CN114094477B - Energy-saving integrated installation device for electric power and electric elements - Google Patents

Abstract

The invention provides an energy-saving integrated installation device for electric power elements, and belongs to the technical field of electric power. The integrated energy-saving heat-dissipating device comprises a solid shell component, an energy-saving heat-dissipating assembly, a linkage cabinet fan assembly and a locking component, wherein the whole body of the linkage cabinet fan assembly is arranged in the solid shell component with the hexagonal prism-shaped cavity structure; the plurality of groups of rear support plates in the energy-saving heat dissipation assembly are uniformly arranged in the main shell, each group of rear support plates is internally provided with a linkage heat dissipation fan, the middle position of the main shell is also provided with a central heat dissipation fan, and the linkage heat dissipation fan and the central heat dissipation fan are the same heat dissipation driving motor; the outer wall of the main shell is also provided with a linkage cabinet fan assembly capable of being automatically opened and closed, and a plurality of groups of cabinet fans can synchronously perform opening and closing actions through cabinet fan linkage gears; and meanwhile, one side of the cabinet fan linkage gear is also provided with a locking assembly, so that the cabinet fan linkage gear can be locked after the cabinet fan is closed, and the safety and the reliability of the cabinet fan closing are ensured.

Description

Energy-saving integrated installation device for electric power and electric elements

Technical Field

The invention relates to the technical field of power and electric, in particular to an energy-saving integrated installation device for electric elements of power.

Background

The electric power electric installation device is a carrier of electric elements and is also the most direct protective layer of the electric elements, and the design of the good electric power electric installation device is a necessary condition for ensuring the normal operation of an electric system. Along with the development of science and technology, automation has become the necessary trend of various industries, and the appearance of an automatic control device brings great convenience to industrial production, reduces the workload of related staff, improves the working efficiency of an electrical system while saving energy, and creates great economic benefits.

The electric power electric element installation device capable of preventing dust and reducing noise comprises an electric shell, wherein an acoustic screen board is movably installed on the inner surface of the electric shell, and a first isolation block and a second isolation block are embedded on the outer surface of the acoustic screen board; the sound screen plate is movably arranged on the outer surface of the electric shell, so that the purpose of reducing noise of electric power elements in the electric shell is achieved; the dustproof block fixed on the sound screen plate is adjusted through the adjusting column, so that the dustproof plate rotates up and down on the outer surface of the sound screen plate, and the problem that the dustproof effect is poor due to the fact that the dustproof plate cannot be adjusted in the existing scheme is solved to a certain extent.

However, in practical electrical and electrical applications, electrical and electrical installations are often found in industrial environments, where electrical components act as a companion control module that generates substantially negligible noise relative to a noisy industrial environment; with the development of self-defined control technology, the heat generated in the working process of the electric module is larger and larger, and the traditional single electric power installation device has a simple structure and poor heat dissipation effect, so that the use requirement of the current electric integration cannot be met.

Disclosure of Invention

In order to solve the technical problems in the background technology, the invention provides an energy-saving electric element integrated installation device, which comprises a fixed shell component, an energy-saving heat dissipation assembly and a linkage cabinet fan assembly, wherein the energy-saving heat dissipation assembly comprises a rear supporting plate, a front supporting plate, a central air passing cylinder, a central heat dissipation fan and a linkage heat dissipation fan;

the whole solid shell assembly is of a hexagonal prism-shaped cavity structure, each group of two separated sides in the inner cavity of the solid shell assembly are vertically inserted with a rear supporting plate, three groups of rear supporting plates can form a group of triangular prism structures, the front end of each group of rear supporting plates is connected with a front supporting plate, the middle position of the main surface of each group of rear supporting plates is rotatably connected with a linkage radiating fan, the middle position of the inner cavity of the solid shell assembly is fixedly provided with a central air passing barrel, and the central air passing barrel is rotatably connected with a central radiating fan;

the central radiating fan is in transmission connection with the plurality of groups of linkage radiating fans through a group of joint driving;

the outer end face of the shell fixing assembly is rotatably connected with a cabinet fan shaft at the position corresponding to each group of front supporting plates, each group of the cabinet fan shafts is fixedly connected with a cabinet fan in an inserting mode, each group of the cabinet fan shafts is fixedly connected with a cabinet fan gear in an inserting mode, the upper end of the shell fixing assembly is rotatably connected with a cabinet fan linkage gear, the cabinet fan linkage gear is meshed with a plurality of groups of cabinet fan gears, one side of the cabinet fan linkage gear is meshed with a cabinet fan driving gear, the cabinet fan driving gear is connected with a cabinet fan driving motor shaft, and a cabinet fan driving motor is fixed at the top end of the shell fixing assembly.

