CN108933502A - A kind of virtual synchronous electricity generation system - Google Patents
A kind of virtual synchronous electricity generation system Download PDFInfo
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- CN108933502A CN108933502A CN201810773148.7A CN201810773148A CN108933502A CN 108933502 A CN108933502 A CN 108933502A CN 201810773148 A CN201810773148 A CN 201810773148A CN 108933502 A CN108933502 A CN 108933502A
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- virtual synchronous
- exhaust
- electricity generation
- generation system
- exhaust piping
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- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02K—DYNAMO-ELECTRIC MACHINES
- H02K9/00—Arrangements for cooling or ventilating
- H02K9/08—Arrangements for cooling or ventilating by gaseous cooling medium circulating wholly within the machine casing
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- Heat-Exchange Devices With Radiators And Conduit Assemblies (AREA)
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Abstract
The invention discloses a kind of virtual synchronous electricity generation systems, including virtual synchronous generator unit, shell, power supply, cooler;The inner lower of cooler is arranged in the exhaust processor of cooler;Exhaust processor includes exhaust piping and constriction, and the inside of exhaust processor is arranged in constriction, and constriction is used to control the flowing of the gas in exhaust processor;Exhaust piping is the hollow circular tube component that rear and front end is open, and exhaust piping is used for so that the internal flow that cold air is piped in exhaust;Constriction is set to the front of exhaust piping, and constriction has first diameter portion, the reducing diameter part rearward reduced from first diameter portion and the second diameter portion rearward extended from the tail end of exhaust piping;It is formed with front opening edge in the front end in first diameter portion, is formed with open rearward end edge in the rear end of second diameter portion;The invention can avoid the operational efficiency that higher temperature influences virtual synchronous electricity generation system, it is ensured that the service life of virtual synchronous electricity generation system.
Description
Technical field
The present invention relates to virtual synchronous technical field of power generation, in particular to a kind of virtual synchronous electricity generation system.
Background technique
The operational efficiency of traditional virtual synchronous electricity generation system is easy to be influenced by its temperature.
The operational efficiency that higher temperature will lead to virtual synchronous electricity generation system reduces, serious to reduce virtual synchronous hair
The service life of electric system.
Therefore, it is necessary to propose a kind of new technical solution, to solve the above technical problems.
Summary of the invention
The purpose of the present invention is to provide a kind of virtual synchronous electricity generation system, it is virtual same to be avoided that higher temperature influences
Walk the operational efficiency of electricity generation system, it is ensured that the service life of virtual synchronous electricity generation system.
To solve the above problems, technical scheme is as follows:
A kind of virtual synchronous electricity generation system, the virtual synchronous electricity generation system include virtual synchronous generator unit, shell, power supply,
Cooler;The inner lower of the cooler is arranged in the exhaust processor of the cooler;The exhaust processor includes row
The inside of the exhaust processor is arranged in gas piping and constriction, the constriction, and the constriction is for controlling
The flowing of gas in the exhaust processor;The exhaust piping is the hollow circular tube component of rear and front end opening, the row
Gas piping is used for so that cold air is in the internal flow of the exhaust piping, and the exhaust piping has constant over the entire length
Diameter;The constriction is set to the front of the exhaust piping, and the constriction has first diameter portion, from described
The reducing diameter part and the second diameter portion rearward extended from the tail end of the exhaust piping that first diameter portion rearward reduces;?
The front end in the first diameter portion is formed with front opening edge, is formed with open rearward end side in the rear end of the second diameter portion
Edge.
In above-mentioned virtual synchronous electricity generation system, the exhaust processor further includes connecting elements, fastening bolt and fastening
Nut.
In above-mentioned virtual synchronous electricity generation system, the connecting elements is provided with intercommunicating pore, and the intercommunicating pore is the row
Gas piping engages the through-hole being connected to the cool-heat-exchanger of the connecting elements and the cooler.
