CN117154573B - High heat dissipation nature silence power station - Google Patents

Abstract

The invention discloses a high-heat-dissipation mute power station, which belongs to the technical field of power distribution stations and comprises a power station main body, wherein a transverse baffle plate which is transversely arranged is fixedly connected to the lower position of the inner wall of the power station main body. According to the invention, the elastic exhaust structure is arranged to exhaust air in the main body of the power station, the elastic exhaust structure can exhaust air in the main body of the power station outdoors and exhaust indoor dry and cold air into the main body of the power station, so that the temperature in the main body of the power station is always kept low, electronic components in the main body of the power station can quickly dissipate heat, the heat dissipation effect in the main body of the power station is good, the indoor temperature of the main body of the power station is not too high, the continuous high-power cooling of an air conditioner is not needed, the running cost of the air conditioner is reduced, the running noise of the main body of the power station is reduced through the soundproof cotton, the indoor temperature of the main body of the power station is low and silent, the ageing speed of the electronic components in the power station is reduced, the service life is longer, and the working environment of workers is more comfortable.

Description

High heat dissipation nature silence power station

Technical Field

The invention belongs to the technical field of power distribution stations, and particularly relates to a high-heat-dissipation mute power station.

Background

The power distribution station is an important element in the power system, and is a facility for converting high-voltage electric energy supplied to the power distribution station into low-voltage electric energy suitable for use in cities, villages or industrial areas. In general, the power system delivers high voltage (110 kv and above) from a power generation station, and in order for this power to be better used by people, it is necessary to convert it to low voltage (10 kv or below) power through a distribution station.

Distribution substations are typically made up of a number of devices and components, including power transformation equipment, distribution transformers, fuses, circuit breakers, capacitors, grounding devices, protection devices, metering devices, and switchgear. The power transformation equipment is a core component of the power distribution station and is responsible for converting high-voltage electric energy into low-voltage electric energy suitable for use. The capacitor can improve the electric energy conversion efficiency and the power factor, and the fuse, the circuit breaker, the grounding device and the protection device can ensure the safe and stable operation of the power distribution station and the power grid.

According to different purposes and occasions, the power distribution stations can be further divided into indoor power distribution stations, box power distribution stations, semi-buried power distribution stations and other different types. Meanwhile, in order to adapt to different application scenes and requirements, the scale and the capacity of the power distribution station are different from a few kilowatts to hundreds of megawatts.

Most of indoor distribution stations are of box structures and are arranged in indoor structures, and internal electronic components are more, so that the distribution stations can generate a large amount of heat energy when in use, the distribution stations are cooled by the air conditioner which is arranged indoors in the prior art, the heat energy generated in the distribution stations is always kept indoors due to the airtight of the indoor space, the cooling effect of the cooling mode of the air conditioner is limited, the cooling cost is increased due to long-time continuous cooling and cooling, and the airtight indoor ventilation effect is poor, meanwhile, a noise reduction structure is not arranged in the box body, the noise of the distribution stations is large, the noise is continuous, and the long-term airtight environment and the noise environment seriously influence the physical health of indoor monitoring maintenance staff.

Disclosure of Invention

The technical problem to be solved by the invention is to overcome the defects of the prior art and provide the high-heat-dissipation mute power station.

The technical scheme adopted for solving the technical problems is as follows: the utility model provides a mute power station of high heat dissipation, includes the power station main part, the horizontal baffle of the horizontal setting of power station main part inner wall below position fixedly connected with, a plurality of evenly distributed's of having run through the louvre that runs through is offered to horizontal baffle lower surface position, the vertical baffle of the vertical setting of fixedly connected with between horizontal baffle upper surface one side and the power station main part inner wall, vertical baffle keeps away from power station main part middle part one side position and runs through and be provided with elasticity exhaust structure, and is provided with the block structure between elasticity exhaust structure and the vertical baffle, power station main part inner wall, vertical baffle both sides and horizontal baffle upper surface position fixedly connected with soundproof cotton, the inboard back of power station main part is located vertical baffle and is close to the installation locating lever of a plurality of evenly distributed of power station main part middle part one side top-down fixedly connected with.

Through the technical scheme, the transverse baffle can realize separating the driving motor, heat exchange can be realized through penetrating through the radiating holes, heat generated by the operation of the driving motor is pumped away, the influence on the driving motor caused by overhigh heat at the lower position of the transverse baffle is avoided, the vertical baffle can realize isolating an elastic exhaust structure, the existence of soundproof cotton can enable equipment in the main body of the power station to be more silent when being used, noise pollution is avoided, and the installation positioning rod can be used for installing and fixing electronic components.

