CN110413089B

CN110413089B - Novel foldable notebook radiator

Info

Publication number: CN110413089B
Application number: CN201910815216.6A
Authority: CN
Inventors: 肖建中; 雷军乐; 李徐勇
Original assignee: Guilin University of Technology
Current assignee: Guilin University of Technology
Priority date: 2019-08-30
Filing date: 2019-08-30
Publication date: 2024-01-30
Anticipated expiration: 2039-08-30
Also published as: CN110413089A

Abstract

The invention discloses a novel foldable notebook radiator, which comprises two shells, wherein each shell comprises an upper shell plate, a lower shell plate and a middle connecting shell, the upper shell plate and the lower shell plate are arranged opposite to each other, a plurality of ventilation openings are formed in opposite sides of the upper shell plate and the lower shell plate at intervals, two ends of the middle connecting shell are respectively connected with the upper shell plate and the lower shell plate, the ventilation openings are arranged in a framing manner, a placing cavity is formed by surrounding the upper shell plate and the lower shell plate, the placing cavity is communicated with the outside through the ventilation openings, and a cooling fan is arranged in the placing cavity; each shell is provided with two supporting arms at intervals, one end of each supporting arm is rotationally connected with the upper shell plate and the lower shell plate through a rotating shaft, one end of each supporting arm is one end of each supporting arm, which is close to each other, the other end of each supporting arm is a supporting end, the supporting end is provided with a through hole, and a lifting supporting component is arranged in each through hole; the lifting support assembly comprises an upper support block, a lower support block, a connecting spring, a rotating block and a knob rod. The invention has simple structure, small occupied space and convenient carrying.

Description

Novel foldable notebook radiator

Technical Field

The invention relates to the technical field of radiators, in particular to a novel foldable notebook radiator.

Background

With the development of the age, the internet industry is continuously growing, most people need to know each information from the internet, more and more people need the notebook computer which is convenient to carry, heat dissipation of the notebook computer is a big problem for users, particularly after the notebook computer is used for a long time, the notebook computer is easy to crash due to overheating, therefore, the radiator is very important, many consumers can often carry computers on business trip, the traditional radiator is large in size and is very difficult to carry, and therefore, many consumers are unwilling to carry, and the service life of the computer can be influenced.

Disclosure of Invention

In view of the foregoing, it is desirable to provide a novel foldable notebook computer radiator that occupies a small space and is easy to carry.

In order to achieve the above purpose, the technical scheme adopted by the invention is as follows:

the novel foldable notebook radiator comprises two shells, wherein each shell comprises an upper shell plate, a lower shell plate and a middle connecting shell, the upper shell plate and the lower shell plate are arranged opposite to each other, a plurality of ventilation openings are formed in opposite sides of the upper shell plate and the lower shell plate at intervals, two ends of the middle connecting shell are respectively connected with the upper shell plate and the lower shell plate, the ventilation openings are framed, a placing cavity is formed by surrounding the upper shell plate and the lower shell plate, the placing cavity is communicated with the outside through the ventilation openings, and a cooling fan is arranged in the placing cavity; the top surfaces of the upper shell plates and the bottom surfaces of the lower shell plates of the two shells are the same in interval, the lower shell plates of the two shells are hinged through a hinge block, and the upper shell plates and the lower shell plates can be folded and overlapped or unfolded on the same plane through rotation relative to the hinge block;

