CN114373604B - High-frequency transformer capable of safely radiating heat - Google Patents

Abstract

The present invention relates to a high frequency transformer, and more particularly, to a high frequency transformer capable of safely dissipating heat. The invention aims to provide a high-frequency transformer capable of radiating heat, avoiding the situation that the temperature is too high and the transformer cannot work and safely radiating heat. A high-frequency transformer capable of safely radiating comprises a base, a high-frequency transformer body, a heat conducting mechanism and the like, wherein the high-frequency transformer body is installed at the top of the base, and the heat conducting mechanism is installed at the left part of the base. When the high-frequency transformer body is started to operate, the heat absorption fins absorb heat emitted by the high-frequency transformer body, the heat is led into the heat conduction mechanism to enable water to boil into hot water, the hot water is discharged into the heat dissipation mechanism, the heat dissipation mechanism conducts out the heat in the hot water, the hot water is changed into cold water, and the cold water is continuously discharged back into the heat conduction mechanism to conduct heat dissipation on the high-frequency transformer body, so that the high-frequency transformer body can be continuously dissipated, and the work is prevented from being affected by higher temperature.

Description

High-frequency transformer capable of safely radiating heat

Technical Field

The present invention relates to a high frequency transformer, and more particularly, to a high frequency transformer capable of safely dissipating heat.

Background

In power supply equipment, a high-frequency transformer is generally used, but when the high-frequency transformer operates for a long time, the high-frequency transformer can generate higher temperature, and the phenomenon that the high-frequency transformer cannot work normally or burns out easily occurs due to the higher temperature for a long time.

The chinese patent with application number CN113823492a discloses a high-frequency transformer, which comprises two boxes, the box is semi-circular structure, articulated setting between the box, be provided with the inner chamber in the box, the intercommunication is provided with in the inner chamber end wall and offsets the recess, the intercommunication is provided with the cooperation recess in the inner chamber end wall, offset recess and cooperation recess be semi-circular structure under the box state of offset each other, the box is offset and is formed complete whole round structure, both sides offset recess between the box offset and form whole round structure, this equipment can utilize the mode that the rotation was opened will conductive block and insulation board detach, and will the coil twine in the surface of conductive block to can be convenient with the electric wire of external space with the coil carries out stable electricity and is connected, the high-frequency transformer of above-mentioned patent can use, but unable cooling, the phenomenon that can't work appears easily.

The invention aims to solve the problems in the above patent, and therefore, a high-frequency transformer capable of radiating heat and avoiding the situation that the temperature is too high to work and capable of safely radiating heat is provided.

Disclosure of Invention

In order to overcome the defects that the high-frequency transformer can be used but cannot cool and dissipate heat and is easy to cause the phenomenon of incapacity of working, the invention provides the high-frequency transformer which can dissipate heat and avoid the phenomenon that the high-frequency transformer cannot work due to overhigh temperature and can safely dissipate heat.

The invention is realized by the following technical approaches:

the utility model provides a but high frequency transformer of safe heat dissipation, includes base, high frequency transformer body, heat absorption fin, heat conduction mechanism and heat dissipation mechanism, and the high frequency transformer body is installed at the base top, and heat conduction mechanism is installed to the base left part, and the interval is installed on the heat conduction mechanism and is used for carrying out radiating twenty heat absorption fins to the high frequency transformer body, and the heat dissipation mechanism that is used for leading out heat is installed at the base right part, and heat dissipation mechanism is connected with heat conduction mechanism.

Further stated, the heat conduction mechanism comprises a circular shell, an L-shaped pipe, a branch pipe and a net shell, wherein the L-shaped pipe is fixedly connected in the middle of the left part of the base in a penetrating way, the right end of the L-shaped pipe is connected with the heat dissipation mechanism, the top end of the L-shaped pipe is communicated with the branch pipe, the circular shell is fixedly connected between all tail ends of the branch pipe and is positioned in the high-frequency transformer, the outer circumference of the circular shell is connected with all heat absorption fins, the top of the circular shell is connected with the heat dissipation mechanism, and the net shell for buffering water is fixedly connected in the middle of the top of the circular shell.

