CN106017170A - One-time forming machine for bridge pier foundation pile - Google Patents
One-time forming machine for bridge pier foundation pile Download PDFInfo
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- CN106017170A CN106017170A CN201610383856.0A CN201610383856A CN106017170A CN 106017170 A CN106017170 A CN 106017170A CN 201610383856 A CN201610383856 A CN 201610383856A CN 106017170 A CN106017170 A CN 106017170A
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- Prior art keywords
- copper
- soaking plate
- copper powder
- radiating fin
- radiator
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F28—HEAT EXCHANGE IN GENERAL
- F28D—HEAT-EXCHANGE APPARATUS, NOT PROVIDED FOR IN ANOTHER SUBCLASS, IN WHICH THE HEAT-EXCHANGE MEDIA DO NOT COME INTO DIRECT CONTACT
- F28D15/00—Heat-exchange apparatus with the intermediate heat-transfer medium in closed tubes passing into or through the conduit walls ; Heat-exchange apparatus employing intermediate heat-transfer medium or bodies
- F28D15/02—Heat-exchange apparatus with the intermediate heat-transfer medium in closed tubes passing into or through the conduit walls ; Heat-exchange apparatus employing intermediate heat-transfer medium or bodies in which the medium condenses and evaporates, e.g. heat pipes
- F28D15/04—Heat-exchange apparatus with the intermediate heat-transfer medium in closed tubes passing into or through the conduit walls ; Heat-exchange apparatus employing intermediate heat-transfer medium or bodies in which the medium condenses and evaporates, e.g. heat pipes with tubes having a capillary structure
- F28D15/046—Heat-exchange apparatus with the intermediate heat-transfer medium in closed tubes passing into or through the conduit walls ; Heat-exchange apparatus employing intermediate heat-transfer medium or bodies in which the medium condenses and evaporates, e.g. heat pipes with tubes having a capillary structure characterised by the material or the construction of the capillary structure
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- Engineering & Computer Science (AREA)
- Life Sciences & Earth Sciences (AREA)
- Sustainable Development (AREA)
- Physics & Mathematics (AREA)
- Thermal Sciences (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Cooling Or The Like Of Semiconductors Or Solid State Devices (AREA)
Abstract
The invention relates to a one-time forming machine for a bridge pier foundation pile. The one-time forming machine comprises a heat dissipation module. The heat dissipation module comprises a cooling fan, a radiator and a heat homogenizing plate. The heat homogenizing plate comprises an upper copper plate, a lower copper plate, an upper copper powder sintering layer, a lower copper powder sintering layer, solid hexagonal copper columns and copper powder rings. The upper copper powder sintering layer is sintered to the lower surface of the upper copper plate, and the lower copper powder sintering layer is sintered to the upper surface of the lower copper plate. The multiple solid hexagonal copper columns are arranged on the lower copper plate at intervals and connected through copper strips. The copper powder rings wrap the solid hexagonal copper columns. The cross sections of cooling fins are in a symmetric spindle shape, one edge of each cooling fin is in a circular tooth shape, and the other edge of each cooling fin is in a sawtooth shape. The surfaces of the cooling fins are provided with ceramic particles in a laser cladding manner. The cooling fan comprises a frame and a hydraulic rod. The frame comprises an outer frame body and an inner frame body, and a flexible corrugated pipe is arranged between the outer frame body and the inner frame body. One end of the hydraulic rod is hinged to one side of the outer frame body, and the other end of the hydraulic rod is hinged to one side of the inner frame body. According to the one-time forming machine, the heat dissipation efficiency can be improved, and meanwhile noise is lowered.
Description
Technical field
The present invention relates to building field, particularly relate to pier foundation pile one-shaper.
Background technology
Heat abstractor plays the most crucial effect to the normal operation of pier foundation pile one-shaper.But, in correlation technique,
The sink-efficiency of pier foundation pile one-shaper is relatively low, and noise is bigger.
Summary of the invention
For the problems referred to above, present invention aim to address that current pier foundation pile one-shaper radiating efficiency is low, and noise is big
Technical problem.
For solving above-mentioned technical problem, the technical solution used in the present invention is pier foundation pile one-shaper, including radiating module,
Described radiating module includes cooling down fan, radiator and soaking plate.Described cooling fan is installed on radiator side, described soaking
Plate is installed on the lower section of radiator.
Described soaking plate includes copper coin, lower copper coin, upper copper powder sintering layer, lower copper powder sintering layer, solid hexagonal copper post and copper powder
Ring.The thickness of described lower copper coin is less than upper copper coin so that lower copper coin can reduce thermal source to the thermal resistance of working medium, and upper copper coin plays support
Effect.Upper copper powder sintering layer is sintered in the lower surface of copper coin, as the evaporation ends wick of soaking plate.Lower copper powder sintering layer burns
Tie in the upper surface of lower copper coin, as the condensation end wick of soaking plate.Multiple described solid hexagonal copper posts are spaced on lower copper coin
Arrangement, is connected by copper bar between adjacent two solid hexagonal copper posts, forms hex shape.Described solid hexagonal copper post one end
Being soldered to copper coin, the other end is soldered to lower copper coin.Described copper powder ring wraps up solid hexagonal copper post, connects evaporation ends imbibition respectively
Core and condensation end wick.
Described soaking plate manufacturing process is simple, low cost, the most also has extraordinary heat conductivity and excellent anti-dry performance.
Use the mode of the embedding solid hexagonal copper post of copper powder ring set as support column, enhance the mechanical strength of soaking plate, simultaneously copper powder ring with
Evaporation ends and condensation end wick contact, and form the path of working medium backflow.
Compared with relevant soaking plate, solid hexagonal copper post strengthens the mechanical strength of soaking plate.Be used alone solid hexagonal copper post phase
Ratio, the hex shape structure that multiple solid hexagonal copper posts are interconnected to form further enhances the mechanical strength of soaking plate.Not only
(during vacuum) support can be provided when internal pressure is less than external pressure, prevent soaking plate to be under atmospheric pressure crushed, with
Time (when working under high temperature) spacing between upper and lower copper coin can also be kept when internal pressure is more than external pressure, prevent all
Hot plate expands deformation.
In traditional soaking plate structure, working medium needs the side by soaking plate to return to evaporation ends from condensation end, therefore working medium
The path of backflow is longer, causes soaking plate efficiency low, and evaporating area dry-out easily occurs.And the copper powder ring used in this soaking plate
It is directly connected to evaporation ends and condensation end wick, as the path of working medium backflow, helps working medium to return to evaporation ends from condensation end.
The manufacturing process of this soaking plate is as follows: the upper and lower copper coin of (1) stamping-out molding, and is carried out;Copper powder is positioned over upper and lower copper
Plate inner surface, vacates the position placing solid hexagonal copper post, and fixes with graphite jig, then carry out the sintering of copper powder;(2)
Carrying out ultrasonic activation after copper powder is positioned in ring-shaped graphite mould compacting, frequency of vibration is 10kHz, sinters out copper powder ring;(3)
Solid hexagonal copper post is positioned over, with copper powder ring, the position that lower copper coin is vacated, upper and lower by good for arrangement solid hexagonal copper post and copper powder ring
Copper coin is positioned in graphite jig fixing, is then placed in high pressure combustion freezing of a furnace, with nitrogen as protection atmosphere, carries out pressure expansion
Dissipating weldering, use the mode that stage heats up in sintering process, the first stage is raised to 300 DEG C with the programming rate of 20 DEG C/min, protects
Temperature 10min, is then rapidly increased to 800 DEG C of inside holding 2 hours with the programming rate of 25 DEG C/min, is finally cooled to room temperature;(4)
The circular hole that can put into copper pipe of bleeding is got out in the bleeding point position welded;Copper pipe is placed at bleeding point, and at auxiliary solder
Under help, by high-frequency welding, copper pipe is welded together with soaking plate;(5) mode using negative pressure to fill, takes out very at low temperature
After sky, by copper pipe, working medium is filled the working medium selected herein to soaking plate is deionized water;(6) after fill, by copper pipe mouth pressure
Flat and weld, it is ensured that soaking plate air-tightness;(7) finally soaking plate carried out hot pressing and cold pressing, it is ensured that the surfacing of soaking plate
Degree.Due to deionized water, to have latent heat high, and surface tension is big and the advantage such as avirulence, in the present embodiment, selects deionization
Water is working medium.
