阅读说明：本技术 一种散热效果好的储能电站系统 (Energy storage power station system with good heat dissipation effect ) 是由 刘涛 高洪江 于 2021-04-28 设计创作，主要内容包括：本发明涉及储能电站技术领域,且公开了一种散热效果好的储能电站系统,解决了储能电站散热效果差的问题,其包括集装箱箱体,所述集装箱箱体的顶端连接有密封板,集装箱箱体的顶端设有套设于密封板外部的箱盖,集装箱箱体的两侧对称开设有空槽,集装箱箱体的外壁设有与空槽相连通的开口,集装箱箱体的内壁等距离开设有与空槽相连通的通口,两个空槽的内部均设有吸热机构,集装箱箱体的内底端设有电能设备；通过设置有集装箱箱体、空槽、开口、通口、吸热机构、双轴电机、转动轴一、锥形齿轮一和涡轮,对集装箱箱体内部的热量进行吸收；通过吹风机构和散热器的配合,降低了集装箱箱体内部温度,进而提高了储能电站的散热效率。(The invention relates to the technical field of energy storage power stations, and discloses an energy storage power station system with a good heat dissipation effect, which solves the problem of poor heat dissipation effect of an energy storage power station and comprises a container box body, wherein a sealing plate is connected to the top end of the container box body; the heat in the container body is absorbed through the container body, the empty groove, the opening, the through hole, the heat absorption mechanism, the double-shaft motor, the first rotating shaft, the first conical gear and the turbine; through the cooperation of the blowing mechanism and the radiator, the internal temperature of the container body is reduced, and further the heat dissipation efficiency of the energy storage power station is improved.)

1. The utility model provides an energy storage power station system that radiating effect is good, includes container box (1), its characterized in that: the top end of the container body (1) is connected with a sealing plate (2), the top end of the container body (1) is provided with a box cover (3) sleeved outside the sealing plate (2), empty grooves (4) are symmetrically formed in two sides of the container body (1), an opening (5) communicated with the empty grooves (4) is formed in the outer wall of the container body (1), through holes (6) communicated with the empty grooves (4) are formed in the inner wall of the container body (1) at equal intervals, heat absorption mechanisms (7) are arranged inside the two empty grooves (4), electric energy equipment (48) is arranged at the inner bottom end of the container body (1), and blowing mechanisms (12) are symmetrically arranged on two sides of the interior of the container body (1);

a double-shaft motor (8) is arranged at the top end of the sealing plate (2), output shafts of the double-shaft motor (8) are connected with a first rotating shaft (9), a first conical gear (10) and a turbine (11) located on one side of the first conical gear (10) are symmetrically sleeved on the first rotating shaft (9), and the turbine (11) is connected with a heat absorption mechanism (7);

blowing mechanism (12) are including leading to groove (13), connecting axle (14), bevel gear two (15), bearing frame (16), two-way lead screw (17), fan blade (18) and slider (19) blow, two lead to groove (13) are seted up respectively on closing plate (2), connecting axle (14) have all been alternate to the inside of leading to groove (13), the top of connecting axle (14) is equipped with bevel gear two (15) of being connected with bevel gear (10) meshing, the bottom of connecting axle (14) is equipped with bearing frame (16), the bottom of bearing frame (16) is equipped with two-way lead screw (17), the bottom of two-way lead screw (17) all is connected with fan blade (18) of blowing, equal symmetry is equipped with slider (19) on two-way lead screw (17), be equipped with the radiator between two fan blade (18).

2. The energy storage power station system with good heat dissipation effect of claim 1, characterized in that: the bottom middle position of closing plate (2) is equipped with slide bar (20), and the symmetry cover is equipped with sliding seat (21) on slide bar (20), and the both sides of sliding seat (21) are connected with two slider (19) lateral walls through connecting rod (22) respectively.

3. The energy storage power station system with good heat dissipation effect of claim 1, characterized in that: the bottom of two-way lead screw (17) all is equipped with buffering group, and buffering group includes backstop board and buffer spring, and the fixed cover of backstop board is located on two-way lead screw (17), and the top of backstop board is equipped with the buffer spring that the cover was located two-way lead screw (17) outside.

