CN212515585U - Computer heat dissipation case - Google Patents

Abstract

The application relates to the technical field related to computers, and discloses a computer heat dissipation case which comprises a case body, a base, an air inlet pipe, a movable cavity, an exhaust fan and a cooling cavity, wherein refrigeration equipment and a cooling pipe are arranged in the cooling cavity, the bottom of the cooling pipe is communicated with the movable cavity, a plurality of first female joints are arranged at the top of the cooling pipe, and the first female joints penetrate through the top surface of the base; the bottom of the case body is provided with support legs and a plurality of communication ports, and first male connectors in one-to-one correspondence with the first female connectors are arranged in the communication ports. According to the scheme, on one hand, the air in the case body can be driven to flow, so that the heat of the case body is dissipated, and the heat dissipation is realized; on the other hand, also can directly cool down to the components and parts in the machine case body, further reduce the temperature of machine case body and its inside components and parts, and then promote machine case body's radiating effect.

Description

Computer heat dissipation case

Technical Field

The utility model belongs to the technical field of the computer is relevant.

Background

A large number of components are arranged in a case of the computer, continuous high-speed operation of the components can lead to a large amount of heat accumulated in the case of the computer, the computer can not work continuously due to heating, and even all the components and connecting wires of the computer host can be burnt, so that the progress of work and study is influenced.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a computer heat dissipation machine case to pile up the problem that a large amount of heats influence computer work in solving current computer machine case.

In order to achieve the purpose, the basic scheme of the utility model provides a computer heat dissipation case, which comprises a case body and a base arranged at the bottom of the case body, wherein an air inlet pipe is arranged in the base, the output end of the air inlet pipe is connected with a movable cavity, an exhaust fan is arranged in the movable cavity, the top of the movable cavity is communicated with a cooling cavity, refrigeration equipment and a cooling pipe are arranged in the cooling cavity, the bottom of the cooling pipe is communicated with the movable cavity, the top of the cooling pipe is provided with a plurality of first female connectors, and the first female connectors penetrate out of the top surface of the base; the bottom of the case body is provided with support legs and a plurality of communication ports, and first male connectors in one-to-one correspondence with the first female connectors are arranged in the communication ports.

The principle and the beneficial effect of the basic scheme are as follows:

(1) according to the scheme, the exhaust fan is used for pumping gas into the cooling pipe, the cooling cavity and the refrigeration equipment are matched with each other, the gas in the cooling pipe is cooled, and the refrigerated gas is input into the case from the bottom of the case body, so that on one hand, the gas in the case body can be driven to flow, the heat of the case body is dissipated, and the heat dissipation is realized; on the other hand, also can directly cool down to the components and parts in the machine case body, further reduce the temperature of machine case body and its inside components and parts, and then promote machine case body's radiating effect.

(2) This scheme is external with parts such as air exhauster, refrigeration plant outside at the quick-witted case body through the base, lets the space that the air flow was guaranteed to the suitable distance of keeping of each electrical components of quick-witted incasement to strengthen each electrical components's radiating effect.

(3) This scheme utilization stabilizer blade pulls open certain distance between with quick-witted case body bottom and the base, makes gas can flow between the two, has further strengthened quick-witted case body's radiating effect.

(4) The first female joint of this scheme utilization and the mutually supporting of first male joint realize the inside intercommunication with the cooling tube of quick-witted case body, simple structure and easily control.

Optionally, a cooling unit is arranged on the side portion of the base, the cooling unit comprises a heat conducting plate fixed on the side portion of the base, and the heat conducting plate is in contact with the side wall of the case body; a cooling flow passage is arranged in the heat conducting plate, and a pump is arranged at the inlet of the cooling flow passage; the inlet and the outlet of the cooling flow channel are communicated with the cooling cavity, and cooling liquid is arranged in the cooling cavity.