The main shell in the shell fixing assembly is of a hexagonal prism cavity structure with an opening at the upper part, an upper cover is fixed at the top of the main shell, and a base is fixed at the bottom end of the main shell;

the energy-saving heat dissipation assembly comprises a main shell, a plurality of groups of rear support slots, a plurality of groups of linkage heat dissipation fan positions, a plurality of groups of heat dissipation fan positions and a plurality of groups of heat dissipation fan positions, wherein the plurality of groups of rear support slots are respectively arranged on two sides of an inner cavity of the main shell, which are separated from each other, of the main shell;

the combined driving mechanism comprises linkage radiating bevel gears, connecting shafts, integrated seats, central radiating shaft seats, central radiating gears, radiating driving motors, connecting shaft seats and connecting gears, wherein the linkage radiating bevel gears are fixedly inserted at the rear shaft ends of the linkage radiating fans, the connecting bevel gears are meshed with the upper parts of the linkage radiating bevel gears, the connecting bevel gears are fixedly inserted at the lower ends of the corresponding connecting shafts, the integrated seats are fixedly arranged at the top ends of the outer walls of the central air-passing cylinders, the connecting shafts are respectively and rotatably connected to shaft seats arranged at the outer ends of the integrated seats, the central radiating shaft seats are arranged at positions, corresponding to the rotating shafts of the central radiating fan, of the upper cover, the central radiating gears are fixedly inserted at the top shaft ends of the central radiating shaft seats, the radiating driving gears are meshed with one side of the central radiating driving gears, the motor shaft shafts are fixedly meshed with the connecting bevel gears, the connecting bevel gears are fixedly arranged on the upper plane of the upper cover, the main faces of the upper cover are respectively and rotatably connected with the shaft seats, and the corresponding connecting shafts are fixedly connected with the radiating shaft seats;

the plurality of groups of rotating shaft fixing seats in the linkage cabinet fan assembly are respectively arranged at the same positions on one side of the cabinet fan position, the plurality of groups of cabinet fan shafts are respectively and rotatably connected in the corresponding rotating shaft fixing seats, the same positions on one side of each group of cabinet fan are respectively and fixedly connected with the cabinet fan rotating shaft seats, and each group of cabinet fan rotating shaft seats are spliced in the corresponding cabinet fan shafts;

the novel cabinet fan is characterized in that a locking assembly is further connected to one side of the cabinet fan linkage gear, locking teeth in the locking assembly are arranged on one side of the cabinet fan linkage gear, a locking connecting plate is connected to the rear end of the locking teeth, a locking telescopic column is connected to the inner side of the lower end of the locking connecting plate, a telescopic column position is formed in a position, corresponding to the locking telescopic column, on the outer wall of the upper cover, the locking telescopic column is slidably connected to the telescopic column position, a rear connecting plate is fixed to the rear end of the telescopic column position, a telescopic driving base is fixed to the inner wall of the upper cover, and a telescopic driving ejector rod is connected to the inner side of the upper end of the rear connecting plate.

Further, cabinet fan positions are arranged on two spaced apart sides of each group of the main shell, and the positions of each group of cabinet fan positions correspond to the positions of the corresponding rear supporting plates.

Further, the front ends of the front support plates of each group are uniformly fixed with electric element seats, and electric element plates are fixedly connected in each group of electric element seats.