4. The energy storage power station system with good heat dissipation effect of claim 1, characterized in that: the radiator comprises rotating shafts (24), cooling fan blades (25), a first rotating wheel (26), a second rotating wheel (27), a first belt (28), a motor (29), a mounting rod (32), a transmission wheel (33), a second belt (34) and a control group, wherein the two rotating shafts (24) are arranged on the two movable seats (21), the first rotating wheel (26) is sleeved on the two rotating shafts (24) which are far away from each other, the second rotating wheel (27) is arranged on the other two rotating shafts (24) which are far away from each other, the first rotating wheel (26) which is close to each other is connected with the second rotating wheel (27) through the first belt (28), the rotating shafts (24) are connected with the cooling fan blades (25), the motor (29) connected with one rotating shaft (24) is arranged on one movable seat (21), the mounting rod (32) is parallel to the sliding rod (20) and is located between the two connecting rods (22), the mounting rod (32) is provided with a driving wheel (33), the two rotating wheels (27) are connected with the driving wheel (33) through a belt (34), and the mounting rod (32) is connected with the control group.

5. The energy storage power station system with good heat dissipation effect as claimed in claim 4, characterized in that: the control group includes dead lever (23), pull rod (30), coupling spring (31), sleeve (35) and slide (36), install in the intermediate position of one of them two-way lead screw (17) dead lever (23), pull rod (30) of being connected with installation pole (32) are inserted to the inside interlude of one end of dead lever (23), be connected through coupling spring (31) between pull rod (30) and dead lever (23), the both ends of installation pole (32) all overlap and are equipped with sleeve (35), one side is kept away from mutually in two sleeves (35) all is equipped with swiveling wheel (26) with connecting rod (22) sliding connection.

6. The energy storage power station system with good heat dissipation effect as claimed in claim 5, characterized in that: the mounting rod (32) is of an I-shaped structure, and balls (37) are embedded in the inner wall of the sliding seat (36) at equal intervals.

7. The energy storage power station system with good heat dissipation effect of claim 1, characterized in that: endothermic mechanism (7) are including worm (38), rotary rod (39), three (40) of conical gear and heat absorption group, worm (38) are located the top both sides of container box (1), and worm (38) are connected with turbine (11) meshing, the bottom of worm (38) is equipped with rotary rod (39) that are located dead slot (4) inside, equidistant cover is equipped with three (40) of conical gear that are located opening (6) one side on rotary rod (39), heat absorption group installs in the inside of opening (6), and heat absorption group is connected with three (40) of conical gear.

8. The energy storage power station system with good heat dissipation effect as claimed in claim 7, characterized in that: the heat absorption set comprises a fixed cover (41), a second rotating shaft (42), heat absorption fan blades (43) and a fourth conical gear (44), the fixed cover (41) is installed inside the hollow groove (4), the second rotating shaft (42) is connected to the middle position inside the fixed cover (41), the heat absorption fan blades (43) are sleeved on the second rotating shaft (42), and the fourth conical gear (44) meshed with the third conical gear (40) is arranged on the second rotating shaft (42).

9. The energy storage power station system with good heat dissipation effect of claim 1, characterized in that: the top of the container body (1) is symmetrically provided with an inserting block (45), and the bottom of the sealing plate (2) is provided with an inserting groove (46) which is connected with the inserting block (45) in a clamping manner.

10. The energy storage power station system with good heat dissipation effect of claim 1, characterized in that: the filter screen (47) that are located opening (6) one side are all installed to the both sides of container box (1), are connected through the bearing between dead lever (23) and two-way lead screw (17).

Technical Field

The invention belongs to the technical field of energy storage power stations, and particularly relates to an energy storage power station system with a good heat dissipation effect.

Background

With the outstanding environmental pollution and energy shortage problem in China, the development and utilization of novel energy have become the key problems of current social research, the novel energy comprises biofuel derived from renewable energy sources such as solar energy, wind energy, biomass energy and hydroenergy, and compared with the traditional energy, the novel energy has the advantages of less pollution and large reserve capacity, so that the development and utilization of the novel energy can play a great role in the aspects of electric vehicles, smart grids, micro grids, distributed energy systems, household energy storage systems, power supply engineering in electroless areas and future energy safety.