In described soaking plate, the transmission of heat mainly has two approach: one is that working medium absorbs heat of vaporization in evaporation ends wick,
And in the release heat condensation of condensation end wick, by heat from evaporation ends band to condensation end, this is also the work of soaking plate phase-change heat transfer
Approach;Another is the existence due to support column, and heat can transmit from bottom to top by connecting the solid copper pin of upper and lower copper coin.
When heating power is 60 to 300W, in the effective condensation area of upper surface, the temperature difference of soaking plate upper surface is about 1 DEG C,
Illustrate that the Temperature Distribution of the soaking plate condensation end of the present embodiment is highly uniform.It is 1 × 1m in heating surface (area) (HS2Time, the thermal resistance of soaking plate
It is about 0.9K/W.
Described radiator includes that substrate, heat pipe and radiating fin, described radiating fin are parallel to each other and are perpendicular to horizontal plane, described
The evaporation ends surface of heat pipe extrudes plane, and is embedded in the surface of substrate portion.Described heat pipe selects fork arrangement to put, its resemblance
For NACA0018 aerofoil profile, the long-pending bigger one end of NACA0018 aerofoil section is towards cooling fan, and NACA0018 sectional area is less
One end is away from cooling fan.
The cross section of described radiating fin is symmetrical fusiform, and described radiating fin is crenation towards the edge of cooling fan,
It is zigzag that radiating fin cools down the edge of fan dorsad.Use continuous CO2Laser instrument carries out surface process to radiating fin: (1)
The multimode beam of described laser instrument output angle of divergence wavelength 10.6 μm less than 5mrad, is gathered by the GaAs lens of focal length 300mm
Jiao is the hot spot of diameter about 2mm, and the surface of described dot projection to described radiating fin forms spaced pit;(2) exist
Cooling fin surfaces coated ceramic Particles dispersed coating under the protection of noble gas, after step (1) processes;(3) described
The multimode beam of laser instrument output angle of divergence wavelength 10.6 μm less than 5mrad, the GaAs lens focus of focal length 300mm be
The hot spot of diameter about 5mm, the surface of described dot projection to described radiating fin carries out laser scanning.
After cladding laser surfaces processes, granular pottery is nested in the surface of radiating fin and forms projection, through step (1)
After process, the surface of radiating fin forms depression, and the therefore surface irregularity of radiating fin, roughness dramatically increases.Cooling gas
Body forms turbulent flow through out-of-date on the surface of radiating fin, improves heat dissipation capacity while increasing windage.In the case of wind speed is identical,
The radiating fin smooth compared to edge and surface, is crenation towards the edge of cooling fan, cools down the edge of fan dorsad
For zigzag, surface is that the noise of wavy radiating fin can reduce by 6~8dB.
Described cooling fan is placed in the middle relative to radiator.Described cooling fan includes blade, wheel hub, hydraulic stem, controller and bag
Enclose the framework that blade shields.Described blade surface is coated with sodium silicate thin film, lowers blade drag.Described framework includes
Outside framework and inner frame, described blade and wheel hub be installed in outside framework, and described inner frame is fixed relative to radiator.Outside described
Being provided with flexible bellow between framework and inner frame, described outside framework is located at relative to the one of inner frame in one end of described flexible bellow
Side, the other end of described flexible bellow is located at the described inner frame side relative to outside framework so that described flexible bellow in
Air channel is formed between outside framework and inner frame.One end of described hydraulic stem is articulated with described outside framework rotationally relative to inner frame
Side, the other end is articulated with the described inner frame side relative to outside framework the most rotationally.Described controller controls described hydraulic pressure
The extension of bar, compress and rotate.Described hydraulic stem can axially move outside framework, adjusts the axle between radiator and cooling fan
To spacing, adjust radiator and leaf position vertically to after suitable distance, compared to other distance, hub positions the highest
Temperature declines, and in radiator, air themperature is the most uniform along radial direction distribution.Rotational hydraulic bar, outside framework can be relative to dissipating
Hot device is parallel to be moved along different directions, strengthens the air quantity of radiator certain part concrete according to the heat distribution situation local of radiator,
Promote that it dispels the heat.
Accompanying drawing explanation
Utilize accompanying drawing that invention is described further, but the embodiment in accompanying drawing does not constitute any limitation of the invention, for this
The those of ordinary skill in field, on the premise of not paying creative work, it is also possible to obtain other accompanying drawing according to the following drawings.
Fig. 1 is the STRUCTURE DECOMPOSITION schematic diagram of soaking plate of the present invention.
Fig. 2 is the structural representation of soaking plate of the present invention.
Fig. 3 is radiator embodiment of the present invention a part of structure top view.
Fig. 4 is the cross sectional shape schematic diagram of radiator heat pipe of the present invention.
Reference: 1, upper copper coin, 2, upper copper powder sintering layer, 3, solid hexagonal copper post, 4, copper powder ring, 5, lower copper powder burns
Knot layer, 6, lower copper coin, 7, bleeding point, 8, radiating fin, 9, heat pipe.
Detailed description of the invention
The invention will be further described with the following Examples.
Embodiment one
Pier foundation pile one-shaper, including radiating module, described radiating module includes cooling down fan, radiator and soaking plate.
Described cooling fan is installed on radiator side, and described soaking plate is installed on the lower section of radiator.
Refering to Fig. 1 and Fig. 2, described soaking plate includes copper coin, lower copper coin, upper copper powder sintering layer, lower copper powder sintering layer, reality
Heart hexagonal copper post and copper powder ring.The thickness of described lower copper coin is less than upper copper coin so that lower copper coin can reduce thermal source to the thermal resistance of working medium,
And upper copper coin plays a supportive role.Upper copper powder sintering layer is sintered in the lower surface of copper coin, as the evaporation ends wick of soaking plate.
Lower copper powder sintering layer is sintered in the upper surface of lower copper coin, as the condensation end wick of soaking plate.Multiple described solid hexagonal copper posts
It is spaced on lower copper coin, is connected by copper bar between adjacent two solid hexagonal copper posts, form hex shape.Described reality
Heart hexagonal copper post one end is soldered to copper coin, and the other end is soldered to lower copper coin.Described copper powder ring wraps up solid hexagonal copper post, respectively
Connect evaporation ends wick and condensation end wick.
Described soaking plate manufacturing process is simple, low cost, the most also has extraordinary heat conductivity and excellent anti-dry performance.
Use the mode of the embedding solid hexagonal copper post of copper powder ring set as support column, enhance the mechanical strength of soaking plate, simultaneously copper powder ring with
Evaporation ends and condensation end wick contact, and form the path of working medium backflow.