In above-mentioned virtual synchronous electricity generation system, the intercommunicating pore is formed in the inner peripheral surface of the front end of the connecting elements
On.
In above-mentioned virtual synchronous electricity generation system, the front openings edge of the exhaust piping is attached to the cold and hot exchange
The cold air discharge port of device.
In above-mentioned virtual synchronous electricity generation system, the fastening bolt passes through the intercommunicating pore, by the connecting elements
Altogether with the string of the exhaust piping and the cool-heat-exchanger, the fastening bolt is fitted into the fastening nut.
In above-mentioned virtual synchronous electricity generation system, the connecting elements is used to engage the front openings side of the exhaust piping
The cold air discharge port of edge and the cool-heat-exchanger.
In above-mentioned virtual synchronous electricity generation system, the outer peripheral surface of the fastening bolt has thread groove, the fastening bolt
Thread groove it is prominent from the connecting elements rear portion.
In above-mentioned virtual synchronous electricity generation system, the rear openings edge of the exhaust piping is attached with puff prot, described
Puff prot seamless combination is piped to the exhaust.
In above-mentioned virtual synchronous electricity generation system, the outer diameter of the puff prot is bigger than the outer diameter of the exhaust piping.
Compared with the prior art, the invention can avoid the operational efficiency that higher temperature influences virtual synchronous electricity generation system, really
Protect the service life of virtual synchronous electricity generation system.
Detailed description of the invention
Fig. 1 is the schematic diagram of virtual synchronous electricity generation system of the invention;
Fig. 2 is the positional relationship of virtual synchronous generator unit, shell and buffer component in virtual synchronous electricity generation system of the invention
Schematic diagram;
Fig. 3 is the schematic diagram of cushion shown in Fig. 2;
Fig. 4 is the schematic diagram of strip shaped supports shown in Fig. 2.
Specific embodiment
As shown in Figs 1-4, virtual synchronous electricity generation system of the invention include virtual synchronous generator unit 102, shell 101,
Power supply, cooler 103.The power supply and virtual synchronous generator unit 102 and cooler 103 of virtual synchronous electricity generation system connect
It connects, power supply is used to provide electric energy to virtual synchronous generator unit 102 and cooler 103.Virtual synchronous generator unit 102, power supply
It is all set in the shell 101 with cooler 103.The cooler 103 is attached at the virtual synchronous generator unit 102
At least partially, the cooler 103 is for cooling down virtual synchronous generator unit 102.
The cooler 103 includes control unit, heat collector panel, operating portion, cooler body, carrying axle, coolant supply
Unit, coolant delivery pipe, exhaust processor, installing component.
Control unit is used to control the operation and closing of cooler 103.
Exhaust processor include exhaust piping, puff prot, constriction, regulation unit, connecting elements, fastening bolt and tightly
Gu nut.The inner lower of cooler 103 is arranged in exhaust processor.
The inside of exhaust processor is arranged in constriction, and constriction is used to control the stream of the gas in exhaust processor
It is dynamic.Constriction is set to the front of exhaust piping, and constriction has first diameter portion, rearward reduces from first diameter portion
Reducing diameter part and the second diameter portion that rearward extends of tail end from exhaust piping.
It is formed with front opening edge in the front end in first diameter portion, is formed with open rearward end in the rear end of second diameter portion
Edge.
Exhaust piping is the hollow circular tube component of rear and front end opening, and exhaust piping is used for so that cold air is piped in exhaust
Internal flow, exhaust piping over the entire length have constant diameter.Connecting elements is provided with intercommunicating pore.Intercommunicating pore is formed
In the inner peripheral surface of the front end of connecting elements.Intercommunicating pore is that exhaust piping is exchanged with connecting elements and the cold and hot of cooler 103
The through-hole of device engagement connection.The outer peripheral surface of fastening bolt has thread groove, and the thread groove of fastening bolt is prominent from connecting elements rear portion
Out.
