CN214507707U - Dynamic capture equipment convenient to heat dissipation - Google Patents

Abstract

The utility model discloses a dynamic catching device convenient for heat dissipation, which comprises a dynamic catching device body and a mounting rack, wherein a heat dissipation mechanism is arranged in the mounting rack, the heat dissipation mechanism comprises a driving structure and a heat absorption structure, the driving structure is connected with a driven shaft, a blowing fan is arranged on the driven shaft, a partition plate is fixedly connected in the mounting rack, a ventilation groove is arranged on the partition plate, a heat dissipation hole is arranged at the top of the mounting rack, a plurality of groups of water cooling plates are fixedly connected between the heat dissipation hole and the partition plate, the heat absorption structure comprises a heat dissipation wing and a left rotating shaft, both sides of the mounting rack are fixedly connected with a protective frame, the left rotating shaft is rotatably connected with the protective frame, a heat dissipation wing annular array is fixedly connected on the left rotating shaft, one end of the left rotating shaft is fixedly connected with a left gear, a right gear is meshed with a transmission connection, a right gear is fixedly connected with a right rotating shaft, the right rotating shaft is fixedly connected with a driving plate. The utility model discloses can effectually distribute away the inside heat of mounting bracket.

Description

Dynamic capture equipment convenient to heat dissipation

Technical Field

The utility model relates to a dynamic capture technical field specifically is a dynamic capture equipment convenient to heat dissipation.

Background

The dynamic capture is that the dynamic capture equipment is arranged at the key position of a moving object, and the data of three-dimensional space coordinates are obtained after the data are processed by a computer, wherein the technology relates to size measurement, positioning of the object in a physical space, orientation measurement and the like.

Because the dynamic capture equipment requires high processing speed and high precision, the power consumption is high, heat accumulation is easily generated inside the dynamic capture equipment, and the heat cannot be timely and effectively discharged in the dynamic capture equipment, so that the service life of electronic elements inside the dynamic capture equipment is influenced or even burnt out due to overhigh temperature.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a dynamic capture equipment convenient to heat dissipation to solve the problem of proposing among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme:

a dynamic capturing device convenient for heat dissipation comprises a dynamic capturing device body and a mounting frame, wherein the dynamic capturing device body is arranged in the mounting frame, a heat dissipation mechanism is arranged in the mounting frame and comprises a driving structure and a heat absorption structure, the driving structure is connected with a driven shaft, a blowing fan is arranged on the driven shaft, a partition plate is fixedly connected in the mounting frame, a ventilation groove is formed in the partition plate, heat dissipation holes are formed in the top of the mounting frame, a plurality of groups of water cooling plates are fixedly connected between the heat dissipation holes and the partition plate, the heat absorption structure comprises heat dissipation fins and a left rotating shaft, both sides of the mounting frame are fixedly connected with a protection frame, the left rotating shaft is rotatably connected with the protection frame, an annular array of the heat dissipation fins is fixedly connected to the left rotating shaft, one end of the left rotating shaft is fixedly connected with a left gear, the left gear is connected with a right gear in a meshing transmission mode, the right gear is fixedly connected with a right rotating shaft, and a driving plate is fixedly connected to the right rotating shaft.

Further, right side pivot and mounting bracket rotate to be connected, drive plate circumference equipartition sets up in the pivot of right side, protection frame, heat dissipation wing, left pivot, right pivot and right gear all are provided with two sets ofly, and are located the both sides of water-cooling board respectively.

Further, the drive plate comprises a connecting plate, an arc-shaped transition plate and a bending plate, the connecting plate and the bending plate are respectively located at two ends of the arc-shaped transition plate, the connecting plate, the arc-shaped transition plate and the bending plate are integrally formed, and the connecting plate is fixedly connected with the right rotating shaft.

Furthermore, the exhaust vent has been seted up to the bottom of mounting bracket, the fresh air inlet has been seted up to the both sides of mounting bracket bottom, the inside bottom fixed mounting of mounting bracket is provided with the motor, the output fixed connection of motor is provided with the drive shaft.

Furthermore, the driving structure comprises a bevel gear A, a connecting shaft, a bevel gear B and a bevel gear C, the two ends of the connecting shaft are fixedly connected with the bevel gears B, the two groups of bevel gears B are respectively in meshing transmission connection with the bevel gear A and the bevel gear C, the driven shaft is in rotational connection with the mounting frame, the bevel gear C is fixedly connected with the driven shaft, and the bevel gear A is fixedly connected with the driving shaft.