The elastic exhaust structure comprises an arc-shaped rubber film, the arc-shaped rubber film is made of elastic rubber materials, the arc-shaped rubber film is hemispherical, the arc-shaped rubber film is located at the inner side of the arc shape, and is fixedly connected with a stress dispersion arc plate in the arc shape through glue adhesion, and a connecting threaded hole is formed in the center of the surface of the stress dispersion arc plate in a penetrating mode.

Through the technical scheme, the arc rubber film is elastic rubber material, can walk to the air current in the realization station main part and flow, and is outdoor with hot air discharge, avoids hot air to stay in indoor influence indoor temperature, causes the temperature to build up and influences the heat dissipation of power station main part, and stress dispersion arc board avoids the connecting screw hole position stress concentration of arc rubber film position to cause the arc rubber film to damage for arc rubber film life is more permanent, and the connecting screw hole of stress dispersion arc board position is convenient to be connected with the penetration regulating block.

The utility model discloses a power station, including vertical baffle, power station main part, unidirectional heat dissipation pipeline, vertical baffle lateral wall top position, power station main part is close to vertical baffle one side top position and runs through fixedly connected with unidirectional heat dissipation pipeline, unidirectional heat dissipation pipeline top position is provided with unidirectional exhaust structure with vertical baffle lateral wall top position.

Through above-mentioned technical scheme, can realize through one-way heat dissipation pipeline that the hot air flow in the main part of the electric station discharges outdoors, can't backward flow, the heat dissipation thoroughly.

Further, the clamping structure comprises a fixed clamping ring, the middle parts of the fixed clamping ring and the vertical baffle are fixed in a welded mode, the fixed clamping ring is provided with a movable clamping ring at a position far away from one side of the middle part of the power station main body, and the arc-shaped rubber film is located between the movable clamping ring and the fixed clamping ring.

Through above-mentioned technical scheme, fixed snap ring carries out welded fastening with vertical baffle, can realize supporting fixedly to the whole elastic exhaust structure, and is provided with the arc rubber membrane between movable snap ring and the fixed snap ring and can dismantle the back to movable snap ring and change the arc rubber membrane of shape.

Further, a plurality of evenly distributed fixing nuts are arranged at one side of the movable clamping ring and the fixing clamping ring, a plurality of evenly distributed screwing bolts are arranged at one side of the movable clamping ring and the fixing clamping ring away from the fixing nuts, the screwing bolts are in penetrating sliding connection with the movable clamping ring and the fixing clamping ring, and the screwing bolts are in penetrating threaded connection with the fixing nuts at corresponding positions.

Through above-mentioned technical scheme, fixation nut can realize dismantling each other between movable snap ring and the fixed snap ring, conveniently dismantle the change to arc rubber membrane.

Further, the movable snap ring is close to a plurality of evenly distributed annular positioning bulges in one side position of the fixed snap ring, the fixed snap ring is close to a plurality of positioning grooves which are annularly arranged in one side position of the movable snap ring, the size and shape of the positioning grooves are consistent with those of the positioning bulges, and the positioning grooves are in sliding connection with the positioning bulges at the corresponding positions.

Through above-mentioned technical scheme, annular location arch and constant head tank make the leakproofness of arc rubber membrane and fixed snap ring and activity snap ring junction better, avoid appearing the condition of gas leakage.

Further, the middle part position that power station main part middle part one side was kept away from to arc rubber membrane runs through and is provided with runs through the regulating block, it is provided with the screw thread arch to run through the regulating block and be close to the stress dispersion arc board one side position that convex set up, and runs through between regulating block and the stress dispersion arc board through connecting screw hole and screw thread protruding screw thread fixed connection, run through the regulating block upper surface position and run through the regulation hole of having offered.

Through the technical scheme, the arc-shaped rubber film can be clamped and fixed through the adjusting block, the arc-shaped rubber film is driven to deform when the adjusting block is penetrated to move left and right, so that air in the power station main body is compressed to realize flowing, hot air is discharged, cold air is pumped in, and heat dissipation is realized in the power station main body.

Further, the one-way exhaust structure comprises a pipeline main body, the pipeline main body is L-shaped, two support limiting plates which are symmetrically arranged are fixedly connected to the positions of two parallel inner walls on one side of the pipeline main body away from the power station main body, two sealing locating plates which are symmetrically arranged are fixedly connected to the positions above the support limiting plates on the two parallel inner walls of the pipeline main body, and an adjusting sealing plate is slidably connected to the positions above the sealing locating plates on the inner walls of the pipeline main body.