Further, each group of rear supporting plates are uniformly provided with a plurality of groups of rear air passing holes, the outer wall of the central air passing cylinder is uniformly provided with a plurality of groups of central air inlet holes, the bottom of the inner cavity of the main shell is provided with an air outlet cylinder at the position corresponding to the central air passing cylinder, a dust removing net is arranged in the air outlet cylinder, air outlet plates are fixedly arranged at the bottom ends of the air outlet cylinders, and heat generated by electric element plates connected with the rear supporting plates of each group can be sequentially discharged to the air outlet cylinder through the rear air passing holes in the rear supporting plates and the central air inlet holes in the central air passing cylinder, and the filtered dust removed by the air outlet cylinder is discharged to the external environment through the air outlet plates.

Further, the outer end of the locking telescopic column is sleeved with a pressure spring, one end of the pressure spring is clamped on the inner wall of the upper cover, and the other end of the pressure spring is clamped on the inner side of the rear connecting plate.

Compared with the existing power electric element installation device, the energy-saving power electric element integrated installation device provided by the invention has the following advantages:

(1) The main body solid shell assembly of the electric power electric element integrated installation device is designed to be of a hexagonal prism cavity structure, the rear supporting plates in the energy-saving heat dissipation assembly are vertically inserted into two sides of each group of space in the inner cavity of the main shell in the solid shell assembly, the rear side of each group of rear supporting plates is provided with the linkage heat dissipation fan, the middle position of the main shell is provided with the central heat dissipation fan, heat generated by electric element plates connected with each group of rear supporting plates can be sequentially discharged to the air outlet cylinder through rear air passing holes in the rear supporting plates and central air inlet holes in the central air passing cylinder, and the heat is discharged to the external environment through the air outlet plates after being filtered and dedusted by the air outlet cylinder, so that the integration degree is high.

(2) When the linkage radiating fan and the central radiating fan in the energy-saving radiating assembly are driven to perform linkage radiating on all groups of electric element plates arranged in the inner cavity of the fixed shell assembly, the radiating driving motor is started to drive the radiating driving gear to rotate, so that the radiating driving gear and the central radiating gear form matched transmission, the central radiating gear drives the central radiating fan to rotate, on one hand, heat generated in the working process of the electric element plates connected to the front end of the rear supporting plate can enter the inner cavity of the central air duct through the rear air passing hole formed in the rear supporting plate and the central air inlet hole formed in the outer wall of the central air passing duct, and then the heat is filtered through the dust removing net arranged at the bottom end of the air outlet duct and then is radiated into an external space through the air outlet plate; in step, the central heat dissipation gear drives the array of connecting gears to rotate, make each group of connecting gears drive corresponding connection bevel gears through the connecting axle is coaxial to rotate, make connection bevel gears can drive corresponding linkage heat dissipation bevel gears to rotate, thereby can make linkage heat dissipation bevel gears drive corresponding linkage heat dissipation fan to rotate, finally can further accelerate the heat that produces in the work of the electric element board of connection in back backup pad front end and pass through the back wind hole of seting up in the back backup pad and the central inlet opening of seting up on the outer wall of central wind dryer discharges in the external space, can reach better radiating purpose in energy-conserving while through same linkage drive radiating mode.

(3) The outer wall in the fixed shell component is also connected with the linkage cabinet fan assembly and the locking component, the outer end of the locking telescopic column is sleeved with the pressure spring, so that when the electric element plate works in daily life, the locking telescopic column is naturally clamped to the cabinet fan linkage gear in the linkage cabinet fan assembly under the action of elastic force of the pressure spring, the cabinet fan linkage gear is locked and cannot rotate freely, each group of cabinet fan gears connected with the cabinet fan linkage gear cannot rotate freely, the cabinet fan connected with each group of cabinet fan gears through the cabinet fan shaft is in a state of closing and locking, the cabinet fan cannot be opened freely, when the electric element plate needs to be maintained, the telescopic driving rod of the telescopic driving is started, the locking telescopic column connected with the telescopic driving rod moves in a direction away from the cabinet fan linkage gear, the locking gear connected with the other end of the locking telescopic column moves in a direction away from the cabinet fan linkage gear, the cabinet fan linkage gear is separated from the cabinet fan linkage gear, the cabinet fan motor is enabled to be in a state of closing and locking gear, the cabinet fan can be opened freely, and the cabinet fan can be driven to rotate in a certain degree, the cabinet fan linkage gear is matched with the cabinet fan gear, and the cabinet fan linkage gear is driven to rotate, and the cabinet fan gear is automatically driven to rotate, and the cabinet fan gear is matched with the cabinet fan linkage gear is automatically, and the cabinet fan gear is driven to rotate, and the cabinet is convenient to rotate, and the cabinet is in a certain degree of the linkage gear is well, and the cabinet is driven.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions of the prior art, the drawings that are needed in the embodiments or the description of the prior art will be briefly described below, it will be obvious that the drawings in the following description are some embodiments of the present invention, and that other drawings can be obtained according to these drawings without inventive effort to a person skilled in the art.

