CN207937944U - Portable type notebook computer radiating workpiece - Google Patents
Portable type notebook computer radiating workpiece Download PDFInfo
- Publication number
- CN207937944U CN207937944U CN201820142016.XU CN201820142016U CN207937944U CN 207937944 U CN207937944 U CN 207937944U CN 201820142016 U CN201820142016 U CN 201820142016U CN 207937944 U CN207937944 U CN 207937944U
- Authority
- CN
- China
- Prior art keywords
- tubular shell
- axial
- filter plate
- gas distribution
- distribution grid
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
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Abstract
The utility model discloses Portable type notebook computer radiating workpiece, in tubular shell first annular slot is circumferentially offered on axial bottom end side wall, round filter plate is equipped in first annular slot, first rotating shaft axially penetrates through the filter plate edge in first annular slot and axial both ends and is fixed on the side wall of tubular shell;The axial Basolateral wall upper edge of tubular shell half is circumferential to offer the first notch, first notch is connected to first annular slot, filter plate and first rotating shaft are rotatablely connected, and are that axial line rotates filter plate completely into tubular shell or rotation filter plate is through the first notch removal tubular shell using first rotating shaft;Axial tip side wall is equipped with gas distribution grid in tubular shell, and gas distribution grid is identical as filter plate mounting structure, is equipped with fan between the two;The axial bottom end of tubular shell, which is also connected through a screw thread, is arranged with pedestal, and pedestal includes threaded sleeve and several supporting legs.The utility model can be realized to cold air stream purifying and dedusting, easy to operate practicality.
Description
Technical field
The utility model is related to a kind of computer fittings, and in particular to a kind of Portable type notebook computer radiating workpiece.
Background technology
Notebook radiator, is directly to dispel heat against laptop bottom, and notebook heat is forced to blow out, and
Cold air is introduced, the air flowing of notebook bottom is increased, to make each heater element inside laptop be radiated
Fan assembly.Low-temperature working environment inside effectively keeping is effective small device for reducing laptop temperature.However this
It is that, due to being equipped with heat emission hole in laptop bottom itself, radiator is blown by cold air in place of kind radiator Shortcomings
While to laptop bottom, also the impurity such as the dust carried in cold air stream can be entered notebook electricity through heat emission hole
Brain influences the radiating efficiency and service life of laptop itself.
Utility model content
Technical problem to be solved in the utility model is:Due to being equipped with heat emission hole in laptop bottom itself, dissipate
Hot device, also can be by impurity such as the dusts carried in cold air stream through heat dissipation while cold air is blowed to laptop bottom
Hole enters laptop, influences the radiating efficiency and service life of laptop itself, and the utility model provides solution
The Portable type notebook computer radiating workpiece of the above problem is, it can be achieved that cold air stream purifying and dedusting, easy to operate practicality.
The utility model is achieved through the following technical solutions:
Portable type notebook computer radiating workpiece, including tubular shell, axial bottom end side wall upper edge in the tubular shell
First annular slot is circumferentially offered, round filter plate, the board direction and cylindrical case of the filter plate are equipped in the first annular slot
The axis direction of body is vertical, and filter plate is fixed on by first rotating shaft on tubular shell, the axis direction and cylinder of the first rotating shaft
The axis direction of shape shell is parallel, and first rotating shaft axially penetrates through the filter plate edge in first annular slot and axial both ends and is fixed on
On the side wall of tubular shell;The axial Basolateral wall upper edge of tubular shell half is circumferential to offer the first notch, first slot
Mouthful be connected to first annular slot, filter plate and first rotating shaft rotation connection, using first rotating shaft as axial line rotation filter plate completely into
In tubular shell or rotation filter plate removes tubular shell through the first notch;Axial tip side wall upper edge week in the tubular shell
To the second annular groove is offered, it is equipped with circular gas distribution grid in second annular groove, is offered on gas distribution grid several
Gas is distributed mouth, and the board direction of the gas distribution grid is vertical with the axis direction of tubular shell, and gas distribution grid passes through the
Two shafts are fixed on tubular shell, and the axis direction of second shaft is parallel with the axis direction of tubular shell, second turn
Axis axially penetrates through the gas distribution grid edge in the second annular groove and axial both ends and is fixed on the side wall of tubular shell;Tubular
The axial Basolateral wall upper edge of shell half is circumferential to offer the second notch, and second notch is connected to the second annular groove, gas
Body distribution grid and the second shaft are rotatablely connected, and gas distribution grid is rotated completely into tubular shell by axial line of the second shaft
Interior or rotation gas distribution grid removes tubular shell through the second notch;It is located at first annular slot and the second annular in tubular shell
Fan is equipped between slot;The axial bottom end of the tubular shell, which is also connected through a screw thread, is arranged with pedestal, and the pedestal includes spiral shell
Line casing and several supporting legs.