Through above-mentioned technical scheme, adjust the closing plate through sealed locating plate and support closely seal the locating plate under the environment of ordinary pressure, realize sealedly, avoid hot air to flow back, avoid the hot air in the top exhaust duct to flow back.

Further, two the width of sealed locating plate is less than the width of two support limiting plates, the equal fixedly connected with of regulation closing plate lower surface both sides position a plurality of evenly distributed's spacing slide bar, a plurality of spacing slide bar keeps away from regulation closing plate one end and is through sliding connection with the support limiting plate surface of corresponding position, be provided with a plurality of evenly distributed's reset spring between regulation closing plate lower surface both sides and the support limiting plate that corresponds, a plurality of reset spring is concentric cover with the spacing slide bar that corresponds and establishes, reset spring is the extension spring.

Through above-mentioned technical scheme, when the atmospheric pressure that realizes in the electric station main part resumes to normal through reset spring, adjust the closing plate and push down under reset spring's effect, compress tightly sealed locating plate and realize sealedly, and can realize adjusting the sliding condition of adjusting the closing plate through spacing slide bar for adjust the vertical slip of closing plate.

Further, the utility model discloses a power station, including power station main part, one-way cooling tube, lateral baffle, power station main part top position is provided with top exhaust duct, one-way cooling tube is run through fixed connection with the top exhaust duct lower surface of corresponding position, power station main part surface position is connected with the power station access door that sets up to the opening through the hinge rotation, power station main part is kept away from one side of one-way cooling tube and is located lateral baffle top position and runs through and offer a plurality of evenly distributed's bleeder vent that runs through, a plurality of bleeder vent position fixedly connected with check valve runs through, power station main part inner wall is located a plurality of bleeder vent positions that run through and passes through glue fixedly connected with coarse strainer, the coarse strainer is located between soundproof cotton and the power station main part inner wall.

Through the technical scheme, maintenance and overhaul inside the power station main body can be achieved through the power station access door, indoor cool air can be absorbed into the power station main body through the ventilation holes, heat dissipation treatment is achieved in the power station main body, indoor dust and foreign matters can be primarily filtered through the coarse filter screen, indoor cool air can enter the power station main body through the check valve, and hot air in the power station main body cannot enter the room.

Further, the lateral baffle upper surface is located one side that the vertical baffle kept away from power station main part middle part and runs through and offer the slide hole that runs through, the lateral baffle upper surface is located the slide hole that runs through position fixedly connected with location slide tube, location slide tube inner wall position sliding connection has vertical ejector pin, vertical ejector pin is run through sliding connection with the regulation hole that runs through, vertical ejector pin outer wall is located the stirring lug that runs through the setting of regulating block below position fixedly connected with convex, and stir lug and run through regulation hole inner wall sliding connection.

Through the technical scheme, through penetrating the sliding hole, the vertical ejector rod can penetrate and slide, the positioning sliding cylinder can limit and support the vertical ejector rod, the vertical ejector rod is prevented from shifting, the vertical ejector rod is prevented from being controlled by the adjusting cam, and the vertical ejector rod is always arranged above the adjusting cam.

Further, a driving motor is fixedly connected to one side, close to the through sliding hole, of the inner bottom wall of the power station main body, an adjusting cam is arranged below the through sliding hole, and the adjusting cam is connected with the driving end of the driving motor through a shaft.

Through the technical scheme, power is provided through the driving motor, the adjusting cam rotates, so that the vertical ejector rod is adjusted, the vertical ejector rod drives the poking lug to move up and down, the left and right movement of the penetrating adjusting block is realized, and the arc-shaped rubber film is adjusted in a stirring mode.

