CN110601259B

CN110601259B - Multi-energy complementary power generation device

Info

Publication number: CN110601259B
Application number: CN201910853661.1A
Authority: CN
Inventors: 张玉莲
Original assignee: Zhejiang Ocean University ZJOU
Current assignee: Zhejiang Ocean University ZJOU
Priority date: 2019-09-10
Filing date: 2019-09-10
Publication date: 2022-11-18
Anticipated expiration: 2039-09-10
Also published as: CN110601259A

Abstract

The invention provides a multi-energy complementary power generation device. The multi-energy complementary power generation device comprises: a control cabinet; the mounting assemblies are respectively arranged on two sides of the control cabinet and comprise limiting grooves and through holes, the limiting grooves and the through holes are formed in one side of the inner wall of the control cabinet, and the mounting grooves are formed in the top and the bottom of the limiting grooves. The multi-energy complementary power generation device provided by the invention has the advantages that the cooling assemblies on the two sides are convenient to mount and dismount, meanwhile, in a cold environment state, the cooling assemblies on the two sides can be dismounted to improve the air flow quantity in the control cabinet and improve the ventilation effect in the control cabinet, and after the cooling assemblies are dismounted, the spare dustproof assemblies can be mounted on the two sides of the control cabinet, so that the natural ventilation and dustproof effects of the control cabinet in the cold environment are ensured, and the internal dust accumulation after the control cabinet is used for a long time is avoided.

Description

Multi-energy complementary power generation device

Technical Field

The invention relates to the technical field of power generation auxiliary equipment, in particular to a multi-energy complementary power generation device.

Background

The development and utilization of renewable and pollution-free new energy resources are taken as important contents of sustainable development in various countries in the world, and from the current research, wind power, solar power generation and the like are deeply researched, wind-solar hybrid power generation systems have entered into our daily lives, solar power generation and wind power generation have well-matched complementarity in time and season, and when multi-energy-resource hybrid power generation equipment is used in a hot environment, a control cabinet used by a power generation control element plays a role in protecting control electric and control elements used in power generation.

In prior art, the complementary power generation facility of multipotency source is when to power control, and the influence that the heat energy that the operation of control cabinet internals produced is great to the inside control element of control cabinet, can influence control element's life when being in the high temperature state for a long time for the complementary power generation facility's of multipotency source life reduces, under comparatively hot weather, the inside temperature intensification of control cabinet aggravates, and there is the potential safety hazard in the environment of high temperature to the inside electric elements of control cabinet.

Therefore, it is necessary to provide a multi-energy complementary power generation device to solve the above technical problems.

Disclosure of Invention

In order to solve the above technical problem, the multi-energy complementary power generation device provided by the invention comprises: a control cabinet; the mounting assemblies comprise a limiting groove and a through hole, the limiting groove and the through hole are both arranged on one side of the inner wall of the control cabinet, mounting grooves are formed in the top and the bottom of the limiting groove on the control cabinet, a sliding groove is formed in the outer side of the limiting groove on the control cabinet, and positioning grooves are formed in the two sides of the limiting groove on the control cabinet; the two cooling assemblies are respectively arranged inside the two mounting assemblies and comprise a first mounting frame, a heat dissipation fan is fixedly connected inside the first mounting frame through a plurality of fixing pieces, and a first ventilation net is arranged on the left side of the first mounting frame; the auxiliary assembly is arranged on one side, close to the inner wall of the limiting groove, of the first mounting frame; the two positioning assemblies are respectively arranged on two sides of the first mounting frame; the two holding grooves are respectively formed in the top and the bottom of the front face of the first mounting frame; the two holding holes are respectively formed in the top and the bottom of the left side of the control cabinet; and the cabinet door is arranged on the front side of the control cabinet.

The inside of the control cabinet 1 can be rapidly ventilated and cooled in a hot state.

Preferably, the inside of the limiting groove is communicated with the inside of the through hole, the inside of the through hole is communicated with the inside of the control cabinet, the sliding groove is an annular groove, and the size of the positioning groove is matched with that of the sliding groove.

