CN120879376B - Electric energy quality control device based on gallium nitride application - Google Patents

Abstract

The invention belongs to the technical field of electric energy quality control equipment, and particularly discloses an electric energy quality control device based on gallium nitride application, which comprises a shell, wherein a cooling module is arranged in the shell, a connecting window is arranged on one side of the shell, a detachable baffle is arranged on the surface of the shell and used for shielding the connecting window, the cooling module is arranged to enable the cooling module to perform good heat dissipation on the inside of the shell under the action of the cooling module, a good working environment is provided for devices in the shell, materials can be reduced due to the arrangement of a support frame, the supporting strength can be improved due to the honeycomb arrangement of the support frame, the use cost can be reduced due to the arrangement of the support frame, a top plate can absorb heat generated in the working process of an electric element of a gallium nitride component, the heat is dissipated through a heat conducting block and a filler, and in the process, the cooling liquid can dissipate the absorbed heat through the heat conducting pipe, and the flow of the cooling liquid is carried out.

Description

Electric energy quality control device based on gallium nitride application

Technical Field

The invention belongs to the technical field of power quality control equipment, and particularly discloses a power quality control device based on gallium nitride application.

Background

The application of ‌ gallium nitride (GaN) in power quality treatment is mainly embodied in power electronic equipment, particularly improvement of a switching power supply and a power semiconductor device, so that the power conversion efficiency and stability are improved, gallium nitride is used as a wide forbidden band semiconductor material, has high electron mobility, high breakdown electric field and fast switching characteristics, is excellent in high-frequency, high-efficiency and high-temperature power electronic equipment, and is a device for improving the power quality in a power supply system, and various power quality problems in the power system, such as voltage fluctuation, current harmonic wave, voltage sag/surge and the like, can be detected and corrected. The following is a common outdoor power quality management module, including power quality monitoring, filters, voltage regulators, power factor correction, over/under voltage protection, and data recording and communication.

The current electric energy quality control device generates a large amount of heat in the use process due to the working process of internal devices, although gallium nitride has the high temperature resistance, the gallium nitride can stably work in a high temperature environment, the devices of gallium nitride components obviously reduce the volume and weight of passive devices, and the overall efficiency of the system is improved, but meanwhile, the high-frequency work also brings higher heat generation, and an effective heat dissipation solution is needed to ensure the stable operation of equipment and prolong the service life. ‌ A

Disclosure of Invention

In view of the above, the technical problem to be solved by the present invention is to provide a power quality control device based on gallium nitride application, so as to solve the problem of poor heat dissipation effect in the prior art.

In order to achieve the above purpose, the invention provides an electric energy quality control device based on gallium nitride application, which comprises a shell, wherein a cooling module is arranged in the shell, a connecting window is arranged on one side of the shell, a detachable baffle is arranged on the surface of the shell, and the baffle is used for shielding the connecting window;

the cooling module comprises a connecting shell fixedly connected with the inner wall of the shell, one side of the connecting shell is fixedly connected with a connecting block, the other side of the connecting block is embedded with a controller, a groove is formed in the surface of the connecting block, a cooling component is arranged in the connecting shell, a connecting cavity is formed in the connecting block, two symmetrically distributed installation cavities are formed in the connecting cavity, a fan is arranged in the installation cavity, an air inlet groove communicated with the installation cavity is formed in the surface of the connecting block, an exhaust groove which is uniformly distributed and communicated with the outside is formed in the inner wall of the installation cavity, an auxiliary component is arranged in the connecting cavity, and two symmetrically distributed connection components are arranged on the other side of the connecting block.

In the above technical scheme, preferably, the cooling assembly comprises a mounting block fixedly connected to the top of the connecting shell, the top of the mounting block is fixedly connected with a top plate, the top plate is an aluminum metal material member, uniformly distributed connecting grooves are formed in the top of the mounting block, and heat conducting blocks are filled in the connecting grooves.

In the above technical scheme, preferably, the inside of coupling shell is provided with the support frame, the support frame is honeycomb setting, evenly distributed's connecting hole and water guide hole have been seted up to the surface of support frame, the inside of installation piece is provided with evenly distributed's heat pipe, the upper end and the spread groove of heat pipe are linked together, the inside of heat pipe is provided with the filler, filler and heat pipe are heat conduction silicone grease material component, the lower extreme of heat pipe extends to the inside of support frame.