Utility model works principle is:It, will be with first when needing to radiate to laptop using radiator
Shaft is axis rotation filter plate, using the second shaft as axis rotation gas distribution grid, fan is made to be located at filter plate in the vertical direction
Between gas distribution grid, fan rotation is controlled at this time, and cool exterior air is entered by tubular shell axial direction bottom end in shelly-shaped cylinder
Then successively through blowing to laptop bottom at filter plates, fan, after gas distribution grid distribution through tubular shell axial direction top
At plate face;In addition, filter plate and gas distribution grid are turned to fan both sides, also it is convenient for carrying, prevents in carrying process, fan
Exposed, fan is easily impaired;Needing to clean filter plate and when gas distribution grid, if using first rotating shaft as axis rotation filter plate,
And tubular shell is produced by the first notch level, using the second shaft as axis rotation gas distribution grid and by the second notch level
Tubular shell is produced, the columnar part of filter plate and gas distribution grid is exposed on the outside of tubular shell at this time, operation easy to clean.This
Outside, in tubular shell axial direction bottom end, screw thread is detachably connected setting pedestal, and the support that on the one hand can increase to laptop is high
On the other hand degree is conducive to increase tubular shell axial direction bottom end inlet, improves radiating efficiency.
Preferably, the axial Basolateral wall of the tubular shell be equipped with external screw thread, the internal thread of the threaded sleeve with
The external screw thread adaptation is set on tubular shell;It is described several when threaded sleeve is set in the axial bottom end of tubular shell
Supporting leg is circumferentially distributed along the outer wall of tubular shell.
It is adapted to threaded sleeve internal thread by tubular shell external screw thread and multiple supporting legs is along tubular shell side wall point
Cloth rotates height and supporting leg of the threaded sleeve adjustment threaded sleeve on tubular shell side wall to tubular shell convenient for user
Bearing height.
Preferably, the filter plate includes circular frame, in the circular frame from the bottom to top along tubular shell axis direction
It is equipped with the first strainer and the second strainer successively, first strainer is imitated in using active carbon filter screen, second strainer to use
HEPA strainers.
By the way that filter plate is used active carbon filter screen, mainly the impurity such as the dust to larger particles in air or undercoat hair carry out
Filtering removal;HEPA strainers are imitated in can further be removed the smaller particle dust in cold air, purify.
Preferably, the tubular shell top port circumferentially offers several ventilation slots, and the ventilation slot is connected to tubular
Enclosure interior and external environment.
By offering ventilation slot in tubular shell top ports, to improve rate of air circulation, enhance heat dissipation effect.
Preferably, the first rotating shaft and the second shaft are all made of countersunk head screw rod structure, and first rotating shaft is by tubular shell
Bottom face screws in and axial both ends are connect with the sidewall thread of the tubular shell of both sides above and below first annular slot respectively;Second turn
Axis screwed in by the fixed end face of tubular shell and axial both ends respectively with the second annular groove.
Using countersunk head screw rod as first rotating shaft and the second shaft, simple in structure, easy disassembly operation, convenient for being filtered first
Plate and the second filter plate are integrally removed from tubular shell, are replaced, are overhauled or cleaning operation.
Preferably, on the positive inverse plate surface of the filter plate and gas distribution grid sealing rubber strip is circumferentially with along outer rim.
By the way that sealing rubber strip is arranged in the plate face of the first filter plate and the second filter plate, mainly process is used in radiator
In, filter plate and gas distribution grid are sealed with tubular shell contact site by sealing rubber strip, prevent gas leakage, reduces and dissipates
Thermal effect.