The heat-conducting plate has good heat-conducting property, and the heat-conducting plate contacts with the side wall of the case body, so that heat in the case body can be dissipated out through the heat-conducting plate. The cooling flow channel sets up in the heat-conducting plate, and the coolant liquid is when carrying out cooling to the gas in the cooling tube, and the pump can be with the coolant liquid pump of cooling intracavity to the cooling flow channel in, and the coolant liquid flows in the cooling flow channel, can cool down the heat-conducting plate for the heat-conducting plate heat loses and disappears, and then accelerates giving off of this internal heat of quick-witted case. And finally, the cooling liquid returns to the cooling cavity from the cooling flow channel and is cooled again by the preparation equipment for circulation.

The cooling unit of this scheme is located the lateral part of quick-witted case body, can accelerate heat dissipation, the cooling efficiency of quick-witted case body lateral part, and this kind of cooling unit of this scheme adoption, simple structure, the cooling is respond well.

Optionally, the cooling unit further comprises a cooling air duct arranged in the heat-conducting plate, the cooling air duct is communicated with the cooling pipe, a plurality of air outlets are formed in the top of the cooling air duct, and one-way valves are arranged in the air outlets.

The in-process that gas flows in the cooling air duct can play certain cooling, cooling effect to the heat-conducting plate for thermal giving off on the heat-conducting plate, and then reinforcing chassis body's radiating effect. After the gas is sprayed out of the gas outlet, the side part of the case body can be cooled, surrounding air can be driven to flow, the gas in the region is cooled, and therefore the heat dissipation effect of the side part of the case body is enhanced.

Optionally, the cooling air duct is disposed proximate to a top of the cooling flow channel.

The cooling air duct is arranged next to the top of the cooling flow channel, so that in the process that cooling liquid flows in the cooling flow channel, the cooling of gas in the cooling air duct can be realized through the cooling of the heat conducting plate to a certain extent, and the cooling effect that the gas is sprayed out of the gas outlet to the side part of the case body is improved.

Optionally, the air outlet is inclined towards the chassis body.

The gas outlet sets up towards quick-witted case body slope for gas outlet spun gas can contact with quick-witted case body lateral part better, promotes gaseous cooling efficiency to quick-witted case body lateral part, and then promotes whole quick-witted case body's radiating effect.

Optionally, the cooling pipe comprises a plurality of horizontal portions and a plurality of vertical portions, adjacent horizontal portions are communicated through the vertical portions, and adjacent vertical portions are respectively located on different sides of the horizontal portions; a plurality of first female joints are arranged on the horizontal part at the top of the cooling pipe.

The adjacent horizontal parts are connected through the vertical parts, so that gaps can be reserved between the adjacent horizontal parts, and the gas in the cooling pipe can be cooled and cooled better; the adjacent vertical parts are respectively positioned on different sides of the horizontal part, so that the flow path of gas can be prolonged, the flowing time of the gas in the cooling pipe is prolonged, and the cooling effect on the gas is further improved.

Optionally, a plurality of buffer flow units are arranged in the cooling pipe.

The slow flow unit can slow down the flow velocity of gas in the cooling tube, thereby further prolonging the retention time of gas in the cooling tube and further improving the cooling effect on the gas.

Optionally, the flow slowing unit comprises a baffle fixed on the inner wall of the cooling pipe, and the baffle is provided with a plurality of through holes.

The baffle can play certain effect of blockking to the gas in the cooling tube, slows down gaseous flow velocity, and the through-hole then supplies the gas to flow through, keeps gaseous mobility.

Optionally, a plurality of vertical channels which are vertically arranged are formed in the side portion of the case body, a second male connector is arranged at the bottom of each vertical channel, a second female connector corresponding to the second male connector is arranged on the base, and the second female connector is communicated with the cooling pipe.

When placing chassis body on the base, the second male joint of chassis body lateral part corresponds the joint with the second female joint on the base for the vertical passageway and the cooling tube top intercommunication of chassis body lateral part, so that with the gas input vertical passageway after the cooling, further strengthened heat dissipation, the cooling effect to chassis body.

The vertical channel of this scheme can form the fore-and-aft gas that is used for carrying after being cooled down at the lateral part of quick-witted case body, directly carries quick-witted case body's top with gaseous, lets quick-witted case body's top also can obtain better cooling, promotes quick-witted case body's heat dissipation, cooling effect.