Along with the large amount of applications of novel energy, the energy storage power station arises as soon as possible, and the inside ventilation performance of current energy storage power station is poor, causes the interior high temperature of energy storage power station, and heat dispersion is not good.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides the energy storage power station system with good heat dissipation effect, and the problem of poor heat dissipation effect of the energy storage power station in the background art is effectively solved.

In order to achieve the purpose, the invention provides the following technical scheme: an energy storage power station system with good heat dissipation effect comprises a container body, wherein a sealing plate is connected to the top end of the container body, a box cover sleeved outside the sealing plate is arranged at the top end of the container body, empty grooves are symmetrically formed in two sides of the container body, an opening communicated with the empty grooves is formed in the outer wall of the container body, openings communicated with the empty grooves are formed in the inner wall of the container body at equal intervals, heat absorption mechanisms are arranged inside the two empty grooves, electric energy equipment is arranged at the inner bottom end of the container body, and blowing mechanisms are symmetrically arranged on two sides of the inside of the container body;

the top end of the sealing plate is provided with a double-shaft motor, output shafts of the double-shaft motor are connected with a first rotating shaft, a first conical gear and a turbine positioned on one side of the first conical gear are symmetrically sleeved on the first rotating shaft, and the turbine is connected with a heat absorption mechanism;

the blowing mechanism is including leading to the groove, the connecting axle, bevel gear two, the bearing frame, two-way lead screw, blowing fan leaf and slider, two lead to the groove and seted up respectively on the closing plate, the inside in leading to the groove all alternates there is the connecting axle, the top of connecting axle is equipped with bevel gear two of being connected with the meshing of bevel gear, the bottom of connecting axle is equipped with the bearing frame, the bottom of bearing frame is equipped with two-way lead screw, the bottom of two-way lead screw all is connected with the blowing fan leaf, equal symmetry is equipped with the slider on two-way lead screw, be equipped with the radiator between two blowing fan leaves.

Preferably, the bottom middle position of closing plate is equipped with the slide bar, and the symmetry cover is equipped with the sliding seat on the slide bar, and the both sides of sliding seat are connected with two slider lateral walls through the connecting rod respectively.

Preferably, two the bottom of two-way lead screw all is equipped with buffering group, and buffering group includes backstop board and buffer spring, and the fixed cover of backstop board is located on the two-way lead screw, and the top of backstop board is equipped with the cover and locates the outside buffer spring of two-way lead screw.

Preferably, the radiator includes the rotation axis, the cooling flabellum, swiveling wheel one, swiveling wheel two, belt one, including a motor, an end cap, a controller, and a cover, the installation pole, the drive wheel, belt two and control group, all be equipped with two rotation axes on two sliding seats, wherein all overlap on two rotation axes of keeping away from mutually and be equipped with swiveling wheel one, wherein all be equipped with swiveling wheel two on two other rotation axes of keeping away from mutually, be connected through belt one between swiveling wheel one that is close to mutually and the swiveling wheel two, and all be connected with the cooling flabellum on the rotation axis, be equipped with the motor of being connected with one of them rotation axis on one of them sliding seat, the installation pole is parallel and is located between two connecting rods with the slide bar, install the drive wheel on the installation pole, be connected through belt two between two swiveling wheels and the drive wheel, the installation pole is connected with the control group.

Preferably, the control group includes dead lever, pull rod, coupling spring, sleeve and slide, and the dead lever is installed in the intermediate position of one of them two-way lead screw, and the inside interlude of one end of dead lever has the pull rod of being connected with the installation pole, is connected through coupling spring between pull rod and the dead lever, and the both ends of installation pole all are equipped with the sleeve, and two sleeves are kept away from one side mutually and all are equipped with the swiveling wheel one with connecting rod sliding connection.

Preferably, the mounting rod is of an I-shaped structure, and balls are embedded in the inner wall of the sliding seat at equal intervals.

Preferably, heat absorption mechanism includes worm, rotary rod, conical gear three and heat absorption group, and the worm is located the top both sides of container box, and the worm is connected with the turbine meshing, and the bottom of worm is equipped with the rotary rod that is located the dead slot inside, and equidistant cover is equipped with the conical gear three that is located opening one side on the rotary rod, and heat absorption group installs in the inside of opening, and heat absorption group is connected with conical gear three.