Compared with relevant soaking plate, solid hexagonal copper post strengthens the mechanical strength of soaking plate.Be used alone solid hexagonal copper post phase
Ratio, the hex shape structure that multiple solid hexagonal copper posts are interconnected to form further enhances the mechanical strength of soaking plate.Not only
(during vacuum) support can be provided when internal pressure is less than external pressure, prevent soaking plate to be under atmospheric pressure crushed, with
Time (when working under high temperature) spacing between upper and lower copper coin can also be kept when internal pressure is more than external pressure, prevent all
Hot plate expands deformation.
In traditional soaking plate structure, working medium needs the side by soaking plate to return to evaporation ends from condensation end, therefore working medium
The path of backflow is longer, causes soaking plate efficiency low, and evaporating area dry-out easily occurs.And the copper powder ring used in this soaking plate
It is directly connected to evaporation ends and condensation end wick, as the path of working medium backflow, helps working medium to return to evaporation ends from condensation end.
The manufacturing process of this soaking plate is as follows: the upper and lower copper coin of (1) stamping-out molding, and is carried out;Copper powder is positioned over upper and lower copper
Plate inner surface, vacates the position placing solid hexagonal copper post, and fixes with graphite jig, then carry out the sintering of copper powder;(2)
Carrying out ultrasonic activation after copper powder is positioned in ring-shaped graphite mould compacting, frequency of vibration is 10kHz, sinters out copper powder ring;(3)
Solid hexagonal copper post is positioned over, with copper powder ring, the position that lower copper coin is vacated, upper and lower by good for arrangement solid hexagonal copper post and copper powder ring
Copper coin is positioned in graphite jig fixing, is then placed in high pressure combustion freezing of a furnace, with nitrogen as protection atmosphere, carries out pressure expansion
Dissipating weldering, use the mode that stage heats up in sintering process, the first stage is raised to 300 DEG C with the programming rate of 20 DEG C/min, protects
Temperature 10min, is then rapidly increased to 800 DEG C of inside holding 2 hours with the programming rate of 25 DEG C/min, is finally cooled to room temperature;(4)
The circular hole that can put into copper pipe of bleeding is got out in the bleeding point position welded;Copper pipe is placed at bleeding point, and at auxiliary solder
Under help, by high-frequency welding, copper pipe is welded together with soaking plate;(5) mode using negative pressure to fill, takes out very at low temperature
After sky, by copper pipe, working medium is filled the working medium selected herein to soaking plate is deionized water;(6) after fill, by copper pipe mouth pressure
Flat and weld, it is ensured that soaking plate air-tightness;(7) finally soaking plate carried out hot pressing and cold pressing, it is ensured that the surfacing of soaking plate
Degree.Due to deionized water, to have latent heat high, and surface tension is big and the advantage such as avirulence, in the present embodiment, selects deionization
Water is working medium.
In described soaking plate, the transmission of heat mainly has two approach: one is that working medium absorbs heat of vaporization in evaporation ends wick,
And in the release heat condensation of condensation end wick, by heat from evaporation ends band to condensation end, this is also the work of soaking plate phase-change heat transfer
Approach;Another is the existence due to support column, and heat can transmit from bottom to top by connecting the solid copper pin of upper and lower copper coin.
When heating power is 60 to 300W, in the effective condensation area of upper surface, the temperature difference of soaking plate upper surface is about 1 DEG C,
Illustrate that the Temperature Distribution of the soaking plate condensation end of the present embodiment is highly uniform.It is 1 × 1m in heating surface (area) (HS2Time, the thermal resistance of soaking plate
It is about 0.9K/W.
Described radiator includes that substrate, heat pipe and radiating fin, described radiating fin are parallel to each other and are perpendicular to horizontal plane, described
The evaporation ends surface of heat pipe extrudes plane, and is embedded in the surface of substrate portion.Described heat pipe selects fork arrangement to put, refering to Fig. 4,
Its resemblance is NACA0018 aerofoil profile, and the long-pending bigger one end of NACA0018 aerofoil section is towards cooling fan, and NACA0018 cuts
The less one end of area is away from cooling fan.
Refering to Fig. 3, the cross section of described radiating fin is symmetrical fusiform, and the edge of described radiating fin is zigzag.
The upper and lower surface of described radiating fin is all wavy, and the crest alignment phase of the upper surface of described radiating fin when installing
The trough of the lower surface of another radiating fin adjacent so that form the passage of undaform between adjacent two pieces of radiating fins, increases heat radiation
Efficiency.The radiating fin using jagged edge and wavy surface can be effectively reduced noise, have jagged edge and
The radiating fin on undaform surface is than the lower noise 2~3dB of the radiating fin not having.
Described cooling fan is placed in the middle relative to radiator.Described cooling fan includes blade, wheel hub, hydraulic stem, controller and bag
Enclose the framework that blade shields.Described blade surface is coated with sodium silicate thin film, lowers blade drag.Described framework includes
Outside framework and inner frame, described blade and wheel hub be installed in outside framework, and described inner frame is fixed relative to radiator.Outside described
Being provided with flexible bellow between framework and inner frame, described outside framework is located at relative to the one of inner frame in one end of described flexible bellow
Side, the other end of described flexible bellow is located at the described inner frame side relative to outside framework so that described flexible bellow in
Air channel is formed between outside framework and inner frame.One end of described hydraulic stem is articulated with described outside framework rotationally relative to inner frame
Side, the other end is articulated with the described inner frame side relative to outside framework the most rotationally.Described controller controls described hydraulic pressure
The extension of bar, compress and rotate.Described hydraulic stem can axially move outside framework, adjusts the axle between radiator and cooling fan
To spacing, adjust radiator and leaf position vertically to after suitable distance, compared to other distance, hub positions the highest
Temperature declines, and in radiator, air themperature is the most uniform along radial direction distribution.Rotational hydraulic bar, outside framework can be relative to dissipating
Hot device is parallel to be moved along different directions, strengthens the air quantity of radiator certain part concrete according to the heat distribution situation local of radiator,
Promote that it dispels the heat.
Adjusting radiator and blade vertically to after suitable distance, the maximum temperature of hub positions is dropped to by original 97.7 DEG C
89.7℃。
Embodiment two
Pier foundation pile one-shaper, including radiating module, described radiating module includes cooling down fan, radiator and soaking plate.
Described cooling fan is installed on radiator side, and described soaking plate is installed on the lower section of radiator.
Refering to Fig. 1 and Fig. 2, described soaking plate includes copper coin, lower copper coin, upper copper powder sintering layer, lower copper powder sintering layer, reality
Heart hexagonal copper post and copper powder ring.The thickness of described lower copper coin is less than upper copper coin so that lower copper coin can reduce thermal source to the thermal resistance of working medium,
And upper copper coin plays a supportive role.Upper copper powder sintering layer is sintered in the lower surface of copper coin, as the evaporation ends wick of soaking plate.
Lower copper powder sintering layer is sintered in the upper surface of lower copper coin, as the condensation end wick of soaking plate.Multiple described solid hexagonal copper posts
It is spaced on lower copper coin, is connected by copper bar between adjacent two solid hexagonal copper posts, form hex shape.Described reality
Heart hexagonal copper post one end is soldered to copper coin, and the other end is soldered to lower copper coin.Described copper powder ring wraps up solid hexagonal copper post, respectively
Connect evaporation ends wick and condensation end wick.
Described soaking plate manufacturing process is simple, low cost, the most also has extraordinary heat conductivity and excellent anti-dry performance.
Use the mode of the embedding solid hexagonal copper post of copper powder ring set as support column, enhance the mechanical strength of soaking plate, simultaneously copper powder ring with
Evaporation ends and condensation end wick contact, and form the path of working medium backflow.