The beneficial effects of the invention are as follows: (1) According to the invention, through the arrangement of the elastic exhaust structure, the vertical ejector rod is used for rapidly realizing up-and-down movement, so that the penetrating regulating block reciprocates in the horizontal direction, the arc-shaped rubber film is used for rapidly pumping low-temperature air into the electric station main body, so that the air pressure in the electric station main body is changed, hot air is discharged when the air pressure is too high, cold air enters when the air pressure is reduced, and the hot air is discharged through the unidirectional radiating pipe, so that air flow exchange in the electric station main body is realized, heat exchange is realized, the electric station main body is kept for rapidly radiating, heat cannot be dissipated indoors, the lower indoor temperature is ensured, the running load burden of an air conditioner is reduced, and meanwhile, the running cost of the air conditioner is reduced; (2) According to the invention, the soundproof cotton is arranged in the power station main body, heat can be directly discharged outdoors through a mode of directly discharging hot air, meanwhile, the soundproof cotton has a certain heat preservation effect, heat generated by the operation of electronic components in the power station main body is prevented from being dissipated indoors, and meanwhile, noise generated by the operation of the electronic components can be effectively isolated, so that the indoor with the power station main body is more mute, and the working environment of staff is improved.

Drawings

Fig. 1 is a schematic view of a high heat dissipation mute power station according to the present invention.

Fig. 2 is a schematic view of an internal part of a high heat dissipation silent power station according to the present invention.

Fig. 3 is a second view of the high heat dissipation mute electric station of the present invention.

Fig. 4 is a schematic perspective view of a unidirectional radiating pipe of the high-heat-dissipation mute power station.

Fig. 5 is a side cross-sectional view of a radiator cover of a high heat rejection mute electric station of the present invention.

Fig. 6 is an enlarged view at a in fig. 3.

Fig. 7 is a cross-sectional view at B in fig. 4.

Fig. 8 is an enlarged view at C in fig. 5.

Fig. 9 is an enlarged view at D in fig. 8.

Fig. 10 is a schematic diagram of the internal structure of the high heat dissipation silent power station of the present invention.

Fig. 11 is an enlarged view at E in fig. 10.

Reference numerals: 1. a power station main body; 2. a power station access door; 3. a unidirectional radiating pipe; 300. a pipe body; 301. sealing and positioning plates; 302. supporting and limiting plates; 303. a limit slide bar; 304. a return spring; 305. adjusting the sealing plate; 4. a top exhaust duct; 5. penetrating the adjusting hole; 6. a vertical baffle; 7. an elastic exhaust structure; 700. an arc-shaped rubber film; 701. stress dispersion arc plates; 702. a connecting threaded hole; 703. a movable clasp; 704. a fixed snap ring; 705. screwing the bolt; 706. a fixing nut; 707. positioning the bulge; 708. a positioning groove; 8. penetrating the adjusting block; 9. stirring the convex blocks; 10. a transverse baffle; 11. positioning a sliding cylinder; 12. penetrating the sliding hole; 13. an adjusting cam; 14. a driving motor; 15. a vertical ejector rod; 16. a clamping structure; 17. penetrating through the ventilation holes; 18. a coarse filter screen; 19. soundproof cotton; 20. penetrating through the heat dissipation holes; 21. installing a positioning rod; 22. a one-way valve.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be further described in detail with reference to the accompanying drawings and examples. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

This embodiment will be readily understood by those skilled in the art, and will be described for use in the horizontal placement of large vessel chain cleaning equipment.

As shown in fig. 1-6 and fig. 8-11, a high-heat-dissipation mute power station of this embodiment includes a power station main body 1, a top exhaust pipeline 4 is arranged at a position above the power station main body 1, a unidirectional heat dissipation pipe 3 is fixedly connected with the lower surface of the top exhaust pipeline 4 at a corresponding position in a penetrating manner, a power station access door 2 which is arranged in a split manner is rotatably connected at a position on the surface of the power station main body 1 through a hinge, a plurality of uniformly distributed penetrating ventilation holes 17 are formed in the position above a transverse baffle 10, which are far away from one side of the unidirectional heat dissipation pipe 3, the plurality of penetrating ventilation holes 17 are fixedly connected with a one-way valve 22, the power station access door 2 can be used for maintaining and overhauling the inside of the power station main body 1, the penetrating ventilation holes 17 can be used for absorbing indoor cool air into the inside of the power station main body 1 to realize heat dissipation treatment in the power station main body 1, a rough filter screen 18 can be used for primarily filtering indoor dust and foreign matters, and the indoor cool air can not enter the power station main body 1, and the indoor hot air can not enter the room through the one-way valve 22.