each shell is provided with two supporting arms at intervals, the supporting arms are positioned between the upper shell plate and the lower shell plate and are positioned at the outer side of the middle connecting shell, one end of each supporting arm is rotationally connected with the upper shell plate and the lower shell plate through a rotating shaft, one end of each supporting arm is one end, which is close to each other, of each supporting arm, the rotating shaft at one end is positioned at one side, far away from the hinging block, of the middle connecting shell, the other end of each supporting arm is a supporting end, the supporting end is provided with a through hole, the through hole is formed in the vertical direction, and a lifting supporting component is arranged in the through hole; the lifting support assembly comprises an upper support block, a lower support block, a connecting spring, a rotating block and a knob rod, wherein the upper support block and the lower support block are slidably mounted on a through hole, the sliding direction is in an up-down direction, one ends of the upper support block and the lower support block, which are located in the through hole, are connected through the connecting spring, track grooves are formed in the end parts of the upper support block and the lower support block, the rotating block is located in the through hole and movably arranged between the upper support block and the lower support block, one end of the rotating rod is located in the through hole and connected with the rotating block, the other end of the rotating rod penetrates through the supporting arm and extends to the outer side of the supporting arm, the rotating rod is rotatably connected with the supporting arm, the rotating block is driven to rotate so as to be located between the upper support block and the lower support block through the rotation of the supporting arm, at this moment, the upper support block and the lower support block are retracted into the through the connecting spring, the two ends of the rotating block are driven to rotate so as to enable the two ends of the rotating block to slide into the track grooves of the upper support block and the lower support block respectively to be abutted against the upper support block and the lower support block, and the rotating block are connected with the rotating block through the rotation of the supporting arm, and the rotating spring is located between the upper support block and the lower support block and the upper support block.

Preferably, the outer side surface of one end of the middle connecting shell of the two shells, which is far away from each other, is provided with a limiting protrusion, and the rotating shafts on the two supporting arms on each shell are respectively arranged on two sides of the limiting protrusion.

Preferably, two fixing openings are arranged on the upper shell plate and the lower shell plate at intervals, the fixing openings on the upper shell plate and the lower shell plate are opposite to each other, each fixing opening is opposite to a through hole on a supporting end of a supporting arm when the supporting end is rotated and accommodated to be contacted with the middle connecting shell, and the fixing opening on the lower shell is a through opening; the end part of one end of the lower supporting block, which is far away from the upper supporting block, is made of magnetic materials, and the magnetic materials of the lower supporting blocks of which the two shells are positioned on the same side are different.

Preferably, the end parts of one end of the upper supporting block and one end of the lower supporting block, which are made of magnetic materials, are provided with anti-slip protrusions at intervals.

Preferably, the height of the lower supporting block protruding out of the bottom surface of the lower shell plate is equal to the height of the anti-slip protrusion; the anti-slip protrusions of the lower supporting blocks on the same side of the two shells are arranged in a staggered mode, and the anti-slip protrusions on the two lower supporting blocks are inserted in a staggered mode when the two lower supporting blocks penetrate through the fixing openings and are in contact with each other.

Preferably, the end part of the upper supporting block extending out of the through hole is flush with the top surface of the upper shell plate.

Preferably, the upper supporting block is of a telescopic structure.

Preferably, the standing groove has been seted up to the bottom surface of lower casing, the standing groove holding has dialled the board, dialling board one end rotation and connecting down the shell board, the axis of rotation is parallel the bottom surface of shell board down, the other end is the free end, the free end is through dialling the relative rotation of shell board down outside the standing groove or the holding in the standing groove.

Preferably, the support ends of the two support arms on the same housing are not in contact with each other.

Preferably, the top surface of the upper shell plate is provided with a notch groove, the notch grooves on the two shells are opposite to each other and form a complete cylinder groove when the notch grooves are parallel, the notch grooves on the two upper shell plates are unequal and occupy a larger part, a rotating baffle is arranged on the larger part, the middle part of the rotating baffle is rotationally connected with the upper shell plate through a rotating shaft, the rotating shaft coincides with the axis of the cylinder groove, and the length of the rotating baffle is slightly smaller than the diameter of the cylinder groove.

Compared with the prior art, the invention has the following beneficial effects:

1. according to the invention, the length of the radiator is reduced through the folding action of the two shells, and the rotating and accommodating action of the supporting arms and the arrangement of the lifting supporting components on the supporting arms can further reduce the occupied volume of the radiator, so that the radiator occupies a small space and is convenient to carry.

2. Through the arrangement of the anti-slip protrusions on the upper supporting block and the lower supporting block of the lifting supporting component and the fixing openings on the lower shell plate, the radiator can be stably fixed after being folded, and the radiator is prevented from being scattered and inconvenient to carry.

Drawings

Fig. 1 is a structural perspective view of a novel foldable notebook radiator of the present invention.

Fig. 2 is a structural perspective view of another angle of fig. 1.