Compared with relevant soaking plate, solid hexagonal copper post strengthens the mechanical strength of soaking plate.Be used alone solid hexagonal copper post phase
Ratio, the hex shape structure that multiple solid hexagonal copper posts are interconnected to form further enhances the mechanical strength of soaking plate.Not only
(during vacuum) support can be provided when internal pressure is less than external pressure, prevent soaking plate to be under atmospheric pressure crushed, with
Time (when working under high temperature) spacing between upper and lower copper coin can also be kept when internal pressure is more than external pressure, prevent all
Hot plate expands deformation.
In traditional soaking plate structure, working medium needs the side by soaking plate to return to evaporation ends from condensation end, therefore working medium
The path of backflow is longer, causes soaking plate efficiency low, and evaporating area dry-out easily occurs.And the copper powder ring used in this soaking plate
It is directly connected to evaporation ends and condensation end wick, as the path of working medium backflow, helps working medium to return to evaporation ends from condensation end.
The manufacturing process of this soaking plate is as follows: the upper and lower copper coin of (1) stamping-out molding, and is carried out;Copper powder is positioned over upper and lower copper
Plate inner surface, vacates the position placing solid hexagonal copper post, and fixes with graphite jig, then carry out the sintering of copper powder;(2)
Carrying out ultrasonic activation after copper powder is positioned in ring-shaped graphite mould compacting, frequency of vibration is 10kHz, sinters out copper powder ring;(3)
Solid hexagonal copper post is positioned over, with copper powder ring, the position that lower copper coin is vacated, upper and lower by good for arrangement solid hexagonal copper post and copper powder ring
Copper coin is positioned in graphite jig fixing, is then placed in high pressure combustion freezing of a furnace, with nitrogen as protection atmosphere, carries out pressure expansion
Dissipating weldering, use the mode that stage heats up in sintering process, the first stage is raised to 300 DEG C with the programming rate of 20 DEG C/min, protects
Temperature 10min, is then rapidly increased to 800 DEG C of inside holding 2 hours with the programming rate of 25 DEG C/min, is finally cooled to room temperature;(4)
The circular hole that can put into copper pipe of bleeding is got out in the bleeding point position welded;Copper pipe is placed at bleeding point, and at auxiliary solder
Under help, by high-frequency welding, copper pipe is welded together with soaking plate;(5) mode using negative pressure to fill, takes out very at low temperature
After sky, by copper pipe, working medium is filled the working medium selected herein to soaking plate is deionized water;(6) after fill, by copper pipe mouth pressure
Flat and weld, it is ensured that soaking plate air-tightness;(7) finally soaking plate carried out hot pressing and cold pressing, it is ensured that the surfacing of soaking plate
Degree.Due to deionized water, to have latent heat high, and surface tension is big and the advantage such as avirulence, in the present embodiment, selects deionization
Water is working medium.
In described soaking plate, the transmission of heat mainly has two approach: one is that working medium absorbs heat of vaporization in evaporation ends wick,
And in the release heat condensation of condensation end wick, by heat from evaporation ends band to condensation end, this is also the work of soaking plate phase-change heat transfer
Approach;Another is the existence due to support column, and heat can transmit from bottom to top by connecting the solid copper pin of upper and lower copper coin.
When heating power is 60 to 300W, in the effective condensation area of upper surface, the temperature difference of soaking plate upper surface is about 1 DEG C,
Illustrate that the Temperature Distribution of the soaking plate condensation end of the present embodiment is highly uniform.It is 1 × 1m in heating surface (area) (HS2Time, the thermal resistance of soaking plate
It is about 0.9K/W.
Described radiator includes that substrate, heat pipe and radiating fin, described radiating fin are parallel to each other and are perpendicular to horizontal plane, described
The evaporation ends surface of heat pipe extrudes plane, and is embedded in the surface of substrate portion.Described heat pipe selects fork arrangement to put, refering to Fig. 4,
Its resemblance is NACA0018 aerofoil profile, and the long-pending bigger one end of NACA0018 aerofoil section is towards cooling fan, and NACA0018 cuts
The less one end of area is away from cooling fan.
Refering to Fig. 3, the cross section of described radiating fin is symmetrical fusiform, and the edge of described radiating fin is crenation.
The upper and lower surface of described radiating fin is all wavy, and when installing, the crest alignment of the upper surface of described radiating fin
The trough of the lower surface of another radiating fin adjacent so that form the passage of undaform between adjacent two pieces of radiating fins, increases and dissipates
The thermal efficiency.The radiating fin using scalloped edge and wavy surface can be effectively reduced noise, have scalloped edge with
And the radiating fin on undaform surface is than the lower noise 2~4dB of the radiating fin not having.
Described cooling fan is placed in the middle relative to radiator.Described cooling fan includes blade, wheel hub, hydraulic stem, controller and bag
Enclose the framework that blade shields.Described blade surface is coated with sodium silicate thin film, lowers blade drag.Described framework includes
Outside framework and inner frame, described blade and wheel hub be installed in outside framework, and described inner frame is fixed relative to radiator.Outside described
Being provided with flexible bellow between framework and inner frame, described outside framework is located at relative to the one of inner frame in one end of described flexible bellow
Side, the other end of described flexible bellow is located at the described inner frame side relative to outside framework so that described flexible bellow in
Air channel is formed between outside framework and inner frame.One end of described hydraulic stem is articulated with described outside framework rotationally relative to inner frame
Side, the other end is articulated with the described inner frame side relative to outside framework the most rotationally.Described controller controls described hydraulic pressure
The extension of bar, compress and rotate.Described hydraulic stem can axially move outside framework, adjusts the axle between radiator and cooling fan
To spacing, after adjusting radiator and leaf position vertically, the maximum temperature of hub positions declines, and air themperature in radiator
The most uniform along radial direction distribution.Rotational hydraulic bar, outside framework can parallel relative to radiator move along different directions, according to
The air quantity of radiator certain part concrete is strengthened in the heat distribution situation local of radiator, promotes that it dispels the heat.
Adjusting radiator and blade vertically to after suitable distance, the maximum temperature of hub positions is dropped to by original 98.1 DEG C
88.6℃。
Embodiment three
Pier foundation pile one-shaper, including radiating module, described radiating module includes cooling down fan, radiator and soaking plate.
Described cooling fan is installed on radiator side, and described soaking plate is installed on the lower section of radiator.
Refering to Fig. 1 and Fig. 2, described soaking plate includes copper coin, lower copper coin, upper copper powder sintering layer, lower copper powder sintering layer, reality
Heart hexagonal copper post and copper powder ring.The thickness of described lower copper coin is less than upper copper coin so that lower copper coin can reduce thermal source to the thermal resistance of working medium,
And upper copper coin plays a supportive role.Upper copper powder sintering layer is sintered in the lower surface of copper coin, as the evaporation ends wick of soaking plate.
Lower copper powder sintering layer is sintered in the upper surface of lower copper coin, as the condensation end wick of soaking plate.Multiple described solid hexagonal copper posts
It is spaced on lower copper coin, is connected by copper bar between adjacent two solid hexagonal copper posts, form hex shape.Described reality
Heart hexagonal copper post one end is soldered to copper coin, and the other end is soldered to lower copper coin.Described copper powder ring wraps up solid hexagonal copper post, respectively
Connect evaporation ends wick and condensation end wick.
Described soaking plate manufacturing process is simple, low cost, the most also has extraordinary heat conductivity and excellent anti-dry performance.