The front openings edge of exhaust piping is attached to the cold air discharge port of cool-heat-exchanger, is vented the rear side of piping
Open edge is attached with puff prot, and fastening bolt passes through intercommunicating pore, by connecting elements and exhaust piping and cool-heat-exchanger
Altogether, fastening bolt is fitted into fastening nut, front openings edge and cold and hot friendship of the connecting elements for adjoining exhaust piping to string
Cold air discharge port on the right side of parallel operation.
The reducing diameter part of constriction is fitted to exhaust processor, and exhaust piping is prolonged on the right side direction of cooler 103
It stretches.The outer diameter of puff prot is bigger than the outer diameter of exhaust piping, and puff prot seamless combination is piped to exhaust.Exhaust piping and at least two
Puff prot is connected to the cold air discharge port of the cool-heat-exchanger of cooler 103.
Exhaust piping and constriction are arranged on the end of exhaust processor.
Since exhaust processor has motion space, the direction of the puff prot of exhaust piping can be changed.
Regulation unit is made of regulation main body, start button, timer, air valve, instrument.
Timer, air valve and instrument are arranged on the lateral symmetry face of regulation main body.Regulate and control unit to be arranged in shell 101
Surface.Instrument and timer are symmetrical positional relationship, the position that instrument arrangement can be visual outside shell 101.Work as instrument
When list index stops at desired position, whole surface for virtual synchronous generator unit 102 or pass through on desired surface
Regulation unit is cooled down.Air valve and timer abut against the left-hand face of regulation unit.
Regulation unit is used to adjust the jet angle of puff prot, for example, regulation unit is used in the vertical direction by jet
Mouth is regulated to extension state.
The end of puff prot from exhaust piping is prominent, and the length of puff prot is shorter than the length of the inclined lateral side of exhaust piping,
The back side of virtual synchronous generator unit 102 is directed toward in the shorter upside of puff prot, and the longer downside of puff prot is directed toward virtual same
Walk the surface of generator unit 102.
Virtual synchronous generator unit 102 and exhaust piping are opposite, and puff prot is for exporting cold air.Regulation unit is for making
Piping must be vented to move along the vertical direction, puff prot regulates and controls unit and is used for so that puff prot is rotated along center towards obliquely downward, with
Jet angle is set to change.The jet angle of all puff prots changes in same direction.Regulate and control unit for changing exhaust
The jet angle of piping, so that virtual synchronous generator unit 102 is cooled down in the longitudinal and transverse direction.
Regulate and control unit to be used for so that the jet angle of all puff prots changes in a same direction, or is used for so that not
An other change occurs for the jet angle of same puff prot.
The jet angle of puff prot can carry out electronic variation according to regulation unit with manually booting key, can also pass through
Change to timer period.The pressure that puff prot is used to first pass through inside air valve setting exhaust processor in advance is come to virtual
Synchronous generator unit 102 is cooled down.
Regulate and control unit be used for so that the puff prot angle of exhaust piping upward, with cooling higher than exhaust piping position virtual
The back side of synchronous generator unit 102.Regulate and control unit to be used for so that the puff prot angle of exhaust piping downward, is matched with cooling than exhaust
The surface of the low virtual synchronous generator unit 102 in pipe position.Cool-heat-exchanger is used for the cold sky for circulating from exhaust piping out
Gas cools down virtual synchronous generator unit 102.By changing the jet angle of exhaust piping, to cooling virtual synchronous power generation
The even entire host of the front and rear surfaces of unit 102 is cooled down.