In the above technical scheme, preferably, one side of coupling housing communicates there is inlet tube and outlet pipe, the other end of inlet tube and outlet pipe all communicates there is the connecting pipe, the other end and the coupling assembling of connecting pipe are linked together, one of them the middle part of connecting pipe is provided with the fixed block, the butt joint chamber that is linked together with the connecting pipe has all been seted up at the both ends of fixed block, and the inside of this connecting pipe is provided with water flow sensor, the top fixedly connected with butt joint piece of fixed block, the quantity is two and respectively in the surface of butt joint piece the connecting channel that the butt joint chamber is linked together is seted up.

In the above technical scheme, preferably, the upper end of the butt joint block extends to the inside of the groove and is in threaded connection with the separation shell, the inner wall of the separation shell is fixedly connected with the filter cartridge, the bottom of the filter cartridge is communicated with the ingress pipe, the other end of the ingress pipe is communicated with one of the connecting channels, and the bottom of the separation shell is provided with a drain hole communicated with the other connecting channel.

In the above technical scheme, preferably, the top of the other connecting pipe is communicated with a fixed pipe, the upper end of the fixed pipe is communicated with a storage shell, the inner wall of the storage shell is slidably connected with an adjusting plate, and a first spring is fixedly connected between the top of the adjusting plate and the inner wall of the storage shell.

In the above technical scheme, preferably, the auxiliary assembly is including setting up in the water pump of connecting the intracavity portion, the play water end of water pump all communicates with the end of intaking has the honeycomb duct, the honeycomb duct is serpentine and distributes, the other end intercommunication of honeycomb duct has the regulation shell, the regulation shell runs through the connecting pipe and is linked together in the connecting pipe, the through-hole that is two and is used for the connecting pipe intercommunication is seted up to the surface of regulation shell quantity.

In the above technical scheme, preferably, the inner wall sliding connection of adjusting the shell has the regulating block, the through-hole that sets up with connecting pipe coaxial center is seted up to the surface of regulating block, the leading-in passageway has been seted up on the surface of regulating block, the one end opening of leading-in passageway sets up with adjusting the coaxial center of shell, the other end opening of leading-in passageway is located the side of regulating block, the inner wall fixedly connected with solid fixed ring of adjusting the shell, solid fixed ring and gu fixedly connected with third spring between the regulating block, the inside of adjusting the shell is provided with the electro-magnet that is located solid fixed ring below, the regulating block is magnetic metal material component.

In the above technical scheme, preferably, the coupling assembling includes the installation pipe that is linked together with the connecting pipe, the installation pipe is kept away from the other end inner wall fixedly connected with butt joint pipe of installation pipe, the inner wall of butt joint pipe is provided with the internal thread, the inner wall fixedly connected with fixed plate of installation pipe, evenly distributed's limbers have been seted up on the surface of fixed plate, the guide bar between fixed plate and the butt joint pipe, the fixed plate is run through to the other end of guide bar, the other end fixedly connected with of guide bar is used for the shutoff to take over inside shutoff piece, fixedly connected with second spring between shutoff piece and the fixed plate.

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

1. Through setting up cooling module, can make it carry out good heat dissipation to the inside of shell under cooling module's effect, provide good operational environment for the device of inside, and because the setting of support frame can reduce the material of use and the honeycomb setting can improve the supporting strength, the setting of support frame can reduce use cost moreover, the roof can absorb the heat that produces in the electrical components working process of gallium nitride component, and give off through the heat conduction pipe through heat conduction piece and filler, at this in-process, the coolant liquid can dispel the heat to the heat conduction pipe and take out the flow of absorptive heat through the coolant liquid.

2. The cooling module is arranged to be in direct contact with a heat source of the gallium nitride device, heat resistance is minimized, a heat soaking layer is used for rapidly eliminating hot spots, a main heat dissipation layer is used for providing a large heat dissipation area, high-frequency and high-power potential of the gallium nitride device can be fully released, design with higher power density is allowed, space utilization rate is extremely high, and the volume of a heat dissipation system is remarkably reduced.