Use the mode of the embedding solid hexagonal copper post of copper powder ring set as support column, enhance the mechanical strength of soaking plate, simultaneously copper powder ring with
Evaporation ends and condensation end wick contact, and form the path of working medium backflow.
Compared with relevant soaking plate, solid hexagonal copper post strengthens the mechanical strength of soaking plate.Be used alone solid hexagonal copper post phase
Ratio, the hex shape structure that multiple solid hexagonal copper posts are interconnected to form further enhances the mechanical strength of soaking plate.Not only
(during vacuum) support can be provided when internal pressure is less than external pressure, prevent soaking plate to be under atmospheric pressure crushed, with
Time (when working under high temperature) spacing between upper and lower copper coin can also be kept when internal pressure is more than external pressure, prevent all
Hot plate expands deformation.
In traditional soaking plate structure, working medium needs the side by soaking plate to return to evaporation ends from condensation end, therefore working medium
The path of backflow is longer, causes soaking plate efficiency low, and evaporating area dry-out easily occurs.And the copper powder ring used in this soaking plate
It is directly connected to evaporation ends and condensation end wick, as the path of working medium backflow, helps working medium to return to evaporation ends from condensation end.
The manufacturing process of this soaking plate is as follows: the upper and lower copper coin of (1) stamping-out molding, and is carried out;Copper powder is positioned over upper and lower copper
Plate inner surface, vacates the position placing solid hexagonal copper post, and fixes with graphite jig, then carry out the sintering of copper powder;(2)
Carrying out ultrasonic activation after copper powder is positioned in ring-shaped graphite mould compacting, frequency of vibration is 10kHz, sinters out copper powder ring;(3)
Solid hexagonal copper post is positioned over, with copper powder ring, the position that lower copper coin is vacated, upper and lower by good for arrangement solid hexagonal copper post and copper powder ring
Copper coin is positioned in graphite jig fixing, is then placed in high pressure combustion freezing of a furnace, with nitrogen as protection atmosphere, carries out pressure expansion
Dissipating weldering, use the mode that stage heats up in sintering process, the first stage is raised to 300 DEG C with the programming rate of 20 DEG C/min, protects
Temperature 10min, is then rapidly increased to 800 DEG C of inside holding 2 hours with the programming rate of 25 DEG C/min, is finally cooled to room temperature;(4)
The circular hole that can put into copper pipe of bleeding is got out in the bleeding point position welded;Copper pipe is placed at bleeding point, and at auxiliary solder
Under help, by high-frequency welding, copper pipe is welded together with soaking plate;(5) mode using negative pressure to fill, takes out very at low temperature
After sky, by copper pipe, working medium is filled the working medium selected herein to soaking plate is deionized water;(6) after fill, by copper pipe mouth pressure
Flat and weld, it is ensured that soaking plate air-tightness;(7) finally soaking plate carried out hot pressing and cold pressing, it is ensured that the surfacing of soaking plate
Degree.Due to deionized water, to have latent heat high, and surface tension is big and the advantage such as avirulence, in the present embodiment, selects deionization
Water is working medium.
In described soaking plate, the transmission of heat mainly has two approach: one is that working medium absorbs heat of vaporization in evaporation ends wick,
And in the release heat condensation of condensation end wick, by heat from evaporation ends band to condensation end, this is also the work of soaking plate phase-change heat transfer
Approach;Another is the existence due to support column, and heat can transmit from bottom to top by connecting the solid copper pin of upper and lower copper coin.
When heating power is 60 to 300W, in the effective condensation area of upper surface, the temperature difference of soaking plate upper surface is about 1 DEG C,
Illustrate that the Temperature Distribution of the soaking plate condensation end of the present embodiment is highly uniform.It is 1 × 1m in heating surface (area) (HS2Time, the thermal resistance of soaking plate
It is about 0.9K/W.
Described radiator includes that substrate, heat pipe and radiating fin, described radiating fin are parallel to each other and are perpendicular to horizontal plane, described
The evaporation ends surface of heat pipe extrudes plane, and is embedded in the surface of substrate portion.Described heat pipe selects fork arrangement to put, refering to Fig. 4,
Its resemblance is NACA0018 aerofoil profile, and the long-pending bigger one end of NACA0018 aerofoil section is towards cooling fan, and NACA0018 cuts
The less one end of area is away from cooling fan.
The cross section of described radiating fin is symmetrical fusiform, and described radiating fin is crenation towards the edge of cooling fan,
It is zigzag that radiating fin cools down the edge of fan dorsad.Use continuous CO2Laser instrument carries out surface process to radiating fin: (1)
The multimode beam of described laser instrument output angle of divergence wavelength 10.6 μm less than 5mrad, is gathered by the GaAs lens of focal length 300mm
Jiao is the hot spot of diameter about 2mm, and the surface of described dot projection to described radiating fin forms spaced pit;(2) exist
Cooling fin surfaces coated ceramic Particles dispersed coating under the protection of noble gas, after step (1) processes;(3) described
The multimode beam of laser instrument output angle of divergence wavelength 10.6 μm less than 5mrad, the GaAs lens focus of focal length 300mm be
The hot spot of diameter about 5mm, the surface of described dot projection to described radiating fin carries out laser scanning.
After cladding laser surfaces processes, granular pottery is nested in the surface of radiating fin and forms projection, through step (1)
After process, the surface of radiating fin forms depression, and the therefore surface irregularity of radiating fin, roughness dramatically increases.Cooling gas
Body forms turbulent flow through out-of-date on the surface of radiating fin, improves heat dissipation capacity while increasing windage.In the case of wind speed is identical,
The radiating fin smooth compared to edge and surface, is crenation towards the edge of cooling fan, cools down the edge of fan dorsad
For zigzag, surface is that the noise of wavy radiating fin can reduce by 6~8dB.
Described cooling fan is placed in the middle relative to radiator.Described cooling fan includes blade, wheel hub, hydraulic stem, controller and bag
Enclose the framework that blade shields.Described blade surface is coated with sodium silicate thin film, lowers blade drag.Described framework includes
Outside framework and inner frame, described blade and wheel hub be installed in outside framework, and described inner frame is fixed relative to radiator.Outside described
Being provided with flexible bellow between framework and inner frame, described outside framework is located at relative to the one of inner frame in one end of described flexible bellow
Side, the other end of described flexible bellow is located at the described inner frame side relative to outside framework so that described flexible bellow in
Air channel is formed between outside framework and inner frame.One end of described hydraulic stem is articulated with described outside framework rotationally relative to inner frame
Side, the other end is articulated with the described inner frame side relative to outside framework the most rotationally.Described controller controls described hydraulic pressure
The extension of bar, compress and rotate.Described hydraulic stem can axially move outside framework, adjusts the axle between radiator and cooling fan
To spacing, after adjusting radiator and leaf position vertically, the maximum temperature of hub positions declines, and air themperature in radiator
The most uniform along radial direction distribution.Rotational hydraulic bar, outside framework can parallel relative to radiator move along different directions, according to
The air quantity of radiator certain part concrete is strengthened in the heat distribution situation local of radiator, promotes that it dispels the heat.
Adjusting radiator and blade vertically to after suitable distance, the maximum temperature of hub positions is dropped to by original 95.4 DEG C
86.6℃。
Embodiment four
Pier foundation pile one-shaper, including radiating module, described radiating module includes cooling down fan, radiator and soaking plate.
Described cooling fan is installed on radiator side, and described soaking plate is installed on the lower section of radiator.