Optionally, be equipped with the filter unit in the air-supply line, the filter unit includes a plurality of layers of filter screen.

The filter screen can filter the gas that gets into in the air-intake pipe, filters the dust in the gas, promotes gaseous cleanliness factor, reduces because of the dust gets into the inside probability that influences the normal work of chassis body.

Drawings

Fig. 1 is a front longitudinal sectional view of the computer heat dissipation case of the present invention;

figure 2 is a side longitudinal cross-sectional view of the base.

Detailed Description

The following is further detailed by way of specific embodiments:

reference numerals in the drawings of the specification include: the cooling device comprises a case body 1, a base 2, an air inlet pipe 3, a movable cavity 4, an exhaust fan 5, a cooling cavity 6, cooling equipment 7, a cooling pipe 8, a horizontal part 9, a vertical part 10, a first female joint 11, a first male joint 12, a heat conducting plate 13, a cooling flow channel 14, a pump 15, a cooling air duct 16, an air outlet 18, a baffle plate 20, a second female joint 21, a second male joint 22, a vertical channel 23 and a filter screen 24.

Example 1

The computer heat dissipation case is shown in the attached drawings 1 and 2 and mainly comprises a case body 1, a base 2, a movable cavity 4, an exhaust fan 5, a cooling cavity 6, cooling equipment 7, a cooling pipe 8, a plurality of first female connectors 11 and a plurality of first male connectors 12.

Case body 1 is placed at the top of base 2, and supreme air-supply line 3, activity chamber 4, the cooling chamber 6 of having set gradually are down followed to base 2, and the bottom and the base 2 outside intercommunication of air-supply line 3, the top and the activity chamber 4 intercommunication of air-supply line 3. A filtering unit is arranged in the air inlet pipe 3 and used for filtering dust in the air, and the filtering unit is composed of a plurality of layers of filter screens 24.

An exhaust fan 5 is arranged in the movable cavity 4, a refrigerating device is arranged in the cooling cavity 6, the refrigerating device is a refrigerator, and the refrigerator can be a refrigerator with the model of SR-W25, and other suitable refrigerators can be selected. The cooling pipe 8 is arranged in the cooling cavity 6, the cooling pipe 8 comprises a plurality of horizontal parts 9 and a plurality of vertical parts 10, the upper and lower adjacent horizontal parts 9 are communicated through one vertical part 10, and the left and right adjacent vertical parts 10 are respectively positioned on different sides of the horizontal parts 9 (namely one is positioned on the left side, and the other is positioned on the right side). The bottom end of the cooling tube 8 communicates with the active chamber 4 and is fitted with a one-way valve which allows gas to enter the cooling tube 8 from the active chamber 4. A plurality of first female connectors 11 are arranged on the horizontal part 9 positioned at the uppermost part of the cooling pipe 8, and the first female connectors 11 penetrate through the top surface of the base 2. The left and right sides of 1 bottom of chassis body all is equipped with the stabilizer blade, and chassis bottom has still seted up a plurality of intercommunication mouth, and a plurality of intercommunication mouth is located between two stabilizer blades, and all installs in every intercommunication mouth with first female joint 11 one-to-one first male joint 12, first female joint 11 cooperatees with first male joint 12.

Be equipped with a plurality of in the cooling tube 8 and delay the unit for slow down the velocity of flow of gas in cooling tube 8, with the time of extension gaseous cooling, thereby promote gaseous subsequent cooling effect. The slow flow unit mainly comprises a baffle 20 and a plurality of through holes arranged on the baffle 20, and gas can flow through the through holes.