3. Through setting up auxiliary assembly, can be under auxiliary assembly's effect under the condition that does not have external coolant liquid to supply, can change the flow direction of coolant liquid through the position that changes the regulating block, make it change from external cooling into built-in circulation, make it can not excessively rely on external cooling can utilize built-in circulation's mode cooperation fan to carry out forced circulation, can make the device be applicable to under the environment of difference, improved the application scope of device.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a schematic view of a baffle plate of the present invention;

FIG. 3 is a schematic illustration of the connection block and the connection housing of the present invention;

FIG. 4 is a schematic cross-sectional view of a connection housing of the present invention;

FIG. 5 is a schematic diagram showing the connection of the support frame and the heat pipe according to the present invention;

FIG. 6 is a schematic flow diagram of a cooling fluid in a support frame according to the present invention;

FIG. 7 is a schematic diagram of the connection block of the present invention;

FIG. 8 is a schematic diagram illustrating the connection of the auxiliary assembly to the connecting tube according to the present invention;

FIG. 9 is a schematic view of a connection assembly according to the present invention;

FIG. 10 is a schematic diagram showing the connection of the auxiliary assembly to the connecting tube according to the present invention;

FIG. 11 is a schematic diagram showing the connection of the separation shell and the connection tube according to the present invention.

The device comprises a housing 1, a casing 2, a cooling module 201, a connecting block 202, a connecting shell 203, a top plate 204, a mounting block 205, an air inlet slot 206, a controller 207, a heat conducting block 208, a supporting frame 209, a connecting hole 210, a water conducting hole 211, a heat conducting pipe 212, a water inlet pipe 213, a water outlet pipe 214, a fan 215, a mounting cavity 216, an air exhaust slot 217, a connecting cavity 218, an inlet pipe 219, a butt joint block 220, a filter cartridge 221, a water outlet hole 222, a connecting channel 223, a fixing block 224, a butt joint cavity 225, a storage shell 226, a first spring 227, an adjusting plate 228, a fixing pipe 229, a separating shell 230, a connecting pipe 231, a water flow sensor 21, a connecting assembly 2101, a mounting pipe 2102, a fixing plate 2103, a second spring 2104, a butt joint pipe 2105, a blocking block 2106, a guide rod 22, an auxiliary assembly 2201, an adjusting shell 2202, an electromagnet 2203, a fixing ring 2204, an adjusting block 2205, a guide pipe 2206, a guide pipe 2208, a water pump 2209, a water inlet hole 2209 and a water pump 2209.

Detailed Description

In order that the above-recited objects, features and advantages of the present invention will be more clearly understood, a more particular description of the invention will be rendered by reference to the appended drawings and appended detailed description.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be practiced in other ways than as described herein, and therefore the present invention is not limited to the specific embodiments disclosed below.

The electric energy quality control device based on gallium nitride application as shown in fig. 1-11 comprises a shell 1, wherein a cooling module 2 is arranged in the shell 1, a connecting window is arranged on one side of the shell 1, a detachable baffle 3 is arranged on the surface of the shell 1, and the baffle 3 is used for shielding the connecting window;

The cooling module 2 comprises a connecting shell 202 fixedly connected to the inner wall of the shell 1, one side of the connecting shell 202 is fixedly connected with a connecting block 201, a controller 206 is embedded and installed on the other side of the connecting block 201, a groove is formed in the surface of the connecting block 201, a cooling component is arranged in the connecting shell 202, a connecting cavity 217 is formed in the connecting block 201, two symmetrically distributed mounting cavities 215 are formed in the connecting cavity 217, a fan 214 is arranged in the mounting cavities 215, air inlet grooves 205 communicated with the mounting cavities 215 are formed in the surface of the connecting block 201, air exhaust grooves 216 which are uniformly distributed and communicated with the outside are formed in the inner wall of the mounting cavities 215, auxiliary components 22 are arranged in the connecting cavities 217, and two connecting components 21 are arranged on the other side of the connecting block 201.

Outside air can be introduced into the inside of the connection chamber 217 through the air inlet slot 205 by activating the blower 214 and discharged through the air outlet slot 216.