Further stated, the heat dissipation mechanism comprises an L-shaped shell, heat dissipation fins and a flow guide pipe, wherein the right side of the bottom of the base is fixedly connected with the L-shaped shell, ten heat dissipation fins used for conducting out heat in water are uniformly arranged on the outer right side face of the L-shaped shell at intervals, the middle of the lower part of the left side face of the L-shaped shell is connected with the right end of the L-shaped pipe, the L-shaped shell is communicated with the inside of the L-shaped pipe, the upper part of the left side of the L-shaped shell is communicated with the flow guide pipe used for guiding water in a front-back symmetrical manner, and the tail ends of the two flow guide pipes penetrate through the top of the round shell and are positioned in the net shell.

Further, the air conditioner comprises a frame body, vertical plates, fixing strips and exhaust fans, wherein the vertical plates for providing supporting force are fixedly connected to the left side of the bottom of the base, the frame body for guiding heat is installed on the right side of the top of the base, the radiating fins are located in the frame body, the fixing strips are fixedly connected between the left side of the front side and the rear side of the frame body in an up-down symmetrical mode, the number of the upper fixing strips and the number of the lower fixing strips are two, and three exhaust fans for exhausting air into the frame body are installed between the four fixing strips at uniform intervals.

Further, the filter plate is fixedly connected with the left side in the frame along the circumferential direction, the filter plate is used for filtering impurities in the air, and the top of the filter plate is fixedly connected with the right side of the bottom of the base.

The water diversion mechanism comprises a rotating shaft, a transmission component, a fixed plate, a driving wheel, a movable rod, a one-way valve, a first spring, a guide shaft and a wind guiding wheel, wherein the one-way valve for controlling water is arranged on the left side of the L-shaped pipe, the fixed plate is fixedly connected on the left side of the bottom of the base in a front-back symmetrical way, the movable rod for driving the one-way valve to move is connected between the upper parts of the fixed plates on the front side and the back side in a sliding way in a penetrating way, the middle of the bottom of the movable rod is fixedly connected with the top of the one-way valve, the first spring is connected between the front side and the back side of the right side of the movable rod and the inner sides of the fixed plates on the front side and the back side respectively, the rotary cross-connection between the lower parts of the front and rear side fixing plates is provided with a rotating shaft, the front and rear sides of the rotating shaft are fixedly sleeved with driving wheels for driving the movable rod to move leftwards along the circumferential direction, the rotary cross-connection between the lower parts of the front and rear side surfaces of the frame is provided with a guide shaft, three wind guide wheels are arranged on the guide shaft at intervals along the circumferential direction, a transmission assembly is connected between the front and rear sides of the guide shaft and the front and rear sides of the rotating shaft respectively, the transmission assembly consists of two belt pulleys and a flat belt, one belt pulley is fixedly sleeved on the rotating shaft, the other belt pulley is fixedly sleeved on the guide shaft, and the flat belt is wound between the two belt pulleys.

Further, the filter plate impurity removing device comprises a removing mechanism for removing impurities on the filter plate, the removing mechanism comprises a u-shaped plate, brush rollers, gears, racks and second springs, the u-shaped plate is connected between the front side and the rear side of the left side of the filter plate in an embedded sliding mode, the driving wheels are in reverse rotation and contact with the u-shaped plate, the second springs are connected between the right parts of the front side and the rear side of the bottom of the u-shaped plate and the inner side of the filter plate, the brush rollers for removing the impurities on the filter plate are connected between the front side and the rear side of the u-shaped plate in a rotating mode in a penetrating mode, the brush rollers are in contact with the filter plate, the front side and the rear side of the brush rollers are fixedly connected with the gears, the gears are located on the two sides of the u-shaped plate, the front side and the rear side of the left side of the frame are fixedly connected with the racks for driving the gears to rotate positively and negatively alternately, and the racks are meshed with the gears.

Further illustratively, the latticed shell is made of stainless steel.