The side of the base 2 is provided with a cooling unit, which mainly comprises a heat conducting plate 13, a cooling flow passage 14, a pump 15 and a cooling air duct 16. The cooling cavity 6 is filled with cooling liquid, and the cooling liquid can be water. Heat-conducting plate 13 welds in the left part and the right side portion of base 2, and heat-conducting plate 13 can carry out the heat conduction to chassis body 1 on the one hand, and on the other hand also can play spacing effect to chassis body 1, reduces chassis body 1 and controls the probability of rocking. The cooling flow passage 14 is formed in the heat transfer plate 13, and the cooling flow passage 14 is formed in a serpentine shape in the heat transfer plate 13, and the entire cooling flow passage 14 has a serpentine shape. The inlet of the cooling flow channel 14 is communicated with the bottom of the cooling cavity 6 and is provided with a pump 15, and the pump 15 can pump the cooling liquid from the cooling cavity 6 into the cooling flow channel 14; the outlet of the cooling flow channel 14 communicates with the top of the cooling chamber 6. The cooling air duct 16 is arranged in the heat conducting plate 13 and is close to the top of the cooling flow channel 14, the cooling air duct 16 is communicated with the horizontal part 9 at the top of the cooling pipe 8, a plurality of air outlets 18 are arranged at the top of the cooling air duct 16, and a check valve is arranged in each air outlet 18 and allows air to flow out of the heat conducting plate 13 from the cooling air duct 16. The air outlet 18 is disposed obliquely, and the cooling air ejected from the air outlet 18 is directed toward the cabinet body 1.

Initially, the chassis body 1 is placed on the base 2, and the first male connector 12 at the bottom of the chassis body 1 is correspondingly engaged with the first female connector 11 on the base 2, so that the inside of the chassis body 1 is communicated with the top of the cooling pipe 8.

When the chassis body 1 needs to be cooled, the exhaust fan 5, the refrigeration equipment and the pump 15 are started, and the exhaust fan 5 pumps the air into the cooling pipe 8 of the cooling cavity 6 from the air inlet pipe 3. The in-process that gas flows in horizontal part 9, the vertical part 10 of cooling tube 8, refrigeration plant can cool down the coolant liquid in cooling chamber 6, and the coolant liquid cools down the gas in cooling tube 8 again for it possesses the condition of cooling for quick-witted case body 1 to get into the gaseous 9 of 8 top horizontal parts of cooling tube. A part of the gas in the horizontal part 9 at the top of the cooling pipe 8 enters the first male connector 12 from the first female connector 11, enters the bottom of the chassis body 1 from the first male connector 12, flows in the chassis body 1, and finally flows out from the top of the chassis body 1; the other part of the air enters the cooling air duct 16, is sprayed out from the air outlet 18 of the cooling air duct 16 and acts on the side part of the chassis body 1 to cool the side part of the chassis body 1, and the heat dissipation efficiency of the chassis body 1 is improved. The gas can play certain cooling, cooling effect to heat-conducting plate 13 in the in-process that flows in cooling duct 16 for the radiating of heat on heat-conducting plate 13, and then reinforcing machine case body 1's radiating effect. In the process that the cooled gas flows in the case body 1, on one hand, the cooled gas can drive the gas in the case body 1 to flow, so that the heat of the case body 1 is radiated, and the heat radiation is realized; on the other hand, the temperature of the components in the case body 1 can be directly reduced, so that the temperature of the case body 1 and the internal components can be further reduced.

The heat conducting plate 13 has good heat conducting performance, and the heat conducting plate 13 is in contact with the side wall of the case body 1, so that heat in the case body 1 can be radiated out through the heat conducting plate 13. The cooling flow channel 14 is arranged in the heat conducting plate 13, when the cooling liquid cools the gas in the cooling pipe 8, the pump 15 can pump the cooling liquid in the cooling cavity 6 to the cooling flow channel 14, the cooling liquid flows in the cooling flow channel 14, and the heat conducting plate 13 can be cooled, so that the heat dissipation in the case body 1 is accelerated. Finally, the cooling liquid returns to the cooling cavity 6 from the cooling flow passage 14, and is cooled again by the preparation equipment for circulation.

In this process, because the cooling air duct 16 is arranged close to the top of the cooling flow channel 14, in the process that the cooling liquid flows in the cooling flow channel 14, the cooling of the gas in the cooling air duct 16 is realized to a certain extent by cooling the heat conducting plate 13, so that the cooling effect that the gas is sprayed out of the gas outlet 18 to the side part of the case body 1 is improved.