Make things convenient for heat radiation structure's installation and dismantlement, convenient ventilation simultaneously.

Preferably, the inside of first mounting bracket with the inside of control cabinet communicates each other, the mounting is provided with four altogether, radiator fan's wind direction is towards the outside of control cabinet.

After the cooling fan is started, air inside the control cabinet can be extracted and blown out of the control cabinet.

Preferably, the auxiliary assembly includes the auxiliary hole, the auxiliary hole set up in being close to of first mounting bracket on one side of spacing inslot wall to the inside fixedly connected with auxiliary member in auxiliary hole, the auxiliary member is the rubber ring.

Only the rotation is needed, and the operation is simple.

Preferably, the locating component includes the adjustment tank, the adjustment tank is seted up in the inside of first mounting bracket to two slide bars of the inside fixedly connected with of adjustment tank, two be parallel to each other between the slide bar to sliding connection has the sliding block on two slide bars, one side fixedly connected with location spring of sliding block, one side of location spring with one side fixed connection of adjustment tank inner wall, just be located on the sliding block and keep away from one side fixedly connected with locating piece of location spring.

Simple structure, convenient regulation and use.

Preferably, one side of the positioning block penetrates through one side of the first mounting frame, which is located on the inner wall of the adjusting groove, and extends to the outside of the first mounting frame, the side of the positioning block, which extends to the outside of the first mounting frame, is of an arc-shaped structure, the surface of the positioning block is matched with the inner surface of the positioning groove, and the size of the positioning block is matched with the size of the sliding groove.

The cooling assemblies on two sides can be conveniently mounted and dismounted.

Preferably, the inside of the holding hole is communicated with the inside of the control cabinet, and the cabinet door is provided with two transparent windows.

The operating state and the service condition inside the control cabinet can be observed conveniently.

Preferably, when the multi-energy complementary power generation device is cold in environment, the multi-energy complementary power generation device further comprises: the dustproof assembly is arranged inside the mounting assembly and comprises a second mounting frame, and a second ventilating net is fixedly mounted inside the second mounting frame.

The natural ventilation and dustproof effect of the control cabinet in a relatively cold environment are guaranteed.

Preferably, the second ventilation net is communicated with the inside of the control cabinet through the limiting groove and the through hole, and the size of the orifice of the second ventilation net is smaller than that of the orifice of the first ventilation net.

The inside of avoiding the dust to pass through the vent entering control cabinet when the inside ventilation of guarantee control cabinet, avoid the inside dust accumulation after the control cabinet uses for a long time, improve the stability and the security of the inside electric elements operation of control cabinet.

Preferably, the auxiliary assembly and the positioning assembly are respectively arranged on the second mounting frame, and the mounting positions of the auxiliary assembly and the positioning assembly on the second mounting frame are the same as the mounting positions of the first mounting frame.

Can demolish the cooling module of both sides in order to improve the inside circulation of wind volume of control cabinet, improve the inside ventilation effect of control cabinet.

Compared with the related art, the multi-energy complementary power generation device provided by the invention has the following beneficial effects:

the invention provides a multi-energy complementary power generation device, wherein ventilation openings are formed in two sides of a control cabinet, cooling assemblies are installed at the ventilation openings, when the temperature in the control cabinet exceeds a safe temperature, the cooling assemblies are started to cool the interior of the control cabinet, the cooling assemblies on the two sides are convenient to install and disassemble, meanwhile, in a cold environment state, the cooling assemblies on the two sides can be disassembled to improve the air circulation quantity in the control cabinet and improve the ventilation effect in the control cabinet, and after the cooling assemblies are disassembled, standby dustproof assemblies can be installed on the two sides of the control cabinet, so that the natural ventilation and dustproof effects of the control cabinet in the cold environment are guaranteed, and the internal dust accumulation of the control cabinet after long-time use is avoided.