The virtual synchronous electricity generation system further includes buffer component;
The virtual synchronous generator unit 102 and the buffer component are set in the shell 101, the buffer component setting
Between the outer surface of the virtual synchronous main body and the inner surface of the shell 101, the buffer component is described for buffering
The shock effect power that virtual synchronous generator unit 102 applies to the shell 101;
The buffer component includes at least two cushions 105 with one-dimensional array or two-dimensional array, the cushion 105
Including the first rigid layer 1051, the second rigid layer 1052 and flexible layer 1053, the flexible layer 1053 has been set to described first just
Between property layer 1051 and second rigid layer 1052, first rigid layer 1051 is connected with the inner surface of the shell 101
It connects, second rigid layer 1052 is connected with the outer surface of the virtual synchronous generator unit 102.
The material of the flexible layer 1053 is foam.
First rigid layer 1051 is towards being provided at least two first caltrops 1054 on the surface of the flexible layer 1053.
At least two first caltrops 1054 are arranged in the form of one-dimensional array or two-dimensional array.
First caltrop 1054 is pierced into the flexible layer 1053.
The length of first caltrop 1054 is less than the thickness of the flexible layer 1053.
Second rigid layer 1052 is towards being provided at least two second caltrops 1055 on the surface of the flexible layer 1053.
At least two second caltrops 1055 are arranged in the form of one-dimensional array or two-dimensional array.
Second caltrop 1055 is pierced into the flexible layer 1053.
The length of second caltrop 1055 is less than the thickness of the flexible layer 1053.
At least part of installing component is set in the cooler body of cooler 103, and installing component will be for that will cool down
Device main body is fixed with 102 phase of virtual synchronous generator unit, and installing component includes engagement main body, engagement branch and engaging base, is connect
It closes pedestal to be set on virtual synchronous generator unit 102, engagement branch is connected with cooler body, engagement main body connection engagement
Branch and engaging base, engagement main body are set on the engaging base.
Engaging main body has top end part, middle part, concave portion and bottom end.The upper end of engagement main body is arranged in top end part,
The medium position of engagement main body is arranged in middle part, and the shape of middle part is annulus plate.Concave portion is arranged via middle part
The lower section of main body is engaged, and is erect upward.Middle part and bottom end are parallel with top end part opposite at predetermined intervals.Bottom end
The shape in portion is annulus plate.Bottom end is formed in the periphery of concave portion.Bottom end is prominent from concave portion to radial outside.Pass through
Concave portion is connected bottom end to improve the intensity of concave portion.Bottom end is supported on engaging base.
Engaging branch includes first connecting portion part, second connecting portion part, third connecting component, the first draw bolt, second
Draw bolt, third draw bolt, the first coupling nut, the second coupling nut, third coupling nut.
First connecting portion part, second connecting portion part, third connecting component are all set in engagement main body, first connecting portion part
It is provided with the first conjugant and the first insertion section, one end of the first insertion section is connect with the first conjugant, first insertion section
The other end extend towards the direction far from the first conjugant, first insertion section is column, and second connecting portion part is provided with the
Two conjugants and the second insertion section, one end of the second insertion section are connect with the second conjugant, the other end of second insertion section
Extend towards the direction far from the second conjugant, second insertion section is column, and third connecting component is provided with third conjugant
It is connect with one end of third insertion section, third insertion section with third conjugant, the other end of the third insertion section is towards far from the
The direction of three conjugants extends, and the third insertion section is column.First draw bolt is arranged on the first conjugant, and with the
One coupling nut is mutually fitted into the second draw bolt and is arranged on the second conjugant, and mutually chimeric with the second coupling nut, and third connects
It closes bolt to be arranged on third conjugant, and mutually chimeric with third coupling nut.
Engaging base has the first centre bore for the insertion of the first insertion section, and the second center for the insertion of the second insertion section
Hole, and for the third centre bore of third insertion section insertion, the first insertion section being inserted in the first centre bore is used to support the
One conjugant, the second insertion section being inserted in the second centre bore are used to support the second conjugant, are inserted in third centre bore
Third insertion section be used to support third conjugant.Engaging base is arranged below joint element, and engagement main body is attached to engagement
Pedestal.
