CN113672054A

CN113672054A - Single chip microcomputer signal processor

Info

Publication number: CN113672054A
Application number: CN202110971132.9A
Authority: CN
Inventors: 陈云; 黄晟; 陆杨; 夏鑫航
Original assignee: Jiangsu Xinan Integrated Circuit Design Co ltd
Current assignee: Jiangsu Xinan Integrated Circuit Design Co ltd
Priority date: 2021-08-23
Filing date: 2021-08-23
Publication date: 2021-11-19
Anticipated expiration: 2041-08-23
Also published as: CN113672054B

Abstract

The invention discloses a single chip microcomputer signal processor, which comprises a processing box body, wherein a processing cavity is arranged in the processing box body, a heat dissipation mechanism is arranged in the processing cavity, a power supply for supplying power to a single chip microcomputer is connected with the heat dissipation mechanism in parallel, a planetary gear structure is utilized to enable fan blades to generate enough wind current to blow to the single chip microcomputer processor, and an automatically adjustable baffle plate is utilized to enable the wind current to keep a stable state, so that the single chip microcomputer is effectively dissipated when the single chip microcomputer works, the performance of the single chip microcomputer for processing signals is ensured to be maintained at high efficiency, the size of the wind current is also induced by an induction plate, when the wind current is too large, a resistance is increased by a sliding rheostat, so that the power supply of the single chip microcomputer is reduced, otherwise, if the voltage is too small, the voltage of the power supply of the single chip microcomputer is ensured to be always in a stable state, and the single chip microcomputer processor is prevented from being halted or damaged due to overlarge voltage fluctuation, the property safety of the user is protected.

Description

Single chip microcomputer signal processor

Technical Field

The invention relates to the technical field of single-chip microcomputers, in particular to a single-chip microcomputer signal processor.

Background

The single chip microcomputer is also called a single chip microcontroller, and is not a chip for completing a certain logic function, but a computer system is integrated on one chip. Utilize the singlechip to handle the signal of input to carry out operation to the system and handle, however the singlechip is when carrying out signal processing, because the treater is in high frequency operation, can produce a large amount of heats, leads to the performance degradation of singlechip processing signal, because the mains voltage who supplies power for the singlechip has volatility moreover, if boost suddenly or step down, very likely leads to singlechip treater to die or damage.

Disclosure of Invention

The invention aims to provide a single-chip microcomputer signal processor which is used for overcoming the defects in the prior art.

The invention relates to a single chip microcomputer signal processor, which comprises a processing box body, wherein a processing cavity is arranged in the processing box body, a heat dissipation mechanism is arranged in the processing cavity, the heat dissipation mechanism comprises a main power supply fixedly connected to the inner wall of the processing cavity, a single chip microcomputer processor is arranged on the main power supply, a lead is fixedly connected to the lower side of the main power supply, a sub power supply positioned on the left side of the single chip microcomputer processor is fixedly connected to the inner wall of the processing cavity, the main power supply can provide power for the sub power supply through the lead, a driving shaft is in power connection with the sub power supply, a planetary box is in rotating connection with the driving shaft, a planetary cavity with an opening facing to the right is arranged in the planetary box, a planetary frame fixedly connected to the planetary box is arranged at the opening of the planetary cavity, an annular chute is arranged on the planetary frame, and a driven shaft which is vertically symmetrical relative to the driving shaft is slidably connected in the annular chute, the driven shaft which is symmetrical up and down is connected on the inner wall of the planet cavity in a sliding way, the driving shaft is provided with a driving gear, the driven shaft is provided with a driven gear which is meshed with the driving gear, the inner wall of the planet cavity is fixedly connected with an annular rack which is meshed with the driven gear, the driven shaft and the driving shaft are both provided with fan blades which are positioned on the right side of the planet carrier, the processing box body is provided with a vent, the main power supply can be used for supplying power to the single chip processor and the secondary power supply, the secondary power supply can drive the driving shaft to rotate so as to drive the driving gear to rotate, the driven gear can be driven to rotate by itself while rotating by taking the driving gear as the circle center through the transmission principle of the planet gear, so that the driven shaft is driven to rotate by itself while rotating by taking the driving shaft as the circle center, therefore, the fan blades can rotate to generate rightward wind force, the wind force blows towards the single chip microcomputer processor, the single chip microcomputer processor can be cooled, and a stabilizing mechanism is further arranged in the processing cavity and can guarantee stable operation of the single chip microcomputer processor.