Refering to Fig. 1 and Fig. 2, described soaking plate includes copper coin, lower copper coin, upper copper powder sintering layer, lower copper powder sintering layer, reality
Heart hexagonal copper post and copper powder ring.The thickness of described lower copper coin is less than upper copper coin so that lower copper coin can reduce thermal source to the thermal resistance of working medium,
And upper copper coin plays a supportive role.Upper copper powder sintering layer is sintered in the lower surface of copper coin, as the evaporation ends wick of soaking plate.
Lower copper powder sintering layer is sintered in the upper surface of lower copper coin, as the condensation end wick of soaking plate.Multiple described solid hexagonal copper posts
It is spaced on lower copper coin, is connected by copper bar between adjacent two solid hexagonal copper posts, form hex shape.Described reality
Heart hexagonal copper post one end is soldered to copper coin, and the other end is soldered to lower copper coin.Described copper powder ring wraps up solid hexagonal copper post, respectively
Connect evaporation ends wick and condensation end wick.
Described soaking plate manufacturing process is simple, low cost, the most also has extraordinary heat conductivity and excellent anti-dry performance.
Use the mode of the embedding solid hexagonal copper post of copper powder ring set as support column, enhance the mechanical strength of soaking plate, simultaneously copper powder ring with
Evaporation ends and condensation end wick contact, and form the path of working medium backflow.
Compared with relevant soaking plate, solid hexagonal copper post strengthens the mechanical strength of soaking plate.Be used alone solid hexagonal copper post phase
Ratio, the hex shape structure that multiple solid hexagonal copper posts are interconnected to form further enhances the mechanical strength of soaking plate.Not only
(during vacuum) support can be provided when internal pressure is less than external pressure, prevent soaking plate to be under atmospheric pressure crushed, with
Time (when working under high temperature) spacing between upper and lower copper coin can also be kept when internal pressure is more than external pressure, prevent all
Hot plate expands deformation.
In traditional soaking plate structure, working medium needs the side by soaking plate to return to evaporation ends from condensation end, therefore working medium
The path of backflow is longer, causes soaking plate efficiency low, and evaporating area dry-out easily occurs.And the copper powder ring used in this soaking plate
It is directly connected to evaporation ends and condensation end wick, as the path of working medium backflow, helps working medium to return to evaporation ends from condensation end.
The manufacturing process of this soaking plate is as follows: the upper and lower copper coin of (1) stamping-out molding, and is carried out;Copper powder is positioned over upper and lower copper
Plate inner surface, vacates the position placing solid hexagonal copper post, and fixes with graphite jig, then carry out the sintering of copper powder;(2)
Carrying out ultrasonic activation after copper powder is positioned in ring-shaped graphite mould compacting, frequency of vibration is 10kHz, sinters out copper powder ring;(3)
Solid hexagonal copper post is positioned over, with copper powder ring, the position that lower copper coin is vacated, upper and lower by good for arrangement solid hexagonal copper post and copper powder ring
Copper coin is positioned in graphite jig fixing, is then placed in high pressure combustion freezing of a furnace, with nitrogen as protection atmosphere, carries out pressure expansion
Dissipating weldering, use the mode that stage heats up in sintering process, the first stage is raised to 300 DEG C with the programming rate of 20 DEG C/min, protects
Temperature 10min, is then rapidly increased to 800 DEG C of inside holding 2 hours with the programming rate of 25 DEG C/min, is finally cooled to room temperature;(4)
The circular hole that can put into copper pipe of bleeding is got out in the bleeding point position welded;Copper pipe is placed at bleeding point, and at auxiliary solder
Under help, by high-frequency welding, copper pipe is welded together with soaking plate;(5) mode using negative pressure to fill, takes out very at low temperature
After sky, by copper pipe, working medium is filled the working medium selected herein to soaking plate is deionized water;(6) after fill, by copper pipe mouth pressure
Flat and weld, it is ensured that soaking plate air-tightness;(7) finally soaking plate carried out hot pressing and cold pressing, it is ensured that the surfacing of soaking plate
Degree.Due to deionized water, to have latent heat high, and surface tension is big and the advantage such as avirulence, in the present embodiment, selects deionization
Water is working medium.
In described soaking plate, the transmission of heat mainly has two approach: one is that working medium absorbs heat of vaporization in evaporation ends wick,
And in the release heat condensation of condensation end wick, by heat from evaporation ends band to condensation end, this is also the work of soaking plate phase-change heat transfer
Approach;Another is the existence due to support column, and heat can transmit from bottom to top by connecting the solid copper pin of upper and lower copper coin.
When heating power is 60 to 300W, in the effective condensation area of upper surface, the temperature difference of soaking plate upper surface is about 1 DEG C,
Illustrate that the Temperature Distribution of the soaking plate condensation end of the present embodiment is highly uniform.It is 1 × 1m in heating surface (area) (HS2Time, the thermal resistance of soaking plate
It is about 0.9K/W.
Described radiator includes that substrate, heat pipe and radiating fin, described radiating fin are parallel to each other and are perpendicular to horizontal plane, described
The evaporation ends surface of heat pipe extrudes plane, and is embedded in the surface of substrate portion.Described heat pipe selects fork arrangement to put, refering to Fig. 4,
Its resemblance is NACA0018 aerofoil profile, and the long-pending bigger one end of NACA0018 aerofoil section is towards cooling fan, and NACA0018 cuts
The less one end of area is away from cooling fan.
The cross section of described radiating fin is symmetrical fusiform, and the edge of described radiating fin is zigzag.Use continuous CO2
Laser instrument carries out surface process to radiating fin: (1) described laser instrument output angle of divergence wavelength 10.6 μm less than 5mrad is many
Mould light beam, by the hot spot that GaAs lens focus is diameter about 2mm of focal length 300mm, described dot projection to described radiating fin
Surface form spaced pit;(2) the radiating fin table under the protection of noble gas, after step (1) processes
Topcoating covers ceramic particle composite coating;(3) multimode beam of described laser instrument output angle of divergence wavelength 10.6 μm less than 5mrad,
By the hot spot that GaAs lens focus is diameter about 5mm of focal length 300mm, the surface of described dot projection to described radiating fin is entered
Row laser scanning.
After cladding laser surfaces processes, granular pottery is nested in the surface of radiating fin and forms projection, through step (1)
After process, the surface of radiating fin forms depression, and the therefore surface irregularity of radiating fin, roughness dramatically increases.Cooling gas
Body forms turbulent flow through out-of-date on the surface of radiating fin, improves heat dissipation capacity while increasing windage.In the case of wind speed is identical,
The radiating fin smooth compared to edge and surface, edge is zigzag and making an uproar through the machine-operated radiating fin to surface process
Sound can reduce by 4~5dB.
Described cooling fan is placed in the middle relative to radiator.Described cooling fan includes blade, wheel hub, hydraulic stem, controller and bag
Enclose the framework that blade shields.Described blade surface is coated with sodium silicate thin film, lowers blade drag.Described framework includes
Outside framework and inner frame, described blade and wheel hub be installed in outside framework, and described inner frame is fixed relative to radiator.Outside described
Being provided with flexible bellow between framework and inner frame, described outside framework is located at relative to the one of inner frame in one end of described flexible bellow
Side, the other end of described flexible bellow is located at the described inner frame side relative to outside framework so that described flexible bellow in
Air channel is formed between outside framework and inner frame.One end of described hydraulic stem is articulated with described outside framework rotationally relative to inner frame
Side, the other end is articulated with the described inner frame side relative to outside framework the most rotationally.Described controller controls described hydraulic pressure
The extension of bar, compress and rotate.Described hydraulic stem can axially move outside framework, adjusts the axle between radiator and cooling fan
To spacing, after adjusting radiator and leaf position vertically, the maximum temperature of hub positions declines, and air themperature in radiator
The most uniform along radial direction distribution.Rotational hydraulic bar, outside framework can parallel relative to radiator move along different directions, according to
The air quantity of radiator certain part concrete is strengthened in the heat distribution situation local of radiator, promotes that it dispels the heat.