First conjugant is arranged in the hot-air that the first tube body and cool-heat-exchanger abut against each other and enters on port, and second
Conjugant is arranged in the hot-air that the second tube body and cool-heat-exchanger abut against each other and enters on port, and the setting of third conjugant exists
In the cold air discharge port that exhaust piping abuts against each other with cool-heat-exchanger.The end of first tube body and the first conjugant connect
It connects, the end of the second tube body is connect with the second conjugant, and the end for being vented piping is connect with third conjugant.
First conjugant, the second conjugant and third conjugant are strip plate body made of metal, the first engagement
Body, the second conjugant and third conjugant are respectively arranged with the first canister portion, the second canister portion and third canister portion, and the first insertion section is extremely
Few a part is set in the first canister portion of the first conjugant, and at least part of the second insertion section is set to the second conjugant
In second canister portion, at least part of third insertion section is set in the third canister portion of third conjugant.
First connecting portion part, second connecting portion part, third connecting component are for matching the first tube body, the second tube body and exhaust
The progress of pipe securely connects.
The virtual synchronous electricity generation system further includes strip shaped supports 104;
The virtual synchronous generator unit 102 is set in the shell 101, and the strip shaped supports 104 are set to the void
Between the outer surface of quasi- synchronous generator unit 102 and the inner surface of the shell 101, one end of the strip shaped supports 104 is solid
Due on the inner surface of the shell 101, the other end of the strip shaped supports 104 and the virtual synchronous generator unit 102
Outer surface mutually fix;
The strip shaped supports 104 include first the 1041, second segmentation 1042 of segmentation and third segmentation 1043, second segmentation
1042 are set between first segmentation 1041 and third segmentation 1043, and second segmentation 1042 and described the
One segmentation 1041 is connected with third segmentation 1043, and first segmentation 1041 and third segmentation 1043 are rigid structure
Part, second segmentation 1042 is elastic component, and second segmentation 1042 is for buffering first segmentation 1041 and described
Pressure or pulling force between third segmentation 1043.
The inner surface of the shell 101 is fixed in first segmentation 1041 far from one end of second segmentation 1042
On.
First segmentation 1041 is fixed on the shell by first axle far from one end of second segmentation 1042
On 101 inner surface.
The first axle has the first articulated section, the second articulated section and first rotating shaft, and first articulated section is at least
At least part of a part of, described second articulated section is nested with the first rotating shaft.
First articulated section and the inner surface of the shell 101 are mutually fixed, second articulated section with described first point
Section 1041 is mutually fixed far from one end of second segmentation 1042.
The third segmentation 1043 is fixed on the virtual synchronous generator unit far from one end of second segmentation 1042
On 102 outer surface.
The one end of the third segmentation 1043 far from second segmentation 1042 is fixed on described virtual by second hinge
On the outer surface of synchronous generator unit 102.
The second hinge has third articulated section, the 4th articulated section and the second shaft, and the third articulated section is at least
At least part of a part of, described 4th articulated section is nested with second shaft.
The third articulated section and the outer surface of the virtual synchronous generator unit 102 are mutually fixed, second articulated section
It is mutually fixed with third segmentation 1043 far from one end of second segmentation 1042.
The elastic component is spring.
The plate face of heat collector panel is bending, and heat collector panel is made of heat build-up layer, filter layer and thermal insulation layer.Filter layer setting exists
Between heat build-up layer and thermal insulation layer.There is the first preset distance between filter layer and heat build-up layer, have between filter layer and thermal insulation layer
Second preset distance.
Heat build-up layer is made of heat build-up material (for example, rubber of black), and heat build-up layer is for absorbing virtual synchronous generator unit
The heat come out when 102 operation.Filter layer is made of filtering material, filter layer for filtering air in particle object.
Thermal insulation layer is made of heat-barrier material, the heat losses that thermal insulation layer is used to prevent heat build-up lamination poly-.Filter layer is additionally provided with bee
The heat preservation net of nest shape mesh, filter layer are also used to build up when virtual synchronous generator unit 102 is run and distribute and penetrate the heat build-up
The heat of layer.