Preferably, stabilizing mean includes fixed connection and is in backup pad on the treatment chamber inner wall, be equipped with in the backup pad and be located the sliding tray on total power right side, sliding connection has the connecting rod on the sliding tray, be equipped with on the connecting rod and be located singlechip treater right side and with treatment chamber inner wall sliding connection's tablet.

Preferably, the connecting rod downside is equipped with fixed connection and is in on the treatment chamber inner wall and bilateral symmetry's support frame, the symmetry fixedly connected with slip varistor circle between the support frame, be equipped with on the support frame and be located the conducting rod of slip varistor circle upside, be equipped with first connector lug on the conducting rod, be equipped with the second connector lug on the support frame, sliding connection on the conducting rod with connecting rod fixed connection's sliding block, sliding block sliding connection is in on the slip varistor circle, first connector lug left side is equipped with fixed connection and is in first connecting wire on the main power supply, second connector lug left side is equipped with fixed connection and is in second connecting wire on the main power supply, this mechanism can be right the main power supply with divide the power supply to step down, guarantee divide the power supply with the voltage stability of main power supply.

Preferably, the sensing plate right side is equipped with fixed connection and is in buffer spring on the processing chamber inner wall, utilizes buffer spring can make when the wind-force that the flabellum produced diminishes induction plate resets, thereby makes the sliding block resets, promptly the resistance size of slip varistor circle restores to the original state.

Preferably, be equipped with on the driving shaft and be located the left elliptic cam of planet case, both sides sliding connection has first baffle around the elliptic cam, first baffle sliding connection be in on the treatment chamber inner wall and about symmetry around the driving shaft, keep away from on the first baffle the driving shaft direction is equipped with fixed connection and is in reset spring on the treatment chamber inner wall utilizes the symmetry the wind current dispersion of both sides around first baffle can prevent for the wind current blows to all the time the tablet.

Preferably, the upper side and the lower side of the elliptic cam are slidably connected with second baffles which are vertically symmetrical relative to the driving shaft, an expansion cavity is arranged in the second baffle plate, expansion plates which are symmetrical in the front and the back of the driving shaft are connected in the expansion cavity in a sliding manner, the expansion plates are connected on the first baffle plate in a sliding manner, connecting springs are fixedly connected between the symmetrical expansion plates, return springs fixedly connected to the inner wall of the treatment cavity are arranged in the direction of the symmetrical second baffle far away from the driving shaft, a vacant slot is arranged on the second baffle plate, the main power supply and the support plate are positioned in the vacant slot and are in sliding connection with the second baffle plate, the mechanism can ensure that the air flow generated by the fan blades can blow to the single chip processor and the induction plate to the maximum extent, ensure the stability of the air flow and prevent the air flow from leaking.

The invention has the beneficial effects that: the invention uses the power supply which supplies power to the singlechip and is connected with a heat dissipation mechanism in parallel, uses the planetary gear structure to enable the fan blades to generate enough wind current to blow to the singlechip processor, and uses the baffle which can be automatically adjusted to enable the wind current to keep a stable state, therefore, when the singlechip works, the singlechip is effectively radiated, the performance of processing signals of the singlechip is ensured to be maintained at high efficiency, and moreover, the invention also utilizes the induction plate to induce the size of the wind flow, when the wind flow is too large (namely, when the power supply voltage is too large), the resistance is increased by using the slide rheostat, so that the power supply of the singlechip is reduced in voltage, otherwise, if the voltage is too small, the voltage can be increased, therefore, the power supply voltage of the single chip microcomputer is always in a stable state, the phenomenon that the single chip microcomputer processor is halted or damaged due to overlarge voltage fluctuation is prevented, and property safety of a user is protected.