FIG. 1 is a schematic view of the whole structure of an energy-saving integrated installation device for electric power components in the working state;

FIG. 2 is a schematic view of the whole structure of the integrated installation device for energy-saving electric power components in the maintenance state;

FIG. 3 is a schematic view of an exploded view of the solid housing assembly of the present invention;

FIG. 4 is a schematic view of an installation structure of the energy-saving heat dissipation assembly of the present invention;

FIG. 5 is a schematic view of a linkage heat dissipating fan portion of the energy efficient heat dissipating assembly of the present invention;

FIG. 6 is a schematic view of a central heat dissipating fan portion of the energy efficient heat dissipating assembly of the present invention;

FIG. 7 is a schematic diagram of a central heat dissipating gear portion of the energy efficient heat dissipating assembly of the present invention;

FIG. 8 is a schematic view of the structure of the air outlet plate portion of the energy efficient heat dissipating assembly of the present invention;

FIG. 9 is a schematic structural view of a ganged cabinet fan assembly of the present invention;

FIG. 10 is a schematic view of the structure of the shaft mount portion of the linkage cabinet fan assembly of the present invention;

FIG. 11 is a schematic view of the mounting structure of the locking assembly of the present invention;

fig. 12 is a schematic view showing the mounting structure of the compression spring portion of the locking assembly of the present invention.

Reference numerals: 1. a shell fixing assembly; 2. an energy-saving heat dissipation assembly; 3. a linkage cabinet fan assembly; 4. a locking assembly; 101. a main housing; 102. an upper cover; 103. a base; 104. a cabinet fan position; 201. a rear support plate; 202. a front support plate; 203. an electrical component seat; 204. an electrical component board; 205. a rear support slot; 206. a central air passing cylinder; 207. a rear wind hole; 208. a central air inlet; 209. a central heat dissipation fan; 210. linkage heat radiation fan; 211. linkage heat dissipation fan position; 212. linkage heat dissipation bevel gear; 213. connecting a bevel gear; 214. a connecting shaft; 215. an integrated seat; 216. a central heat dissipation shaft seat; 217. a central heat dissipation gear; 218. a heat dissipation driving gear; 219. a heat dissipation driving motor; 220. connecting a shaft seat; 221. a connecting gear; 222. an air outlet cylinder; 223. a dust removing net; 224. an air outlet plate; 301. a cabinet fan; 302. a rotating shaft fixing seat; 303. a cabinet fan rotating shaft seat; 304. a cabinet fan shaft; 305. a cabinet fan gear; 306. a cabinet fan linkage gear seat; 307. a cabinet fan linkage gear; 308. a cabinet fan driving gear; 309. a cabinet fan driving motor; 401. locking teeth; 402. locking the connecting plate; 403. locking the telescopic column; 404. a telescopic column position; 405. a rear connecting plate; 406. a pressure spring; 407. and (5) telescopic driving.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are some embodiments of the present invention, but not all embodiments of the present invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In the description of the present invention, it should be noted that the terms "center", "longitudinal", "lateral", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, merely to facilitate description of the present invention and simplify the description, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

An example of an energy-saving integrated power and electrical component mounting apparatus provided by the present invention is described below with reference to the accompanying drawings.