Operating portion and carrying axle are orthogonal, operating portion be arranged in heat collector panel bottom margin and carrying axle upside it
Between, carrying axle supports and connects operating portion.Operating portion is for making carrying axle move back and forth.
In the present invention, hot-air is the air that temperature is in the first temperature range, and cold air refers in the second temperature
The air in range is spent, the first temperature range may be, for example, 20 degrees Celsius to 100 degrees Celsius of temperature range, second temperature range
It may be, for example, -10 degrees Celsius to 30 degrees Celsius of temperature range.
Coolant supply unit is connected by coolant delivery pipe with cooler body, coolant supply unit be used for
Cooler body supply coolant, operating portion include drive shaft, the first drive member, the second drive member, guide rail, gear, axis
Load bearing component, input link and output link.Carrying axle is by outer shaft, inner shaft, outer shaft component, interior shaft component and rubber ring, first
Connector and the second connector are constituted.
Drive shaft is engaged with carrying axle.The lateral symmetry of drive shaft is arranged in first drive member and the second drive member
On face.First drive member is arranged on the left of drive shaft and connects input link, the second drive member via axis load bearing component
It is arranged on the right side of drive shaft and is connected to output link via axis load bearing component.The length of input link and the length of output link
It spends identical.Drive shaft is used for drive input member and output link, to form compression hot-air.
Guide rail is formed equidistantly on the inner peripheral surface in operating portion, and guide rail is provided with ball.Axis load bearing component and operating portion
The rear end of the drive shaft in operating portion is arranged in axis coaxle configuration, gear, and gear connects the first drive member.Drive shaft and guide rail
It is connected with each other, ball configures the inner peripheral surface side in guide rail.When ball is slided along guide rail, guide rail and drive shaft are used in axial direction
On be moved relative to each other.Ball under gear and the inclined situation of drive shaft in guide rail for sliding smoothly.
Carrying axle is made of metal material.Carrying axle successively has the narrow diameter section towards undergauge in front of operating portion, from narrow diameter
Micro- diameter portion that the front end in portion rearward extends, and the wide diameter part being rearward open from the rear end of narrow diameter section.Narrow diameter section and wide diameter
Portion is set as hollow circular tube component, and micro- diameter portion is solid circular pipe component.Micro- diameter portion is embedded in and is fixed on the rear end in operating portion.It is micro-
The front end in diameter portion is supported by support frame.Support frame by carrying axle relative to virtual synchronous electricity generation system shell 101 rotatably
Support.
Outer shaft and inner shaft are disposed as hollow round tubular, and outer shaft is embedded in the wide diameter part of carrying axle, and inner shaft is embedded in carrying
The narrow diameter section of axis.Outer shaft component is cricoid metal parts, outer in the outer shaft of carrying axle.Interior shaft component is than outer shaft component
The small cricoid metal parts of diameter, be fixed in the inner shaft of carrying axle.First connector is arranged on outer shaft, outer for engaging
Shaft component, the second connector is arranged in inner shaft, for engaging interior shaft component.Outer shaft component and interior shaft component and rubber ring are integrally
It is formed.Rubber ring is used to be transmitted to virtual synchronous power generation system by flexible deformation come effect of vibration power when carrying axle being inhibited to run
The shell 101 of system.Outer shaft component is the component with multiple and different outer radius portions, interior shaft component be have it is multiple and different interior
The component of path portion.
Cooler body further includes cool-heat-exchanger, air inlet piping, engagement member, branching-passage device for tube, trunk portion and cooling tube.
Cool-heat-exchanger is provided with that hot-air enters port, coolant enters port and cold air discharge port, coolant
It is connect into port with coolant delivery pipe, air inlet piping enters port with hot-air and connect, cold air discharge port and cooling
Pipe connection.