Drawings

FIG. 1 is a schematic external view of the present invention;

FIG. 2 is a schematic diagram of the overall structure of a single-chip signal processor according to the present invention;

FIG. 3 is a schematic view of A-A of FIG. 2 in accordance with the present invention;

FIG. 4 is a schematic view of B-B of FIG. 2 according to the present invention;

FIG. 5 is a schematic view of C-C of FIG. 2 in accordance with the present invention;

in the figure:

11. a treatment box body; 12. a treatment chamber; 13. a main power supply; 14. a single chip processor; 15. a wire; 16. a power distribution source; 17. a drive shaft; 18. a planetary case; 19. a planetary chamber; 47. a planet carrier; 48. an annular chute; 21. a driven shaft; 20. a driving gear; 22. a driven gear; 23. an annular rack; 24. a fan blade; 34. a support plate; 36. a sliding groove; 37. a connecting rod; 35. an induction plate; 39. a support frame; 40. sliding the varistor ring; 41. a conductive rod; 44. a first connector lug; 43. a second connector lug; 42. a slider; 46. a first connecting line; 45. a second connecting line; 38. a buffer spring; 25. an elliptical cam; 27. a first baffle plate; 28. a return spring; 26. a second baffle; 29. an expansion chamber; 30. an expansion board; 31. a connecting spring; 32. a return spring; 33. an empty slot; 49. a vent; 901. a heat dissipation mechanism; 902. a stabilizing mechanism.

Detailed Description

For purposes of making the objects and advantages of the present invention more apparent, the following detailed description of the invention, taken in conjunction with the examples, should be understood that the following text is only intended to describe one or more specific embodiments of the invention, and not to strictly limit the scope of the invention as specifically claimed, and as used herein, the terms up, down, left, and right are not limited to strict geometric definitions thereof, but include tolerances for reasonable and inconsistent machining or human error, the following detailed description of which is set forth in detail:

referring to the drawings, the single chip microcomputer signal processor according to the embodiment of the present invention includes a processing box 11, a processing chamber 12 is disposed in the processing box 11, a heat dissipation mechanism 901 is disposed in the processing chamber 12, the heat dissipation mechanism 901 includes a main power supply 13 fixedly connected to an inner wall of the processing chamber 12, a single chip microcomputer processor 14 is disposed on the main power supply 13, a conducting wire 15 is fixedly connected to a lower side of the main power supply 13, a sub-power supply 16 positioned on a left side of the single chip microcomputer processor 14 is fixedly connected to an inner wall of the processing chamber 12, the main power supply 13 can provide power for the sub-power supply 16 through the conducting wire 15, a driving shaft 17 is dynamically connected to the sub-power supply 16, a planetary box 18 is rotatably connected to the driving shaft 17, a planetary chamber 19 with a right opening is disposed in the planetary box 18, a planetary carrier 47 fixedly connected to the planetary box 18 is disposed at an opening of the planetary chamber 19, the planet carrier 47 is provided with an annular sliding groove 48, the annular sliding groove 48 is internally and slidably connected with a driven shaft 21 which is symmetrical up and down relative to the driving shaft 17, the driven shaft 21 which is symmetrical up and down is slidably connected with the inner wall of the planet cavity 19, the driving shaft 17 is provided with a driving gear 20, the driven shaft 21 is provided with a driven gear 22 which is meshed with the driving gear 20, the inner wall of the planet cavity 19 is fixedly connected with an annular rack 23 which is meshed with the driven gear 22, the driven shaft 21 and the driving shaft 17 are both provided with fan blades 24 which are positioned at the right side of the planet carrier 47, the processing box body 11 is provided with a vent 49, the main power supply 13 can be used for supplying power to the singlechip processor 14 and the sub-power supply 16, the sub-power supply 16 can drive the driving shaft 17 to rotate, so as to drive the driving gear 20 to rotate, through the planetary gear transmission principle, can drive driven gear 22 with self rotation when driving gear 20 is centre of a circle pivoted, thereby drive driven shaft 21 with self rotation when driving shaft 17 is centre of a circle pivoted, thereby utilize the pivoted flabellum 24 produces wind-force to the right, and wind-force blows to singlechip treater 14, can be right singlechip treater 14 dispels the heat, still be equipped with stabilizing mean 902 in the treatment chamber 12, through stabilizing mean 902 can guarantee singlechip treater 14 steady operation.