The utility model has the following advantages and advantages:
1, utility model works principle is:It, will be with when needing to radiate to laptop using radiator
One shaft is axis rotation filter plate, using the second shaft as axis rotation gas distribution grid, fan is made to be located at filter in the vertical direction
Between plate and gas distribution grid, fan rotation is controlled at this time, and cool exterior air enters shelly-shaped cylinder by tubular shell axial direction bottom end
It is interior and then successively through through tubular shell axial direction top blowing to laptop at filter plates, fan, after gas distribution grid distribution
At base surface;In addition, filter plate and gas distribution grid are turned to fan both sides, also it is convenient for carrying, prevents in carrying process, wind
Fan exposed, fan is easily impaired;When needing to clean filter plate and gas distribution grid, as long as being filtered by axis rotation of first rotating shaft
Plate simultaneously produces tubular shell by the first notch level, using the second shaft as axis rotation gas distribution grid and by the second notch water
Flat turn goes out tubular shell, and the columnar part of filter plate and gas distribution grid is exposed on the outside of tubular shell at this time, operation easy to clean.
In addition, being detachably connected setting pedestal in tubular shell axial direction bottom end screw thread, the support to laptop on the one hand can be increased
Highly, on the other hand it is conducive to increase tubular shell axial direction bottom end inlet, improves radiating efficiency;
2, the utility model is adapted to by tubular shell external screw thread with threaded sleeve internal thread and multiple supporting legs are along tubular
Housing sidewall is distributed, and height and supporting leg pair of the threaded sleeve adjustment threaded sleeve on tubular shell side wall are rotated convenient for user
The bearing height of tubular shell;
3, the utility model by filter plate by using active carbon filter screen, mainly to the dust or undercoat of larger particles in air
The impurity such as hair are filtered removal;HEPA strainers are imitated in further to be removed the smaller particle dust in cold air
It removes, purify;
4, the utility model is using countersunk head screw rod as first rotating shaft and the second shaft, and simple in structure, easy disassembly operates,
Convenient for integrally removing the first filter plate and the second filter plate from tubular shell, is replaced, overhauled or cleaning operation;
5, the utility model is mainly being radiated by the way that sealing rubber strip is arranged in the plate face of the first filter plate and the second filter plate
During device use, filter plate and gas distribution grid are sealed with tubular shell contact site by sealing rubber strip, prevented
Gas leakage reduces heat dissipation effect.
Description of the drawings
Attached drawing described herein is used for providing further understanding the utility model embodiment, constitutes the one of the application
Part does not constitute the restriction to the utility model embodiment.In the accompanying drawings:
Fig. 1 faces cross section structure schematic diagram for the utility model;
Fig. 2 is the top view cross section structural schematic diagram of the utility model;
Fig. 3 is that the supporting leg of the utility model connects dimensional structure diagram with threaded sleeve.
Label and corresponding parts title in attached drawing:1- tubular shells, the first annular slots of 2-, 3- filter plates, first turn of 4-
Axis, the first notches of 5-, the second annular grooves of 6-, 7- gas distribution grids, the second shafts of 8-, the second notches of 9-, 10- pedestals, 11- spiral shells
Line casing, 12- supporting legs, 31- circular frames, the first strainers of 32-, the second strainers of 33-, 13- sealing rubber strips, 14- ventilation slots,
15- gas distribution holes, 16- fans.
Specific implementation mode
To make the purpose of this utility model, technical solution and advantage be more clearly understood, with reference to embodiment and attached drawing,
The utility model is described in further detail, and the exemplary embodiment and its explanation of the utility model are only used for explaining this
Utility model is not intended to limit the scope of the present invention.
