CN117662497A - Intelligent new energy automobile battery radiator fan - Google Patents

Abstract

The invention discloses an intelligent new energy automobile battery cooling fan, which structurally comprises a power panel, a cooling mechanism, a supporting plate, an inductor and a circuit line, wherein the power panel is fixedly embedded on the side surface of the supporting plate, the circuit line is connected with the middle of the cooling mechanism, the circuit line is connected with the inductor line, the cooling mechanism is arranged in the supporting plate, and wind power discharged by an exhaust sheet moves on the central axis under the guidance of an inclined ring.

Description

Intelligent new energy automobile battery radiator fan

Technical Field

The invention relates to the technical field of battery cooling devices, in particular to an intelligent new energy automobile battery cooling fan.

Background

The new energy automobile adopts electric power as energy, utilizes the battery to form the energy storage, and the battery can produce a large amount of heat under long-time use, needs to utilize radiator fan to give off the battery heat fast, prevents that the heat from causing the high temperature to cause battery explosion, utilizes the suction that radiator fan produced generally, makes the heat adsorb the outside of fan from the battery and gives off.

However, the cooling fan is the only position of the battery box flowing with the outside, and is in a state of sucking and discharging, and part of the position far away from the fan is not acted by suction, so that only the heat quantity can naturally flow to the suction range of the fan to be discharged by the cooling fan, the problem of slower heat dissipation is easily caused, and the cooling fan can also take away moist air.

Disclosure of Invention

The technical scheme adopted for realizing the technical purpose of the invention is as follows: the utility model provides an intelligent new energy automobile battery radiator fan, its structure includes power strip, cooling mechanism, backup pad, inductor, circuit line, the power strip is inlayed and is solid in the backup pad side, the circuit line is connected in the middle of cooling mechanism, the circuit line is in inductor line connection, cooling mechanism installs inside the backup pad, cooling mechanism is equipped with opening and closing plate, rotary rod, controller, wind mechanism, blade, guide board, circulation board, the board that opens and shuts, the board that opens and closes is inlayed in the controller outside, circulation board block is in the controller outside, the rotary rod is installed in the controller right-hand member, wind mechanism is inlayed and is solid in the rotary rod right-hand member, the blade is installed in the rotary rod outside, the guide board is located the blade right-hand member, controller and wind mechanism are located same central axis, the guide board is installed in the backup pad inboard, the board that opens and shuts is inlayed and is solid in the backup pad inboard, the backup pad outside is equipped with fixed board, the inside temperature sensor that is equipped with of inductor, the rotational speed of controller right-hand member rotary rod is faster when the temperature is higher.

As a further improvement of the invention, the guide plate is provided with a plane plate, a bearing ring, an arc groove and a stress bar, wherein the stress bar is embedded and fixed on the inner side of the bearing ring, the plane plate is embedded and fixed on the upper end of the stress bar, the arc groove is positioned on the left side and the right side of the plane plate, the bearing ring is arranged on the inner side of the support plate, and the stress bar is made of rubber and has the characteristic of easy deformation and movement.

As a further improvement of the invention, the wind power mechanism is provided with a rotating rod, an air exhaust sheet, a guide ring and a connecting plate, wherein the rotating rod is embedded and fixed on the right side of the connecting plate, the air exhaust sheet is arranged on the outer side of the rotating rod, the guide ring is arranged on the outer side of the rotating rod, the connecting plate is embedded and fixed at the right end of the rotating rod, and the air exhaust sheet only has the effect of blowing wind power to the right side, and the rotating rod rotates along with the rotating rod.

As a further improvement of the invention, the guide ring is provided with a connecting rod, an annular plate and an inclined ring, the connecting rod penetrates through the inside of the inclined ring, the connecting rod is embedded and fixed on the inner side of the annular plate, the connecting rod is arranged on the outer side of the rotating rod, the annular plate is embedded and fixed on the side surface of the connecting plate, and the inclined ring is inclined for 20 degrees to the middle position, so that the guide effect is achieved.