Beneficially, stabilizing mean 902 includes fixed connection and is in backup pad 34 on the inner wall of treatment chamber 12, be equipped with in backup pad 34 and be located sliding tray 36 on total power supply 13 right side, sliding tray 36 goes up sliding connection has connecting rod 37, be equipped with on connecting rod 37 be located singlechip processor 14 right side and with treatment chamber 12 inner wall sliding connection's tablet 35, through the wind-force that flabellum 24 produced is right singlechip processor 14 dispels the heat the back, can blow to tablet 35, thus will tablet 35 blows to the right side, just the branch power supply 16 voltage is bigger, through the wind-force that flabellum 24 produced is just bigger, tablet 35 is longer to the distance that the right side moved.

Beneficially, the lower side of the connecting rod 37 is provided with support frames 39 which are fixedly connected to the inner wall of the processing chamber 12 and are bilaterally symmetrical, sliding variable resistance rings 40 are fixedly connected between the support frames 39 which are symmetrical, the support frame 39 is provided with a conductive rod 41 which is positioned on the upper side of the sliding variable resistance ring 40, the conductive rod 41 is provided with a first connector lug 44, the support frame 39 is provided with a second connector lug 43, the conductive rod 41 is slidably connected with a sliding block 42 which is fixedly connected with the connecting rod 37, the sliding block 42 is slidably connected with the sliding variable resistance rings 40, the left side of the first connector lug 44 is provided with a first connecting wire 46 which is fixedly connected with the main power supply 13, the left side of the second connector lug 43 is provided with a second connecting wire 45 which is fixedly connected with the main power supply 13, when the induction plate 35 slides to the right side, the connecting rod 37 can be driven to slide to the right side, therefore, the sliding block 42 is driven to slide to the right, the larger the sliding distance of the induction plate 35 to the right is, the larger the sliding distance of the sliding block 42 to the right on the sliding variable resistance ring 40 is, the larger the effective resistance part of the sliding variable resistance ring 40 is, that is, the larger the resistance of the sliding variable resistance ring 40 is, so that the voltage of the main power supply 13 and the sub power supply 16 is reduced by increasing the resistance of the sliding variable resistance ring 40, and the voltage stability of the sub power supply 16 and the main power supply 13 is ensured.

Advantageously, a buffer spring 38 fixedly connected to the inner wall of the processing chamber 12 is disposed at the right side of the induction plate 35, and the buffer spring 38 can be used to reset the induction plate 35 when the wind force generated by the fan blades 24 is reduced, so as to reset the sliding block 42, i.e. restore the resistance of the sliding varistor ring 40.

Beneficially, the driving shaft 17 is provided with an elliptical cam 25 located on the left side of the planetary box 18, the front side and the rear side of the elliptical cam 25 are slidably connected with first baffles 27, the first baffles 27 are slidably connected on the inner wall of the treatment chamber 12 and are symmetrical with respect to the front side and the rear side of the driving shaft 17, a return spring 28 fixedly connected on the inner wall of the treatment chamber 12 is arranged on the first baffles 27 in the direction away from the driving shaft 17, and the symmetrical first baffles 27 can prevent wind flow from dispersing on the front side and the rear side, so that the wind flow always blows to the induction plate 35.