As shown in fig. 1-11, the cooling assembly comprises a mounting block 204 fixedly connected to the top of a connecting shell 202, a top plate 203 is fixedly connected to the top of the mounting block 204, the top plate 203 is an aluminum metal material member, uniformly distributed connecting grooves are formed in the top of the mounting block 204, and heat conducting blocks 207 are filled in the connecting grooves.

The inside of coupling shell 202 is provided with support frame 208, and support frame 208 is the honeycomb setting, and evenly distributed's connecting hole 209 and water guide hole 210 have been seted up on the surface of support frame 208, and the inside of installation piece 204 is provided with evenly distributed's heat pipe 211, and the upper end and the spread groove of heat pipe 211 are linked together, and the inside of heat pipe 211 is provided with the filler, and filler and heat pipe 207 are heat conduction silicone grease material component, and the lower extreme of heat pipe 211 extends to the inside of support frame 208.

Through leading-in coolant liquid to the inside of coupling housing 202, the coolant liquid can flow in coupling housing 202's inside through connecting hole 209 and water guide hole 210, and specific flow direction see fig. 6, and the setting of support frame 208 can reduce the material that uses and the honeycomb setting can improve the support intensity, roof 203 can absorb the heat that the electrical components of gallium nitride component produced in the course of working to distribute through heat pipe 211 through heat conduction block 207 and filler, in this process, the coolant liquid can dispel the heat to heat pipe 211 and take out the heat of absorption through the flow of coolant liquid.

As shown in fig. 1-11, one side of the connection shell 202 is communicated with a water inlet pipe 212 and a water outlet pipe 213, the other ends of the water inlet pipe 212 and the water outlet pipe 213 are both communicated with a connection pipe 230, the other end of the connection pipe 230 is communicated with a connection assembly 21, the middle part of one connection pipe 230 is provided with a fixed block 223, two ends of the fixed block 223 are both provided with a butt joint cavity 224 communicated with the connection pipe 230, the inside of the connection pipe 230 is provided with a water flow sensor 231, the top of the fixed block 223 is fixedly connected with a butt joint block 219, and the surface of the butt joint block 219 is provided with two connection channels 222 which are respectively communicated with the two butt joint cavities 224.

The upper end of the butt joint block 219 extends to the inside of the groove and is connected with a separation shell 229 in a threaded manner, the inner wall of the separation shell 229 is fixedly connected with a filter cylinder 220, the bottom of the filter cylinder 220 is communicated with an ingress pipe 218, the other end of the ingress pipe 218 is communicated with one of the connecting channels 222, and a drain hole 221 communicated with the other connecting channel 222 is formed in the bottom of the separation shell 229.

The connection pipe 230 is used for flowing the cooling liquid, the cooling liquid is injected into the support frame 208 through the water inlet pipe 212, flows through the connection hole 209 and the water guide hole 210 and finally is discharged through the water outlet pipe 213, and finally is discharged through the other connection pipe 230, and the water flow sensor 231 is used for detecting whether water passes through the connection pipe 230 or not, and transmitting a signal to the controller 206 when no water passes through the connection pipe;

In the process that the cooling liquid enters the inside of the water inlet pipe 212 through the connection pipe 230, the cooling liquid can enter the inside of the connection channel 222 communicated with the connection cavity 224 through one of the butt joint cavities 224, and is injected into the inside of the filter cartridge 220 through the introduction pipe 218, impurities in the cooling liquid are filtered and then are injected into the inside of the other connection channel 222 through the water discharge hole 221, and meanwhile, the cooling liquid is injected into the inside of the water inlet pipe 212 through the other butt joint cavity 224 and the connection pipe 230.

As shown in fig. 1-11, a fixing tube 228 is connected to the top of the other connecting tube 230, a storage case 225 is connected to the upper end of the fixing tube 228, an adjusting plate 227 is slidably connected to the inner wall of the storage case 225, and a first spring 226 is fixedly connected between the top of the adjusting plate 227 and the inner wall of the storage case 225.

The water discharged through the water outlet pipe 213 leading-in connecting pipe 230 can be led into the inside of the storage shell 225 through the fixed pipe 228, the water pressure can be utilized to push the adjusting plate 227 to extrude the first spring 226 in the process, and the water pressure can be increased after the cooling liquid is heated and expanded along with the heat absorption, so that the adjusting plate 227 can be further pushed to compress the first spring 226, the cooling liquid with different temperature differences can be adapted, and the condition that the pipeline is broken due to the expansion of the cooling liquid pressure is avoided.