The utility model discloses a power station main part 1 inner wall is located a plurality of through bleeder vent 17 positions and passes through glue fixedly connected with coarse filtration net 18, coarse filtration net 18 is located between soundproof cotton 19 and the power station main part 1 inner wall, power station main part 1 inner wall below position fixedly connected with transversely sets up horizontal baffle 10, horizontal baffle 10 upper surface is located vertical baffle 6 and has run through the slide hole 12 of having seted up, run through slide hole 12 can realize that vertical ejector pin 15 runs through and slides, location slide cylinder 11 can carry out spacing support to vertical ejector pin 15, avoid vertical ejector pin 15 to take place the skew, avoid vertical ejector pin 15 not to receive adjustment cam 13 control, make it be in adjustment cam 13 top position all the time, horizontal baffle 10 can realize separating driving motor 14, simultaneously can realize heat exchange through running through louvre 20, take away the heat pump that driving motor 14 work produced, avoid the heat of horizontal baffle 10 below position to be too high to cause driving motor 14 to receive the influence.

The upper surface of the transverse baffle 10 is fixedly connected with a positioning slide cylinder 11 at the position of a penetrating slide hole 12, the inner wall position of the positioning slide cylinder 11 is slidably connected with a vertical ejector rod 15, the vertical ejector rod 15 is in penetrating sliding connection with the penetrating adjustment hole 5, the outer wall of the vertical ejector rod 15 is fixedly connected with a poking lug 9 arranged in an arc shape at the position below the penetrating adjustment block 8, the poking lug 9 is in sliding connection with the inner wall of the penetrating adjustment hole 5, and a plurality of penetrating heat dissipation holes 20 which are uniformly distributed are formed in the position of the lower surface of the transverse baffle 10 in penetrating mode.

Vertical baffle 6 of vertical setting of fixedly connected with between transverse baffle 10 upper surface one side and the power station main part 1 inner wall, vertical baffle 6 can realize keeping apart elasticity exhaust structure 7, and vertical baffle 6 keeps away from power station main part 1 middle part one side position and runs through and be provided with elasticity exhaust structure 7, and is provided with block structure 16 between elasticity exhaust structure 7 and the vertical baffle 6, and block structure 16 includes fixed snap ring 704, and fixed snap ring 704 is fixed with vertical baffle 6 middle part position welded, and fixed snap ring 704 is kept away from power station main part 1 middle part one side position and is provided with movable snap ring 703.

The movable snap ring 703 is close to a plurality of evenly distributed annular positioning protrusions 707 of fixed snap ring 704 side fixedly connected with, and fixed snap ring 704 is close to a plurality of positioning grooves 708 that are annular setting in position of movable snap ring 703 side, and the size shape of a plurality of positioning grooves 708 is unanimous with the size shape of positioning protrusions 707, and positioning grooves 708 are sliding connection with the positioning protrusions 707 of corresponding position, and annular positioning protrusions 707 and positioning grooves 708 make arc rubber membrane 700 and fixed snap ring 704 and movable snap ring 703 junction's leakproofness better, avoid appearing the condition of gas leakage.

The movable clamp ring 703 and the fixed clamp ring 704 are provided with a plurality of evenly distributed fixing nuts 706 in one side position, the fixing nuts 706 can be used for mutually disassembling the movable clamp ring 703 and the fixed clamp ring 704, the arc-shaped rubber membrane 700 is convenient to disassemble and replace, the movable clamp ring 703 and the fixed clamp ring 704 are away from one side position of the fixing nuts 706, a plurality of evenly distributed screwing bolts 705 are arranged in one side position, which is far away from the fixing nuts 706, of the movable clamp ring 703 and the fixed clamp ring 704, the plurality of screwing bolts 705 are connected with the fixing nuts 706 in the corresponding position in a penetrating and sliding manner, the arc-shaped rubber membrane 700 is located between the movable clamp ring 703 and the fixed clamp ring 704, the inner wall of the power station main body 1, two sides of the vertical baffle 6 and the upper surface position of the transverse baffle 10 are fixedly connected with soundproof cotton 19, the existence of the soundproof cotton 19 can enable the power station main body 1 to be more silent when equipment is used, noise pollution is avoided, the installation positioning rod 21 can be used for installing and fixing electronic components, the fixed clamp ring 704 and the whole elastic exhaust structure 7 can be supported and fixed, and the arc-shaped rubber membrane 700 can be replaced after the movable clamp ring 703 and the fixed clamp ring 704 are arranged between the movable clamp ring 704.