Further, the bottom fixed connection of mounting bracket is provided with the backup pad, connecting axle and backup pad rotate to be connected, the fan of blowing is provided with two sets ofly, two sets of fixed connection on the driven shaft the orientation of fan of blowing is opposite.

Furthermore, the driven shaft, the connecting shaft and the supporting plate are provided with two groups and are symmetrical about the driving shaft.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model discloses when dispelling the heat to dynamic capture equipment body, drive structure drive driven shaft rotates, and the fan of blowing blows off the inside heat of mounting bracket through the louvre, and the fan of blowing simultaneously blows off the drive plate and rotates, and the drive plate drives the rotation of left pivot through right gear and left gear, and the left pivot drives the heat dissipation wing and rotates, and the heat dissipation wing rotates to the outside with its one end that is close to the mounting bracket inside, and the circulation is reciprocal, can effectually distribute away the inside heat of mounting bracket.

Drawings

Fig. 1 is a main sectional view of the present invention.

Fig. 2 is a sectional view taken along line a-a of fig. 1.

Fig. 3 is a schematic structural diagram of the middle driving plate of the present invention.

In the figure: 1. a dynamic capture device body; 2. a mounting frame; 3. heat dissipation holes; 4. a water-cooling plate; 5. a protective frame; 6. heat dissipation fins; 7. a left gear; 8. a left rotating shaft; 9. a right rotating shaft; 10. a right gear; 11. a drive plate; 1101. a connecting plate; 1102. an arc-shaped transition plate; 1103. a bending plate; 12. a partition plate; 13. a ventilation slot; 14. a motor; 15. a drive shaft; 16. a bevel gear A; 17. a support plate; 18. a connecting shaft; 19. a bevel gear B; 20. a driven shaft; 21. a bevel gear C; 22. a blower fan; 23. an air inlet hole; 24. and (4) an air outlet.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Example 1

Referring to fig. 1-2, in an embodiment of the present invention, a dynamic capture device convenient for heat dissipation includes a dynamic capture device body 1 and a mounting frame 2, the dynamic capture device body 1 is disposed in the mounting frame 2, a heat dissipation mechanism is disposed in the mounting frame 2, the heat dissipation mechanism includes a driving structure and a heat absorption structure, the driving structure is connected to a driven shaft 20, the driven shaft 20 is provided with a blowing fan 22, the driving structure drives the driven shaft 20 to rotate, the driven shaft 20 drives the blowing fan 22 to rotate to generate wind power, and the wind power has two purposes, namely firstly, the wind power drives the air in the mounting frame 2 to be discharged, the air containing higher heat is discharged, and the temperature in the mounting frame 2 can be reduced; secondly, the wind-driven heat absorption structure completes the exchange of the heat inside and outside the mounting frame 2, and accelerates the dissipation of the heat inside the mounting frame 2.

Referring to fig. 1-2, a partition plate 12 is fixedly connected and arranged in the mounting frame 2, a ventilation slot 13 is formed in the partition plate 12, heat dissipation holes 3 are formed in the top of the mounting frame 2, a plurality of groups of water cooling plates 4 are fixedly connected and arranged between the heat dissipation holes 3 and the partition plate 12, the heat absorption structure comprises heat dissipation fins 6 and a left rotating shaft 8, both sides of the mounting frame 2 are fixedly connected and arranged with a protection frame 5, the left rotating shaft 8 and the protection frame 5 are rotatably connected, the heat dissipation fins 6 are fixedly connected and arranged on the left rotating shaft 8 in an annular array manner, one end of the left rotating shaft 8 is fixedly connected and arranged with a left gear 7, the left gear 7 is engaged and connected and arranged with a right gear 10, the right gear 10 is fixedly connected and arranged with a right rotating shaft 9, the right rotating shaft 9 is fixedly connected and arranged with a driving plate 11, and air in the mounting frame 2 is blown by wind force, blow out the air through louvre 3, wind power blows drive plate 11 simultaneously, drive plate 11 rotates under the effect of wind power, drive plate 11 is through right pivot 9, right gear 10, left gear 7 and the rotation of 8 drive heat dissipation wings 6 of left pivot, heat in the mounting bracket 2 is absorbed to heat dissipation wing 6 near the inside of mounting bracket 2, then rotate the outside to mounting bracket 2, heat exchange is accomplished with the external world to heat dissipation wing 6, reduce the temperature of heat dissipation wing 6, then continue to rotate to mounting bracket 2 inner loop, because heat absorption and the heat-sinking capability of heat dissipation wing 6 are strong, therefore, the inside thermal giveaway of mounting bracket 2 can be accelerated in the circulation rotation of heat dissipation wing 6.

