Adjusting device for radiator of notebook computer and assembling method thereof
Technical Field
The invention relates to a regulating device for a radiator of a notebook computer and an assembling method thereof, which can help the notebook computer to radiate, belonging to peripheral equipment of the notebook computer.
Background
In the use process of the notebook computer, the notebook computer is often placed on soft articles such as legs, a bed or a quilt for use, the air port of the cooling fan of the notebook computer is usually arranged on the bottom wall of the notebook computer, the condition that the cooling air port is blocked can be caused, the heat generated in the notebook computer can not be dissipated in time, the temperature of the notebook computer is increased, the time is long, and the performance of the notebook computer can be reduced or even the service life of the notebook computer can be influenced.
Therefore, a method for maintaining good heat dissipation of a notebook computer when the notebook computer is placed on a soft object is needed.
Disclosure of Invention
The purpose of the invention is: the notebook computer heat dissipation frame can still keep good heat dissipation when a notebook computer is placed on a soft article.
The technical scheme of the invention is as follows: a regulating device for a radiator of a notebook computer mainly comprises a fixed block 2, a regulating block 3, a regulating column 4 and a regulating button 5; the adjusting device is arranged on the bracket, the bracket is made of metal materials easy to conduct heat, a plurality of parallel radiating fins vertical to the upper end face of the bracket and having the same height are arranged on the upper end face of the bracket, the notebook computer is arranged at the top ends of the radiating fins, and the adjusting device clamps the notebook computer from the left side and the right side to prevent the notebook computer from sliding off the bracket; the fixing block and the adjusting block are provided with coaxial through holes which penetrate left and right, and internal threads are arranged in the through holes of the adjusting block; the adjusting button is provided with an adjusting hole, and more than one convex edge which protrudes inwards is arranged in the adjusting hole; the adjusting column is cylindrical, an external thread matched with the internal thread in the through hole of the adjusting block is arranged on the outer wall surface of one end of the adjusting column, and a key groove matched with the convex edge in the adjusting button is arranged at the other end of the adjusting column.
The top walls of the fixed block and the adjusting block are not higher than the top ends of the fins, a first pressing block 6 is arranged above the fixed block, a second pressing block 7 is arranged above the adjusting block, the first pressing block is fixed on the top wall of the fixed block through screws, the second pressing block is fixed on the top wall of the adjusting block through screws, and the notebook computer is arranged between the first pressing block and the second pressing block to enable the bottom wall of the notebook computer to be tightly pressed on the top ends of the fins; through the rotary adjusting knob, the distance between the fixed block and the adjusting block is changed, and the distance between the first pressing block and the second pressing block is changed at the same time, so that the notebook computers with different sizes can be pressed from two sides.
The first pressing block and the second pressing block are equal in height and are consistent with the height of the notebook computer.
The top wall of the adjusting block is provided with a groove which is sunken downwards, the lower part of the second pressing block is tightly matched with the groove, a screw hole is arranged in the groove, the second pressing block is provided with a corresponding screw hole which penetrates through the second pressing block, and the screw passes through the screw holes in the grooves of the second pressing block and the adjusting block from top to bottom to fix the second pressing block above the adjusting block.
The fixed block and the adjusting block are consistent in height and equal to the fins in height.
The top ends of the fins are provided with support surfaces which are perpendicular to the fins and parallel to the bottom wall of the bracket, so that the contact area between the bracket and the notebook computer is increased, and a gap is reserved between the support surfaces of two adjacent fins.
When the adjusting device is assembled, one end of the adjusting column with the key groove penetrates through the fixed block, the adjusting button is sleeved at the tail end of the adjusting column with the key groove, and the protruded ridge of the adjusting button and the key groove on the adjusting column form an occlusion relation; the fixing block is arranged between two adjacent fixing fins 11, fixing holes are formed in the side wall of the fixing block, screws penetrate through the fixing fins and enter the fixing holes in the fixing block to fix the fixing block between the two fixing fins, the through holes in the fixing block are made to be parallel to the fixing fins, the adjusting columns are made to be parallel to the fixing fins, and the fixing block is located on the left side of the bracket; the adjusting block is provided with outward protruding adjusting protrusions 31 on two opposite side walls parallel to the through hole, the distance between the top ends of the two adjusting protrusions is larger than the distance between the fixed fins, and the distance between the adjusting block and the two side walls parallel to the through hole is smaller than the distance between the two fixed fins; the wall surface of the fixed fin far away from the fixed block is provided with a corresponding adjusting hole 12, the adjusting hole is a long hole parallel to the through hole on the fixed block, and the short edge of the fixed fin far away from the fixed block is provided with an opening; the adjusting block is placed between the fixed fins, so that the adjusting protrusions on the two sides of the adjusting block respectively enter the adjusting holes in the fixed fins, the adjusting block is pushed to move in the adjusting holes by pushing the adjusting block in the direction parallel to the adjusting holes, and the position of the adjusting block on the fixed fins is changed; after the adjusting block is arranged on the two fixed fins, the adjusting button is pushed towards the adjusting block to enable the adjusting column to move towards the adjusting block until one end of the adjusting column with the external thread reaches the through hole of the adjusting block, and then the adjusting button is rotated to enable the adjusting column to penetrate through the adjusting block; the adjusting knob is rotated forwards or backwards, so that the position of the adjusting block on the adjusting column can be adjusted, the position of the adjusting block on the adjusting hole is changed, and the distance between the fixing block and the adjusting block is changed.
Advantageous effects
1. The notebook computer is arranged on the radiating fins, so that gaps are reserved below the bottom wall of the radiating fins for radiating, the radiating fins and the bracket which are made of metal can help the notebook computer to conduct heat, and even if the notebook computer is placed on a flexible material for use, the notebook computer is not required to be overheated due to the fact that the flexible material blocks the vent holes of the notebook computer.