Fig. 3 is a top view of fig. 1 without the upper housing plate and a radiator fan.

Fig. 4 is a cross-sectional view of the support end of the support arm of the present invention.

Fig. 5 is a schematic view of the structure of the upper or lower support block in the elevating support assembly of the present invention.

Fig. 6 is a schematic view of the structure of the rotating block and the rotating rod in the elevating support assembly of the present invention.

Fig. 7 is a top view of fig. 1 without the lower housing plate and a radiator fan.

Fig. 8 is a cross-sectional view taken along A-A in fig. 7.

Fig. 9 is an enlarged view at a in fig. 8.

Fig. 10 is a sectional view taken along line B-B in fig. 7.

Fig. 11 is a schematic view of the structure of the present invention when folded.

Description of the main reference signs

In the figure: the shell 1, the upper shell plate 11, the notch groove 111, the middle connecting shell 12, the lower shell plate 13, the placing groove 131, the ventilation opening 2, the cooling fan 3, the limiting protrusion 4, the rope groove 41, the buckling rope 42, the winding drum 43, the hooking structure 44, the buckling seat 45, the supporting arm 5, the supporting end 51, the through hole 52, the lifting supporting component 6, the upper supporting block 61, the lower supporting block 62, the track groove 63, the connecting spring 64, the rotating block 65, the knob rod 66, the fixed opening 7, the poking plate 8, the rotating baffle 9 and the hinging block 10.

The invention will be further described in the following detailed description in conjunction with the above-described figures.

Detailed Description

Referring to fig. 1-6, in a preferred embodiment of the present invention, a novel foldable notebook computer radiator comprises two shells 1, wherein each shell 1 comprises an upper shell plate 11, a lower shell plate 13 and a middle connecting shell 12, the upper shell plate 11 and the lower shell plate 13 are opposite to each other, a plurality of ventilation openings 2 are arranged on opposite sides of the upper shell plate 11 and the lower shell plate 13 at intervals, two ends of the middle connecting shell 12 are respectively connected with the upper shell plate 11 and the lower shell plate 13, the ventilation openings 2 are framed, and a placing cavity is defined by the middle connecting shell 12 and the upper shell plate 11 and the lower shell plate 13, and is communicated with the outside through the ventilation openings 2, and a radiator fan 3 is installed in the placing cavity; the top surfaces of the upper shell plates 11 and the bottom surfaces of the lower shell plates 13 of the two shells 1 are the same in interval, the lower shell plates 13 of the two shells are hinged through a hinging block 10, and can be folded and overlapped or unfolded on the same plane through rotation relative to the hinging block 10; preferably, the structural dimensions of the two shells 1 are the same, the rotating shaft of the cooling fan 3 is mounted on the cover plate, the cover plate is accommodated in the circular groove of the lower shell, the ventilation opening 2 surrounds the circumference of the circular groove, and the cooling fan 3 is connected with the power module through a wire.