Embodiment 1
Portable type notebook computer radiating workpiece, including tubular shell 1, in the tubular shell 1 on axial bottom end side wall
Circumferentially offer first annular slot 2, be equipped with round filter plate 3 in the first annular slot 2, the board direction of the filter plate 3 with
The axis direction of tubular shell 1 is vertical, and filter plate 3 is fixed on by first rotating shaft 4 on tubular shell 1, the axis of the first rotating shaft 4
Line direction is parallel with the axis direction of tubular shell 1, first rotating shaft 4 axially penetrate through 3 edge of filter plate in first annular slot 2 and
Axial both ends are fixed on the side wall of tubular shell 1;The axial Basolateral wall upper edge of tubular shell 1 half is circumferential to offer first
Notch 5, first notch 5 are connected to first annular slot 2, and filter plate 3 is rotatablely connected with first rotating shaft 4, is axis with first rotating shaft 4
Heart line rotates filter plate 3 completely into tubular shell 1 or rotation filter plate 3 removes tubular shell 1 through the first notch 5;The cylinder
The second annular groove 6 is circumferentially offered in shape shell 1 on axial tip side wall, circular gas is equipped in second annular groove 6
Distribution grid 7, if offering dry gas distribution mouth, the board direction and tubular shell of the gas distribution grid 7 on gas distribution grid 7
1 axis direction is vertical, and gas distribution grid 7 is fixed on by the second shaft 8 on tubular shell 1, the axis of second shaft 8
Direction is parallel with the axis direction of tubular shell 1, and the second shaft 8 axially penetrates through 7 side of gas distribution grid in the second annular groove 6
Edge and axial both ends are fixed on the side wall of tubular shell 1;The axial Basolateral wall upper edge of tubular shell 1 half is circumferential to be opened up
There are the second notch 9, second notch 9 to be connected to the second annular groove 6, gas distribution grid 7 and the second shaft 8 are rotatablely connected, with
Second shaft 8 is that axial line rotates gas distribution grid 7 completely into tubular shell 1 or rotation gas distribution grid 7 is through the second slot
Mouth 9 removes tubular shells 1;Fan 12 is equipped in tubular shell 1 between first annular slot 2 and the second annular groove 6;It is described
The axial bottom end of tubular shell 1, which is also connected through a screw thread, is arranged with pedestal 10, and the pedestal 10 includes threaded sleeve 11 and several
Supporting leg 12.
Embodiment 2
It being further improved on the basis of embodiment 1, the axial Basolateral wall of the tubular shell 1 is equipped with external screw thread,
The internal thread of the threaded sleeve 11 is adapted to the external screw thread and is set on tubular shell 1;When threaded sleeve 11 is set in cylinder
When the axial bottom end of shape shell 1, several supporting legs 12 are circumferentially distributed along the outer wall of tubular shell 1.
Embodiment 3
It is further improved on the basis of embodiment 2, the filter plate 3 includes circular frame 31, in the circular frame 31
It is equipped with the first strainer 32 and the second strainer 33 successively from the bottom to top along 1 axis direction of tubular shell, first strainer 32 uses
Active carbon filter screen, second strainer 33 imitate HEPA strainers in using.If 1 top port of the tubular shell circumferentially offers
Dry ventilation slot 12, the ventilation slot 12 are connected to 1 inside and outside environment of tubular shell.
Embodiment 4
It is further improved on the basis of embodiment 3, the first rotating shaft 4 and the second shaft 8 are all made of countersunk head screw rod knot
Structure, first rotating shaft 4 is screwed in by the bottom face of tubular shell 1 and the axial both ends tubular with about 2 both sides of first annular slot respectively
The sidewall thread of shell 1 connects;Second shaft 8 is screwed in by the fixed end face of tubular shell 1 and axial both ends are annular with second respectively
Slot 6.On the positive inverse plate surface of the filter plate 3 and gas distribution grid 7 sealing rubber strip 13 is circumferentially with along outer rim.
Above-described specific implementation mode, to the purpose of this utility model, technical solution and advantageous effect carried out into
One step is described in detail, it should be understood that the foregoing is merely specific embodiment of the present utility model, is not used to limit
Determine the scope of protection of the utility model, within the spirit and principle of the utility model, any modification for being made equally is replaced
It changes, improve, should be included within the scope of protection of this utility model.