Referring to fig. 1 to 3, the driving plate 11 is uniformly distributed on the right rotating shaft 9, the protection frame 5, the heat dissipation fins 6, the left rotating shaft 8, the right rotating shaft 9 and the right gear 10 are provided with two sets, and are respectively positioned at the two sides of the water cooling plate 4, the water cooling plate 4 is used for absorbing heat when the dynamic catching device body 1 works, when the dynamic capture device body 1 does not work, the heat in the water cooling plate 4 is gradually dissipated, the driving plate 11 comprises a connecting plate 1101, an arc transition plate 1102 and a bending plate 1103, the connecting plate 1101 and the bending plate 1103 are respectively located at both ends of the arc-shaped transition plate 1102, the connecting plate 1101, the arc transition plate 1102 and the bending plate 1103 are integrally formed, the connecting plate 1101 is fixedly connected with the right rotating shaft 9, the bending plate 1103 is used for blocking wind, when the wind blows on the bending plate 1103, bending plate 1103 is driven to move, and bending plate 1103 rotates under the limitation of arc transition plate 1102 and connecting plate 1101 to drive right rotating shaft 9 to rotate.

Example 2

Referring to fig. 1, in an embodiment of the present invention, in a dynamic capture device convenient for heat dissipation, an air outlet 24 is disposed at the bottom of the mounting rack 2, air inlet holes 23 are disposed at two sides of the bottom of the mounting rack 2, a motor 14 is fixedly mounted at the bottom inside the mounting rack 2, an output end of the motor 14 is fixedly connected to a drive shaft 15, the air inlet holes 23 are used for air intake, the air outlet holes 24 are used for air exhaust, exchange between air inside the mounting rack 2 and outside air is increased, and heat dissipation is accelerated.

Referring to fig. 1, the driving structure includes a bevel gear a16, a connecting shaft 18, a bevel gear B19 and a bevel gear C21, both ends of the connecting shaft 18 are fixedly connected with a bevel gear B19, two groups of bevel gears B19 are respectively engaged with a bevel gear a16 and a bevel gear C21 for transmission, the driven shaft 20 is rotatably connected with the mounting bracket 2, the bevel gear C21 is fixedly connected with the driven shaft 20, the bevel gear a16 is fixedly connected with the driving shaft 15, the bottom of the mounting bracket 2 is fixedly connected with a support plate 17, the connecting shaft 18 is rotatably connected with the support plate 17, two groups of blowing fans 22 are fixedly connected with the driven shaft 20, the two groups of blowing fans 22 face opposite directions, two groups of the driven shaft 20, the connecting shaft 18 and the support plate 17 are provided, and are symmetrical with respect to the driving shaft 15, after the motor 14 is started, the driving shaft 15 is driven to rotate by the motor 14, the driving shaft 15 drives the driven shafts 20 on two sides to rotate through the bevel gears A16, the bevel gears B19 and the connecting shaft 18, the driven shafts 20 drive the two groups of air blowing fans 22 to rotate, the air blowing fan 22 above drives the heat absorption structure to rotate and blow out air above, the air blowing fan 22 below discharges the air through the air outlet hole 24, at the moment, the pressure between the two groups of air blowing fans 22 is small, the air enters the mounting frame 2 through the air inlet hole 23, and the air can be effectively exchanged with the air outside to dissipate heat in an accelerated mode.

The utility model discloses a theory of operation is:

the utility model discloses during operation, drive structure drive driven shaft 20 rotates, and driven shaft 20 drives fan 22 of blowing and rotates and produce wind-force, and the interior air escape of wind-force drive mounting bracket 2 will contain the air discharge of higher heat, can reduce the temperature in mounting bracket 2, and wind-force drive heat absorption structure accomplishes the inside and outside heat's of mounting bracket 2 exchange simultaneously, accelerates the inside heat's of mounting bracket 2 to distribute; the driven shaft 20 drives the two groups of blowing fans 22 to rotate, the blowing fan 22 above drives the heat absorption structure to rotate, the air above is blown out, the blowing fan 22 below discharges the air through the air outlet hole 24, the pressure between the two groups of blowing fans 22 is smaller at the moment, the air enters the mounting frame 2 through the air inlet hole 23, and the air can be effectively exchanged with the outside air, so that the heat dissipation is accelerated.