Drawings

FIG. 1 is a schematic three-dimensional structure diagram of a multi-energy complementary power generation device provided by the invention when a cooling assembly is installed;

FIG. 2 is an enlarged view of portion A of FIG. 1;

FIG. 3 is a schematic structural view of a portion of the cooling assembly shown in FIG. 1;

FIG. 4 is an enlarged view of the portion B shown in FIG. 3;

FIG. 5 is a cross-sectional view of a portion of the cooling assembly shown in FIG. 2;

FIG. 6 is an enlarged view of the portion C shown in FIG. 5;

FIG. 7 is a schematic three-dimensional structure of the multi-energy complementary power generation device provided by the present invention when a dust-proof assembly is installed;

fig. 8 is a schematic structural view of a portion of the dust prevention assembly shown in fig. 7.

Reference numbers in the figures: 1. control cabinet, 2, installation component, 21, spacing groove, 22, through-hole, 23, mounting groove, 24, sliding tray, 25, constant head tank, 3, cooling module, 31, first mounting bracket, 32, mounting, 33, radiator fan, 34, first ventilation net, 4, auxiliary assembly, 41, auxiliary hole, 42, auxiliary member, 5, locating component, 51, regulation hole, 52, slide bar, 53, sliding block, 54, location spring, 55, locating piece, 6, hold the groove, 7, hold the hole, 8, cabinet door, 9, dustproof subassembly, 91, second mounting bracket, 92, second ventilation net.

Detailed Description

The invention is further described below with reference to the drawings and the embodiments.

Please refer to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7 and fig. 8, wherein fig. 1 is a schematic three-dimensional structure diagram of the cooling module of the multi-energy complementary power generation apparatus of the present invention; FIG. 2 is an enlarged view of the portion A shown in FIG. 1; FIG. 3 is a schematic structural view of a portion of the cooling assembly shown in FIG. 1; FIG. 4 is an enlarged view of the portion B shown in FIG. 2; FIG. 5 is a cross-sectional view of a portion of the cooling assembly shown in FIG. 2; FIG. 6 is an enlarged view of the portion C shown in FIG. 5; FIG. 7 is a schematic three-dimensional structure of the multi-energy complementary power generation device provided by the present invention when a dust-proof assembly is installed; fig. 8 is a schematic structural view of a portion of the dust-proof assembly shown in fig. 7. A multi-energy complementary power generation device comprises: a control cabinet 1; the mounting assemblies 2 are respectively arranged on two sides of the control cabinet 1, each mounting assembly 2 comprises a limiting groove 21 and a through hole 22, the limiting grooves 21 and the through holes 22 are respectively arranged on one side of the inner wall of the control cabinet 1, mounting grooves 23 are formed in the top and the bottom of the limiting groove 21 on the control cabinet 1, sliding grooves 24 are formed in the outer side of the limiting groove 21 on the control cabinet 1, and positioning grooves 25 are formed in the two sides of the limiting groove 21 on the control cabinet 1; the two cooling assemblies 3 are respectively installed inside the two installation assemblies 2, each cooling assembly 3 comprises a first installation frame 31, a heat radiation fan 33 is fixedly connected inside the first installation frame 31 through a plurality of fixing pieces 32, and a first ventilation net 34 is arranged on the left side of the first installation frame 31; the auxiliary assembly 4 is arranged on one side, close to the inner wall of the limiting groove 21, of the first mounting frame 31; the two positioning assemblies 5 are respectively arranged at two sides of the first mounting frame 31; the two holding grooves 6 are respectively formed in the top and the bottom of the front surface of the first mounting frame 31; the two holding holes 7 are respectively formed in the top and the bottom of the left side of the control cabinet 1; and the cabinet door 8 is arranged on the front side of the control cabinet 1.