Beneficially, the upper and lower sides of the elliptical cam 25 are slidably connected to second baffles 26 which are vertically symmetrical with respect to the driving shaft 17, an expansion cavity 29 is arranged in the second baffles 26, expansion plates 30 which are symmetrical with respect to the driving shaft 17 are slidably connected in the expansion cavity 29, the expansion plates 30 are slidably connected to the first baffles 27, connecting springs 31 are fixedly connected between the symmetrical expansion plates 30, return springs 32 which are fixedly connected to the inner wall of the treatment cavity 12 are arranged in the direction of the second baffles 26 away from the driving shaft 17, a vacant slot 33 is arranged on the second baffles 26, the main power supply 13 and the support plate 34 are positioned in the vacant slot 33 and slidably connected with the second baffles 26, when the driving shaft 17 rotates, the elliptical cam 25 is driven to rotate, and the long end of the elliptical cam 25 is always on the same plane with a straight line formed by the symmetrical driven shaft 21, that is, when the fan blades 24 are vertically arranged, the expansion plate 30 is compressed into the expansion cavity 29, the symmetrical connection springs 31 are in a state of being away from each other, the symmetrical first baffles 27 are in a state of being close to each other, when the fan blades 24 are horizontally arranged, the symmetrical first baffles 27 are away from each other, the symmetrical second baffles 26 are in a state of being closest to each other, and the expansion plate 30 slides to the outer side of the expansion cavity 29, that is, the area formed by the first baffles 27 and the second baffles 26 is always unchanged, so that the wind flow generated by the fan blades 24 can be blown to the single chip processor 14 and the induction plate 35 to the maximum extent, the stability of the wind flow is ensured, and the wind flow is prevented from leaking.

The invention relates to a singlechip signal processor, which comprises the following working procedures:

the main power supply 13 can be used for supplying power to the singlechip processor 14 and the sub-power supply 16, namely, the main power supply 13 can drive the singlechip processor 14 to process data, meanwhile, the sub-power supply 16 can drive the driving shaft 17 to rotate, so as to drive the driving gear 20 to rotate, through the planetary gear transmission principle, the driven gear 22 can be driven to rotate by itself while rotating around the driving shaft 20, so as to drive the driven shaft 21 to rotate by itself while rotating around the driving shaft 17, so that the rotating fan blades 24 can be used for generating rightward wind power, the wind power blows to the singlechip processor 14, so as to dissipate heat of the singlechip processor 14, and simultaneously, the wind power generated by the fan blades 24 can blow to the induction plate 35 after dissipating heat of the singlechip processor 14, so as to blow the induction plate 35 to the right side, and the larger the voltage of the sub-power supply 16, the larger the wind power generated by the fan blades 24, the longer the distance that the induction plate 35 moves to the right side is, when the induction plate 35 slides to the right side, the connecting rod 37 can be driven to slide to the right side, so as to drive the sliding block 42 to slide to the right side, the larger the sliding distance of the induction plate 35 to the right side is, the larger the sliding distance of the sliding block 42 on the sliding resistance-changing ring 40 to the right side is, the larger the effective resistance part of the sliding resistance-changing ring 40 is, namely, the larger the resistance of the sliding resistance-changing ring 40 is, so that the voltage of the main power supply 13 and the sub power supply 16 is reduced by increasing the resistance of the sliding resistance-changing ring 40, the voltage stability of the sub power supply 16 and the main power supply 13 is ensured, the induction plate 35 can be reset when the wind power generated by the fan blades 24 is reduced by using the buffer spring 38, so that the sliding block 42 is reset, namely, the resistance of the sliding resistance-changing ring 40 is reset;

when the driving shaft 17 rotates, the elliptical cam 25 can be driven to rotate, the long end of the elliptical cam 25 is always on the same plane with a straight line formed by the symmetrical driven shafts 21, namely, when the fan blades 24 are vertically arranged, the expansion plate 30 is compressed into the expansion cavity 29, the symmetrical connecting springs 31 are in a state of being away from each other, the symmetrical first baffle plates 27 are in a state of being close to each other, when the fan blades 24 are horizontally arranged, the symmetrical first baffle plates 27 are away from each other, the symmetrical second baffle plates 26 are in a state of being closest to each other, and the expansion plate 30 slides to the outer side of the expansion cavity 29, namely, the area formed by the first baffle plates 27 and the second baffle plates 26 is always unchanged, so that the air flow generated by the fan blades 24 can be blown to the single chip processor 14 and the induction plate 35 to the maximum extent, the stability of the air flow is ensured, and the air flow is prevented from leaking.