The invention has the remarkable advantages that:

1. when the high-frequency transformer body starts to operate, the heat absorption fins absorb heat emitted by the high-frequency transformer body, the heat is led into the heat conduction mechanism to enable water to boil into hot water, the hot water is discharged into the heat dissipation mechanism, the heat in the hot water is led out by the heat dissipation mechanism to be changed into cold water, and the cold water is continuously discharged back into the heat conduction mechanism to dissipate heat of the high-frequency transformer body, so that the high-frequency transformer body can be continuously cooled, and the work is prevented from being influenced by higher temperature.

2. Under the effect of guiding mechanism, can make the interior hot water intermittent type of L type pipe discharge in the L type shell cooled down, so, can avoid hot water to discharge in the L type shell all the time to influence refrigerated efficiency.

3. Under the effect of the clearing mechanism, when the flow guiding mechanism is started, the flow guiding mechanism operates to drive the clearing mechanism to operate, and the clearing mechanism operates to clear impurities on the filter plate, so that a large amount of impurities remained on the filter plate can be prevented from affecting the air suction.

Drawings

Fig. 1 is a schematic perspective view of a first embodiment of the present invention.

Fig. 2 is a schematic perspective view of a second embodiment of the present invention.

Fig. 3 is a schematic perspective view of a third embodiment of the present invention.

Fig. 4 is an enlarged schematic view of the portion a of the present invention.

FIG. 5 is an enlarged schematic view of section B of the present invention.

Fig. 6 is a schematic view of a first partially cut-away structure of the present invention.

FIG. 7 is an enlarged schematic view of section C of the present invention.

Fig. 8 is a schematic view of a second partially cut-away structure of the present invention.

Fig. 9 is a schematic view of a third partial cross-sectional structure of the present invention.

Fig. 10 is an enlarged schematic view of the portion D of the present invention.

Fig. 11 is a schematic view of a partial perspective structure of the present invention.

Reference numerals in the figures: the high-frequency transformer comprises a 1-base, a 2-high-frequency transformer body, 3-heat absorption fins, 4-heat conduction mechanisms, 41-round shells, 42-L-shaped pipes, 43-branch pipes, 44-net shells, 5-heat dissipation mechanisms, 51-L-shaped shells, 52-heat dissipation fins, 53-flow guide pipes, 6-frame bodies, 61-vertical plates, 7-fixing strips, 8-exhaust fans, 9-net plates, 10-filter plates, 11-flow guide mechanisms, 111-rotating shafts, 112-transmission assemblies, 113-fixing plates, 114-driving wheels, 115-movable rods, 116-one-way valves, 117-first springs, 118-guide shafts, 119-wind guide wheels, 12-cleaning mechanisms, 121-u-shaped plates, 122-brush rollers, 123-gears, 124-racks and 125-second springs.

Detailed Description

The invention is further elucidated below in connection with the drawings of the description, and embodiments of the invention are given in connection with the drawings of the description.

Example 1

The utility model provides a but high frequency transformer of safe heat dissipation, including base 1, high frequency transformer body 2, heat absorption fin 3, heat conduction mechanism 4 and heat dissipation mechanism 5, please refer to fig. 1, fig. 2, fig. 3, fig. 8, fig. 9 and fig. 10 and show, high frequency transformer body 2 is installed at base 1 top, heat conduction mechanism 4 is installed to base 1 left portion, twenty heat absorption fin 3 are installed to the interval on the heat conduction mechanism 4, when the continuous operation of high frequency transformer body 2, heat absorption fin 3 can realize the heat dissipation to high frequency transformer body 2, heat dissipation mechanism 5 is installed to base 1 right part, heat dissipation mechanism 5 is connected with heat conduction mechanism 4, when heat dissipation mechanism 5 operates, heat dissipation mechanism 5 can realize deriving the heat.