The utility model discloses a power station, including power station main part 1, the inside back is located vertical baffle 6 and is close to power station main part 1 middle part one side top-down fixedly connected with a plurality of evenly distributed's installation locating lever 21, power station main part 1 inner bottom is close to running through slide hole 12 one side fixedly connected with driving motor 14, driving motor 14 provides power, make adjustment cam 13 rotate, thereby adjust vertical ejector pin 15, make vertical ejector pin 15 drive stir lug 9 reciprocate, realize running through adjusting block 8 and control, to arc rubber membrane 700 is adjusted in the inflation, transverse baffle 10 is located running through slide hole 12 below position and is provided with adjustment cam 13, adjustment cam 13 passes through the axle with driving motor 14 drive end and is connected, elastic exhaust structure 7 includes arc rubber membrane 700, arc rubber membrane 700 is elastic rubber material, can bump, realize the air current flow in the power station main part 1, it is outdoor to discharge hot air, avoid hot air to stay indoor influence indoor temperature, cause the temperature to cumulate and influence power station main part 1 heat dissipation.

The middle part position that power station main part 1 middle part one side was kept away from to arc rubber membrane 700 runs through and is provided with runs through regulating block 8, run through regulating block 8 can realize carrying out the centre gripping fixed to arc rubber membrane 700, realize driving arc rubber membrane 700 when running through regulating block 8 and take place the deformation, thereby realize that the air in the power station main part 1 is compressed and realize flowing, discharge hot air, cold air suction, realize dispelling the heat in the power station main part 1, run through regulating block 8 and be close to the stress dispersion arc 701 one side position that the arc set up and be provided with the screw thread arch, and run through between regulating block 8 and the stress dispersion arc 701 through connecting screw hole 702 and screw thread protruding screw thread fixed connection, run through regulating block 8 upper surface position and run through and set up run through regulation hole 5, arc rubber membrane 700 is elastic rubber material.

The arc rubber membrane 700 is the hemisphere setting, the arc rubber membrane 700 is located the arc inboard position and bonds the stress dispersion arc board 701 that fixedly connected with arc set up through glue, stress dispersion arc board 701 avoids the connection screw hole 702 position stress concentration of arc rubber membrane 700 position to cause arc rubber membrane 700 to damage, make arc rubber membrane 700 life more permanent, the connection screw hole 702 of stress dispersion arc board 701 position is convenient to be connected with running through regulating block 8, the connection screw hole 702 has been seted up in stress dispersion arc board 701 surface central point, power station main part 1 runs through fixedly connected with one-way heat dissipation pipeline 3 near vertical baffle 6 one side top position, one-way heat dissipation pipeline 3 is running through fixedly connected with vertical baffle 6 lateral wall top position, one-way heat dissipation pipeline 3 top position is provided with one-way exhaust structure.

As shown in fig. 7, the unidirectional exhaust structure includes a pipe body 300, the pipe body 300 is in an L-shaped configuration, two supporting limiting plates 302 are fixedly connected to two parallel inner walls on one side of the pipe body 300, which are symmetrically arranged, on the other side of the power station body 1, two sealing positioning plates 301 are fixedly connected to two symmetrical positions on the two parallel inner walls of the pipe body 300, which are positioned above the supporting limiting plates 302, the sealing positioning plates 301 realize that the sealing plates 305 are adjusted to abut against the sealing positioning plates 301 under normal pressure environment, sealing is realized, hot air backflow is avoided, hot air backflow in the top exhaust pipe 4 is avoided, the width of the two sealing positioning plates 301 is smaller than that of the two supporting limiting plates 302, the unidirectional heat dissipation pipe can realize that hot air in the power station body 1 flows outdoors, backflow is not possible, and heat dissipation is thorough.

The two sides of the lower surface of the adjusting and sealing plate 305 are fixedly connected with a plurality of uniformly distributed limit slide bars 303, one end of each of the plurality of limit slide bars 303, which is far away from the adjusting and sealing plate 305, is in penetrating sliding connection with the surface of the corresponding support limit plate 302, a plurality of uniformly distributed reset springs 304 are arranged between the two sides of the lower surface of the adjusting and sealing plate 305 and the corresponding support limit plate 302, the reset springs 304 realize that when the air pressure in the power station main body 1 is restored to normal, the adjusting and sealing plate 305 is downwards pressed under the action of the reset springs 304 to compress the sealing and positioning plate 301 to realize sealing, and the sliding state of the adjusting and sealing plate 305 can be adjusted through the limit slide bars 303, so that the adjusting and sealing plate 305 vertically slides, the plurality of reset springs 304 and the corresponding limit slide bars 303 are concentrically sleeved, the reset springs 304 are tension springs, and the inner wall of the pipeline main body 300 is positioned above the sealing and positioning plate 301 and are in sliding connection with the adjusting and sealing plate 305.