Preferably, the heat absorption group comprises a fixed cover, a second rotating shaft, heat absorption fan blades and a fourth conical gear, the fixed cover is installed in the hollow groove, the second rotating shaft is connected to the middle position in the inner portion of the fixed cover, the heat absorption fan blades are sleeved on the second rotating shaft, and the fourth conical gear meshed with the third conical gear is arranged on the second rotating shaft.

Preferably, the top of the container body is symmetrically provided with an inserting block, and the bottom of the sealing plate is provided with an inserting groove clamped with the inserting block.

Preferably, the filter screen that is located opening one side is all installed to the both sides of container box, is connected through the bearing between dead lever and the two-way lead screw.

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

(1) during operation, the heat in the container body is absorbed through the container body, the empty groove, the opening, the through hole, the heat absorption mechanism, the double-shaft motor, the first rotating shaft, the first conical gear and the turbine, and the heat in the container body is further reduced; through the matching of the blowing mechanism and the radiator, different positions in the container body are effectively blown, the temperature in the container body is reduced, the cooling speed in the container body is increased, and the heat dissipation efficiency of the energy storage power station is further improved;

(2) through the through groove, the connecting shaft, the second conical gear, the bearing seat, the two-way screw rod, the blowing fan blade and the sliding block, the electric energy equipment inside the container body can be blown conveniently, the heat dissipation speed of the electric energy equipment is increased, and the cooling efficiency of the container body is improved;

(3) through the design of the rotating shaft, the cooling fan blades, the rotating wheel I, the rotating wheel II, the belt I, the motor, the mounting rod, the driving wheel, the belt II and the control group, air blowing operation is effectively performed on different positions inside the container box body, the heat dissipation efficiency inside the container box body is improved, and the heat dissipation efficiency of the energy storage power station is further accelerated;

(4) through the effect of conical gear three, fixed cover, axis of rotation two, heat absorption flabellum and conical gear four, effectual inside heat to the container box pumps, and then realizes the heat dissipation to the container box, the effectual radiating efficiency who improves the energy storage power station.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention.

In the drawings:

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

FIG. 2 is a schematic view of the external structure of the present invention;

FIG. 3 is an enlarged view taken at A of FIG. 1 in accordance with the present invention;

FIG. 4 is an enlarged view of the invention at B of FIG. 1;

FIG. 5 is an enlarged view of FIG. 1 at C according to the present invention;

FIG. 6 is a side view of the structural slide of the present invention;

in the figure: 1. a container body; 2. a sealing plate; 3. a box cover; 4. an empty groove; 5. an opening; 6. a port; 7. a heat absorbing mechanism; 8. a double-shaft motor; 9. rotating a first shaft; 10. a first conical gear; 11. a turbine; 12. a blowing mechanism; 13. a through groove; 14. a connecting shaft; 15. a second bevel gear; 16. a bearing seat; 17. a bidirectional screw rod; 18. a blower blade; 19. a slider; 20. a slide bar; 21. a movable seat; 22. a connecting rod; 23. fixing the rod; 24. a rotating shaft; 25. cooling the fan blades; 26. rotating the first wheel; 27. rotating the second wheel; 28. a first belt; 29. a motor; 30. a pull rod; 31. a connecting spring; 32. mounting a rod; 33. a driving wheel; 34. a second belt; 35. a sleeve; 36. a slide base; 37. a ball bearing; 38. a worm; 39. rotating the rod; 40. a third bevel gear; 41. a fixed cover; 42. a second rotating shaft; 43. heat absorbing fan blades; 44. a bevel gear four; 45. an insertion block; 46. inserting grooves; 47. filtering with a screen; 48. an electrical energy device.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments; all other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the first embodiment, as shown in fig. 1 to 6, the container comprises a container body 1, a sealing plate 2 is connected to the top end of the container body 1, a container cover 3 sleeved outside the sealing plate 2 is arranged at the top end of the container body 1, empty slots 4 are symmetrically formed in two sides of the container body 1, openings 5 communicated with the empty slots 4 are formed in the outer wall of the container body 1, through holes 6 communicated with the empty slots 4 are formed in the inner wall of the container body 1 at equal intervals, heat absorption mechanisms 7 are arranged inside the two empty slots 4, electric energy equipment 48 is arranged at the inner bottom end of the container body 1, and air blowing mechanisms 12 are symmetrically arranged on two sides of the interior of the container body 1;