The heat conducting mechanism 4 includes a circular shell 41, an L-shaped tube 42, a branch tube 43 and a net shell 44, as shown in fig. 1, 2, 3, 8, 9 and 10, the middle of the left part of the base 1 is connected with the L-shaped tube 42 in a penetrating way through welding, the right end of the L-shaped tube 42 is connected with the heat dissipating mechanism 5, the top end of the L-shaped tube 42 is communicated with the branch tube 43, the circular shell 41 is installed between all the tail ends of the branch tube 43 in a welding way, the circular shell 41 is located in the high-frequency transformer body 2, the outer side of the circular shell 41 is circumferentially connected with all the heat absorbing fins 3, the top of the circular shell 41 is connected with the heat dissipating mechanism 5, the net shell 44 is fixedly connected in the middle of the inner top of the circular shell 41, when water is discharged into the net shell 44, the net shell 44 can buffer the water, the net shell 44 is made of stainless steel, the stainless steel is not easy to rust, and the service life can be prolonged.

The heat dissipation mechanism 5 comprises an L-shaped shell 51, heat dissipation fins 52 and a flow guide pipe 53, as shown in fig. 1 and 8, the right side of the bottom of the base 1 is provided with the L-shaped shell 51 in a welding connection manner, the right side surface of the outer side of the L-shaped shell 51 is provided with ten heat dissipation fins 52 at equal intervals, the heat dissipation fins 52 can realize the heat dissipation in water, the middle of the lower part of the left side surface of the L-shaped shell 51 is connected with the right end of the L-shaped tube 42, the L-shaped shell 51 is communicated with the inside of the L-shaped tube 42, the flow guide pipes 53 are symmetrically communicated front and back at the upper part of the left side of the L-shaped shell 51, the flow guide pipes 53 can guide water, and the tail ends of the two flow guide pipes 53 penetrate through the top of the round shell 41 and are positioned in the net shell 44.

At first, the heat conducting mechanism 4 and the heat radiating mechanism 5 are both internally provided with a proper amount of water, when the high-frequency transformer body 2 starts to continuously operate, the temperature of the high-frequency transformer body 2 rises, the high-frequency transformer body 2 also emits heat, the heat absorbing fins 3 absorb the emitted heat into the heat conducting mechanism 4, the heat is absorbed and radiates the high-frequency transformer body 2, meanwhile, the heat enables the water in the heat conducting mechanism 4 to boil into hot water, the hot water is discharged into the heat radiating mechanism 5, the heat in the hot water is led out by the heat radiating mechanism 5, the temperature of the water from which the heat is led out is reduced, the water after the temperature is reduced is discharged back into the heat conducting mechanism 4, the water continuously absorbs the heat, the heat generated by the operation of the high-frequency transformer body 2 is repeatedly radiated, the high-frequency transformer body 2 is safely radiated, and the temperature of the high-frequency transformer body 2 is also reduced. When the high-frequency transformer body 2 is closed, the high-frequency transformer body 2 stops radiating heat, the heat absorption fins 3 stop sucking the heat, the water in the heat conduction mechanism 4 stops boiling, the water in the heat conduction mechanism 4 stops flowing, and the water in the heat dissipation mechanism 5 also stops flowing.

Initially, the circular shell 41, the L-shaped pipe 42 and the branch pipe 43 are all filled with a proper amount of water, when the high-frequency transformer body 2 is started, the heat absorbing fins 3 absorb heat emitted by the high-frequency transformer body 2, the absorbed heat is discharged into the circular shell 41, the temperature of the water is increased, along with the temperature increase, the water is changed into hot water due to temperature boiling, the hot water is discharged into the branch pipe 43, the hot water in the branch pipe 43 is discharged into the L-shaped pipe 42, the hot water in the L-shaped pipe 42 is discharged into the heat radiating mechanism 5, the heat radiating mechanism 5 guides out the heat in the hot water, after the heat is guided out, the water is changed into cold water, the heat radiating mechanism 5 discharges the cold water back into the net shell 44, the water is contacted with the net shell 44, the water is buffered by the net shell 44, the buffered water continuously falls into the circular shell 41 to absorb the heat, and the absorbed heat can be continuously circularly flowed, and the absorbed heat is guided out, and the high-frequency transformer body 2 is safely radiated. When the high-frequency transformer body 2 is turned off, the high-frequency transformer body 2 stops radiating heat, the water in the circular case 41 does not boil, and the water stops flowing and is discharged into the heat radiating mechanism 5.

