Computer case with intelligence cooling function
Technical Field
The invention belongs to the technical field of intelligent computer structures, and particularly relates to a computer mainframe box with an intelligent cooling function.
Background
Computer mainframe box cooling function mainly realizes through fan, air intake and air outlet these three, wherein the current structure of air intake and air outlet is netted or grid form appearance, therefore its effective draught area is fixed unchangeable, when needing to improve heat dissipation cooling intensity, this air volume just seems to be not enough, can only increase the fan rotational speed, this has just caused the problem of energy consumption increase, noise increase, so the urgent need for an intelligent heat radiation structure of business turn over air volume adjustable in market, realize the intelligent cooling function of mainframe box.
The patent publication number is CN 210052103U, the china utility model patent that the announcement day is 2020.02.11 discloses a computer machine case with cooling mechanism, including semi-closed box and through the side cap board of mounting at the box open end of screw, the lateral surface slope of mounting bracket has laid the radiating fin that is parallel to each other, the side cap board is close to the position of bottom and installs the first fan mechanism with the inside intercommunication of box, the blast air of first fan mechanism is to the inside towards the box, the box is installed two second fan mechanisms with the inside intercommunication of box with the opposite side symmetry that first fan mechanism is relative, the wind direction of second fan mechanism is towards the outside of box, a first fan mechanism forms the heat dissipation route with two second fan mechanisms in the inside of box.
But the cooling mechanism in the utility model has the problem that the operation degree of difficulty is big.
Disclosure of Invention
The invention aims to provide a computer case with an intelligent cooling function, which can achieve the effect of intelligently adjusting the air inlet and outlet quantity in a mode of arranging an air inlet and outlet, a perforated plate, an installation column unit, a jacking clamping block unit, an internal thread ring unit and a slotted block unit on a case body. The rotary opening and closing structure of the perforated plate is stable and effective, the rotary structure is high in stability, moderate in disassembly and maintenance difficulty, simple and labor-saving in rotation of the perforated plate, high in stability in fixing, flexible and adjustable in air intake for air cooling, intelligent and efficient.
The technical scheme adopted by the invention for solving the problems is as follows: the utility model provides a computer case with intelligence cooling function, includes the box, still including setting up be used for providing the business turn over wind gap that link up the wind channel for cooling fan on the panel around the box, set up trompil board on the business turn over wind gap, erection column unit cup joints the setting respectively both ends position department about the erection column unit is used for two jack-up block units of the fixed box board of block installation, and the spiro union setting is in both ends position department is used for promoting about the erection column unit the internal thread ring body unit of jack-up block unit, and set up on the trompil board and with internal thread ring body unit peg graft and be used for carrying out the fixed fluting block unit of side when the trompil board revolves to open.
The further preferred technical scheme is as follows: the shape of business turn over wind gap is the rectangle, whole rectangle trompil board is being close to the both ends position department of erection column unit one side is equipped with and is used for jack-up block unit with the rectangle notch in space is left to the internal thread ring body unit.
The further preferred technical scheme is as follows: the mounting column unit comprises a cylinder, two pairs of protruding plates and cylinder threads, wherein the two pairs of protruding plates are respectively arranged on the upper end surface and the lower end surface of the cylinder, the transverse sections of the protruding plates are in a sector ring shape, and the cylinder threads are arranged on the outer ring surfaces of the cylinder and the protruding plates; the jacking clamping block unit comprises a cylindrical block, a radial groove and a fan-shaped annular groove, wherein the radial groove is formed in the upper end face of the cylindrical block and used for inserting and clamping the box body plates, and the fan-shaped annular groove is formed in the lower end face of the cylindrical block and used for inserting the paired protruding plates.
The further preferred technical scheme is as follows: the height of the inner top surface of the fan-shaped annular groove is higher than that of the inner bottom surface of the radial groove, the two fan-shaped annular grooves are symmetrical relative to the radial groove, and the inner bottom surface of the radial groove is provided with an elastic strip for supporting the box body plate.