the top end of the sealing plate 2 is provided with a double-shaft motor 8, the output shafts of the double-shaft motor 8 are connected with a first rotating shaft 9, a first conical gear 10 and a turbine 11 positioned on one side of the first conical gear 10 are symmetrically sleeved on the first rotating shaft 9, the turbine 11 is connected with the heat absorption mechanism 7, the double-shaft motor 8 drives the first rotating shaft 9 to rotate by starting the double-shaft motor 8, the first rotating shaft 9 drives the first conical gear 10 and the turbine 11 to rotate, and therefore power is conveniently provided for the blowing mechanism 12, and heat dissipation of the container body 1 is achieved;

the blowing mechanism 12 comprises through grooves 13, connecting shafts 14, two conical gears 15, bearing seats 16, two-way screw rods 17, blowing fan blades 18 and sliding blocks 19, the two through grooves 13 are respectively arranged on the sealing plate 2, the connecting shafts 14 are respectively inserted in the through grooves 13, the top ends of the connecting shafts 14 are provided with the two conical gears 15 meshed with the conical gears 10, the bearing seats 16 are arranged at the bottom ends of the connecting shafts 14, the two-way screw rods 17 are arranged at the bottom ends of the bearing seats 16, the bottom ends of the two-way screw rods 17 are respectively connected with the blowing fan blades 18, the sliding blocks 19 are symmetrically arranged on the two-way screw rods 17, and a radiator is arranged between the two blowing fan blades 18, through the meshing relationship of the first bevel gear 10 and the second bevel gear 15, the rotation of the connecting shaft 14 can be realized, then, the rotation of the bidirectional screw rod 17 is realized through the bearing seat 16, and the air blowing fan blade 18 is enabled to act, so that the air blowing to the electric energy equipment 48 is realized, and the heat dissipation function is further realized.

In the second embodiment, on the basis of the first embodiment, as shown in fig. 1 and 3, a sliding rod 20 is disposed at the middle position of the bottom end of the sealing plate 2, a movable seat 21 is symmetrically sleeved on the sliding rod 20, two sides of the movable seat 21 are respectively connected with the side walls of the two sliding blocks 19 through connecting rods 22, and through the design of the sliding rod 20, the movable seat 21 and the connecting rods 22, convenience is brought to installation of a heat sink, convenience is brought to heat dissipation work of the heat sink, and further, heat dissipation efficiency of the electric energy equipment 48 is improved.

Third embodiment, on the basis of first embodiment, given by fig. 1, the bottom of two-way lead screw 17 all is equipped with buffering group, and buffering group includes backstop board and buffer spring, and the fixed cover of backstop board is located on two-way lead screw 17, and the top of backstop board is equipped with the cover and locates the outside buffer spring of two-way lead screw 17, through backstop board and buffer spring's design, is convenient for carry on spacingly to slider 19, can alleviate the collision dynamics of slider 19 and backstop board simultaneously.