The cooling fan 33 adopts a self-starting circuit, the input end of the temperature detection is positioned in the control cabinet 1, the self-starting circuit and the temperature detection principle are mature in the prior art, the control of the cooling fan 33 is the same as the automatic control principle of the fan in the notebook computer in the prior art, the input end of the cooling fan 33 is respectively connected with an external power supply and the self-starting circuit when in use, when the temperature in the control cabinet 1 exceeds the safety temperature, the cooling component 3 cools the inside of the control cabinet 1, the inside of the control cabinet 1 can be rapidly ventilated and cooled in a hot state, a vent hole is formed between the limiting groove 21 and the through hole 22, the diameter of the limiting groove 21 is larger than that of the through hole 22, the two mounting grooves 23 are symmetrically distributed at the top and the bottom of the limiting groove 21, the insides of the two mounting grooves 23 are mutually communicated with the limiting groove 21, the insides of the sliding grooves 24 are mutually communicated with the insides of the two mounting grooves 23, the insides of the two corresponding positioning grooves 25 are mutually communicated with the inside of the sliding groove 24, and the cooling component 3 is convenient to install and dismantle.

The inside of spacing groove 21 and the inside of through-hole 22 communicate with each other, and the inside of through-hole 22 and the inside of control cabinet 1 communicate with each other, and sliding tray 24 is the ring channel, and the size of constant head tank 25 is the same with the size of sliding tray 24.

The inside of the first mounting bracket 31 and the inside of the control cabinet 1 are communicated with each other, four fixing members 32 are provided, and the wind direction of the heat dissipation fan 33 faces the outside of the control cabinet 1.

After the cooling fan 33 is activated, air inside the control cabinet 1 can be extracted and blown out of the control cabinet 1.

The auxiliary assembly 4 includes an auxiliary hole 41, the auxiliary hole 41 is opened on one side of the first mounting bracket 31 close to the inner wall of the limiting groove 21, and an auxiliary member 42 is fixedly connected to the inside of the auxiliary hole 41, and the auxiliary member 42 is a rubber ring.

Auxiliary member 42 installs when spacing groove 21 is inside with control cabinet 1 contact and with control cabinet 1 between produce frictional force at first mounting bracket 31, this frictional force can prevent that first mounting bracket 31 from installing and taking place to rotate when controlling cabinet 1 both sides, produced frictional force can be overcome when rotatory first mounting bracket 31 of manual hard simultaneously, make and take place to rotate between first mounting bracket 31 and the control cabinet 1, the scope of frictional force is between 8N ~ 10N, rotatory dynamics only need be greater than 10N both, only need rotate both, easy operation.

The positioning assembly 5 includes an adjusting groove 51, the adjusting groove 51 is opened in the first mounting bracket 31, and two sliding rods 52 are fixedly connected in the adjusting groove 51, the two sliding rods 52 are parallel to each other, sliding blocks 53 are connected on the two sliding rods 52 in a sliding manner, a positioning spring 54 is fixedly connected to one side of each sliding block 53, one side of each positioning spring 54 is fixedly connected to one side of the inner wall of the adjusting groove 51, and a positioning block 55 is fixedly connected to one side of each sliding block 53, which is located far away from the positioning spring 54.

Simple structure, convenient regulation and use.

One side of the positioning block 55 penetrates through one side of the first mounting bracket 31, which is located on the inner wall of the adjusting groove 51, and extends to the outside of the first mounting bracket 31, the side of the positioning block 55, which extends to the outside of the first mounting bracket 31, is of an arc-shaped structure, the surface of the positioning block 55 is matched with the inner surface of the positioning groove 25, and the size of the positioning block 55 is matched with the size of the sliding groove 24.

The cooling assemblies on two sides can be conveniently mounted and dismounted.

The inside of the holding hole 7 is communicated with the inside of the control cabinet 1, and the cabinet door 8 is provided with two transparent windows.

The running state and the use condition inside the control cabinet 1 can be observed conveniently.

When the environment is cold, the multi-energy complementary power generation device further comprises: dustproof assembly 9, dustproof assembly 9 set up in the inside of installation component 2 to dustproof assembly 9 includes second mounting bracket 91, and the inside fixed mounting of second mounting bracket 91 has second ventilation net 92.

The second ventilation network 92 is communicated with the inside of the control cabinet 1 through the limiting groove 21 and the through hole 22, and the size of the orifice of the second ventilation network 92 is smaller than that of the first ventilation network 34.