Embodiment one:

examples of the present invention for achieving energy-saving integrated heat dissipation of an electric power electric component integrated mounting device, which is fixed on an operation plane by a pedestal 103 in a solid housing assembly 1, are shown in fig. 1, 2, 3, 4, 5, 6, 7 and 8;

the main shell 101 in the solid shell assembly 1 is of a hexagonal prism-shaped cavity structure, each group of separated two sides in the inner cavity of the main shell 101 are vertically inserted with rear supporting plates 201, three groups of rear supporting plates 201 can form a group of triangular prism structures, the front end of each group of rear supporting plates 201 is connected with a front supporting plate 202, the front end of each group of front supporting plates 202 is uniformly provided with an electric element seat 203, and each group of electric element seats 203 is fixedly connected with an electric element plate 204;

the middle position of the main surface of each group of rear supporting plates 201 in the energy-saving heat dissipation assembly 2 is rotationally connected with a linkage heat dissipation fan 210, the middle position of the inner cavity of the solid shell assembly 1 is fixedly provided with a central air passing barrel 206, and the central air passing barrel 206 is rotationally connected with a central heat dissipation fan 209;

the rear shaft end of each group of linkage heat dissipation fans 210 of the energy-saving heat dissipation assembly 2 is fixedly connected with a linkage heat dissipation bevel gear 212 in an inserting manner, the upper part of each group of linkage heat dissipation bevel gears 212 is meshed with a connection bevel gear 213, each group of connection bevel gears 213 is fixedly connected with the lower end of a corresponding connection shaft 214 in an inserting manner, the top end of the outer wall of each central air duct 206 is fixedly provided with an integrated seat 215, a plurality of groups of connection shafts 214 are respectively and rotatably connected to shaft seats arranged at the outer ends of the integrated seats 215, the top end of an upper cover 102 is provided with a central heat dissipation shaft seat 216 in a position corresponding to the rotating shaft of the central heat dissipation fan 209, the rotating shaft of the central heat dissipation fan 209 is rotatably connected to the central heat dissipation shaft seat 216, the top shaft end of the central heat dissipation shaft seat 216 is fixedly connected with a central heat dissipation gear 217 in an inserting manner, one side of the central heat dissipation gear 217 is meshed with a heat dissipation driving gear 218, the main surface of the upper cover 102 is provided with a connection shaft seat 220 in a position corresponding to the plurality of groups of connection shafts 214 in a rotating manner, the upper end of each group of connection shafts 214 is rotatably connected to the corresponding connection shaft seats 220, and the top shaft ends of the plurality of connection shafts 221 are fixedly connected to the connection shafts 221 in a corresponding connection shafts 221;

when the energy-saving linkage heat dissipation is carried out on each group of electric element plates 204 arranged in the inner cavity of the main shell 101 in the solid shell assembly 1, the heat dissipation driving motor 219 in the energy-saving heat dissipation assembly 2 is started to drive the heat dissipation driving gear 218 to rotate, so that the heat dissipation driving gear 218 and the central heat dissipation gear 217 form matched transmission, the central heat dissipation gear 217 drives the central heat dissipation fan 209 to rotate, on one hand, heat generated in the working process of the electric element plates 204 connected to the front end of the rear support plate 201 can enter the inner cavity of the central air duct 206 through the rear air duct 207 arranged in the rear support plate 201 and the central air inlet 208 arranged on the outer wall of the central air duct 206, and after the heat is filtered through the dust removal net 223 arranged at the bottom end of the air duct 222, the heat is dissipated into the external space through the air outlet plate 224, and the surrounding central heat dissipation fan 209 is arranged at the middle position of each group of the rear support plate 201, so that the integrated heat dissipation purpose can be achieved;

in step, the central heat dissipation gear 217 in the energy-saving heat dissipation assembly 2 drives the plurality of groups of connection gears 221 to rotate, so that each group of connection gears 221 coaxially drives the corresponding connection bevel gear 213 to rotate through the connection shaft 214, so that the connection bevel gear 213 can drive the corresponding linkage heat dissipation bevel gear 212 to rotate, thereby enabling the linkage heat dissipation bevel gear 212 to drive the corresponding linkage heat dissipation fan 210 to rotate, finally, heat generated in the work of the electric element plate 204 connected to the front end of the rear support plate 201 can be further accelerated to be sequentially discharged into an external space through the rear air passing hole 207 formed in the rear support plate 201 and the central air inlet hole 208 formed in the outer wall of the central air passing barrel 206, and the purpose of better heat dissipation can be achieved in the same linkage type driving heat dissipation mode, so that the heat dissipation effect is good, and the energy saving effect is good.