The theory of operation of this embodiment is as follows, driving motor 14 stirs lug 9 before starting and is located the inner wall position of run-through regulation hole 5, arc rubber membrane 700 is toward outside expansion this moment, the power station access door 2 of closing power station main part 1 position can make the electronic components in the power station main part 1 work, start driving motor 14, make driving motor 14 drive adjusting cam 13 rotate, make adjusting cam 13 drive vertical ejector pin 15 reciprocate, make stirring lug 9 reciprocate, under the effect of run-through regulation hole 5 of run-through regulating block 8, make arc rubber membrane 700 left and right sides remove, arc rubber membrane 700 is toward the inboard air compression in the power station main part 1 that resets of power station main part 1 when just starting driving motor 14, make and adjust the sealing plate 305 jack-up, make hot air pass through pipeline main part 300 discharge, at this moment, driving motor 14 drives vertical ejector pin 15 and reciprocates, make the lug 9 support run-through in the adjusting hole 5 this moment, make the internal air pressure of power station main part 1 reduce, and adjusting sealing plate 305 reset under reset spring 304, avoid hot air to flow back, check valve 22 opens, indoor main part 22 is through the effect of cooling down, make the power station main part 1 gives off the heat through the thermal insulation, and the noise insulation main part 1 is cooled down, simultaneously has the effect of cooling down, and the noise is avoided in the power station main part 1.

The foregoing description is only of the preferred embodiments of the present invention, and is not intended to limit the scope of the present invention.

Claims (4)

1. The utility model provides a high thermal diffusivity silence power station, includes power station main part (1), its characterized in that: the novel solar energy power station is characterized in that a transverse baffle (10) which is transversely arranged is fixedly connected to the lower position of the inner wall of the power station main body (1), a plurality of evenly distributed penetrating radiating holes (20) are formed in the lower surface position of the transverse baffle (10) in a penetrating mode, a vertical baffle (6) which is vertically arranged is fixedly connected between one side of the upper surface of the transverse baffle (10) and the inner wall of the power station main body (1), an elastic exhaust structure (7) is arranged in the position, away from one side of the middle of the power station main body (1), of the vertical baffle (6), a clamping structure (16) is arranged between the elastic exhaust structure (7) and the vertical baffle (6), soundproof cotton (19) is fixedly connected to the inner wall of the power station main body (1), two sides of the vertical baffle (6) and the upper surface position of the transverse baffle (10), and a plurality of evenly distributed installation positioning rods (21) are fixedly connected to one side, close to the middle of the vertical baffle (6), of the power station main body (1), of the inner side of the vertical baffle (6) is located from top down.

The elastic exhaust structure (7) comprises an arc-shaped rubber film (700), the arc-shaped rubber film (700) is made of elastic rubber materials, the arc-shaped rubber film (700) is hemispherical, the arc-shaped rubber film (700) is positioned at the inner side of the arc shape, a stress dispersion arc plate (701) arranged in the arc shape is fixedly connected with the inner side of the arc shape through glue adhesion, and a connecting threaded hole (702) is formed in the center of the surface of the stress dispersion arc plate (701) in a penetrating manner;

The power station comprises a power station main body (1), a vertical baffle (6) and a unidirectional heat dissipation pipeline (3), wherein the top position of one side of the power station main body, which is close to the vertical baffle (6), is fixedly connected with the unidirectional heat dissipation pipeline (3) in a penetrating manner, the unidirectional heat dissipation pipeline (3) is fixedly connected with the top position of the side wall of the vertical baffle (6), and a unidirectional exhaust structure is arranged at the top position of the unidirectional heat dissipation pipeline (3);

the clamping structure (16) comprises a fixed clamping ring (704), the fixed clamping ring (704) is fixedly welded with the middle part of the vertical baffle (6), a movable clamping ring (703) is arranged at one side of the fixed clamping ring (704) away from the middle part of the power station main body (1), and the arc-shaped rubber film (700) is positioned between the movable clamping ring (703) and the fixed clamping ring (704);

