CN206479080U - Dichotomous heat pipe structure - Google Patents

Abstract

This case discloses a kind of dichotomous heat pipe structure, includes：Supervisor, its side is connected with spaced first branch pipe and the second branch pipe respectively；Flow distribution plate, it is arranged in the supervisor, and positioned between the first branch pipe and the mouth of pipe of the second branch pipe；First drainage plate, its one end connects the side of first branch pipe away from the flow distribution plate, and the other end connects the side wall of the supervisor；Second drainage plate, its one end connects the side of second branch pipe away from the flow distribution plate, and the other end connects the side wall of the supervisor.This case solves the defect of insufficient space using dichotomous structure by the improvement to existing heat pipe transformational structure, reduces the sinuous flow and backflow phenomenon in pipeline by setting flow distribution plate in main radiating tube, while can reach the effect of noise reduction.

Description

Dichotomous heat pipe structure

Technical field

The utility model is related to a kind of heat pipe structure, more particularly to a kind of dichotomous heat pipe structure.

Background technology

In the radiator of notebook computer, if client has two thermals source, and the two thermals source are distant, then need The problem is solved using two heat pipe designs, and if using two heat pipes, then be able to can not be placed because space is limited, because This needs a kind of brand-new heat pipe transformational structure of design, to solve the defect of insufficient space.

Utility model content

For weak point of the prior art, this case proposes a kind of dichotomous heat pipe structure.

The technical solution of the utility model is summarized as follows：

A kind of dichotomous heat pipe structure, it includes：

Supervisor, its side is connected with spaced first branch pipe and the second branch pipe respectively；

Flow distribution plate, it is arranged in the supervisor, and positioned between the first branch pipe and the mouth of pipe of the second branch pipe；

First drainage plate, its one end connects the side of first branch pipe away from the flow distribution plate, and other end connection is described The side wall of supervisor；

Second drainage plate, its one end connects the side of second branch pipe away from the flow distribution plate, and other end connection is described The side wall of supervisor.

Preferably, described dichotomous heat pipe structure, wherein, the shunting plate surface is additionally provided with noise reduction layer.

Preferably, described dichotomous heat pipe structure, wherein, the flow distribution plate is away from first branch pipe and second One end of the pipe mouth of pipe is additionally provided with arc shunt head.

Preferably, described dichotomous heat pipe structure, wherein, it is additionally provided between first branch pipe and the second branch pipe Reinforcement.

Preferably, described dichotomous heat pipe structure, wherein, the noise reduction layer is porous ceramic layer.

The beneficial effects of the utility model are：This case is by the improvement to existing heat pipe transformational structure, using dichotomous knot Structure solves the defect of insufficient space, reduces sinuous flow in pipeline by setting flow distribution plate in main radiating tube and backflow is existing As while can reach the effect of noise reduction.

Brief description of the drawings

Fig. 1 is the structural representation of dichotomous heat pipe structure.

Embodiment

The utility model is described in further detail with reference to embodiment, to make those skilled in the art's reference say Bright book word can be implemented according to this.

As shown in figure 1, the dichotomous heat pipe structure of an embodiment is listed in this case, it includes：

Supervisor 1, its side is connected with the spaced branch pipe 3 of first branch pipe 2 and second respectively；

Flow distribution plate 4, it is arranged in supervisor 1, and positioned between the first branch pipe 2 and the mouth of pipe of the second branch pipe 3；

First drainage plate 5, its one end connects the first side of the branch pipe 2 away from flow distribution plate 4, the side of other end connection supervisor 1 Wall；

Second drainage plate 6, its one end connects the second side of the branch pipe 3 away from flow distribution plate 4, the side of other end connection supervisor 1 Wall.

The effect of flow distribution plate 4 is that the liquid flowed through is shunted, and liquid is flowed a segment distance in respective runner, So as to reach the purpose for eliminating sinuous flow, make liquid flowing smooth.The effect of first drainage plate 5 and the second drainage plate 6 is to prevent liquid Body is hit at the end angle of supervisor 1, to prevent to flow back and increase noise.

Wherein, the surface of flow distribution plate 4 is additionally provided with noise reduction layer 7.The effect of noise reduction layer 7 is sound-deadening and noise-reducing.

Wherein, the one end of flow distribution plate 4 away from the first branch pipe 2 and the mouth of pipe of the second branch pipe 3 is additionally provided with arc shunt head 8.Arc The effect of shape shunt head 8 is that the end that flow distribution plate 4 is prevented when liquid flows to branch pipe from supervisor produces backflow, and is further carried The shunting efficiency of high flow distribution plate 4.According to the design of pointed shunt head, then when liquid is flowed to from branch pipe to be responsible for, two fluids exists During pointed shunt head convergence, it is also easy to produce and hits and form local sinuous flow, therefore, more closed using the design of arc shunt head 8 Reason.

Wherein, it is additionally provided with reinforcement 9 between the first branch pipe 2 and the second branch pipe 3.The effect of reinforcement 9 is to work as liquid flow When speed is too fast, the Oscillation Amplitude of branch pipe is reduced, so that the abnormal sound effectively in reduction cooling system.

Wherein, noise reduction layer 7 is preferably porous ceramic layer.

Although embodiment of the present utility model is disclosed as above, it is not restricted in specification and embodiment Listed to use, it can be applied to various suitable fields of the present utility model completely, for those skilled in the art, Other modification is easily achieved, therefore under the universal limited without departing substantially from claim and equivalency range, this reality Specific details is not limited to new.

Claims (5)

1. a kind of dichotomous heat pipe structure, it is characterised in that include：

Supervisor, its side is connected with spaced first branch pipe and the second branch pipe respectively；

Flow distribution plate, it is arranged in the supervisor, and positioned between the first branch pipe and the mouth of pipe of the second branch pipe；

First drainage plate, its one end connects the side of first branch pipe away from the flow distribution plate, and the other end connects the supervisor Side wall；

Second drainage plate, its one end connects the side of second branch pipe away from the flow distribution plate, and the other end connects the supervisor Side wall.

2. dichotomous heat pipe structure as claimed in claim 1, it is characterised in that the shunting plate surface is additionally provided with noise reduction layer.

3. dichotomous heat pipe structure as claimed in claim 1, it is characterised in that the flow distribution plate away from first branch pipe and One end of the second branch pipe mouth of pipe is additionally provided with arc shunt head.

4. dichotomous heat pipe structure as claimed in claim 1, it is characterised in that between first branch pipe and the second branch pipe also It is provided with reinforcement.

5. dichotomous heat pipe structure as claimed in claim 2, it is characterised in that the noise reduction layer is porous ceramic layer.