Example 2

The present embodiment is different from embodiment 1 in that: in this embodiment, as shown in fig. 1, a plurality of vertical channels 23 are vertically formed in both the left side portion and the right side portion of the chassis body 1, a second male connector 22 is installed at the bottom of the vertical channel 23, a second female connector 21 matched with the second male connector 22 is installed on the base 2, and the second female connector 21 is communicated with the horizontal portion 9 at the top of the cooling pipe 8.

When placing chassis body 1 on base 2, the second male joint 22 of chassis body 1 lateral part corresponds the joint with second female joint 21 on the base 2 for vertical passageway 23 and the 8 top intercommunication of cooling tube of chassis body 1 lateral part, so that with the gas input after the cooling to vertical passageway 23 in, further strengthened heat dissipation, the cooling effect to chassis body 1.

The above description is only an example of the present invention, and the common general knowledge of the known specific structures and characteristics of the embodiments is not described herein. It should be noted that, for those skilled in the art, without departing from the structure of the present invention, several modifications and improvements can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the patent. The scope of the claims of the present application shall be determined by the contents of the claims, and the description of the embodiments and the like in the specification shall be used to explain the contents of the claims.

Claims (10)

1. Computer heat dissipation machine case, including chassis body and the base of setting in chassis body bottom, be equipped with the air-supply line in the base, the output of air-supply line is connected with movable chamber, and the activity intracavity is equipped with air exhauster, its characterized in that: the top of the movable cavity is communicated with a cooling cavity, refrigeration equipment and a cooling pipe are arranged in the cooling cavity, the bottom of the cooling pipe is communicated with the movable cavity, the top of the cooling pipe is provided with a plurality of first female connectors, and the first female connectors penetrate through the top surface of the base; the bottom of the case body is provided with support legs and a plurality of communication ports, and first male connectors in one-to-one correspondence with the first female connectors are arranged in the communication ports.

2. The computer heat sink chassis of claim 1, wherein: the side part of the base is provided with a cooling unit, the cooling unit comprises a heat conducting plate fixed on the side part of the base, and the heat conducting plate is in contact with the side wall of the case body; a cooling flow passage is arranged in the heat conducting plate, and a pump is arranged at the inlet of the cooling flow passage; the inlet and the outlet of the cooling flow channel are communicated with the cooling cavity, and cooling liquid is arranged in the cooling cavity.

3. The computer heat sink chassis of claim 2, wherein: the cooling unit further comprises a cooling air channel arranged in the heat-conducting plate, the cooling air channel is communicated with the cooling pipe, a plurality of air outlets are formed in the top of the cooling air channel, and one-way valves are arranged in the air outlets.

4. The computer heat sink chassis of claim 3, wherein: the cooling air channel is arranged close to the top of the cooling flow channel.

5. The computer heat sink chassis of claim 3, wherein: the air outlet is obliquely arranged towards the case body.

6. The computer heat sink chassis of claim 1, wherein: the cooling pipe comprises a plurality of horizontal parts and a plurality of vertical parts, adjacent horizontal parts are communicated through the vertical parts, and adjacent vertical parts are respectively positioned on different sides of the horizontal parts; a plurality of first female joints are arranged on the horizontal part at the top of the cooling pipe.

7. The computer heat sink chassis of claim 1, wherein: and a plurality of slow flow units are arranged in the cooling pipe.

8. The computer heat sink chassis of claim 7, wherein: the slow flow unit comprises a baffle fixed on the inner wall of the cooling pipe, and a plurality of through holes are formed in the baffle.

9. The computer heat sink chassis of claim 1, wherein: the lateral part of the case body is provided with a plurality of vertical channels which are vertically arranged, the bottom of each vertical channel is provided with a second male connector, a second female connector corresponding to the second male connector is arranged on the base, and the second female connector is communicated with the cooling pipe.

10. The computer heat sink chassis of claim 1, wherein: the air inlet pipe is internally provided with a filtering unit which comprises a plurality of layers of filter screens.

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