The further preferred technical scheme is as follows: the internal thread ring body unit comprises a ring body arranged on the cylinder thread in a threaded manner, an elastic ring arranged on the annular upper surface of the ring body, an axial cavity channel which is formed in a penetrating manner on the ring body and the elastic ring, and a fixed cylinder which is arranged on the axial cavity channel and is used for installing and fixing the slotted block body unit after being downwards protruded through a downward pushing manner of the cylindrical block.
The further preferred technical scheme is as follows: the internal thread ring unit further comprises an axial middle groove and an elastic rope, the axial middle groove is formed upwards from the lower end face of the fixed cylinder, and the two ends of the elastic rope are respectively arranged on the inner ring face of the axial cavity and clamped on the axial middle groove and are pulled up through elasticity so as to be used for upwards withdrawing the lower end face of the fixed cylinder.
The further preferred technical scheme is as follows: fluting block unit is including pegging graft the setting and being in insert the post on the mesh of trompil board, set up insert the post outside and serve and the shape is columniform elasticity enlarged block, set up trompil board side with installation block between the cylinder sets up trompil inboard and be used for connecting insert the post with the connecting block of installation block is followed installation block upper surface is seted up downwards and is passed through fixed cylinder insertion mode is in order to be used for forming the circular fluting of the hinge structure of the rotatory opening and shutting action of trompil board, and set up circular fluting is last and be used for when the trompil board need take off for fixed cylinder provides the frid passageway in roll-off space.
The further preferred technical scheme is as follows: two circular edges of the elastic amplifying block are chamfered edges, and the width of the groove edge channel is smaller than the diameter of the fixed cylinder.
The further preferred technical scheme is as follows: fluting block unit still includes that one end bonds and sets up on the installation block lateral surface to insert through the crooked back of the other end of activity the trompil board with the mode in space between the installation block is in order to be used for the jack-up to promote the flexure strip of trompil board, keep away from on the trompil board it is equipped with vertical elasticity strip to bond on the side of fluting block unit.
The further preferred technical scheme is as follows: the slotted block unit is made of rubber.
According to the invention, the air inlet and outlet, the perforated plate, the mounting column unit, the jacking clamping block unit, the internal thread ring unit and the slotted block unit are arranged on the box body, so that the effect of intelligently adjusting the air inlet and outlet is achieved. The rotary opening and closing structure of the perforated plate is stable and effective, the rotary structure is high in stability, moderate in disassembly and maintenance difficulty, simple and labor-saving in rotation of the perforated plate, high in stability in fixing, flexible and adjustable in air intake for air cooling, intelligent and efficient.
Drawings
Fig. 1 is a schematic view of the position structure of the opening plate in a top view.
Fig. 2 is a schematic diagram of a position structure of a chassis with heat dissipation holes in the prior art.
Fig. 3 is a schematic position diagram of the mounting post unit, the internal thread ring unit and the slotted block unit according to the present invention.
Fig. 4 is a schematic view of the position structure of the lift-up engaging block unit according to the present invention.
Fig. 5 is a schematic view of the position structure of the fixing column according to the present invention.
Fig. 6 is a schematic view of the manner of use of the elastic cord of the present invention.
Fig. 7 is a schematic view of the manner of use of the grooved block unit of the present invention.
Detailed Description
The following description is only a preferred embodiment of the present invention and is not intended to limit the scope of the present invention.
Example (b): as shown in fig. 1, 2, 3, 4, 5, 6 and fig. 7, a computer mainframe box with intelligent cooling function comprises a box body 11, and further comprises an air inlet and outlet 1 arranged on the front and rear panels of the box body 11 and used for providing a through air channel for a cooling fan 12, a perforated plate 2 arranged on the air inlet and outlet 1, a mounting column unit 3, two jacking clamping block units 4 arranged at the upper and lower ends of the mounting column unit 3 and used for clamping and fixing the box body plate, and an internal thread ring unit 5 arranged at the upper and lower ends of the mounting column unit 3 and used for pushing the jacking clamping block unit 4, and a slotted block unit 6 arranged on the perforated plate 2 and spliced with the internal thread ring unit 5 and used for fixing the side edge of the perforated plate 2 when the perforated plate 2 is opened and closed in a rotating mode.