The novel standard parts can be purchased from the market, special-shaped parts can be customized according to the description of the specification and the attached drawings, the specific connection mode of each part adopts conventional means such as mature bolts, rivets and welding in the prior art, machines, parts and equipment adopt conventional models in the prior art, and the conventional connection mode in the prior art is adopted in addition to circuit connection, so that detailed description is omitted.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (7)

1. The dynamic capturing device convenient for heat dissipation comprises a dynamic capturing device body (1) and a mounting rack (2), wherein the dynamic capturing device body (1) is arranged in the mounting rack (2), and a heat dissipation mechanism is arranged in the mounting rack (2), and is characterized in that the heat dissipation mechanism comprises a driving structure and a heat absorption structure, the driving structure is connected with a driven shaft (20), a blowing fan (22) is arranged on the driven shaft (20), a partition plate (12) is fixedly connected in the mounting rack (2), a ventilation groove (13) is formed in the partition plate (12), heat dissipation holes (3) are formed in the top of the mounting rack (2), a plurality of groups of water cooling plates (4) are fixedly connected between the heat dissipation holes (3) and the partition plate (12), and the heat absorption structure comprises heat dissipation fins (6) and a left rotating shaft (8), the equal fixed connection in both sides of mounting bracket (2) is provided with protection frame (5), left side pivot (8) and protection frame (5) rotate and are connected, heat dissipation wing (6) cyclic annular array fixed connection sets up on left side pivot (8), the one end fixed connection of left side pivot (8) is provided with left gear (7), left side gear (7) meshing transmission is connected and is provided with right gear (10), right gear (10) fixed connection is provided with right pivot (9), fixed connection is provided with drive plate (11) on right pivot (9).

2. The dynamic capturing device convenient to dissipate heat according to claim 1, wherein the right rotating shaft (9) is rotatably connected with the mounting frame (2), the driving plate (11) is circumferentially and uniformly distributed on the right rotating shaft (9), and the protection frame (5), the heat dissipating fins (6), the left rotating shaft (8), the right rotating shaft (9) and the right gear (10) are provided with two groups and are respectively located on two sides of the water cooling plate (4).

3. The dynamic capture device for facilitating heat dissipation of claim 2, wherein the driving plate (11) comprises a connecting plate (1101), an arc transition plate (1102) and a bending plate (1103), the connecting plate (1101) and the bending plate (1103) are respectively located at two ends of the arc transition plate (1102), the connecting plate (1101), the arc transition plate (1102) and the bending plate (1103) are integrally formed, and the connecting plate (1101) and the right rotating shaft (9) are fixedly connected.

4. The dynamic capture device convenient for heat dissipation according to claim 1, wherein an air outlet (24) is formed in the bottom of the mounting rack (2), air inlet holes (23) are formed in two sides of the bottom of the mounting rack (2), a motor (14) is fixedly installed in the bottom inside the mounting rack (2), and a driving shaft (15) is fixedly connected to an output end of the motor (14).

5. The dynamic capturing device convenient for heat dissipation of claim 4, wherein the driving structure comprises a bevel gear A (16), a connecting shaft (18), a bevel gear B (19) and a bevel gear C (21), the bevel gears B (19) are fixedly connected to both ends of the connecting shaft (18), two groups of bevel gears B (19) are respectively in meshing transmission connection with the bevel gear A (16) and the bevel gear C (21), the driven shaft (20) is rotatably connected with the mounting frame (2), the bevel gear C (21) is fixedly connected with the driven shaft (20), and the bevel gear A (16) is fixedly connected with the driving shaft (15).

6. The dynamic capture device convenient for heat dissipation of claim 5, wherein the bottom of the mounting rack (2) is fixedly connected with a support plate (17), the connecting shaft (18) is rotatably connected with the support plate (17), the two groups of air blowing fans (22) are fixedly connected on the driven shaft (20), and the orientations of the two groups of air blowing fans (22) are opposite.

7. The motion capture device facilitating heat dissipation of claim 6, wherein the driven shaft (20), the connecting shaft (18) and the support plate (17) are provided in two sets and are symmetrical about the driving shaft (15).

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