As shown in fig. 1-11, the auxiliary assembly 22 includes a water pump 2209 disposed in the connecting cavity 217, the water outlet end and the water inlet end of the water pump 2209 are both communicated with a guide pipe 2208, the guide pipe 2208 is distributed in a serpentine manner, the other end of the guide pipe 2208 is communicated with an adjusting shell 2201, the adjusting shell 2201 penetrates through the connecting pipe 230 and is communicated with the connecting pipe 230, and the surface of the adjusting shell 2201 is provided with two through holes for connecting the connecting pipe 230.

The inner wall sliding connection of adjusting shell 2201 has regulating block 2204, through-hole 2206 that sets up with connecting pipe 230 coaxial center has been seted up on the surface of regulating block 2204, leading-in passageway 2205's one end opening sets up with adjusting shell 2201 coaxial center, leading-in passageway 2205's the other end opening is located the side of regulating block 2204, the inner wall fixedly connected with solid fixed ring 2203 of adjusting shell 2201, gu fixedly connected with third spring 2207 between solid fixed ring 2203 and the regulating block 2204, the inside of adjusting shell 2201 is provided with the electro-magnet 2202 that is located gu fixed ring 2203 below, regulating block 2204 is magnetic metal material component.

The position of the adjusting block 2204 can be guaranteed at the third spring 2207 under the normal state, so that cooling liquid can flow normally along the connecting pipe 230 through the through hole 2206, when the water flow sensor 231 detects that no water flows, signals can be transmitted to the controller 206 and the electromagnet 2202 is started, the adjusting block 2204 can be adsorbed under the action of the electromagnet 2202 to drive the adjusting block 2204 to move downwards and compress the third spring 2207, the position of the through hole 2206 is changed, the cooling liquid discharged through the water outlet pipe 213 is led into the guide pipe 2208 after being led into the channel 2205, the fan 214 is started, the cooling liquid flowing inside the guide pipe 2208 can be forcedly cooled by utilizing air flow, the effect of built-in cooling liquid circulation is achieved, the cooling liquid can be circulated and cooled under the outdoor condition or the condition that water cannot be supplied by a cooling station, and the normal use of the device is guaranteed.

As shown in fig. 1-11, the connection assembly 21 comprises a mounting pipe 2101 communicated with the connection pipe 230, a butt joint pipe 2104 is fixedly connected to the inner wall of the other end of the mounting pipe 2101 far away from the mounting pipe 2101, internal threads are arranged on the inner wall of the butt joint pipe 2104, a fixing plate 2102 is fixedly connected to the inner wall of the mounting pipe 2101, uniformly distributed water through holes are formed in the surface of the fixing plate 2102, a guide rod 2106 penetrates through the fixing plate 2102 between the fixing plate 2102 and the butt joint pipe 2104, a blocking block 2105 used for blocking the inside of the butt joint pipe 2104 is fixedly connected to the other end of the guide rod 2106, and a second spring 2103 is fixedly connected between the blocking block 2105 and the fixing plate 2102.

The external liquid supply pipeline can insert the inside of butt joint pipe 2104 through threaded connection's mode to promote shutoff piece 2105 and remove, can drive guide bar 2106 and compress second spring 2103 simultaneously in this in-process step by step, and the butt joint end surface of liquid supply pipeline is provided with the external screw thread, and the flowing back hole is located the outside and can not influence the flow of coolant liquid because shutoff piece 2105 to its shutoff, can pass fixed plate 2102 normal flow through the limbers through external liquid supply pipeline exhaust coolant liquid, and can drive guide bar 2106 and shutoff piece 2105 under the effect of second spring 2103 after taking off external liquid supply pipeline and reset, realize the shutoff to take over 2104, avoid the outflow of coolant liquid.