Embodiment two:

as shown in fig. 1, fig. 2, fig. 3, fig. 9, fig. 10, fig. 11 and fig. 12, in the maintenance of the integrated installation device of the electric power electric element, a rotating shaft fixing seat 302 is fixed at a position corresponding to each group of cabinet fan positions 104 in the fixed shell component 1, a cabinet fan shaft 304 is rotatably connected in each group of rotating shaft fixing seats 302, a cabinet fan rotating shaft seat 303 is fixedly connected at the same position on one side of each group of cabinet fans 301, each group of cabinet fan rotating shaft seats 303 are inserted in the corresponding cabinet fan shaft 304, a cabinet fan gear 305 is fixedly inserted at the top end of each group of cabinet fan shafts 304, a cabinet fan linkage gear 307 is rotatably connected at the upper end of an upper cover 102 in the fixed shell component 1, the cabinet fan linkage gear 307 is meshed with the plurality of groups of cabinet fan gears 305 together, a cabinet fan driving gear 308 is meshed at one side of the cabinet fan linkage gear 307, and the cabinet fan driving gear 308 is connected with a cabinet fan driving motor 309 in a shaft manner;

one side of a cabinet fan linkage gear 307 in the linkage cabinet fan assembly 3 is also connected with a locking assembly 4, a locking tooth 401 in the locking assembly 4 is arranged on one side of the cabinet fan linkage gear 307, the rear end of the locking tooth 401 is connected with a locking connecting plate 402, the inner side of the lower end of the locking connecting plate 402 is connected with a locking telescopic column 403, a telescopic column position 404 is arranged on the outer wall of the upper cover 102 at a position corresponding to the locking telescopic column 403, the locking telescopic column 403 is slidably connected in the telescopic column position 404, the rear end of the telescopic column position 404 is fixedly provided with a rear connecting plate 405, a base of a telescopic drive 407 is fixed on the inner wall of the upper cover 102, and a push rod of the telescopic drive 407 is connected on the inner side of the upper end of the rear connecting plate 405;

optimally, the outer end of the locking telescopic column 403 is sleeved with a pressure spring 406, one end of the pressure spring 406 is clamped with the inner wall of the upper cover 102, and the other end of the pressure spring 406 is clamped with the inner side of the rear connecting plate 405, so that when the electric element plate 204 works daily, the locking telescopic column 403 is naturally clamped into the cabinet fan linkage gear 307 under the action of the elastic force of the pressure spring 406, the cabinet fan linkage gear 307 is locked and cannot rotate freely, each group of cabinet fan gear 305 connected with the cabinet fan linkage gear 307 cannot rotate freely, and therefore the cabinet fan 301 connected with each group of cabinet fan gear 305 through the cabinet fan shaft 304 can be in a closed and locked state, the cabinet fan 301 cannot be opened freely, and therefore the working safety of the electric element plate 204 can be improved, and the electric element plate has a certain anti-theft effect;

when the electric element plate 204 positioned in the solid housing assembly 1 needs to be maintained, the telescopic driving 407 in the locking assembly 4 is started to recover the ejector rod of the telescopic driving 407, so that the locking telescopic column 403 connected with the ejector rod of the telescopic driving 407 through the rear connecting plate 405 moves away from the cabinet fan linkage gear 307, the locking tooth 401 connected with the other end of the locking telescopic column 403 through the locking connecting plate 402 moves away from the cabinet fan linkage gear 307, the locking tooth 401 is separated from locking fit with the cabinet fan linkage gear 307, and the cabinet fan linkage gear 307 can keep a free rotation state;

the cabinet fan driving motor 309 in the linkage cabinet fan assembly 3 is started to drive the cabinet fan driving gear 308 to rotate, so that the cabinet fan driving gear 308 and the cabinet fan linkage gear 307 form matched transmission, the cabinet fan linkage gear 307 and the plurality of groups of cabinet fan gears 305 form matched transmission, and after the cabinet fan 301 connected with the cabinet fan gear 305 through the cabinet fan shaft 304 is automatically started, the plurality of groups of electric element boards 204 can be conveniently maintained.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present invention, and not for limiting the same; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some or all of the technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit of the invention.