Adjusting radiator and blade vertically to after suitable distance, the maximum temperature of hub positions is dropped to by original 97.1 DEG C
88.5℃。
Embodiment five
Pier foundation pile one-shaper, including radiating module, described radiating module includes cooling down fan, radiator and soaking plate.
Described cooling fan is installed on radiator side, and described soaking plate is installed on the lower section of radiator.
Refering to Fig. 1 and Fig. 2, described soaking plate includes copper coin, lower copper coin, upper copper powder sintering layer, lower copper powder sintering layer, reality
Heart hexagonal copper post and copper powder ring.The thickness of described lower copper coin is less than upper copper coin so that lower copper coin can reduce thermal source to the thermal resistance of working medium,
And upper copper coin plays a supportive role.Upper copper powder sintering layer is sintered in the lower surface of copper coin, as the evaporation ends wick of soaking plate.
Lower copper powder sintering layer is sintered in the upper surface of lower copper coin, as the condensation end wick of soaking plate.Multiple described solid hexagonal copper posts
It is spaced on lower copper coin, is connected by copper bar between adjacent two solid hexagonal copper posts, form hex shape.Described reality
Heart hexagonal copper post one end is soldered to copper coin, and the other end is soldered to lower copper coin.Described copper powder ring wraps up solid hexagonal copper post, respectively
Connect evaporation ends wick and condensation end wick.
Described soaking plate manufacturing process is simple, low cost, the most also has extraordinary heat conductivity and excellent anti-dry performance.
Use the mode of the embedding solid hexagonal copper post of copper powder ring set as support column, enhance the mechanical strength of soaking plate, simultaneously copper powder ring with
Evaporation ends and condensation end wick contact, and form the path of working medium backflow.
Compared with relevant soaking plate, solid hexagonal copper post strengthens the mechanical strength of soaking plate.Be used alone solid hexagonal copper post phase
Ratio, the hex shape structure that multiple solid hexagonal copper posts are interconnected to form further enhances the mechanical strength of soaking plate.Not only
(during vacuum) support can be provided when internal pressure is less than external pressure, prevent soaking plate to be under atmospheric pressure crushed, with
Time (when working under high temperature) spacing between upper and lower copper coin can also be kept when internal pressure is more than external pressure, prevent all
Hot plate expands deformation.
In traditional soaking plate structure, working medium needs the side by soaking plate to return to evaporation ends from condensation end, therefore working medium
The path of backflow is longer, causes soaking plate efficiency low, and evaporating area dry-out easily occurs.And the copper powder ring used in this soaking plate
It is directly connected to evaporation ends and condensation end wick, as the path of working medium backflow, helps working medium to return to evaporation ends from condensation end.
The manufacturing process of this soaking plate is as follows: the upper and lower copper coin of (1) stamping-out molding, and is carried out;Copper powder is positioned over upper and lower copper
Plate inner surface, vacates the position placing solid hexagonal copper post, and fixes with graphite jig, then carry out the sintering of copper powder;(2)
Carrying out ultrasonic activation after copper powder is positioned in ring-shaped graphite mould compacting, frequency of vibration is 10kHz, sinters out copper powder ring;(3)
Solid hexagonal copper post is positioned over, with copper powder ring, the position that lower copper coin is vacated, upper and lower by good for arrangement solid hexagonal copper post and copper powder ring
Copper coin is positioned in graphite jig fixing, is then placed in high pressure combustion freezing of a furnace, with nitrogen as protection atmosphere, carries out pressure expansion
Dissipating weldering, use the mode that stage heats up in sintering process, the first stage is raised to 300 DEG C with the programming rate of 20 DEG C/min, protects
Temperature 10min, is then rapidly increased to 800 DEG C of inside holding 2 hours with the programming rate of 25 DEG C/min, is finally cooled to room temperature;(4)
The circular hole that can put into copper pipe of bleeding is got out in the bleeding point position welded;Copper pipe is placed at bleeding point, and at auxiliary solder
Under help, by high-frequency welding, copper pipe is welded together with soaking plate;(5) mode using negative pressure to fill, takes out very at low temperature
After sky, by copper pipe, working medium is filled the working medium selected herein to soaking plate is deionized water;(6) after fill, by copper pipe mouth pressure
Flat and weld, it is ensured that soaking plate air-tightness;(7) finally soaking plate carried out hot pressing and cold pressing, it is ensured that the surfacing of soaking plate
Degree.Due to deionized water, to have latent heat high, and surface tension is big and the advantage such as avirulence, in the present embodiment, selects deionization
Water is working medium.
In described soaking plate, the transmission of heat mainly has two approach: one is that working medium absorbs heat of vaporization in evaporation ends wick,
And in the release heat condensation of condensation end wick, by heat from evaporation ends band to condensation end, this is also the work of soaking plate phase-change heat transfer
Approach;Another is the existence due to support column, and heat can transmit from bottom to top by connecting the solid copper pin of upper and lower copper coin.
When heating power is 60 to 300W, in the effective condensation area of upper surface, the temperature difference of soaking plate upper surface is about 1 DEG C,
Illustrate that the Temperature Distribution of the soaking plate condensation end of the present embodiment is highly uniform.It is 1 × 1m in heating surface (area) (HS2Time, the thermal resistance of soaking plate
It is about 0.9K/W.
Described radiator includes that substrate, heat pipe and radiating fin, described radiating fin are parallel to each other and are perpendicular to horizontal plane, described
The evaporation ends surface of heat pipe extrudes plane, and is embedded in the surface of substrate portion.Described heat pipe selects fork arrangement to put, refering to Fig. 4,
Its resemblance is NACA0018 aerofoil profile, and the long-pending bigger one end of NACA0018 aerofoil section is towards cooling fan, and NACA0018 cuts
The less one end of area is away from cooling fan.
The cross section of described radiating fin is symmetrical fusiform, and the edge of described radiating fin is crenation.Use continuous CO2
Laser instrument carries out surface process to radiating fin: (1) described laser instrument output angle of divergence wavelength 10.6 μm less than 5mrad is many
Mould light beam, by the hot spot that GaAs lens focus is diameter about 2mm of focal length 300mm, described dot projection to described radiating fin
Surface form spaced pit;(2) the radiating fin table under the protection of noble gas, after step (1) processes
Topcoating covers ceramic particle composite coating;(3) multimode beam of described laser instrument output angle of divergence wavelength 10.6 μm less than 5mrad,
By the hot spot that GaAs lens focus is diameter about 5mm of focal length 300mm, the surface of described dot projection to described radiating fin is entered
Row laser scanning.
After cladding laser surfaces processes, granular pottery is nested in the surface of radiating fin and forms projection, through step (1)
After process, the surface of radiating fin forms depression, and the therefore surface irregularity of radiating fin, roughness dramatically increases.Cooling gas
Body forms turbulent flow through out-of-date on the surface of radiating fin, improves heat dissipation capacity while increasing windage.In the case of wind speed is identical,
The radiating fin smooth compared to flush edge and surface, edge is crenation and the radiating fin through Laser Surface Treatment
Noise can reduce by 5~6dB.