When the high-frequency transformer body 2 is started, the absorbed heat enables water in the circular shell 41 to boil into hot water, the hot water in the L-shaped tube 42 is discharged into the L-shaped shell 51, the temperature of the L-shaped shell 51 is increased, the heat on the L-shaped shell 51 is led out by the heat dissipation fins 52, the heat in the hot water is led out, the water is changed into cold water along with the heat leading out, the cold water is discharged into the guide tube 53, the water in the guide tube 53 is discharged into the net shell 44, the net shell 44 buffers the water, the buffered water falls into the circular shell 41, and the operation is repeated, so that the heat leading out in the hot water is continuously changed into cold water to be continuously discharged back into the circular shell 41 for continuous use. When the high-frequency transformer body 2 is turned off, the high-frequency transformer body 2 stops radiating heat, the water in the circular case 41 stops boiling, the water also stops draining into the L-shaped case 51, and the water stops flowing.

Example 2

On the basis of embodiment 1, still include framework 6, riser 61, fixed strip 7 and air discharge fan 8, please refer to fig. 1, fig. 2, fig. 3 and fig. 6, riser 61 is installed through welded connection's mode in the bottom left side of base 1, riser 61 can realize providing holding power, framework 6 is installed on the top right side of base 1, fin 52 is located framework 6, framework 6 can realize carrying out the water conservancy diversion to the heat, fixed strip 7 is installed through welded connection's mode from top to bottom symmetry between the left side of both sides face around in the framework 6, the quantity of upside fixed strip 7 and downside fixed strip 7 is two, install three air discharge fan 8 evenly spaced between four fixed strips 7, when air discharge fan 8 starts, air discharge fan 8 can realize discharging the air into in the framework 6.

Still including otter board 9 and filter 10, please see fig. 1 and 3 and show, otter board 9 is installed to upper portion in the framework 6 through welded connection's mode along circumference, and otter board 9 can realize blockking the debris that drops, and filter 10 is installed through welded connection's mode along circumference in the framework 6 left side, and filter 10 can realize filtering the impurity in the air, and filter 10 top and base 1 bottom right side fixed connection.

When the high-frequency transformer body 2 is started, the exhaust fan 8 can be started, the exhaust fan 8 rotates to suck outside air into the frame body 6, the air in the frame body 6 blows on the radiating fins 52 and the L-shaped shell 51, the air also discharges heat conducted by the radiating fins 52 out of the frame body 6, the air flow can radiate the radiating fins 52 and the L-shaped shell 51, and the L-shaped shell 51 and the radiating fins 52 are radiated so that hot water can be cooled more quickly. When the high-frequency transformer body 2 is closed, the exhaust fan 8 is turned off, and the exhaust fan 8 stops sucking outside air into the frame 6. Thus, the higher temperature of the heat dissipation fins 52 and the L-shaped shell 51 can be prevented from influencing the cooling efficiency of water.

When the exhaust fan 8 is started, external air is pumped into the frame body 6 by the exhaust fan 8, the filter plate 10 filters impurities in the air, the air after the impurities are filtered is pumped into the frame body 6 to radiate the radiating fins 52 and the L-shaped shell 51, and when the air is discharged from the frame body 6, the air passes through the screen plate 9, so that the screen plate 9 can prevent the foreign impurities from falling into the frame body 6 to influence the flow of the air. Thus, the impurities in the air can be prevented from remaining on the heat radiation fins 52 to affect the use, and the foreign matters can be prevented from falling into the frame 6 to affect the air flow.