Claims (5)

1. An energy-saving integrated installation device for electric power elements, comprising a solid shell component (1), and is characterized in that: the energy-saving heat dissipation device also comprises an energy-saving heat dissipation assembly (2) and a linkage cabinet fan assembly (3);

the energy-saving heat dissipation assembly (2) comprises a rear support plate (201), a front support plate (202), a central air passing cylinder (206), a central heat dissipation fan (209) and a linkage heat dissipation fan (210), and the linkage cabinet fan assembly (3) comprises a cabinet fan (301), a cabinet fan shaft (304), a cabinet fan gear (305), a cabinet fan linkage gear (307), a cabinet fan driving gear (308) and a cabinet fan driving motor (309);

the integral shell fixing assembly (1) is of a hexagonal prism-shaped cavity structure, a rear supporting plate (201) is vertically inserted into each group of two separated sides in an inner cavity of the shell fixing assembly (1), three groups of rear supporting plates (201) can form a group of triangular prism structures, the front end of each group of rear supporting plates (201) is connected with a front supporting plate (202), the middle position of the main surface of each group of rear supporting plates (201) is rotatably connected with a linkage heat dissipation fan (210), a central air passing cylinder (206) is fixed at the middle position of the inner cavity of the shell fixing assembly (1), and a central heat dissipation fan (209) is rotatably connected in the central air passing cylinder (206);

the central radiating fan (209) is in transmission connection with the plurality of groups of linkage radiating fans (210) through a group of combined driving mechanisms;

the main shell (101) in the shell fixing assembly (1) is of a hexagonal prism cavity structure with an opening at the upper part, an upper cover (102) is fixed at the top of the main shell (101), a base (103) is fixed at the bottom end of the main shell (101), cabinet fan positions (104) are arranged on two spaced sides of each group of the main shell (101), and the positions of each group of cabinet fan positions (104) correspond to the positions of the corresponding rear supporting plates (201);

the common combined driving mechanism arranged by the central radiating fan (209) and the plurality of groups of linked radiating fans (210) comprises linked radiating bevel gears (212), connecting bevel gears (213), connecting shafts (214), integrated seats (215), central radiating shaft seats (216), central radiating gears (217), radiating driving gears (218), radiating driving motors (219), connecting shaft seats (220) and connecting gears (221), wherein the rear shaft ends of the linked radiating fans (210) are fixedly connected with the linked radiating bevel gears (212) in an inserted mode, the upper parts of the linked radiating bevel gears (212) of each group are meshed with the connecting bevel gears (213), the connecting bevel gears (213) of each group are fixedly connected to the lower ends of the corresponding connecting shafts (214) in an inserted mode, the top ends of the outer walls of the central ventilating cylinders (206) are fixedly provided with the integrated seats (215), the plurality of groups of connecting shafts (214) are respectively and rotatably connected to shaft seats arranged at the outer ends of the integrated seats (215), the positions, corresponding to the rotating shafts of the upper covers (102) and the rotating shafts of the central radiating fans (209), the rear shaft ends of the linked radiating fans (210) are fixedly connected with the linked radiating bevel gears (213), the radiating shafts (216) are fixedly connected to the central shaft seats (216), the radiating shafts (216) in the rotary shafts of the central ventilating shafts (209), the heat dissipation driving gear (218) is connected with the heat dissipation driving motor (219) through a shaft, the heat dissipation driving motor (219) is fixed on the upper plane of the upper cover (102), a connecting shaft seat (220) is arranged on the main surface of the upper cover (102) at a position corresponding to the plurality of groups of connecting shafts (214), the upper ends of each group of connecting shafts (214) are rotationally connected in the corresponding connecting shaft seat (220), the top shaft ends of each group of connecting shafts (214) are fixedly connected with connecting gears (221) in a plugging manner, and the plurality of groups of connecting gears (221) are meshed with the central heat dissipation gear (217);