Claims (6)
1. Portable type notebook computer radiating workpiece, including tubular shell (1), which is characterized in that tubular shell (1) inner shaft
First annular slot (2) is circumferentially offered to bottom end side wall upper edge, round filter plate (3) is equipped in the first annular slot (2), it is described
The board direction of filter plate (3) is vertical with the axis direction of tubular shell (1), and filter plate (3) is fixed on tubular by first rotating shaft (4)
On shell (1), the axis direction of the first rotating shaft (4) is parallel with the axis direction of tubular shell (1), first rotating shaft (4) axis
It is fixed on the side wall of tubular shell (1) to filter plate (3) edge in first annular slot (2) and axial both ends;Cylindrical case
The axial Basolateral wall upper edge of body (1) half is circumferential to offer the first notch (5), first notch (5) and first annular slot
(2) be connected to, filter plate (3) and first rotating shaft (4) are rotatablely connected, with first rotating shaft (4) be axial line rotate filter plate (3) completely into
In tubular shell (1) or rotation filter plate (3) removes tubular shell (1) through the first notch (5);It is axial in the tubular shell (1)
Top side wall upper edge circumferentially offers the second annular groove (6), and circular gas distribution grid (7) is equipped in second annular groove (6),
Gas distribution grid (7) if on offer dry gas distribution mouth, the board direction of the gas distribution grid (7) and tubular shell (1)
Axis direction it is vertical, gas distribution grid (7) is fixed on by the second shaft (8) on tubular shell (1), second shaft
(8) axis direction is parallel with the axis direction of tubular shell (1), and the second shaft (8) axially penetrates through in the second annular groove (6)
Gas distribution grid (7) edge and axial both ends are fixed on the side wall of tubular shell (1);Outside the axial bottom end of tubular shell (1)
Side wall upper edge half is circumferential to offer the second notch (9), and second notch (9) is connected to the second annular groove (6), gas distribution grid
(7) it is rotatablely connected with the second shaft (8), is that axial line rotates gas distribution grid (7) completely into cylindrical case with the second shaft (8)
In body (1) or rotation gas distribution grid (7) removes tubular shell (1) through the second notch (9);It is located at first in tubular shell (1)
Fan (12) is equipped between annular groove (2) and the second annular groove (6);The axial bottom end of the tubular shell (1) also passes through screw thread
Connector sleeve is equipped with pedestal (10), and the pedestal (10) includes threaded sleeve (11) and several supporting legs (12).
2. Portable type notebook computer radiating workpiece according to claim 1, which is characterized in that the tubular shell (1)
Axial Basolateral wall be equipped with external screw thread, the internal thread of the threaded sleeve (11) is adapted to the external screw thread is set in tubular
On shell (1);When threaded sleeve (11) is set in the axial bottom end of tubular shell (1), several supporting legs (12) are along tubular
The outer wall of shell (1) is circumferentially distributed.
3. Portable type notebook computer radiating workpiece according to claim 1, which is characterized in that the filter plate (3) includes
Circular frame (31), the circular frame (31) is interior to be equipped with the first strainer successively from the bottom to top along tubular shell (1) axis direction
(32) it is imitated in using active carbon filter screen, second strainer (33) to use with the second strainer (33), first strainer (32)
HEPA strainers.
4. Portable type notebook computer radiating workpiece according to claim 1, which is characterized in that the tubular shell (1)
Top port circumferentially offers several ventilation slots (12), and the ventilation slot (12) is connected to tubular shell (1) inside and outside ring
Border.
5. Portable type notebook computer radiating workpiece according to claim 1, which is characterized in that the first rotating shaft (4)
It is all made of countersunk head screw rod structure with the second shaft (8), first rotating shaft (4) is screwed in by the bottom face of tubular shell (1) and axial direction two
End is connect with the sidewall thread of first annular slot (2) tubular shell (1) of both sides up and down respectively;Second shaft (8) is by cylindrical case
The fixed end face of body (1) screw in and axial both ends respectively with the second annular groove (6).
6. Portable type notebook computer radiating workpiece according to claim 1, which is characterized in that the filter plate (3) is gentle
On the positive inverse plate surface of body distribution grid (7) sealing rubber strip (13) is circumferentially with along outer rim.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201820142016.XU CN207937944U (en) | 2018-01-26 | 2018-01-26 | Portable type notebook computer radiating workpiece |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201820142016.XU CN207937944U (en) | 2018-01-26 | 2018-01-26 | Portable type notebook computer radiating workpiece |
Publications (1)
Publication Number | Publication Date |
---|---|
CN207937944U true CN207937944U (en) | 2018-10-02 |
Family
ID=63650133
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201820142016.XU Expired - Fee Related CN207937944U (en) | 2018-01-26 | 2018-01-26 | Portable type notebook computer radiating workpiece |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN207937944U (en) |
-
2018
- 2018-01-26 CN CN201820142016.XU patent/CN207937944U/en not_active Expired - Fee Related
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Legal Events
Date | Code | Title | Description |
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20181002 Termination date: 20210126 |