Each shell 1 is provided with two supporting arms 5 at intervals, the supporting arms 5 are positioned between the upper shell plate 11 and the lower shell plate 13 and are positioned at the outer side of the middle connecting shell 12, one end of each supporting arm 5 is rotationally connected with the upper shell plate 11 and the lower shell plate 13 through a rotating shaft, the end is one end of each supporting arm 5, which is close to each other, the rotating shaft at the one end is positioned at one side of the middle connecting shell 12, which is far away from the hinging block 10, the other end of each supporting arm 5 is a supporting end 51, the supporting end 51 is provided with a through hole 52, the through hole 52 is formed along the up-down direction, and a lifting supporting component 6 is arranged in the through hole 52; the connecting shell 1 is rotated in a mode of rotationally connecting the upper shell plate 11 and the lower shell plate 13 through one end of the supporting arm 5, so that the supporting arm 5 can be rotationally hidden between the upper shell plate 11 and the lower shell plate 13 when not in use, and can be rotated out when in use, the space occupied by the radiator can be further reduced, and the radiator is more convenient for a user to carry. Preferably, the supporting ends 51 of the two supporting arms 5 on the same housing 1 are not contacted with each other, the outer side surface of one end of the middle connecting shell 12 of the two housings 1, which is far away from each other, is provided with a limiting protrusion 4, the rotating shafts on the two supporting arms 5 on each housing 1 are respectively arranged at two sides of the limiting protrusion 4, so that the rotation of the supporting arms 5 is limited by the arrangement of the limiting protrusions 4, thus the two supporting arms 5 on the same housing 1 are not interfered with each other, namely, the limiting positions of the rotating-out of the supporting arms 5 are abutted with the limiting protrusions 4, in the invention, the limiting protrusions 4 on the two housings 1 are respectively arranged far away from the hinging block 10, one end of one limiting protrusion 4, which is connected with the upper shell plate 11, is provided with a rope groove 41, the rope groove 41 penetrates through the upper shell plate 11, the notch is arranged on the top surface of the upper shell plate 11, the rope groove 41 is internally provided with a buckling rope 42, one end of the buckling rope 42 is fixed on the winding drum 43, the winding drum 43 is accommodated in the rope groove 41 and is rotationally connected with the limiting protrusion 4 through a winding shaft, a torsion spring is sleeved on the winding shaft, one end of the torsion spring is fixedly connected with the winding shaft, the other end of the torsion spring is fixedly connected with the rope groove 41, the other end of the buckling rope 42 is provided with a buckling structure 44, the buckling structure 44 is accommodated in the rope groove 41 in a natural state of the torsion spring and is flush with a notch of the rope groove 41, the top surface of the upper shell plate 11 where the other limiting protrusion 4 is positioned is provided with a buckling seat 45 for buckling the buckling structure 44, the ends of the two shells 1 are fixed in a mode of buckling the buckling seat 45 through the buckling structure 44, the two shells 1 are prevented from being scattered when the two shells 1 are folded, and the specific structure is shown in fig. 7-10. The middle connecting shell 12 is a cylindrical shell with two open ends, and the supporting arm 5 is of an arc-shaped structure, so that the supporting arm 5 can be screwed out, and the middle connecting shell 12 can be attached when being stored.

In the invention, the lifting support assembly 6 is used as a support of a radiator when the support arm 5 is unscrewed, and the support part of the lifting support assembly is telescopic, so that the support arm 5 is convenient to store and can also be used as a support, in particular, the lifting support assembly 6 comprises an upper support block 61, a lower support block 62, a connecting spring 64, a rotating block 65 and a knob rod 66, the upper support block 61 and the lower support block 62 are slidably arranged on the through hole 52, the sliding direction is in the up-down direction, one ends of the upper support block 61 and the lower support block 62 in the through hole 52 are connected through a connecting spring 64, track grooves 63 are formed at the end parts of the upper support block 61 and the lower support block 62, the rotating block 65 is positioned in the through hole 52 and is movably arranged between the upper support block 61 and the lower support block 62, one end of the rotating block 65 is positioned in the through hole 52 and is connected with the rotating block 65, the other end of the rotating block 5 is penetrated and extends to the outer side of the support arm 5, the rotating block is rotationally connected with the support arm 5, the rotating block 65 is driven by the rotation of the rotating block 65 relative to the support arm 5 to rotate so as to be positioned between the upper support block 61 and the lower support block 62, the upper support block 61 and the lower support block 62 are positioned in the opposite to the through the track grooves 62, the upper support block 61 and the lower support block 62 are rotatably arranged at the opposite ends of the upper support block 61 and the lower support block 62, the lower support block 61 is in the opposite to the state, the opposite to the upper support block 61 is in the state, the upper support block is rotated to the upper support block and the lower support block is in the state, the upper support block is in the state of the support block is in the state, and the upper support block is in the state, and the support block is in the support of the support and the support block 5 is in the support and the support, and the support is in the support. As can be seen from the above arrangement, the present invention uses the rotating rod to drive the rotating block 65 to push the upper support block 61 and the lower support block 62 to extend out of the through hole 52 to be used as a support part, and uses the elastic force of the connecting spring 64 to retract the upper support block 61 and the lower support block 62 without protruding out of the through hole 52, and at the same time, the arrangement of the connecting spring 64 also enables the upper support block 61 and the lower support block 62 to be mounted on the through hole 52. Preferably, the track groove 63 is an arc groove, and the side surfaces of the two ends of the rotating block 65, which are in contact with the arc groove, are elliptical surfaces, so that the rotating block 65 pushes the upper supporting block 61 and the lower supporting block 62 to extend out of the through hole 52; the two connecting springs 64 are arranged at intervals and do not interfere with the rotating block 65 and the rotating rod; one end of the rotating rod, which is positioned outside the supporting part, is provided with a rotating handle.