Drawings
FIG. 1 is a schematic perspective view of the present invention;
FIG. 2 is an enlarged view of a portion A of FIG. 1;
FIG. 3 is a partial enlarged view of portion B of FIG. 1;
FIG. 4 is a burst view of the present invention;
FIG. 5 is an enlarged view of a portion of FIG. 4;
FIG. 6 is a schematic cross-sectional view of an adjustment block of the present invention;
fig. 7 is a perspective view of a closed notebook computer placed on the present invention.
Detailed Description
As shown in fig. 1 to 6, a radiator for notebook computer mainly comprises a bracket 1 and an adjusting device, wherein the bracket is made of metal materials easy to conduct heat, the upper end face of the bracket is provided with a plurality of parallel radiating fins which are vertical to the upper end face of the bracket and have the same height, the radiating fins are parallel to the long edge of the bracket, the adjusting device is arranged on the bracket, the notebook computer is arranged on the top ends of the radiating fins, and the adjusting device clamps the notebook computer from the left side and the right side to prevent the notebook computer from sliding off the bracket.
The adjusting device mainly comprises a fixed block 2, an adjusting block 3, an adjusting column 4 and an adjusting button 5; the fixing block and the adjusting block are provided with coaxial through holes which penetrate left and right, and internal threads are arranged in the through holes of the adjusting block; the adjusting button is provided with an adjusting hole, and more than one convex edge which protrudes inwards is arranged in the adjusting hole; the adjusting column is cylindrical, an external thread matched with the internal thread in the through hole of the adjusting block is arranged on the outer wall surface of one end of the adjusting column, and a key groove matched with the convex edge in the adjusting button is arranged at the other end of the adjusting column.
During assembly, one end of the adjusting column with the key groove penetrates through the fixing block, the adjusting button is sleeved at the tail end of the adjusting column with the key groove, and the protruded edge of the adjusting button and the key groove on the adjusting column form an occlusion relation; the fixing block is arranged between two adjacent fixing fins 11, fixing holes are formed in the side wall of the fixing block, screws penetrate through the fixing fins and enter the fixing holes in the fixing block to fix the fixing block between the two fixing fins, the through holes in the fixing block are made to be parallel to the fixing fins, the adjusting columns are made to be parallel to the fixing fins, and the fixing block is located on the left side of the bracket; the adjusting block is provided with outward protruding adjusting protrusions 31 on two opposite side walls parallel to the through hole, the distance between the top ends of the two adjusting protrusions is larger than the distance between the fixed fins, and the distance between the adjusting block and the two side walls parallel to the through hole is smaller than the distance between the two fixed fins; the wall surface of the fixed fin far away from the fixed block is provided with a corresponding adjusting hole 12, the adjusting hole is a long hole parallel to the through hole on the fixed block, and the short edge of the fixed fin far away from the fixed block is provided with an opening; the adjusting block is placed between the fixed fins, so that the adjusting protrusions on the two sides of the adjusting block respectively enter the adjusting holes in the fixed fins, the adjusting block is pushed to move in the adjusting holes by pushing the adjusting block in the direction parallel to the adjusting holes, and the position of the adjusting block on the fixed fins is changed; after the adjusting block is arranged on the two fixed fins, the adjusting button is pushed towards the adjusting block to enable the adjusting column to move towards the adjusting block until one end of the adjusting column with the external thread reaches the through hole of the adjusting block, and then the adjusting button is rotated to enable the adjusting column to penetrate through the adjusting block; the adjusting knob is rotated forwards or backwards, so that the position of the adjusting block on the adjusting column can be adjusted, the position of the adjusting block on the adjusting hole is changed, and the distance between the fixing block and the adjusting block is changed.
In order to adapt to notebooks with different thicknesses, the top walls of the fixed block and the adjusting block are not higher than the top ends of the fins, a first pressing block 6 is arranged above the fixed block, a second pressing block 7 is arranged above the adjusting block, the first pressing block is fixed on the top wall of the fixed block through screws, the second pressing block is fixed on the top wall of the adjusting block through screws, and the notebook computer is arranged between the first pressing block and the second pressing block to enable the bottom wall of the notebook computer to be tightly pressed on the top ends of the fins; through the rotary adjusting knob, the distance between the fixed block and the adjusting block is changed, and the distance between the first pressing block and the second pressing block is changed at the same time, so that the notebook computers with different sizes can be pressed from two sides. Through providing the first briquetting and the second briquetting of different thickness, just can satisfy the requirement of the notebook of different thickness. Generally, the fixed block and the adjusting block are consistent in height and are as high as the fins, and the first pressing block and the second pressing block are as high as the notebook computer.
The top wall of the adjusting block is provided with a groove which is sunken downwards, the lower part of the second pressing block is tightly matched with the groove, a screw hole is arranged in the groove, the second pressing block is provided with a corresponding screw hole which penetrates through the second pressing block, and the screw passes through the screw holes in the grooves of the second pressing block and the adjusting block from top to bottom to fix the second pressing block above the adjusting block.
As shown in fig. 7, in order to improve the heat dissipation effect, the top ends of the fins are provided with support surfaces perpendicular to the fins and parallel to the bottom wall of the bracket, so that the contact area between the bracket and the notebook computer is increased, and a gap is reserved between the support surfaces of two adjacent fins. Part of heat generated by the notebook computer is transferred to the supporting surface and then transferred to the fins for heat dissipation.
The above-mentioned embodiments are only for illustrating the use of the present invention and are not meant to be limiting, and those skilled in the art should make various changes or substitutions within the spirit of the present invention and shall fall within the protection scope of the present invention.