Air inlet piping includes the first tube body and the second tube body.
Engagement member includes the first engagement member, the second engagement member, the first bolt, the second bolt, the first nut and the
Two nuts.
First tube body is the hollow circular tube component of rear and front end opening, and the first tube body is used to convey the heat with the first flow velocity
Air, the first tube body have constant diameter over the entire length.First engagement member is used for the first tube body and cold and hot exchange
Device engagement, the second engagement member are used to engage the second tube body and cool-heat-exchanger.First tube body have the first periphery wall portion and
First inner circumferential wall portion.First engagement member is provided with first through hole.First through hole is formed in the interior of the rear end of the first engagement member
In perimeter surface.First through hole is the through-hole that the first engagement member is connected to the outer shaft of carrying axle.The outer peripheral surface of first bolt has
The thread groove of thread groove, the first bolt is prominent from the rear portion of the first engagement member.
First engagement member is formed with lug boss, the protrusion of the first engagement member in the first tube body radially outward direction
Portion is inserted into the first tube body, and the front opening edge of the first tube body is attached in the rubber ring of carrying axle, the first tube body and carrying
The center of axis orthogonal vertical connects down to the lug boss of the first engagement member, and the first tube body and first through hole are along perpendicular to the
The surface of the lug boss of one engagement member extends, and the first tube body is used for the first engagement member edge in the middle position of width direction
Front-rear direction reversion.First bolt passes through first through hole, by the outer shaft string of the first engagement member and the first tube body and carrying axle
Altogether, the first bolt is mutually chimeric with the first nut, with vertical engagement in the outer shaft of the first engagement member and carrying axle.First pipe
Body is entered in port by the hot-air that the first engagement member is joined to cool-heat-exchanger.
The internal diameter of first inner circumferential wall portion is greater than lobes outside diameter.First tube body is used for the case where not colliding with lug boss
Under, the rubber ring of carrying axle is pushed forward, so that input link receives the motive force from carrying axle.When output link receives
When frontal collisions power from carrying axle, the open rearward end edge of the first tube body passes through rubber ring and shrinks back, to prevent and protrusion
Portion collides.
Output link is for supplying the hot-air of heat collector panel to cold via the first tube body along the extending direction of carrying axle
In heat exchanger.
Second tube body is the hollow circular tube component of rear and front end opening, and the second tube body is used to convey the heat with second flow speed
Air, the second tube body have constant diameter over the entire length.Second tube body has the second periphery wall portion and the second internal perisporium
Portion.Second engagement member is provided with the second through-hole.Second through-hole is formed in the inner peripheral surface direction of the rear end of the second engagement member
On the position of the upside of cool-heat-exchanger.Second through-hole is the through-hole that the second engagement member is connected to cool-heat-exchanger engagement.The
The outer peripheral surface of two bolts has thread groove, and the thread groove of the second bolt is prominent from the rear portion of the second engagement member.
The forward opening edge of second tube body is attached to outside the shell 101 of virtual synchronous electricity generation system, the second tube body
Backward open edge is made of rubber material, and the second bolt passes through the second through-hole, by the second engagement member and the second tube body and
Altogether, the second bolt is mutually chimeric with the second nut for cool-heat-exchanger string.Second engagement member is for engaging the second tube body and institute
The hot-air for stating cool-heat-exchanger enters port.Coolant supply unit be used for by coolant via coolant delivery pipe supply to
In cool-heat-exchanger.
Second tube body in the second engagement member radially inwardly on be formed with recessed portion.Second inner circumferential wall portion it is interior
Diameter is set greater than the outer diameter of recessed portion.
The backward open edge of second tube body is used for when the open rearward end edge of the first tube body passes through rubber ring and shrinks back
It shrinks, until continueing to that recessed portion is contacted with cool-heat-exchanger.