As a further improvement of the invention, the opening and closing plate is provided with a limiting rod, a clamping ring, a motor and a blocking plate, wherein the limiting rod is embedded and fixed in the clamping ring, the limiting rod is in threaded fit with the motor, the motor is clamped in the clamping ring, the blocking plate is embedded and fixed on the left side and the right side of the limiting rod, the limiting rod is arranged on the outer side of the controller, the clamping ring is embedded and fixed on the inner side of the supporting plate, the motor is electrically connected with the controller, the blocking plate and the limiting rod are distributed annularly uniformly, and the blocking plate and the adjacent side are mutually adsorbed and attached.

As a further improvement of the invention, the blocking plate is provided with a sponge strip, a splice plate and an adsorption block, the sponge strip is attached to the side surface of the sponge strip, the adsorption block is clamped on the side surface of the splice plate, the splice plate is embedded and fixed on the left side and the right side of the limiting rod, and the adsorption block is made of a magnet material and has the effect of mutual adsorption.

Advantageous effects

1. According to the invention, the wind power mechanism blows the right side, so that hot air forms a loop circulation outside the battery, the hot air flows to the guide plate from the periphery, vortex-like flow is generated by the hot air under the suction force generated by the blades, lateral force is generated by the hot air flowing on the arc-shaped grooves on the side surfaces of the plane plates, the plane plates shake on the stress strips, the stress strips rotate in the bearing rings under the suction force generated by the hot air flowing and the blades, the hot air is guided, the heat dissipation caused by the heat dissipation of the hot air is prevented from being slower, and the hot air is uniformly discharged from the inside of the circulation plates.

2. According to the invention, the wind power exhausted by the exhaust sheet moves on the central axis under the guidance of the inclined ring, so that the emission of hot air outside the battery can be accelerated, the wind power is guided on the central axis, then the wind power impact is vertically carried out on the outside of the battery, the hot air is emitted to the periphery, the hot air can move on the guide plate on the side surface of the wind power mechanism under the condition that only one outlet is arranged inside, and then the hot air is led out by the rotary suction force of the blade, thereby enhancing the circulation effect of the hot air and accelerating the heat dissipation and circulation speed.

3. According to the invention, when the rotary heat dissipation is stopped, the splice plate is in a plane state, the adsorption blocks are mutually adsorbed with the adjacent sides, the gaps are compressed and filled through the sponge strips, so that the sponge strips can filter moisture in air, and simultaneously isolate the outside, so that the moisture in the outside air is prevented from being mutually adsorbed and attached with the adjacent sides through the blocking plate, and the outside moist air is prevented from entering and damaging the battery outside the battery.

Drawings

Fig. 1 is a schematic structural diagram of a battery cooling fan for an intelligent new energy automobile.

Fig. 2 is a schematic side view of a heat dissipation mechanism according to the present invention.

Fig. 3 is a schematic plan view of a guide plate according to the present invention.

FIG. 4 is a schematic side view of a wind power mechanism according to the present invention.

Fig. 5 is a schematic perspective view of a guide ring according to the present invention.

Fig. 6 is a schematic plan view of an opening and closing plate according to the present invention.

Fig. 7 is a schematic perspective view of a blocking plate according to the present invention.

In the figure: the power panel-1, the heat dissipation mechanism-2, the support plate-3, the inductor-4, the circuit line-5, the opening and closing plate-21, the rotating rod-22, the controller-23, the wind mechanism-24, the blade-25, the guide plate-26, the circulation plate-27, the plane plate-a, the bearing ring-w, the arc groove-e, the stress bar-s, the rotating rod-t 1, the exhaust sheet-t 2, the guide ring-t 3, the connecting plate-t 4, the connecting rod-t 31, the annular plate-t 32, the inclined ring-t 33, the limiting rod-c 1, the clamping ring-c 2, the motor-c 3, the blocking plate-c 4, the sponge bar-c 41, the splice plate-c 42 and the adsorption block-c 43.