Fourth embodiment, based on the first embodiment, as shown in fig. 1 and 3, the heat sink includes a rotating shaft 24, cooling fan blades 25, a first rotating wheel 26, a second rotating wheel 27, a first belt 28, a motor 29, a mounting rod 32, a driving wheel 33, a second belt 34 and a control group, two rotating shafts 24 are respectively disposed on two movable bases 21, wherein the two rotating shafts 24 away from each other are respectively sleeved with the first rotating wheel 26, the other two rotating shafts 24 away from each other are respectively provided with the second rotating wheel 27, the first rotating wheel 26 close to each other is connected with the second rotating wheel 27 through the first belt 28, the rotating shafts 24 are respectively connected with the cooling fan blades 25, one of the movable bases 21 is provided with the motor 29 connected with one of the rotating shafts 24, the mounting rod 32 is parallel to the sliding rod 20 and is located between the two connecting rods 22, the mounting rod 32 is provided with the driving wheel 33, the two rotating wheels 27 are connected with the driving wheel 33 through the second belt 34, the mounting rod 32 is connected with the control group, the control group comprises a fixing rod 23, a pull rod 30, a connecting spring 31, a sleeve 35 and a sliding seat 36, the fixing rod 23 is mounted at the middle position of one of the two-way screw rods 17, the pull rod 30 connected with the mounting rod 32 is inserted into one end of the fixing rod 23, the pull rod 30 is connected with the fixing rod 23 through the connecting spring 31, the sleeve 35 is sleeved at both ends of the mounting rod 32, a rotating wheel 26 connected with the connecting rod 22 in a sliding manner is arranged on one side, far away from the two sleeves 35, of the two sleeves, the motor 29 can be started to drive one of the rotating shafts 24 to rotate, the action of the cooling fan blades 25 can be realized through the connection relationship between the rotating wheel 27 and the rotating wheel 26 and the belt 28 and the connection action of the two rotating wheel 27, the driving wheel 33 and the belt 34, the heat dissipation of the electric energy equipment 48 can be realized, and simultaneously due to the rotation of the two-way screw rods 17, the sliding block 19 can be moved, and then the two movable seats 21 can be moved close to or away from each other through the connection relationship of the connecting rod 22, when the two movable seats 21 are moved close to each other, because the length of the second belt 34 is fixed, the mounting rod 32 can be further extended and contracted inside the sleeve 35, the second belt 34 can be loosened, then the pull rod 30 can be pulled to move inside the fixed rod 23 through the action of the connecting spring 31, and the mounting rod 32 drives the driving wheel 33 to move away from the sliding rod 20, and the sliding seat 36 can slide on the connecting rod 22, so that the second belt 34 is changed from the loosened state to the tightened state, and further the stability is improved for the rotation of the cooling fan blades 25, when the two movable seats 21 are moved away from each other, the pull rod 30 can be extended inside the fixed rod 23 through the elastic action of the connecting spring 31, and the second belt 34 can be continuously in the tightened state, so that the second belt 34 can be prevented from being broken, the rotational stability of the cooling fan blades 25 is effectively improved, so that heat dissipation of different positions of the container body 1 can be realized, and the heat dissipation efficiency and the heat dissipation speed are effectively improved.

Fifth embodiment, on the basis of the fourth embodiment, as shown in fig. 1, 3 and 6, the mounting rod 32 is an i-shaped structure, the balls 37 are embedded in the inner wall of the sliding seat 36 at equal intervals, and the sliding seat 36 can slide on the connecting rod 22 conveniently due to the design of the balls 37, so that friction is reduced, the speed of the second belt 34 from a loose state to a compact state is increased, and the heat dissipation stability of the cooling fan blades 25 is further improved.

Sixth embodiment, based on the first embodiment, as shown in fig. 1 and 4, the heat absorbing mechanism 7 includes a worm 38, a rotating rod 39, a third conical gear 40, and a heat absorbing set, the worm 38 is located at two sides of the top end of the container body 1, the worm 38 is meshed with the worm wheel 11, the rotating rod 39 located inside the hollow slot 4 is arranged at the bottom end of the worm 38, the third conical gear 40 located at one side of the through opening 6 is equidistantly sleeved on the rotating rod 39, the heat absorbing set is installed inside the through opening 6 and is connected with the third conical gear 40, the heat absorbing set includes a fixed cover 41, a second rotating shaft 42, heat absorbing fan blades 43 and a fourth conical gear 44, the fixed cover 41 is installed inside the hollow slot 4, the second rotating shaft 42 is connected to the middle position inside the fixed cover 41, the heat absorbing fan blades 43 are sleeved on the second rotating shaft 42, the fourth conical gear 44 meshed with the third conical gear 40 is arranged on the second rotating shaft 42, through the meshing connection of worm 38 and turbine 11, can realize the rotation of worm 38, worm 38 drives rotary rod 39 and rotates, and then it is rotatory to drive three 40 of conical gear, it is connected with four 44 meshing of conical gear through three 40 of conical gear, can realize four 44 rotations of conical gear, four 44 drive two 42 rotations of axis of rotation of conical gear, and then realize the rotation of heat absorption flabellum 43, make heat absorption flabellum 43 absorb the inside heat of container box 1 and pour into the dead slot 4 through opening 6, and then discharge through opening 5, the effectual radiating efficiency who improves container box 1, and then protect for the inside electric energy equipment 48 of container box 1.