In this embodiment, if computer working strength is general, when moderate to the heat dissipation capacity demand of forced air cooling, trompil board 2 with business turn over wind gap 1 is closed to relatively less business turn over wind volume, two guarantee that the heat dissipation cooling goes on, and still have sufficient dustproof guard effect, and when the computer needs great heat dissipation cooling intensity, trompil board 2 just needs the rotatory opening of temporary, resistance when increasing business turn over wind, finally improves heat dissipation cooling intensity, consequently erection column unit 3, jack-up block unit 4, internal thread ring body unit 5 and fluting block unit 6 constitute a articulated assembly together, make things convenient for trompil board 2 is rotatory, rotatory fixing before and after to and take off the change, finally realize the structure intellectuality of whole ventilation cooling function.
The shape of business turn over wind gap 1 is the rectangle, whole rectangle trompil board 2 is being close to the both ends position department of erection column unit 3 one side is equipped with and is used for jack-up block unit 4 with the rectangle notch in through space is reserved to internal thread ring body unit 5.
In this embodiment, the rectangular notches on the upper and lower sides of the perforated plate 2 are matched with the jacking clamping block unit 4 and the internal thread ring unit 5, so that the air inlet and outlet 1 can be completely covered relatively, and the basic dustproof protection effect is ensured.
The mounting column unit 3 comprises a cylinder 301, two pairs of protruding plates 302 which are respectively arranged on the upper end surface and the lower end surface of the cylinder 301 and have sector-ring-shaped transverse sections, and cylinder threads arranged on the outer ring surfaces of the cylinder 301 and the protruding plates 302; the lift-up engaging block unit 4 includes a cylindrical block 401, a radial groove 402 provided on an upper end surface of the cylindrical block 401 for insertion engagement of the box body panels, and a fan-shaped annular groove 403 provided on a lower end surface of the cylindrical block 401 for insertion of the pair of protruding plates 302. The height of the inner top surface of the fan-shaped annular slot 403 is higher than that of the inner bottom surface of the radial slot 402, the two fan-shaped annular slots 403 are symmetrical about the radial slot 402, and the inner bottom surface of the radial slot 402 is provided with an elastic strip 404 for supporting the box body plate. The internal thread ring body unit 5 comprises a ring body 501 which is arranged on the cylinder thread in a threaded manner, an elastic ring 502 which is arranged on the annular upper surface of the ring body 501, an axial cavity 503 which is formed on the ring body 501 and the elastic ring 502 in a penetrating manner, and a fixed cylinder 504 which is arranged on the axial cavity 503 and used for installing and fixing the slotted block body unit 6 after being downwards protruded in a pushing manner through the cylinder block 401. The internal thread ring unit 5 further includes an axial middle groove 505 that is opened upward from the lower end surface of the fixed cylinder 504, and an elastic cord 506 that has two ends respectively disposed on the inner annular surface of the axial cavity 503 and is clamped on the axial middle groove 505 and is pulled up by an elastic force to retract the lower end surface of the fixed cylinder 504 upward.
In this embodiment, the mounting post unit 3 and the female screw ring unit 5 are used to provide a supporting force for the engagement and mounting operation of the lift-up engaging block unit 4, and the apertured plate 2 can be stably mounted, rotated and opened and closed only when the lift-up engaging block unit 4 is stably mounted.
Wherein, when protruding board 302 inserts completely fan ring shape fluting 403, cylinder 301 adds two the whole vertical length of cylinder piece 401 is less than the vertical width of business turn over wind gap 1, consequently can wholly stretch into in business turn over wind gap 1, then the tourus 501 respectively upwards, downwardly rotating, until radial fluting 402 with the box body board butt joint inserts, finally tourus 501 suitably screws up a bit again, so whole the hinge structure basis of trompil board 2 is just good, and this hinge structure basis has the dismouting degree of difficulty moderate, the installation back overall structure intensity is big, makes things convenient for trompil board 2 dismouting advantage of changing in a flexible way.
