedly connected with first connector 202 of first fin 201, first connector 202 is linked together with the inside of first fin 201, the outside swing joint of first connector 202 has first connecting nut 203, the bottom fixedly connected with fourth connector 208 of second fin 205, and the bottom of fourth connector 208 and second fin 205 is linked together, the surface of fourth connector 208 is provided with first connecting screw thread, first connector 202 installs in the inside of fourth connector 208, first connecting nut 203 and the surface threaded connection of fourth connector 208, the bottom fixedly connected with second connector 204 of first fin 201, the inside of second connector 204 and first fin 201 is linked together, the surface of second connector 204 is provided with the second connecting screw thread, the top fixedly connected with third connector 206 of second fin 205, the outside swing joint of third connector 206 has second connecting screw thread 207, the inside at second connector 204 is installed to third connector 206, second connecting screw thread 207 and the surface threaded connection of second connector 204, first fin 201 and second fin 205 can be through the second fin 205 and be connected with second fin 205 and can be the second fin 205 and the cooling down the volume is the first fin that can be cooled down with the second fin 102, the volume is convenient for the second fin 201 to the cooling down, the volume is reached with the second fin 102, the volume is cooled down, the volume is convenient for the volume is increased to the second fin is easy to the second fin is cooled down to the volume is cooled down with the second fin 102, the volume is easy to the volume is cooled down to the second fin is connected with the second fin 102.

Working principle: when the radiator is used, the Z-shaped connecting pipe 102 passes through the gap between the two second radiating fins 205, one half of the connecting pipe 102 is positioned on the front side of the radiating mechanism 2, the other half of the connecting pipe 102 is positioned on the back side of the radiating mechanism 2, so that the left radiating fin can absorb heat on the back side of the connecting pipe 102, the right radiating fin can absorb heat on the front side of the connecting pipe 102, the radiator oil tank can absorb heat on the front side and the back side of a pipeline when the radiator oil tank is used, the condition that the temperature of one side of the pipeline is only reduced is avoided, the oil radiating effect can be effectively increased, and the radiator oil tank is convenient to use.

The foregoing has outlined the basic principles, features, and advantages of the present application. It will be understood by those skilled in the art that the present application is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present application, and various changes and modifications may be made therein without departing from the spirit and scope of the application, which is defined by the appended claims. The scope of the application is defined by the appended claims and equivalents thereof.

Claims (8)

1. An enhanced radiator oil chamber comprising an oil chamber (1), characterized in that:

Be provided with cooling mechanism (2) in grease chamber (1), grease chamber (1) includes cavity (101), the quantity of cavity (101) is two, two fixedly connected with connecting pipe (102) between cavity (101), the structure of connecting pipe (102) is "Z" font structure, cooling mechanism (2) are including first fin (201), second fin (205), the quantity of first fin (201) is a plurality of, the quantity of second fin (205) is the twice of first fin (201), install two on the first fin (201) second fin (205), transversely adjacent two leave the clearance between second fin (205), the department of buckling is located the clearance inside in the middle of connecting pipe (102).

2. The enhanced radiator oil chamber of claim 1, wherein: the top of the chamber (101) is fixedly connected with a mounting opening (103), and the mounting opening (103) is communicated with the inside of the chamber (101).

3. The enhanced radiator oil chamber of claim 1, wherein: the outer surface of the chamber (101) is fixedly connected with a side plate (104), and the side edge of the side plate (104) is fixedly connected with an upper fixing plate (105) through a connecting pin.

4. The enhanced radiator oil chamber of claim 1, wherein: the bottom of the chamber (101) is fixedly connected with a lug (106), and the bottom of the lug (106) is provided with a lower fixing plate (107).

5. The enhanced radiator oil chamber of claim 1, wherein: the top fixedly connected with first connecting port (202) of first fin (201), first connecting port (202) are linked together with the inside of first fin (201), the outside swing joint of first connecting port (202) has first coupling nut (203).

6. The enhanced radiator oil chamber of claim 5, wherein: the bottom fixedly connected with fourth connector (208) of second fin (205), and fourth connector (208) are linked together with the bottom of second fin (205), the surface of fourth connector (208) is provided with first connecting screw thread, inside at fourth connector (208) is installed in first connector (202), the surface threaded connection of first coupling nut (203) and fourth connector (208).

7. The enhanced radiator oil chamber of claim 1, wherein: the bottom fixedly connected with second connector (204) of first fin (201), second connector (204) are linked together with the inside of first fin (201), the surface of second connector (204) is provided with the second connecting screw thread.

8. The enhanced radiator oil chamber of claim 7 wherein: the top fixedly connected with third connector (206) of second fin (205), the outside swing joint of third connector (206) has second coupling nut (207), inside at second connector (204) is installed to third connector (206), the surface threaded connection of second coupling nut (207) and second connector (204).