the outer end face of the shell fixing assembly (1) is rotatably connected with a cabinet fan shaft (304) at a position corresponding to each group of front support plates (202), each group of cabinet fan shafts (304) is fixedly connected with a cabinet fan (301) in an inserted manner, the top end of each group of cabinet fan shafts (304) is fixedly connected with a cabinet fan gear (305) in an inserted manner, the upper end of the shell fixing assembly (1) is rotatably connected with a cabinet fan linkage gear (307), the cabinet fan linkage gear (307) is meshed with a plurality of groups of cabinet fan gears (305) together, one side of the cabinet fan linkage gear (307) is meshed with a cabinet fan driving gear (308), the cabinet fan driving gear (308) is connected with a cabinet fan driving motor (309) in an axial manner, and the cabinet fan driving motor (309) is fixed at the top end of the shell fixing assembly (1);

the energy-saving heat dissipation assembly (2) comprises a main shell (101), a plurality of groups of rear support slots (205) arranged on two spaced surfaces in the inner cavity of the main shell, a plurality of groups of rear support plates (201) arranged in the corresponding rear support slots (205) in a plugging manner, and linkage heat dissipation fan positions (211) arranged in the middle of the main surfaces of the rear support plates (201), wherein each group of linkage heat dissipation fans (210) are rotatably connected in the corresponding linkage heat dissipation fan positions (211);

each group of rear supporting plates (201) are provided with a plurality of groups of rear air passing holes (207) uniformly, the outer wall of each central air passing cylinder (206) is provided with a plurality of groups of central air inlet holes (208) uniformly, the bottom of the inner cavity of the main shell (101) is provided with an air outlet cylinder (222) at the position corresponding to the central air passing cylinder (206), a dust removing net (223) is arranged in the air outlet cylinder (222), and an air outlet plate (224) is fixedly arranged at the bottom end of the air outlet cylinder (222).

2. An energy efficient electrical component integrated mounting apparatus according to claim 1, wherein: the front ends of each group of front supporting plates (202) are uniformly provided with electric element seats (203), and each group of electric element seats (203) is fixedly connected with an electric element plate (204).

3. An energy efficient electrical component integrated mounting apparatus according to claim 1, wherein: the cabinet fan assembly comprises a plurality of groups of rotating shaft fixing seats (302) in the linkage cabinet fan assembly (3), a plurality of groups of cabinet fan shafts (304) and cabinet fan rotating shaft seats (303), wherein the plurality of groups of rotating shaft fixing seats (302) are respectively arranged at the same positions on one side of a cabinet fan position (104), the plurality of groups of cabinet fan shafts (304) are respectively and rotatably connected in the corresponding rotating shaft fixing seats (302), the cabinet fan rotating shaft seats (303) are respectively and fixedly connected at the same positions on one side of each group of cabinet fan (301), and each group of cabinet fan rotating shaft seats (303) are respectively inserted into the corresponding cabinet fan shafts (304).

4. An energy efficient electrical component integrated mounting apparatus according to claim 1, wherein: one side of cabinet fan linkage gear (307) still is connected with locking Assembly (4), one side of cabinet fan linkage gear (307) is located to locking tooth (401) in locking Assembly (4), the rear end of locking tooth (401) is connected with locking connecting plate (402), the lower extreme inboard of locking connecting plate (402) is connected with locking telescopic column (403), telescopic column position (404) have been seted up on the outer wall of upper cover (102) in the position that corresponds with locking telescopic column (403), locking telescopic column (403) sliding connection is in telescopic column position (404), the rear end of telescopic column position (404) is fixed with back link plate (405), and the base of flexible drive (407) is fixed on the inner wall of upper cover (102), the ejector pin of flexible drive (407) is connected in the upper end inboard of back link plate (405).

5. The energy-saving integrated power electrical component mounting device according to claim 4, wherein: the outer end of the locking telescopic column (403) is sleeved with a pressure spring (406), one end of the pressure spring (406) is clamped on the inner wall of the upper cover (102), and the other end of the pressure spring is clamped on the inner side of the rear connecting plate (405).