Further, two fixing openings 7 are arranged on the upper shell plate 11 and the lower shell plate 13 at intervals, the fixing openings 7 on the upper shell plate 11 and the lower shell plate 13 are opposite to each other, each fixing opening 7 is opposite to a through hole 52 on the supporting end 51 when the supporting end 51 of one supporting arm 5 is rotatably accommodated until contacting the middle connecting shell 12, and the fixing opening 7 on the lower shell plate 13 is a through hole, so that after the supporting arm 5 is accommodated, the lower supporting block 62 can extend out of the through hole 52 and penetrate through the fixing opening 7 through rotating the rotating rod, and then is abutted with the lower supporting block 62 of the supporting arm 5 on the other shell 1; the end part of one end of the lower supporting block 62, which is away from the upper supporting block 61, is made of magnetic materials, and the magnetic materials of the lower supporting blocks 62 of the two shells 1 positioned on the same side are different in magnetism, that is, the end parts of the two mutually abutted lower supporting blocks 62 are fixed in an attracting manner through magnetic action, so that the two shells 1 can be stably fixed after being folded, are not loose, and are convenient for carrying. Preferably, the upper support block 61 and the lower support block 62 are provided with anti-slip protrusions at intervals at one end portion made of magnetic material, so that the heat sink is prevented from sliding or the notebook computer moves on the heat sink through the arrangement of the anti-slip protrusions, and the anti-slip effect is achieved. Further preferably, the height of the lower support block 62 protruding from the bottom surface of the lower shell 13 is equal to the height of the anti-slip protrusions, so as to facilitate heat dissipation when the heat sink is horizontally placed; the anti-slip protrusions of the lower supporting blocks 62 on the same side of the two shells 1 are arranged in a staggered mode, and the anti-slip protrusions on the two lower supporting blocks 62 are arranged in a staggered mode when the two lower supporting blocks 62 penetrate through the fixing openings 7 and are in contact with each other, so that the end parts of the two lower supporting blocks 62 are mutually embedded in a mutually inserting mode, and the two shells 1 can be further fixed and stable when the radiator is folded.

In this embodiment, the end of the upper support block 61 extending out of the through hole 52 is flush with the top surface of the upper shell plate 11, so that the notebook computer can be placed on the upper shell plate 11 and the upper support block 61, and the anti-slip protrusions on the upper support block 61 can be contacted with the notebook computer to play a role in anti-slip. Preferably, the upper supporting block 61 is of a telescopic structure, so that the end portion of the upper supporting block 61 protrudes out of the upper shell plate 11 in a telescopic manner, and therefore, a notebook computer can be conveniently clamped, particularly, the upper supporting block 61 of the four supporting arms 5 is arranged around the upper shell plate 11 as a center, a formed space can accommodate the notebook computer, the notebook computer is placed on the upper shell plate 11 at the moment, after the upper supporting block 61 stretches out and draws back, the upper supporting block 61 protrudes out of the upper shell plate 11, the side surface of the upper supporting block 61 contacts the notebook computer, namely, the clamping of the notebook computer is realized, that is, the telescopic structure of the upper supporting block 61 can enable the upper supporting block 61 to extend out of the through hole 52 and then flush with the top surface of the upper shell plate 11, and also protrude out of the top surface of the upper shell plate 11, wherein the flush notebook computer can be supported when the notebook computer is placed horizontally and can be prevented by utilizing the anti-slip protrusions, and the notebook computer can be clamped after stretching out, so that the notebook computer can be prevented from sliding obliquely. In order to facilitate the inclined placement of the notebook computer, the bottom surface of the lower shell is provided with the placement groove 131, the placement groove 131 is accommodated with the poking plate 8, one end of the poking plate 8 is rotationally connected with the lower shell 13, the rotation axis is parallel to the bottom surface of the lower shell 13, the other end is a free end, the free end is rotated out of the placement groove 131 or accommodated in the placement groove 131 through the rotation of the poking plate 8 relative to the lower shell 13, so that the poking plate 8 extends out of the placement groove 131 to form an angle with the bottom surface of the lower shell 13, and the upper shell 11 is obliquely placed, preferably, the lower shell 13 of each shell 1 is provided with the poking plate 8, and the poking plates 8 on the two shells 1 are both arranged far away from the hinging block 10 and on the same straight line.