The size in the aperture of second ventilation network 92 ventilation hole is 1cm 10cm, avoids the inside of dust through the vent entering control cabinet 1 when the ventilation of guarantee control cabinet 1 inside, avoids the inside dust accumulation of control cabinet long-time back of using, improves the stability and the security of the inside electrical component operation of control cabinet.

The auxiliary assembly 4 and the positioning assembly 5 are respectively arranged on the second mounting frame 91, the mounting positions of the auxiliary assembly 4 and the positioning assembly 5 on the second mounting frame 91 are the same as the mounting positions of the first mounting frame 31, and the mounting mode of the second mounting frame 91 is the same as the mounting mode of the first mounting frame 31.

The working principle of the multi-energy complementary power generation device provided by the invention is as follows:

the heat dissipation fan 33 adopts a self-starting circuit, the input end of the temperature detection is positioned in the control cabinet 1, the principles of the self-starting circuit and the temperature detection are mature in the prior art, the control of the heat dissipation fan 33 is the same as the automatic control principle of the fan in the notebook computer in the prior art, the input end of the heat dissipation fan 33 is respectively connected with an external power supply and the self-starting circuit when in use, when the temperature in the control cabinet 1 exceeds the safe temperature, the cooling component 3 cools the inside of the control cabinet 1, the inside of the control cabinet 1 can be rapidly ventilated and cooled in a hot state, a vent is formed between the limiting groove 21 and the through hole 22, the diameter of the limiting groove 21 is larger than that of the through hole 22, the two mounting grooves 23 are symmetrically distributed at the top and the bottom of the limiting groove 21, the insides of the two mounting grooves 23 are communicated with each other, the insides of the two mounting grooves 24 are communicated with each other, the insides of the two corresponding positioning grooves 25 are communicated with each other of the sliding groove 24, the two mounting grooves 23 are convenient for mounting and dismounting of the cooling component 3, the heat dissipation structure is convenient for being blown, the mounting and dismounting, the mounting frame and the mounting frame can be conveniently installed between the mounting frame 1 and the mounting frame 31, when the mounting frame 1 and the mounting frame 1 can be rotated to generate friction force, the first control cabinet 1, the first mounting frame 31, the first control cabinet 1 can be prevented from generating a control friction force when the first control cabinet 1 and the first control cabinet 1 rotates, the first control cabinet 1, the first control frame 31, the first control frame can be prevented from generating a friction force, the scope of frictional force is between 8N ~ 10N, rotatory dynamics only need be greater than 10N both can, only need rotate both can, moreover, the steam generator is simple in operation, moreover, the steam generator is simple in structure, conveniently adjust and use, make things convenient for the cooling module's of both sides installation and dismantlement, conveniently observe the running state and the in service behavior of control rack 1 inside, guarantee the natural draft and the dustproof effect of control rack under colder environment, the size in the aperture of second ventilation net 92 ventilation hole is 1cm 10cm, avoid the dust to pass through the inside of vent entering control rack 1 in the time of the ventilation of guarantee control rack 1 inside, avoid the inside dust accumulation after the control rack uses for a long time, improve the inside electric elements's of control rack stability and security, can demolish the cooling module of both sides in order to improve the inside circulation of wind of control rack, improve the inside ventilation effect of control rack.

the vent has all been seted up to the both sides of control cabinet 1, and vent department installs cooling module 3, cooling module 3 starts to carry out cooling to the inside of control cabinet 1 when the temperature of control cabinet 1 inside surpasss safe temperature, the guarantee is under the state of sweltering heat, the inside cooling that can be quick of control cabinet 1, ensure control element's safe in utilization and life, cooling module 3 of both sides is convenient for install and dismantle, simultaneously under the colder state of environment, can demolish the cooling module 3 of both sides in order to improve the inside circulation of wind of control cabinet 1, improve the ventilation effect of control cabinet 1 inside, and can install reserve dustproof subassembly 9 in the both sides of control cabinet 1 after demolising cooling module 3, natural draft and dustproof effect of control cabinet 1 under colder environment, avoid the inside dust accumulation of control cabinet 1 long-time back of using, improve the stability and the security of the electric elements operation of control cabinet 1 inside.