Working principle: under normal use, the external liquid supply pipeline can be inserted into the butt joint pipe 2104 in a threaded connection mode, the plugging block 2105 is pushed to move, in the process, the guide rod 2106 can be driven to pass through the fixing plate 2102 step by step and simultaneously compress the second spring 2103, the butt joint end surface of the liquid supply pipeline is provided with external threads, the liquid discharge hole is positioned at the outer side, the cooling liquid discharged through the external liquid supply pipeline can normally flow through the fixing plate 2102 by the plugging block 2105 because of the plugging block 2105, the guide rod 2106 and the plugging block 2105 can be driven to reset under the action of the second spring 2103 after the external liquid supply pipeline is taken down, the plugging of the butt joint pipe 2104 is realized, the outflow of the cooling liquid is avoided, the introduced cooling liquid can flow through the connecting pipe 230 and enter the inside of the connecting shell 202 through the water inlet pipe 212, in the process, the top plate 203 can absorb heat generated in the working process of the electrical component of the gallium nitride component, and the heat is emitted through the heat conduction block 207 and the filler and the heat conduction pipe 211, in the process, the cooling liquid can dissipate the heat of the heat conduction pipe 211 and take the absorbed heat out through the flow of the cooling liquid, the cooling liquid after heat exchange is led into the connecting pipe 230 through the water outlet pipe 213 and is led into the storage shell 225 through the fixing pipe 228, in the process, the water pressure can be utilized to push the regulating plate 227 to squeeze the first spring 226, and the water pressure can be increased along with the expansion of the cooling liquid after the heat absorption, so that the regulating plate 227 can be further pushed to compress the first spring 226, the cooling liquid with different temperature differences can be adapted, and the condition that the pipelines are broken due to the expansion of the cooling liquid pressure is avoided;

Meanwhile, when the water flow sensor 231 detects that no water flow exists, a signal can be transmitted to the controller 206 and the electromagnet 2202 is started, the adjusting block 2204 can be adsorbed under the action of the electromagnet 2202 to drive the adjusting block 2204 to move downwards and compress the third spring 2207, so that the position of the through hole 2206 is changed, the cooling liquid discharged through the water outlet pipe 213 enters the inside of the guide pipe 2208 after being led into the channel 2205, and the cooling liquid flowing in the guide pipe 2208 can be forcedly radiated by utilizing the air flow through the starting fan 214, so that the effect of circulating the built-in cooling liquid is realized, the cooling liquid can be circularly radiated under the outdoor condition or the condition that the cooling station cannot supply water, and the normal use of the device is ensured.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present invention, and various changes and modifications may be made therein without departing from the spirit and scope of the invention, which is defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (5)

1. The utility model provides an electric energy quality management device based on gallium nitride is used, includes shell (1), its characterized in that, the inside of shell (1) is provided with cooling module (2), the connection window has been seted up to one side of shell (1), the surface of shell (1) is provided with detachable baffle (3), and baffle (3) are used for the shielding to the connection window;

The cooling module (2) comprises a connecting shell (202) fixedly connected to the inner wall of the shell (1), one side of the connecting shell (202) is fixedly connected with a connecting block (201), a controller (206) is embedded and installed on the other side of the connecting block (201), a groove is formed in the surface of the connecting block (201), a cooling component is arranged in the connecting shell (202), a connecting cavity (217) is formed in the connecting block (201), two symmetrically distributed installation cavities (215) are formed in the connecting cavity (217), fans (214) are arranged in the installation cavities (215), air inlet grooves (205) communicated with the installation cavities (215) are formed in the surface of the connecting block (201), air exhaust grooves (216) which are uniformly distributed and communicated with the outside are formed in the inner wall of the installation cavities (215), auxiliary components (22) are arranged in the connecting cavity (217), and two symmetrically distributed installation cavities (21) are formed in the other side of the connecting block (201).