Further, the top surfaces of the upper shell plates 11 are provided with notch grooves 111, the notch grooves 111 on the two shells 1 are opposite to each other and form a complete cylindrical groove when the two shells are parallel, the notch grooves 111 on the two upper shell plates 11 are unequal and occupy a larger one and are provided with rotating baffles 9, the middle parts of the rotating baffles 9 are rotationally connected with the upper shell plates 11 through rotating shafts, the rotating shafts coincide with the axes of the cylindrical grooves, the lengths of the rotating baffles 9 are slightly smaller than the diameters of the cylindrical grooves so as to simultaneously contact the two upper shells through the rotation of the rotating baffles 9, thereby flattening and fixing the two upper shell plates 11, avoiding that the top surfaces of the upper shell plates 11 are not in the same plane due to the rotation of the radiator, and being rotatable into the notch grooves 111 of the upper shell plates 11 where the rotating baffles 9 are located when the rotating baffles 9 are not needed, so that the folding of the two shells 1 is not hindered. Preferably, the rotating baffle plate 9 does not protrude from the notch groove 111, and the notch groove 111 is four fifths of a cylindrical groove.

When the invention is used, the rotary rod is rotated firstly, so that the upper supporting block 61 is separated from the fixed port 7 and is retracted into the through hole 52, then the shell 1 is unfolded, so that the two shells 1 are arranged side by side, the rotary baffle plate 9 is rotated, so that the rotary baffle plate 9 contacts the two upper shell plates 11 simultaneously, then the supporting arm 5 is rotated out, and then the rotary rod is rotated sequentially, so that the upper supporting block 61 and the lower supporting block 62 are used as supporting parts and extend out of the through hole 52, and at the moment, the upper shell plates 11 are horizontally arranged; when the upper shell plate 11 needs to be obliquely placed, the shifting plate 8 is screwed out of the placing groove 131, the placing position of the supporting arm 5 is adjusted, and then the upper supporting block 61 is stretched, so that the upper supporting block 61 abuts against the notebook.

The foregoing description is directed to the preferred embodiments of the present invention, but the embodiments are not intended to limit the scope of the invention, and all equivalent changes or modifications made under the technical spirit of the present invention should be construed to fall within the scope of the present invention.

Claims

1. The utility model provides a novel foldable notebook radiator, includes two shells, its characterized in that: each shell comprises an upper shell plate, a lower shell plate and a middle connecting shell, wherein the upper shell plate and the lower shell plate are arranged opposite to each other, a plurality of ventilation openings are formed in opposite sides of the upper shell plate and the lower shell plate at intervals, two ends of the middle connecting shell are respectively connected with the upper shell plate and the lower shell plate, the ventilation openings are framed, a placing cavity is formed by surrounding the upper shell plate and the lower shell plate, the placing cavity is communicated with the outside through the ventilation openings, and a cooling fan is arranged in the placing cavity; the top surfaces of the upper shell plates and the bottom surfaces of the lower shell plates of the two shells are the same in interval, the lower shell plates of the two shells are hinged through a hinge block, and the upper shell plates and the lower shell plates can be folded and overlapped or unfolded on the same plane through rotation relative to the hinge block;