Description of the embodiments

The invention is further described below with reference to the accompanying drawings:

examples

As shown in fig. 1 to 5:

the invention relates to an intelligent new energy automobile battery cooling fan, which structurally comprises a power panel 1, a cooling mechanism 2, a supporting plate 3, an inductor 4 and a circuit wire 5, wherein the power panel 1 is embedded and fixed on the side surface of the supporting plate 3, the circuit wire 5 is connected in the middle of the cooling mechanism 2, the circuit wire 5 is connected with the inductor 4 in a circuit way, the cooling mechanism 2 is installed in the supporting plate 3, the cooling mechanism 2 is provided with an opening and closing plate 21, a rotating rod 22, a controller 23, a wind power mechanism 24, a blade 25, a guide plate 26 and a circulation plate 27, the opening and closing plate 21 is embedded and fixed on the outer side of the controller 23, the circulation plate 27 is clamped on the outer side of the controller 23, the rotating rod 22 is installed on the right end of the controller 23, the wind power mechanism 24 is embedded and fixed on the right end of the rotating rod 22, the blade 25 is installed on the outer side of the rotating rod 22, the guide plate 26 is positioned on the right of the blade 25, the controller 23 and the wind power mechanism 24 are positioned on the same central axis, the guide plate 26 is arranged on the inner side of the support plate 3, the opening plate 21 is fixedly embedded on the inner side of the support plate 3, the circulation plate 27 is arranged on the inner side of the support plate 3, a fixed plate is arranged on the outer side of the support plate 3, a temperature sensor is arranged in the sensor 4, when the temperature is higher, the rotating speed of the rotating rod 22 at the right end of the controller 23 is faster, thus the power panel 1 is connected with a circuit, the controller 23 drives the rotating rod 22 to rotate through the circuit line 5, the blades 25 suck hot air from the right side to discharge from the left side after rotating, meanwhile, the wind power mechanism 24 blows the right side, so that the hot air forms a loop circulation outside the battery, the hot air circulates from the periphery to the guide plate 26, the hot air is uniformly discharged to the left under the suction of the blades 25, the opening plate 21 rotates along with the rotation after the rotation of the controller 23, the hot air is uniformly discharged from the circulation plate 27 by opening and closing the circulation.

The guide plate 26 is provided with a plane plate a, a bearing ring w, an arc-shaped groove e and a stress strip s, the stress strip s is embedded and fixed on the inner side of the bearing ring w, the plane plate a is embedded and fixed on the upper end of the stress strip s, the arc-shaped groove e is positioned on the left side and the right side of the plane plate a, the bearing ring w is installed on the inner side of the support plate 3, the stress strip s is made of rubber and has the characteristic of easy deformation movement, so that vortex-like flow is generated under the suction force generated by the blades 25 after hot air circulates, and then the hot air circulates on the arc-shaped groove e on the side surface of the plane plate a to generate lateral force, so that the plane plate a shakes on the stress strip s, and the stress strip s rotates and moves on the inner side of the bearing ring w under the suction force generated by the hot air, so that the hot air is guided to prevent the hot air from dissipating and dissipating heat slowly.

The wind power mechanism 24 is provided with a rotating rod t1, an exhaust piece t2, a guide ring t3 and a connecting plate t4, the rotating rod t1 is fixedly embedded on the right side of the connecting plate t4, the exhaust piece t2 is arranged on the outer side of the rotating rod t1, the guide ring t3 is arranged on the outer side of the rotating rod t1, the connecting plate t4 is fixedly embedded at the right end of the rotating rod 22, the exhaust piece t2 only has the effect of blowing out wind power to the right side, the rotating rod t1 rotates along with the rotating rod 22, so that the rotating rod t1 drives the exhaust piece t2 to exhaust the wind to the right, the wind power is guided on a central axis through the guide of the guide ring t3, the wind power is prevented from dispersing, the air is enabled to circulate inwards from the middle, hot air is enabled to move from two sides to two sides of the guide plate 26 outside a battery, and the circulation effect of the hot air is enhanced.

The guide ring t3 is provided with a connecting rod t31, an annular plate t32 and an inclined ring t33, the connecting rod t31 penetrates through the inside of the inclined ring t33, the connecting rod t31 is fixedly embedded in the inner side of the annular plate t32, the connecting rod t31 is installed on the outer side of a rotating rod t1, the annular plate t32 is fixedly embedded on the side face of a connecting plate t4, the inclined ring t33 is inclined to the middle position by 20 degrees, the guide effect is achieved, under the connection of the connecting rod t31, wind force exhausted by an exhaust sheet t2 moves on the central axis under the guide of the inclined ring t33, so that the wind force is enabled to be concentrated to be stronger in one direction, and the emission of hot air on the outer side of a battery can be accelerated.