Example 3

On the basis of embodiment 1 and embodiment 2, the utility model also includes guiding mechanism 11, guiding mechanism 11 includes pivot 111, drive assembly 112, fixed plate 113, drive wheel 114, movable rod 115, check valve 116, first spring 117, guiding axle 118 and inducer 119, please refer to fig. 1, fig. 2, fig. 3, fig. 4, fig. 6, fig. 9, fig. 10 and fig. 11, the check valve 116 is installed on the left side of L-shaped tube 42, the control is carried out to the water in the L-shaped tube 42 to the check valve 116, the fixed plate 113 is installed to the left side front and back symmetry of base 1 through welded connection's mode, the cross-under of sliding type between the fixed plate 113 of front and back both sides is equipped with movable rod 115, the middle of movable rod 115 and the top fixed connection of check valve 116, when movable rod 115 removes, be connected with first spring 117 between the inside of fixed plate 113 of front and back both sides respectively, the rotor 111 has pivot 111 to rotate both sides 111 between the fixed plate 113 lower part of front and back sides, the drive wheel assembly is equipped with two parallel pulley 118 around two fixed shaft assembly on the drive wheel 114, two guide pulley 118 are equipped with two parallel and two sides of the same sides, two drive wheel assembly is equipped with two drive pulley 118 are equipped with two parallel and a fixed connection between the drive wheel 118 around the drive axle 118 when the fixed shaft is equipped with two fixed shaft 112, two parallel and the drive pulley 118, two sides are equipped with two parallel drive pulley assembly is equipped with two parallel drive pulley 118, two parallel drive shafts are equipped with two parallel drive shafts 118, and one of drive pulley 118 is equipped with a parallel and fixed between the drive pulley is equipped with a drive axle 116 is equipped with a parallel drive axle.

The filter plate 10 is characterized by further comprising a cleaning mechanism 12, the cleaning mechanism 12 comprises a u-shaped plate 121, a brush roller 122, a gear 123, a rack 124 and a second spring 125, as shown in fig. 1, 3, 5, 6 and 7, the u-shaped plate 121 is connected between the front side and the rear side of the left side of the filter plate 10 in an embedded sliding manner, when the driving wheel 114 rotates reversely, the driving wheel 114 can drive the u-shaped plate 121 to move upwards, the second spring 125 is connected between the right part of the front side and the rear side of the bottom of the u-shaped plate 121 and the inner side of the filter plate 10, the brush roller 122 is connected with the filter plate 10 in a rotating manner, when the brush roller 122 moves up and down, the brush roller 122 can clean impurities on the filter plate 10, the rack 123 is arranged on the front side and the rear side of the brush roller 122 in a welding manner, the rack 124 is arranged on the front side and the rear side of the left side of the filter plate 121 in a welding manner, the rack 124 is meshed with the gear 123, and when the rack 123 moves up and down, the rack 124 can drive the gear 123 to rotate alternately.

When the exhaust fan 8 pumps air into the frame 6, the air contacts with the air guide wheel 119, the air flows to drive the air guide wheel 119 to rotate reversely, the air guide wheel 119 rotates reversely to drive the guide shaft 118 to rotate reversely, the guide shaft 118 rotates reversely to drive the transmission assembly 112 to rotate reversely to drive the rotating shaft 111 to rotate reversely, the rotating shaft 111 rotates reversely to drive the driving wheel 114 to rotate reversely, when the driving wheel 114 rotates reversely to contact with the movable rod 115, the driving wheel 114 drives the movable rod 115 to move leftwards, the first spring 117 is stretched, the movable rod 115 moves leftwards to drive the one-way valve 116 to move leftwards, so that hot water in the L-shaped tube 42 is discharged into the L-shaped shell 51, when the driving wheel 114 rotates reversely to be out of contact with the movable rod 115, the movable rod 115 moves rightwards to drive the one-way valve 116 to move rightwards under the action of the first spring 117, and the one-way valve 116 resets to block hot water in the L-shaped tube 42, so repeatedly, when the driving wheel 114 rotates reversely to contact with the movable rod 115, the one-way valve 116 moves leftwards to not block the hot water, and the hot water is discharged into the L-shaped shell 51 to be cooled. When the exhaust fan 8 is closed, air stops being discharged into the frame 6, the air stops driving the wind guide wheel 119 to rotate reversely, the wind guide wheel 119 stops driving the guide shaft 118 to rotate reversely, the guide shaft 118 stops driving the rotating shaft 111 to rotate reversely through the transmission assembly 112, the rotating shaft 111 stops driving the driving wheel 114 to rotate reversely, and the movable rod 115 also stops driving the one-way valve 116 to move left and right. In this way, hot water is intermittently discharged into the L-shaped shell 51 to be cooled, and the effect that the cooling efficiency is affected by the fact that the hot water is always discharged into the L-shaped shell 51 is avoided.