each shell is provided with two supporting arms at intervals, the supporting arms are positioned between the upper shell plate and the lower shell plate and are positioned at the outer side of the middle connecting shell, one end of each supporting arm is rotationally connected with the upper shell plate and the lower shell plate through a rotating shaft, one end of each supporting arm is one end, which is close to each other, of each supporting arm, the rotating shaft at one end is positioned at one side, far away from the hinging block, of the middle connecting shell, the other end of each supporting arm is a supporting end, the supporting end is provided with a through hole, the through hole is formed in the vertical direction, and a lifting supporting component is arranged in the through hole; the lifting support assembly comprises an upper support block, a lower support block, a connecting spring, a rotating block and a knob rod, wherein the upper support block and the lower support block are slidably arranged on a through hole, the sliding direction is the vertical direction, one ends of the upper support block and the lower support block, which are positioned in the through hole, are connected through the connecting spring, track grooves are formed in the end parts of the ends, the rotating block is positioned in the through hole and is movably arranged between the upper support block and the lower support block, one ends of the rotating block are positioned in the through hole and are connected with the rotating block, the other ends of the rotating block penetrate through the supporting arm and extend to the outer side of the supporting arm, the rotating block is rotationally connected with the supporting arm, and drives the rotating block to rotate relative to the supporting arm so as to be positioned between the upper support block and the lower support block, at the moment, the connecting spring is in a natural state, and the upper support block and the lower support block retract into the through hole, or the rotating block is driven by relative to rotate so as to enable the two ends of the rotating block to slide into the track grooves of the upper support block and the lower support block respectively to abut against the upper support block and the lower support block, and the rotating block extend to the outer side of the supporting block, and the rotating block extends out of the through hole;

the supporting ends of the two supporting arms on the same shell are not contacted with each other;

the top surface of going up the shell plate is equipped with the breach groove, and the breach groove on two shells is just right and synthesizes a complete cylinder groove when both are side by side, and the breach groove on two last shell plates is unequal, and rotatory baffle is installed to the great one of occupation, rotatory baffle's middle part passes through the rotation axis and rotates the connection upper shell plate, the axis coincidence of rotation axis and cylinder groove, rotatory baffle's length is slightly less than the diameter of cylinder groove.

2. The novel foldable notebook computer radiator of claim 1, wherein: the lateral surface of one end of the middle connecting shell of the two shells, which is far away from each other, is provided with a limiting bulge, and the rotating shafts on the two supporting arms on each shell are respectively arranged on two sides of the limiting bulge.

3. The novel foldable notebook computer radiator of claim 1, wherein: two fixing openings are arranged on the upper shell plate and the lower shell plate at intervals, the fixing openings on the upper shell plate and the lower shell plate are opposite to each other, each fixing opening is opposite to a through hole on a supporting end of a supporting arm when the supporting end is rotated and accommodated until the supporting end contacts with the middle connecting shell, and the fixing opening on the lower shell plate is a through opening; the end part of one end of the lower supporting block, which is far away from the upper supporting block, is made of magnetic materials, and the magnetic materials of the lower supporting blocks of which the two shells are positioned on the same side are different.

4. The novel foldable notebook computer radiator of claim 3, wherein: and anti-slip protrusions are arranged at intervals at one end part of each of the upper supporting block and the lower supporting block, wherein the end part is made of magnetic materials.

5. The novel foldable notebook computer radiator of claim 4, wherein: the height of the lower supporting block protruding out of the bottom surface of the lower shell plate is equal to the height of the anti-slip protrusion; the anti-slip protrusions of the lower supporting blocks on the same side of the two shells are arranged in a staggered mode, and the anti-slip protrusions on the two lower supporting blocks are inserted in a staggered mode when the two lower supporting blocks penetrate through the fixing openings and are in contact with each other.

6. The novel foldable notebook computer radiator of claim 1, wherein: and one end part of the upper supporting block extending out of the through hole is flush with the top surface of the upper shell plate.

7. The novel foldable notebook computer radiator of claim 6, wherein: the upper supporting block is of a telescopic structure.

8. The novel foldable notebook computer radiator of claim 1, wherein: the holding tank has been seted up to the bottom surface of lower shell board, the holding tank holding has dialled the board, dial board one end rotation connection lower shell board, the axis of rotation is parallel the bottom surface of lower shell board, the other end is the free end, the free end is through dialling the relative rotation of lower shell board of board and rotate out the holding tank or the holding in the holding tank.