Specific use and action of the embodiment:

in the invention, a power panel 1 is connected with a circuit, a controller 23 drives a rotary rod 22 to rotate through a circuit line 5, then a blade 25 sucks hot air from the right side and discharges the hot air from the left side after rotating, a wind power mechanism 24 blows the right side, so that the hot air forms a loop circulation outside a battery, then the hot air circulates from the periphery to a guide plate 26, the hot air generates vortex-like flow under the suction force generated by the blade 25, then the hot air circulates on an arc-shaped groove e on the side surface of a flat panel a to generate lateral force, the flat panel a shakes on a stress bar s, the stress bar s rotates on the inner side of a bearing ring w under the suction force generated by the blade 25, the hot air is guided, the hot air is prevented from escaping slowly, and then the hot air is uniformly discharged to the left under the suction force of the blade 25, and simultaneously the controller 23 rotates and then the flat panel 21 rotates in a follow manner to open and close the hot air, so that the hot air is uniformly discharged from a circulation plate 27.

According to the invention, the rotating rod t1 rotates to drive the air exhaust sheet t2 to exhaust air rightwards, the air exhausted by the air exhaust sheet t2 moves to the central axis under the guidance of the inclined ring t33 under the connection of the connecting rod t31 in the guide ring t3, so that the movement of the air concentrated in one direction can be stronger, the emission of hot air outside the battery can be accelerated, the air is guided to the central axis, the wind is prevented from being dispersed, the air impact is then carried out on the outer side of the battery vertically, the hot air is dispersed to the periphery, the hot air can move to the guide plate 26 on the side face of the wind mechanism 24 under the condition that only one outlet is arranged in the inside, and then the hot air is guided out by the suction force of the rotation of the blades 25, the circulation effect of the hot air can be enhanced, and the heat dissipation circulation speed is accelerated.

Examples

As shown in fig. 6 to 7:

the opening and closing plate 21 is provided with a limiting rod c1, a clamping ring c2, a motor c3 and a blocking plate c4, the limiting rod c1 is embedded and fixed inside the clamping ring c2, the limiting rod c1 is in threaded fit with the motor c3, the motor c3 is clamped inside the clamping ring c2, the blocking plate c4 is embedded and fixed on the left side and the right side of the limiting rod c1, the limiting rod c1 is mounted on the outer side of the controller 23, the clamping ring c2 is embedded and fixed on the inner side of the supporting plate 3, the motor c3 is electrically connected with the controller 23, the blocking plate c4 and the limiting rod c1 are distributed evenly in a ring shape, the blocking plate c4 and adjacent sides are mutually adsorbed and attached, so that the controller 23 drives the motor c3 to move after controlling the rotating rod 22 to enable the limiting rod c1 to rotate by 90 degrees under the threaded fit, gaps are formed between the blocking plates c4, and the blocking plates c4 are used for air circulation, and when the rotating heat dissipation is stopped, the blocking plates c4 and the adjacent sides are mutually adsorbed and the outside air is prevented from entering and attaching to the outside of a battery.

The blocking plate c4 is provided with a sponge strip c41, a splice plate c42 and an adsorption block c43, the sponge strip c41 is attached to the side face of the sponge strip c41, the adsorption block c43 is clamped on the side face of the splice plate c42, the splice plate c42 is fixedly embedded on the left side and the right side of the limiting rod c1, the adsorption block c43 is made of a magnet material and has an effect of mutual adsorption, so that the splice plate c42 is in a plane state when rotation is stopped, the adsorption block c43 and adjacent sides are mutually adsorbed, gaps are compressed and filled through the sponge strip c41, and then the sponge strip c41 can filter moisture in air, and meanwhile, the outside is isolated, and moisture in the outside air is prevented from passing through.

Specific use and action of the embodiment:

in the invention, the controller 23 controls the rotary rod 22 to rotate and then drives the motor c3 to move, so that the limit rod c1 rotates for 90 degrees under the threaded fit, gaps are formed between the baffle plates c4 and used for air circulation, when the rotary heat dissipation is stopped, the splice plates c42 are in a plane state, the adsorption blocks c43 are mutually adsorbed with adjacent sides, the gaps are compressed and filled through the sponge strips c41, the sponge strips c41 can filter moisture in air, the outside is isolated, the moisture in the outside is prevented from being mutually adsorbed and attached with the adjacent sides through the baffle plates c4, and the outside moist air is prevented from entering and damaging a battery outside.