Second embodiment:

when the installation is carried out:

s1, when the control cabinet 1 works in a hot state, the cooling assembly 3 is installed on the control cabinet, the holding groove 6 is held by two hands, the first mounting frame 31 is convenient to take, one side, provided with the auxiliary assembly 4, of the first mounting frame 31 is inserted into the limiting groove 21, and two positioning blocks 55 on the first mounting frame 31 are aligned to the insides of two corresponding mounting grooves 23 before the first mounting frame 31 is installed in the limiting groove 21;

s2, when the first mounting frame 31 is completely installed in the limiting groove 21, the auxiliary piece 42 is abutted to the inner side of the limiting groove 21 and is in close contact with the inner side of the limiting groove 21, meanwhile, the two positioning blocks 55 and the sliding groove 24 are on the same vertical plane, the first mounting frame 31 is rotated clockwise by the aid of force of both hands, and the first mounting frame 31 can overcome friction force generated by the auxiliary piece 42 and the inner wall of the limiting groove 21 due to the abutment when the force of both hands is applied, so that the first mounting frame 31 rotates;

s3, the first mounting frame 31 synchronously drives the two positioning blocks 55 to rotate when rotating, the arc surfaces of the two positioning blocks 55 are preferentially contacted with one side of the inner wall of the mounting groove 23, the positioning blocks 55 are stressed to contract towards the inside of the adjusting groove 51 under the action of the arc surfaces, the first mounting frame 31 continuously rotates, the positioning blocks 55 are separated from the inside of the mounting groove 23 and are in sliding connection with the inner surface of the sliding groove 24, when the sliding block 53 is positioned in the sliding groove 24, the sliding groove 24 plays a limiting role on the positioning blocks 55, the first mounting frame 31 continuously rotates, and when the first mounting frame 31 rotates 90 degrees clockwise, the positioning blocks 55 synchronously rotate 90 degrees;

s4, when the positioning blocks 55 rotate by 90 degrees around the first mounting frame 31, the positioning blocks 55 on the two sides are respectively clamped into the positioning grooves 25 corresponding to the two sides of the mounting groove 23, so that the first mounting frame 31 is stably mounted on the control cabinet 1, when the temperature in the cabinet 1 is higher than the temperature of normal operation, the cooling fan 33 is automatically started, the speed of rapidly conveying heat which cannot be accumulated in the cabinet out of the interior of the cabinet is accelerated in the interior of the control cabinet 1, and the effect of rapid ventilation and cooling is realized;

s5, when the first mounting frame 31 needs to be detached from the control cabinet 1, only two hands need to be inserted into the holding groove 6 again and the first mounting frame 31 needs to be rotated forcibly, so that the first mounting frame 31 rotates 90 degrees clockwise again, the positioning blocks 55 on the two sides rotate 90 degrees synchronously and are located in the two mounting grooves 23 respectively, the first mounting frame 31 can be directly moved out of the limiting groove 21, and the cooling assembly 3 is convenient to mount and detach;

s6 is located the during operation under comparatively chilly environment when control cabinet 1, demolish first mounting bracket 31, and install second mounting bracket 91 in the inside of spacing groove 21 according to the same mounting means in top, and make locating piece 55 card on the second mounting bracket 91 go into the inside of corresponding constant head tank 25, make second ventilation net 92 install on control cabinet 1, guarantee control cabinet natural draft and dustproof effect under comparatively chilly environment, avoid the inside dust accumulation of control cabinet long-time back of using, improve the inside electric elements operation' S of control cabinet stability and security.

Adopt the same mounting means to install second mounting bracket 91 in the inside of spacing groove 21 to make locating piece 55 card on the second mounting bracket 91 go into the inside of corresponding constant head tank 25, make second ventilation net 92 install on control cabinet 1, the natural draft and the dustproof effect of guarantee control cabinet under the colder environment avoid the inside dust accumulation of control cabinet long-time back of using, improve the inside electrical element operation's of control cabinet stability and security.