The cooling assembly comprises a mounting block (204) fixedly connected to the top of the connecting shell (202), a top plate (203) is fixedly connected to the top of the mounting block (204), the top plate (203) is an aluminum metal material member, uniformly distributed connecting grooves are formed in the top of the mounting block (204), and heat conducting blocks (207) are filled in the connecting grooves;

The inside of coupling shell (202) is provided with support frame (208), support frame (208) are honeycomb setting, evenly distributed's connecting hole (209) and water guide hole (210) have been seted up to the surface of support frame (208), the inside of installation piece (204) is provided with evenly distributed's heat pipe (211), the upper end and the spread groove of heat pipe (211) are linked together, the inside of heat pipe (211) is provided with the filler, filler and heat conduction piece (207) are heat conduction silicone grease material component, the lower extreme of heat pipe (211) extends to the inside of support frame (208);

One side of the connecting shell (202) is communicated with a water inlet pipe (212) and a water outlet pipe (213), the other ends of the water inlet pipe (212) and the water outlet pipe (213) are both communicated with a connecting pipe (230), the other end of the connecting pipe (230) is communicated with a connecting component (21), one of the connecting pipes (230) is provided with a fixed block (223) in the middle, two ends of the fixed block (223) are both provided with a butt joint cavity (224) communicated with the connecting pipe (230), the inside of the connecting pipe (230) is provided with a water flow sensor (231), the top of the fixed block (223) is fixedly connected with a butt joint block (219), and the surface of the butt joint block (219) is provided with two connecting channels (222) which are respectively communicated with the two butt joint cavities (224);

coupling assembling (21) are including installing pipe (2101) that are linked together with connecting pipe (230), the other end inner wall fixedly connected with butt joint pipe (2104) of installing pipe (2101) are kept away from to installing pipe (2101), the inner wall of butt joint pipe (2104) is provided with the internal thread, the inner wall fixedly connected with fixed plate (2102) of installing pipe (2101), evenly distributed's limbers have been seted up on the surface of fixed plate (2102), guide bar (2106) between fixed plate (2102) and butt joint pipe (2104), fixed plate (2102) are run through to the other end of guide bar (2106), the other end fixedly connected with of guide bar (2106) is used for shutoff piece (2105) inside butt joint pipe (2104), fixedly connected with second spring (2103) between shutoff piece (2105) and the fixed plate (2103).

2. The gallium nitride-based electric energy quality control device according to claim 1, wherein the upper end of the butt joint block (219) extends to the inside of the groove and is in threaded connection with a separation shell (229), the inner wall of the separation shell (229) is fixedly connected with a filter cartridge (220), the bottom of the filter cartridge (220) is communicated with an ingress pipe (218), the other end of the ingress pipe (218) is communicated with one of the connecting channels (222), and a drain hole (221) communicated with the other connecting channel (222) is formed in the bottom of the separation shell (229).

3. The gallium nitride-based electric energy quality control device according to claim 2, wherein a fixed pipe (228) is connected to the top of the other connecting pipe (230), a storage shell (225) is connected to the upper end of the fixed pipe (228), an adjusting plate (227) is slidably connected to the inner wall of the storage shell (225), and a first spring (226) is fixedly connected between the top of the adjusting plate (227) and the inner wall of the storage shell (225).

4. A device for managing electric energy quality based on gallium nitride application according to claim 3, wherein the auxiliary assembly (22) comprises a water pump (2209) arranged inside the connecting cavity (217), the water outlet end and the water inlet end of the water pump (2209) are both communicated with a guide pipe (2208), the guide pipes (2208) are distributed in a serpentine manner, the other end of each guide pipe (2208) is communicated with an adjusting shell (2201), the adjusting shells (2201) penetrate through the connecting pipe (230) and are communicated with the connecting pipe (230), and the surface of each adjusting shell (2201) is provided with two through holes for the communication of the connecting pipe (230).

5. The gallium nitride-based applied power quality control device according to claim 4, wherein an adjusting block (2204) is slidably connected to an inner wall of the adjusting shell (2201), a through hole (2206) coaxially arranged with the connecting pipe (230) is formed in the surface of the adjusting block (2204), an introduction channel (2205) is formed in the surface of the adjusting block (2204), an opening at one end of the introduction channel (2205) and the adjusting shell (2201) are coaxially arranged, an opening at the other end of the introduction channel (2205) is located on the side surface of the adjusting block (2204), a fixing ring (2203) is fixedly connected to an inner wall of the adjusting shell (2201), a third spring (2207) is fixedly connected between the fixing ring (2203) and the adjusting block (2204), an electromagnet (2202) located below the fixing ring (2203) is arranged in the adjusting shell (2201), and the adjusting block (2204) is a magnetic metal material member.