By utilizing the technical scheme of the invention or under the inspired by the technical scheme of the invention, a similar technical scheme is designed by a person skilled in the art, so that the technical effects are achieved, and the technical scheme falls into the protection scope of the invention.

Claims (6)

1. The utility model provides an intelligent new energy automobile battery radiator fan, its structure includes power strip (1), heat dissipation mechanism (2), backup pad (3), inductor (4), circuit line (5), its characterized in that: the power panel (1) is embedded and fixed on the side surface of the supporting plate (3), the circuit wire (5) is connected to the middle of the heat dissipation mechanism (2), the circuit wire (5) is connected with the inductor (4) in a circuit mode, and the heat dissipation mechanism (2) is arranged in the supporting plate (3);

the utility model provides a cooling mechanism (2) is equipped with opening and closing plate (21), rotary rod (22), controller (23), wind power mechanism (24), blade (25), guide board (26), circulation board (27), opening and closing plate (21) are inlayed and are fixed in the controller (23) outside, circulation board (27) block is in the controller (23) outside, rotary rod (22) are installed in controller (23) right-hand member, wind power mechanism (24) are inlayed and are fixed in rotary rod (22) right-hand member, blade (25) are installed in rotary rod (22) outside, guide board (26) are located blade (25) right-hand, controller (23) are located same central axis with wind power mechanism (24), guide board (26) are installed in backup pad (3) inboard, opening and closing plate (21) are inlayed and are fixed in backup pad (3) inboard, circulation board (27) are installed in backup pad (3) inboard.

2. The intelligent new energy automobile battery cooling fan of claim 1, wherein: guide board (26) are equipped with plane board (a), bearing ring (w), arc groove (e), atress strip(s) are inlayed and are fixed in bearing ring (w) inboard, plane board (a) are inlayed and are fixed in atress strip(s) upper end, arc groove (e) are located plane board (a) left and right sides, bearing ring (w) are installed in backup pad (3) inboard.

3. The intelligent new energy automobile battery cooling fan of claim 1, wherein: wind power mechanism (24) are equipped with dwang (t 1), exhaust fin (t 2), guide ring (t 3), connecting plate (t 4), dwang (t 1) builds in connecting plate (t 4) right side, exhaust fin (t 2) are installed in dwang (t 1) outside, guide ring (t 3) are installed in dwang (t 1) outside, connecting plate (t 4) builds in rotary rod (22) right-hand member.

4. The intelligent new energy automobile battery cooling fan of claim 3, wherein: the guide ring (t 3) is provided with a connecting rod (t 31), an annular plate (t 32) and an inclined ring (t 33), the connecting rod (t 31) penetrates through the inclined ring (t 33), the connecting rod (t 31) is embedded and fixed on the inner side of the annular plate (t 32), the connecting rod (t 31) is mounted on the outer side of a rotating rod (t 1), and the annular plate (t 32) is embedded and fixed on the side face of the connecting plate (t 4).

5. The intelligent new energy automobile battery cooling fan of claim 1, wherein: the utility model discloses a motor, including board (21) that opens and shuts, board (21) that opens and shuts is equipped with gag lever post (c 1), block ring (c 2), motor (c 3), stop plate (c 4), gag lever post (c 1) builds in inside block ring (c 2), gag lever post (c 1) and motor (c 3) screw thread fit, motor (c 3) block is inside block ring (c 2), stop plate (c 4) builds in the left and right sides of gag lever post (c 1), gag lever post (c 1) are installed in the controller (23) outside, block ring (c 2) builds in backup pad (3) inboard.

6. The intelligent new energy automobile battery cooling fan of claim 5, wherein: the blocking plate (c 4) is provided with a sponge strip (c 41), a splice plate (c 42) and an adsorption block (c 43), the sponge strip (c 41) is attached to the side face of the sponge strip (c 41), the adsorption block (c 43) is clamped on the side face of the splice plate (c 42), and the splice plate (c 42) is embedded on the left side and the right side of the limiting rod (c 1).