Through the heat radiation structure convenient to installation and the dustproof construction convenient to installation, improve the stability and the security of the inside electrical component operation of control cabinet, the guarantee is under the state of sweltering heat, and the cooling that the inside of control cabinet can be quick can change heat radiation structure, the consumption of energy saving according to the service environment of difference in the time of guarantee control component's safe in utilization and life.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims

1. A multi-energy complementary power generation device, comprising:

a control cabinet;

the mounting assemblies comprise limiting grooves and through holes, the limiting grooves and the through holes are arranged on one side of the inner wall of the control cabinet, mounting grooves are formed in the top and the bottom of the limiting grooves on the control cabinet, sliding grooves are formed in the outer side of the limiting grooves on the control cabinet, and positioning grooves are formed in the two sides of the limiting grooves on the control cabinet;

the cooling device comprises two cooling assemblies, a first air inlet and a second air inlet, wherein the two cooling assemblies are respectively arranged inside the two mounting assemblies, each cooling assembly comprises a first mounting frame, a heat radiation fan is fixedly connected inside the first mounting frame through a plurality of fixing pieces, and a first ventilation net is arranged on the left side of the first mounting frame;

the auxiliary assembly is arranged on one side, close to the inner wall of the limiting groove, of the first mounting frame;

the two positioning assemblies are respectively arranged on two sides of the first mounting frame;

the two holding grooves are respectively formed in the top and the bottom of the front face of the first mounting frame;

the two holding holes are respectively formed in the top and the bottom of the left side of the control cabinet;

the cabinet door is arranged on the front side of the control cabinet;

the inside of the limiting groove is communicated with the inside of the through hole, the inside of the through hole is communicated with the inside of the control cabinet, the sliding groove is an annular groove, and the size of the positioning groove is matched with that of the sliding groove;

the interior of the first mounting frame is communicated with the interior of the control cabinet, the number of the fixing pieces is four, and the wind direction of the heat dissipation fan faces the outer side of the control cabinet;

the auxiliary assembly comprises an auxiliary hole, the auxiliary hole is formed in one side, close to the inner wall of the limiting groove, of the first mounting frame, an auxiliary piece is fixedly connected to the inside of the auxiliary hole, and the auxiliary piece is a rubber ring;

locating component includes the adjustment tank, the adjustment tank is seted up in the inside of first mounting bracket to two slide bars of the inside fixedly connected with of adjustment tank, two be parallel to each other between the slide bar to sliding connection has the sliding block on two slide bars, one side fixedly connected with positioning spring of sliding block, one side of positioning spring with one side fixed connection of adjustment tank inner wall, just be located on the sliding block and keep away from one side fixedly connected with locating piece of positioning spring.

2. The complementary power generation facility of multipotency source of claim 1, characterized in that, one side of the locating piece is extended to the outside of the first mounting bracket through the side of the first mounting bracket located at the inner wall of the adjusting groove, and the side of the locating piece extended to the outside of the first mounting bracket is of an arc structure, and the surface of the locating piece is matched with the inner surface of the positioning groove, and the size of the locating piece is matched with the size of the sliding groove.

3. The multi-energy complementary power generation device of claim 1, wherein the interior of the holding hole is communicated with the interior of the control cabinet, and the cabinet door is provided with two transparent window structures.

4. A multi-energy complementary power generating device according to any one of claims 1 to 3, further comprising a dust-proof assembly disposed inside the mounting assembly when the multi-energy complementary power generating device is cold in the environment, and wherein the dust-proof assembly comprises a second mounting bracket, and a second ventilation net is fixedly mounted inside the second mounting bracket.

5. The complementary power plant of claim 4, wherein the second ventilation screen is in communication with the interior of the control cabinet via the retaining groove and the through-hole, and wherein the size of the aperture of the second ventilation screen is smaller than the size of the aperture of the first ventilation screen.

6. The complementary power generation device of claim 4, wherein the auxiliary component and the positioning component are respectively disposed on the second mounting bracket, and the mounting position of the auxiliary component and the positioning component on the second mounting bracket is the same as the mounting position of the first mounting bracket.