Seventh embodiment, on the basis of first embodiment, given by fig. 1 and 5, the top symmetry of container box 1 is equipped with plug block 45, and the bottom of sealing plate 2 is equipped with the inserting groove 46 with plug block 45 joint, through the grafting relation of plug block 45 and inserting groove 46, can improve the installation stability of sealing plate 2, avoids sealing plate 2 to appear the aversion phenomenon at the top of container box 1, and then has improved stability for the heat dissipation of blowing mechanism 12 and radiator.

Eight embodiment, on the basis of embodiment one, given by fig. 1 and 2, the filter screen 47 that is located opening 6 one side is all installed to the both sides of container box 1, is connected through the bearing between dead lever 23 and the two-way lead screw 17, through the design of filter screen 47, is convenient for realize thermal circulation, can avoid external impurity to get into dead slot 4 simultaneously, and then can realize the protection to the inside spare part of dead slot 4, and brings the convenience for the maintenance of the inside spare part of dead slot 4.

The working principle is as follows: during operation, the staff sets the inserting slot 46 on the sealing plate 2 in the inserting block 45 on the top end of the container body 1, and then completes the installation of the sealing plate 2, then installs the box cover 3 on the top end of the container body 1, and installs the filter screen 47 on the container body 1, and shields the opening 5, and prevents the outside impurities from entering the empty slot 4, and protects the parts in the empty slot 4 for the later period, when the heat in the container body 1 is high, the double-shaft motor 8 is started, the double-shaft motor 8 drives the first rotating shaft 9 to rotate, the first rotating shaft 9 drives the first conical gear 10 and the turbine 11 to rotate, and then the rotation of the connecting shaft 14 can be realized through the meshing relationship between the first conical gear 10 and the second conical gear 15, then the rotation of the bidirectional screw rod 17 is realized through the bearing seat 16, and the blowing fan blade 18 is rotated, and the blowing of the electric energy equipment 48 is realized, further realizing the heat dissipation function, at the same time, the rotation of the bidirectional screw 17 can make the two sliding blocks 19 move away from or close to each other, and further through the connection relationship of the connecting rod 22, the two movable seats 21 can move away from or close to each other on the sliding rod 20, then the motor 29 is started, the motor 29 drives one of the rotating shafts 24 to rotate, and further through the connection relationship of the rotating wheel two 27, the rotating wheel one 26 and the belt one 28 and through the connection effects of the two rotating wheel two 27, the driving wheel 33 and the belt two 34, the action of the cooling fan blades 25 can be realized, and further the heat dissipation of the electric energy equipment 48 can be realized, meanwhile, because the length of the belt two 34 is fixed, when the two movable seats 21 move close to each other, the belt two 34 is loosened, the mounting rod 32 stretches inside the sleeve 35, the mounting rod 32 pulls the driving wheel 33 to move away from the sliding rod 20, and the sliding seat 36 slides on the connecting rod 22, the second belt 34 is in a compact state, so that the stability is improved for the rotation of the cooling fan blades 25, when the two movable seats 21 are far away from each other, the pull rod 30 can be extended inside the fixed rod 23 through the elastic action of the connecting spring 31, the second belt 34 can be continuously in a compact state, the second belt 34 can be prevented from being broken, the rotational stability of the cooling fan blades 25 is effectively improved, further, heat dissipation can be performed on different positions of the container body 1, meanwhile, the rotation of the worm 38 can be realized through the meshed connection of the worm 38 and the turbine 11, the worm 38 drives the rotating rod 39 to rotate, further drives the third conical gear 40 to rotate, through the meshed connection of the third conical gear 40 and the fourth conical gear 44, the rotation of the fourth conical gear 44 can be realized, the fourth conical gear 44 drives the second rotating shaft 42 to rotate, further, the rotation of the heat absorbing fan blades 43 is realized, so that the heat absorbing fan blades 43 absorb the heat inside the container body 1 and are injected into the empty grooves 4 through the through openings 6, and then discharge through opening 5, the effectual radiating efficiency who improves container body 1, and then protect for the inside electric energy equipment 48 of container body 1.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.