When the exhaust fan 8 pumps air into the frame 6, the air drives the air guide wheel 119 to rotate reversely, so that the rotating shaft 111 drives the driving wheel 114 to rotate reversely, when the driving wheel 114 rotates reversely to contact the u-shaped plate 121, the driving wheel 114 drives the u-shaped plate 121 to move upwards, the second spring 125 is stretched, the u-shaped plate 121 moves upwards to drive the brush roller 122 to move upwards, the brush roller 122 moves upwards to clean impurities on the filter plate 10, meanwhile, the brush roller 122 moves upwards to drive the gear 123 to move upwards, the gear 123 moves upwards to rotate forwards through the rack 124, the gear 123 rotates forwards to drive the brush roller 122 to rotate forwards, the brush roller 122 rotates forwards to clean impurities on the filter plate 10 better, and when the driving wheel 114 continues to rotate reversely to be in contact with the u-shaped plate 121, the u-shaped plate 121 moves downwards to reset to drive the brush roller 122 to move downwards due to the action of the second spring 125, the gear 123 moves downwards to drive the brush roller 123 to rotate reversely through the rack 124, the gear 123 rotates reversely to drive the brush roller 122, and the brush roller 122 rotates reversely to clean impurities on the filter plate 10 again, and repeatedly, so that the impurities on the filter plate 10 can be cleaned up and down continuously. When the driving wheel 114 stops reversing, the u-shaped plate 121 also stops moving, and the brush roller 122 also stops moving. In this way, a large amount of impurities remaining on the filter plate 10 can be prevented from affecting the suction of air.

Finally, it is necessary to state that: the foregoing is provided to assist in understanding the technical solutions of the present invention, and is not to be construed as limiting the scope of protection of the present invention; insubstantial modifications and variations from the above teachings are within the scope of the invention as claimed.

Claims (3)

1. The utility model provides a but high frequency transformer of safe heat dissipation, including base (1), high frequency transformer body (2) and heat absorption fin (3), high frequency transformer body (2) are installed at base (1) top, the quantity of heat absorption fin (3) is twenty, heat absorption fin (3) are used for carrying out the heat dissipation to high frequency transformer body (2), characterized by, still include heat conduction mechanism (4) and cooling mechanism (5), heat conduction mechanism (4) are installed in base (1) left part, heat conduction mechanism (4) and twenty heat absorption fin (3) fixed connection, heat dissipation mechanism (5) that are used for deriving the heat are installed at base (1) right part, heat dissipation mechanism (5) are connected with heat conduction mechanism (4);

the heat conduction mechanism (4) comprises a circular shell (41), an L-shaped pipe (42), a branch pipe (43) and a net shell (44), wherein the L-shaped pipe (42) is fixedly connected in the middle of the left part of the base (1), the right end of the L-shaped pipe (42) is connected with the heat dissipation mechanism (5), the top end of the L-shaped pipe (42) is communicated with the branch pipe (43), the circular shell (41) is fixedly connected between all tail ends of the branch pipe (43), the circular shell (41) is positioned in the high-frequency transformer body (2), the outer circumference of the circular shell (41) is connected with all heat absorption fins (3), the top of the circular shell (41) is connected with the heat dissipation mechanism (5), and the net shell (44) used for buffering water is fixedly connected in the middle of the top in the circular shell (41);

the heat dissipation mechanism (5) comprises an L-shaped shell (51), heat dissipation fins (52) and flow guide pipes (53), wherein the right side of the bottom of the base (1) is fixedly connected with the L-shaped shell (51), ten heat dissipation fins (52) used for guiding out heat in water are uniformly arranged on the outer right side surface of the L-shaped shell (51) at intervals, the middle of the lower part of the left side surface of the L-shaped shell (51) is connected with the right end of the L-shaped pipe (42), the L-shaped shell (51) is communicated with the inside of the L-shaped pipe (42), the flow guide pipes (53) used for guiding water are symmetrically communicated front and back at the upper part of the left side of the L-shaped shell (51), and the tail ends of the two flow guide pipes (53) penetrate through the top of the round shell (41) and are positioned in the net shell (44);