It will be apparent to those skilled in the art that various modifications may be made to the above embodiments without departing from the general spirit and concept of the invention. All falling within the scope of protection of the present invention. The protection scheme of the invention is subject to the appended claims.

Claims

1. The utility model provides a singlechip signal processor, is including handling the box, it is equipped with the processing chamber in the box to handle, its characterized in that: the treatment cavity is internally provided with a heat dissipation mechanism, the heat dissipation mechanism comprises a main power supply fixedly connected to the inner wall of the treatment cavity, the main power supply is provided with a single chip microcomputer processor, the lower side of the main power supply is fixedly connected with a lead, the inner wall of the treatment cavity is fixedly connected with a power distribution source positioned on the left side of the single chip microcomputer processor, the main power supply can provide electric power for the power distribution source through the lead, the power distribution source is in power connection with a driving shaft, the driving shaft is in rotating connection with a planetary box, a planetary cavity with an opening towards the right is arranged in the planetary box, the opening of the planetary cavity is provided with a planetary frame fixedly connected to the planetary box, the planetary frame is provided with an annular chute, the annular chute is in sliding connection with a driven shaft which is vertically symmetrical relative to the driving shaft, and the vertically symmetrical driven shaft is in sliding connection with the inner wall of the planetary cavity, the improved planetary gear box is characterized in that a driving gear is arranged on the driving shaft, a driven gear meshed with the driving gear is arranged on the driven shaft, a ventilation opening is formed in the processing box body, an annular rack meshed with the driven gear is fixedly connected to the inner wall of the planetary cavity, fan blades located on the right side of the planetary carrier are arranged on the driven shaft and the driving shaft, and a stabilizing mechanism is further arranged in the processing cavity.

2. The single-chip signal processor of claim 1, wherein: stabilizing mean include fixed connection in backup pad on the treatment chamber inner wall, be equipped with in the backup pad and be located the sliding tray on total power right side, sliding connection has the connecting rod on the sliding tray, be equipped with on the connecting rod and be located singlechip treater right side and with treatment chamber inner wall sliding connection's tablet.

3. The single-chip signal processor of claim 2, wherein: the connecting rod downside is equipped with fixed connection and is in on the treatment chamber inner wall and bilateral symmetry's support frame, the symmetry fixedly connected with slip varistor circle between the support frame, be equipped with on the support frame and be located the conducting rod of slip varistor circle upside, be equipped with first connector lug on the conducting rod, be equipped with the second connector lug on the support frame, sliding connection on the conducting rod have with connecting rod fixed connection's sliding block, sliding block sliding connection be in on the slip varistor circle, first connector lug left side is equipped with fixed connection and is in first connecting wire on the mains, second connector lug left side is equipped with fixed connection and is in second connecting wire on the mains.

4. The single-chip signal processor of claim 3, wherein: and a buffer spring fixedly connected to the inner wall of the treatment cavity is arranged on the right side of the induction plate.

5. The single-chip signal processor of claim 1, wherein: the driving shaft is provided with an elliptical cam positioned on the left side of the planetary box, the front side and the rear side of the elliptical cam are connected with first baffles in a sliding mode, the first baffles are connected to the inner wall of the treatment cavity in a sliding mode and are symmetrical around the driving shaft, and the first baffles are far away from the driving shaft and are fixedly connected to reset springs on the inner wall of the treatment cavity in the direction of the driving shaft.

6. The single-chip signal processor of claim 5, wherein: the elliptical cam upper and lower both sides sliding connection have about the second baffle of driving shaft longitudinal symmetry, be equipped with the extension chamber in the second baffle, sliding connection has about in the extension chamber the expansion board of driving shaft front and back symmetry, the expansion board sliding connection be in on the first baffle, the symmetry fixedly connected with connecting spring between the expansion board, the symmetry the second baffle is kept away from the driving shaft direction is equipped with fixed connection and is in return spring on the treatment chamber inner wall, be equipped with the vacancy groove on the second baffle, total power with the backup pad is located in the vacancy groove and with second baffle sliding connection.