In addition, when the circular ring body 501 does not jack up the cylindrical block 401, the fixed column 504 is suspended by the elastic rope 506, and the lower end is not exposed, and at this time, the slotted block unit 6 is aligned below the fixed column 504 to be positioned, and then the hinging action can be completed.
On the other hand, if the fixing columns 504 are directly and fixedly arranged on the lower end surface of the torus 501, the slots for inserting the fixing columns 504 on the slotted block unit 6 are difficult to be simultaneously inserted into the two fixing columns 504.
Finally, while the two circular rings 501 are rotated and jacked, the vertical alignment of the respective fixed columns 504 needs to be ensured, so that a certain fine adjustment needs to be performed, and the elastic jacking strength can be ensured to be suitable and sufficient within a range by the elastic ring 502 in the process.
The slotted block unit 6 includes an insertion column 601 inserted into the mesh of the hole plate 2, an elastic amplification block 602 which is arranged at the outer end of the insertion column 601 and has a cylindrical shape, an installation block 603 which is arranged between the side surface of the hole plate 2 and the cylinder 301, a connection block 604 which is arranged at the inner side of the hole plate 2 and is used for connecting the insertion column 601 and the installation block 603, a circular slot 605 which is opened downwards from the upper surface of the installation block 603 and is used for forming a hinge structure for the rotary opening and closing action of the hole plate 2 through the insertion mode of the fixing column 504, and a slot edge channel 606 which is arranged on the circular slot 605 and is used for providing a sliding space for the fixing column 504 when the hole plate 2 needs to be taken down. The two circular edges of the elastic amplification block 602 are chamfered edges, and the width of the groove edge channel 606 is smaller than the diameter of the fixed cylinder 504. Fluting block unit 6 still includes that one end bonds and sets up on the installation block 603 lateral surface to insert through the other end bending back of activity trompil board 2 with the mode in space is in order to be used for the jack-up to promote between the installation block 603 the flexure strip 607 of trompil board 2, keep away from on the trompil board 2 it is equipped with vertical elasticity strip 7 to bond on the side of fluting block unit 6. The slotted block unit 6 is made of rubber.
In this embodiment, when the perforated plate 2 needs to be removed and replaced, or when the air inlet/outlet 1 needs to be opened for a long time to ensure maximum intensity heat dissipation and ventilation, the fixing column 504 needs to slide out from the slot edge channel 606, and when the fixing column 504 is butted with the circular slot 605 and inserted into the circular slot, the fixing column 504 does not need to pass through the slot edge channel 606, so that the telescopic fixing column 504 can ensure further installation convenience, and reduce the problem of jacking deformation at the slot edge channel 606.
Further, the elastic amplification block 602 is appropriately pressed by itself, and thus, the attachment/detachment operation with appropriate resistance and the engagement operation with sufficient fixing strength can be performed on the mesh of the perforated plate 2, and the inner diameter of the circular groove 605 is the same as the diameter of the fixing post 504, so that the stable hinge effect after the insertion can be secured.
Last be trompil board 2 accomplishes rotatory closed, parallel back with the quick-witted case board, insert after the flexure of elastic sheet 607 trompil board 2 with between the installation block 603, promptly the connecting block 604 is properly elongated trompil board 2 is accomplished by suitable horizontal jack-up trompil board 2 with the side clamping effect in business turn over wind gap 1 avoids the unexpected rotation of trompil board 2 is opened, and works as when trompil board 2 need be opened, elastic sheet 607 extracts earlier can, guarantees in order to adjust the intelligent and the stability of the overall structure of business turn over air output.
The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the above embodiments, and various modifications can be made within the knowledge of those skilled in the art without departing from the gist of the present invention. These are non-inventive modifications, which are intended to be protected by patent laws within the scope of the claims appended hereto.