the heat-conducting air conditioner is characterized by further comprising a frame body (6), vertical plates (61), fixing strips (7) and air discharge fans (8), wherein the vertical plates (61) used for providing supporting force are fixedly connected to the left side of the bottom of the base (1), the frame body (6) used for conducting heat is arranged on the right side of the top of the base (1), the heat-conducting fins (52) are located in the frame body (6), the fixing strips (7) are fixedly connected between the left sides of the front side and the rear side of the frame body (6) in an up-down symmetrical mode, the number of the upper fixing strips (7) and the number of the lower fixing strips (7) are two, and three air discharge fans (8) used for discharging air into the frame body (6) are evenly arranged between the four fixing strips (7) at intervals;

the filter plate (10) is fixedly connected with the left side in the frame body (6) along the circumferential direction and is used for filtering impurities in the air, and the top of the filter plate (10) is fixedly connected with the right side of the bottom of the base (1);

the water diversion device is characterized by further comprising a diversion mechanism (11) for controlling water, wherein the diversion mechanism (11) comprises a rotating shaft (111), a transmission assembly (112), a fixed plate (113), a driving wheel (114), a movable rod (115), a one-way valve (116), a first spring (117), a guide shaft (118) and a wind guide wheel (119), the one-way valve (116) for controlling water is arranged on the left side of the L-shaped tube (42), the fixed plate (113) is fixedly connected on the left side of the bottom of the base (1) in a front-back symmetrical manner, a movable rod (115) for driving the one-way valve (116) to move is connected between the bottom of the movable rod (115) and the top of the one-way valve (116), the first spring (117) is connected between the front side and the rear side of the right side of the movable rod (115) and the inner side of the front-back side fixed plate (113), the rotating shaft (111) is connected between the lower parts of the front-back side fixed plate (113) in a rotary manner, and the rotating shaft (111) is connected between the lower parts of the front-back side fixed plate (113)

The front side and the rear side are fixedly sleeved with driving wheels (114) for driving the movable rods (115) to move leftwards along the circumferential direction, guide shafts (118) are rotatably connected between the lower parts of the front side and the rear side in the frame body (6) in a penetrating manner, three wind guide wheels (119) are arranged on the guide shafts (118) at intervals along the circumferential direction, transmission assemblies (112) are connected between the front side and the rear side of the guide shafts (118) and the front side and the rear side of the rotating shaft (111) respectively, the transmission assemblies (112) consist of two belt pulleys and a flat belt, one belt pulley is fixedly sleeved on the rotating shaft (111), the other belt pulley is fixedly sleeved on the guide shafts (118), and the flat belt is wound between the two belt pulleys.

2. The high-frequency transformer capable of safely radiating according to claim 1, further comprising a removing mechanism (12) for removing impurities on the filter plate (10), wherein the removing mechanism (12) comprises a u-shaped plate (121), a brush roller (122), a gear (123), a rack (124) and a second spring (125), the u-shaped plate (121) is connected between the front side and the rear side of the left side of the filter plate (10) in an embedded sliding manner, the driving wheel (114) is reversely contacted with the u-shaped plate (121), the second spring (125) is connected between the right part of the front side and the rear side of the bottom of the u-shaped plate (121) and the inner side of the filter plate (10), a brush roller (122) for removing impurities on the filter plate (10) is connected between the front side and the rear side of the u-shaped plate (121) in a rotating manner, the brush roller (122) is contacted with the filter plate (10), the front side and the rear side of the brush roller (122) are fixedly connected with the gear (123), the gear (123) are positioned on the two sides of the left side and the front side and the rear side of the frame (6) are fixedly connected with the rack (124) for driving the gear (123) to alternately rotate, and the rack (123) is meshed with the gear (124).

3. A high frequency transformer capable of safely dissipating heat as claimed in claim 1, wherein the mesh shell (44) is made of stainless steel.