A plurality of uniformly distributed fixing nuts (706) are arranged at one side of the movable clamping ring (703) and one side of the fixed clamping ring (704), a plurality of uniformly distributed screwing bolts (705) are arranged at one side of the movable clamping ring (703) and one side of the fixed clamping ring (704) away from the fixing nuts (706), the plurality of screwing bolts (705) are in penetrating sliding connection with the movable clamping ring (703) and the fixed clamping ring (704), and the plurality of screwing bolts (705) are in penetrating threaded connection with the fixing nuts (706) at the corresponding positions;

a plurality of evenly distributed annular positioning protrusions (707) are fixedly connected to the position, close to one side of the fixed clamping ring (704), of the movable clamping ring (703), a plurality of positioning grooves (708) which are annularly arranged are formed in the position, close to one side of the movable clamping ring (703), of the fixed clamping ring, the size and shape of the positioning grooves (708) are consistent with those of the positioning protrusions (707), and the positioning grooves (708) are in sliding connection with the positioning protrusions (707) at corresponding positions;

The arc-shaped rubber film (700) is provided with a penetrating adjusting block (8) in a penetrating manner at the middle position of one side of the arc-shaped rubber film, which is far away from the middle of the power station main body (1), a threaded protrusion is arranged at one side of the penetrating adjusting block (8), which is close to a stress dispersing arc plate (701) arranged in an arc shape, and the penetrating adjusting block (8) is fixedly connected with the stress dispersing arc plate (701) through a connecting threaded hole (702) and the threaded protrusion in a threaded manner, and a penetrating adjusting hole (5) is formed in the upper surface of the penetrating adjusting block (8);

A driving motor (14) is fixedly connected to one side, close to the through sliding hole (12), of the inner bottom wall of the power station main body (1), an adjusting cam (13) is arranged below the through sliding hole (12) of the transverse baffle plate (10), and the adjusting cam (13) is connected with the driving end of the driving motor (14) through a shaft;

The utility model discloses a power station, including power station main part (1), lateral baffle (10), lug (9) are stirred in lateral baffle (6), lateral baffle (10) upper surface is located one side of keeping away from power station main part (1) middle part and runs through and offer through slide hole (12), lateral baffle (10) upper surface is located through slide hole (12) position fixedly connected with location slide tube (11), location slide tube (11) inner wall position sliding connection has vertical ejector pin (15), vertical ejector pin (15) are run through sliding connection with run through regulation hole (5), vertical ejector pin (15) outer wall is located and runs through stirring lug (9) of setting of regulating block (8) below position fixedly connected with arc, and stir lug (9) and run through regulation hole (5) inner wall sliding connection.

2. The high-heat-dissipation mute power station according to claim 1, wherein the unidirectional exhaust structure comprises a pipeline main body (300), the pipeline main body (300) is in an L-shaped arrangement, two support limiting plates (302) which are symmetrically arranged are fixedly connected to two parallel inner walls on one side of the pipeline main body (300) away from the power station main body (1), two sealing positioning plates (301) which are symmetrically arranged are fixedly connected to two parallel inner walls of the pipeline main body (300) above the support limiting plates (302), and an adjusting sealing plate (305) is slidably connected to the inner walls of the pipeline main body (300) above the sealing positioning plates (301).

3. The high-heat-dissipation mute power station according to claim 2, wherein the width of the two sealing positioning plates (301) is smaller than that of the two supporting limiting plates (302), a plurality of uniformly-distributed limiting slide bars (303) are fixedly connected to the two sides of the lower surface of the adjusting sealing plate (305), one end, away from the adjusting sealing plate (305), of each limiting slide bar (303) is in penetrating sliding connection with the surface of the corresponding supporting limiting plate (302), a plurality of uniformly-distributed reset springs (304) are arranged between the two sides of the lower surface of the adjusting sealing plate (305) and the corresponding supporting limiting plates (302), the plurality of reset springs (304) are sleeved concentrically with the corresponding limiting slide bars (303), and the reset springs (304) are tension springs.

4. A high thermal mute plant as claimed in claim 1, characterized in that: the utility model discloses a solar energy power station, including power station main part (1), one-way cooling tube (3), power station main part (1) top position is provided with top exhaust duct (4), one-way cooling tube (3) is run through fixed connection with top exhaust duct (4) lower surface of corresponding position, power station main part (1) surface position is connected with power station access door (2) that set up to the side by side through hinge rotation, power station main part (1) keep away from one side of one-way cooling tube (3) and lie in transverse baffle (10) top position run through and offered a plurality of evenly distributed run through bleeder vent (17), a plurality of run through bleeder vent (17) fixedly connected with check valve (22), power station main part (1) inner wall is located a plurality of and runs through bleeder vent (17) position and pass through glue fixedly connected with coarse filtration net (18), coarse filtration net (18) are located between soundproof cotton (19) and power station main part (1) inner wall.