Described cooling fan is placed in the middle relative to radiator.Described cooling fan includes blade, wheel hub, hydraulic stem, controller and bag
Enclose the framework that blade shields.Described blade surface is coated with sodium silicate thin film, lowers blade drag.Described framework includes
Outside framework and inner frame, described blade and wheel hub be installed in outside framework, and described inner frame is fixed relative to radiator.Outside described
Being provided with flexible bellow between framework and inner frame, described outside framework is located at relative to the one of inner frame in one end of described flexible bellow
Side, the other end of described flexible bellow is located at the described inner frame side relative to outside framework so that described flexible bellow in
Air channel is formed between outside framework and inner frame.One end of described hydraulic stem is articulated with described outside framework rotationally relative to inner frame
Side, the other end is articulated with the described inner frame side relative to outside framework the most rotationally.Described controller controls described hydraulic pressure
The extension of bar, compress and rotate.Described hydraulic stem can axially move outside framework, adjusts the axle between radiator and cooling fan
To spacing, after adjusting radiator and leaf position vertically, the maximum temperature of hub positions declines, and air themperature in radiator
The most uniform along radial direction distribution.Rotational hydraulic bar, outside framework can parallel relative to radiator move along different directions, according to
The air quantity of radiator certain part concrete is strengthened in the heat distribution situation local of radiator, promotes that it dispels the heat.
Adjusting radiator and blade vertically to after suitable distance, the maximum temperature of hub positions is dropped to by original 96.4 DEG C
87.9℃。
Last it should be noted that, above example is only in order to illustrate technical scheme, rather than to scope
Restriction, although having made to explain to the present invention with reference to preferred embodiment, it will be understood by those within the art that,
Technical scheme can be modified or equivalent, without deviating from the spirit and scope of technical solution of the present invention.
Claims (2)
1. pier foundation pile one-shaper, it is characterised in that include radiating module, described radiating module include cool down fan,
Radiator and soaking plate;Described cooling fan is installed on radiator side, and described soaking plate is installed on the lower section of radiator;
Described soaking plate includes copper coin, lower copper coin, upper copper powder sintering layer, lower copper powder sintering layer, solid hexagonal copper post and copper powder
Ring, upper copper powder sintering layer is sintered in the lower surface of copper coin, and as the evaporation ends wick of soaking plate, lower copper powder sintering layer sinters
In the upper surface of lower copper coin, as the condensation end wick of soaking plate, multiple described solid hexagonal copper post rows of interval on lower copper coin
Row, are connected by copper bar between adjacent two solid hexagonal copper posts, form hex shape, and described solid hexagonal copper post one end is welded
Being connected to copper coin, the other end is soldered to lower copper coin, and described copper powder ring wraps up solid hexagonal copper post, connects evaporation ends wick respectively
With condensation end wick;
Described soaking plate is fabricated by by following operation: the upper and lower copper coin of (1) stamping-out molding, and is carried out;Copper powder is positioned over
Copper coin inner surface, vacates the position placing solid hexagonal copper post, and fixes with graphite jig, then carry out the sintering of copper powder up and down;
(2) carrying out ultrasonic activation after copper powder being positioned in ring-shaped graphite mould compacting, frequency of vibration is 10kHz, sinters out copper powder
Ring;(3) solid hexagonal copper post is positioned over, with copper powder ring, the position that lower copper coin is vacated, by good for arrangement solid hexagonal copper post and copper powder
Ring fixing during copper coin is positioned over graphite jig up and down, is then placed in high pressure combustion freezing of a furnace, with nitrogen as protection atmosphere, enters
Row pressure diffusion welds, and uses the mode that stage heats up in sintering process, and the first stage is raised to the programming rate of 20 DEG C/min
300 DEG C, it is incubated 10min, is then rapidly increased to 800 DEG C of inside holding 2 hours with the programming rate of 25 DEG C/min, is finally cooled to
Room temperature;(4) get out in the bleeding point position welded and can put into the circular hole of copper pipe of bleeding;Placement copper pipe at bleeding point, and
With the help of auxiliary solder, by high-frequency welding, copper pipe is welded together with soaking plate;(5) mode that negative pressure is filled is used,
After low temperature evacuation, working medium is filled to soaking plate by copper pipe;(6), after fill, copper pipe mouth is flattened and welds, it is ensured that
Soaking plate air-tightness;(7) finally soaking plate carried out hot pressing and cold pressing, it is ensured that the surface smoothness of soaking plate;
Described radiator includes that substrate, heat pipe and radiating fin, described radiating fin are parallel to each other and are perpendicular to horizontal plane, described
The evaporation ends surface of heat pipe extrudes plane, and is embedded in the surface of substrate portion;Described heat pipe selects fork arrangement to put, its resemblance
For NACA0018 aerofoil profile, the long-pending bigger one end of NACA0018 aerofoil section is towards cooling fan, and NACA0018 sectional area is less
One end is away from cooling fan;
The cross section of described radiating fin is symmetrical fusiform, and described radiating fin is crenation towards the edge of cooling fan,
It is zigzag that radiating fin cools down the edge of fan dorsad;Radiating fin is through following Laser Surface Treatment: (1) described laser instrument
The output angle of divergence multimode beam of wavelength 10.6 μm less than 5mrad, by the GaAs lens focus of focal length 300mm be diameter about
The hot spot of 2mm, the surface of described dot projection to described radiating fin forms spaced pit;(2) at noble gas
Cooling fin surfaces coated ceramic Particles dispersed coating under protection, after step (1) processes;(3) described laser instrument output
The multimode beam of angle of divergence wavelength 10.6 μm less than 5mrad, is diameter about 5mm by the GaAs lens focus of focal length 300mm
Hot spot, described dot projection to the surface of described radiating fin carries out laser scanning.
Pier foundation pile one-shaper the most according to claim 1, it is characterised in that described cooling fan includes blade, wheel
The framework that hub, hydraulic stem, controller and encirclement blade shield;Described blade surface is coated with sodium silicate thin film;Described
Framework includes that outside framework and inner frame, described blade and wheel hub are installed in outside framework, and described inner frame is fixed relative to radiator,
Being provided with flexible bellow between described outside framework and inner frame, described outside framework is located at relative to inside casing in one end of described flexible bellow
The side of frame, the other end of described flexible bellow is located at the described inner frame side relative to outside framework so that described flexible ripple
Stricture of vagina pipe forms air channel between outside framework and inner frame, and one end of described hydraulic stem is articulated with described outside framework rotationally relative to interior
The side of framework, the other end is articulated with the described inner frame side relative to outside framework the most rotationally, and described controller controls institute
Stating the extension of hydraulic stem, compress and rotate, described hydraulic stem can axially move outside framework, rotational hydraulic bar, and outside framework can phase
Move along different directions for radiator is parallel;The edge of described radiating fin is crenation or zigzag.
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CN104964487A (en) * | 2015-05-18 | 2015-10-07 | 广东美的制冷设备有限公司 | Heat exchanger, air conditioner and machining method for metal foils |
CN105439531A (en) * | 2015-11-17 | 2016-03-30 | 雷春生 | Preparation method of laser cladding high-temperature-resistant anti-oxidation coating |
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CN104534906A (en) * | 2015-01-14 | 2015-04-22 | 厦门大学 | Panel heat pipe with embedded porous wick and manufacturing method thereof |
CN204535494U (en) * | 2015-02-06 | 2015-08-05 | 青岛海尔智能技术研发有限公司 | A kind of many pedestals position heat exchanger |
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