Trunk portion is the hollow cylinder that cross section is polygon, at least part and the virtual synchronous generator unit of trunk portion
102 contacts, cooling tube are helically disposed on trunk portion inner wall at the top of the bottom to trunk portion of trunk portion.Cooling tube has
Double pipe structure, the first son pipe of cooling tube and the second sub- pipe are set side by side, to improve cooling efficiency.Branching-passage device for tube and first son pipe and
Second sub- pipe connection, branching-passage device for tube are also connect with the cold air discharge port of cool-heat-exchanger.The hot-air of cool-heat-exchanger enters
Flow control device is provided at port, flow control device is for changing the circulation angle of hot-air and for controlling hot sky
The flowing of gas.
Through the above technical solutions, the invention can avoid the operation effects that higher temperature influences virtual synchronous electricity generation system
Rate, it is ensured that the service life of virtual synchronous electricity generation system.
In conclusion although the present invention has been disclosed above in the preferred embodiment, but above preferred embodiment is not to limit
The system present invention, those skilled in the art can make various changes and profit without departing from the spirit and scope of the present invention
Decorations, therefore protection scope of the present invention subjects to the scope of the claims.
Claims (10)
1. a kind of virtual synchronous electricity generation system, which is characterized in that including virtual synchronous generator unit, shell, power supply, cooler;
The inner lower of the cooler is arranged in the exhaust processor of the cooler;
The exhaust processor includes that exhaust piping and constriction, the constriction are arranged in the exhaust processor
Portion, the constriction are used to control the flowing of the gas in the exhaust processor;
The exhaust piping is the hollow circular tube component of rear and front end opening, and the exhaust piping is used for so that cold air is described
It is vented the internal flow of piping, the exhaust piping has constant diameter over the entire length;
The constriction is set to the front of the exhaust piping, and the constriction has first diameter portion, from described the
The reducing diameter part and the second diameter portion rearward extended from the tail end of the exhaust piping that one diameter portion rearward reduces;
It is formed with front opening edge in the front end in the first diameter portion, is formed with rear end in the rear end of the second diameter portion
Open edge.
2. virtual synchronous electricity generation system according to claim 1, which is characterized in that the exhaust processor further includes connection
Component, fastening bolt and fastening nut.
3. virtual synchronous electricity generation system according to claim 2, which is characterized in that the connecting elements is provided with connection
Hole, the intercommunicating pore are that the exhaust piping is led to what the engagement of the cool-heat-exchanger of the connecting elements and the cooler was connected to
Hole.
4. virtual synchronous electricity generation system according to claim 3, which is characterized in that the intercommunicating pore is formed in the connection
In the inner peripheral surface of the front end of component.
5. virtual synchronous electricity generation system according to claim 3, which is characterized in that the front openings side of the exhaust piping
Edge is attached to the cold air discharge port of the cool-heat-exchanger.
6. virtual synchronous electricity generation system according to claim 3, which is characterized in that the fastening bolt passes through the connection
Hole, altogether by the string of the connecting elements and the exhaust piping and the cool-heat-exchanger, the fastening bolt is chimeric
The fastening nut.
7. virtual synchronous electricity generation system according to claim 3, which is characterized in that the connecting elements is described for engaging
It is vented the front openings edge of piping and the cold air discharge port of the cool-heat-exchanger.
8. virtual synchronous electricity generation system according to claim 2, which is characterized in that the outer peripheral surface of the fastening bolt has
The thread groove of thread groove, the fastening bolt is prominent from the connecting elements rear portion.
9. virtual synchronous electricity generation system according to claim 1, which is characterized in that the rear openings side of the exhaust piping
Edge is attached with puff prot, and the puff prot seamless combination is piped to the exhaust.
10. virtual synchronous electricity generation system according to claim 9, which is characterized in that described in the outer diameter ratio of the puff prot
The outer diameter for being vented piping is big.
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CN106849184A (en) * | 2017-03-02 | 2017-06-13 | 江苏大学 | Based on dual stator-winding induction Wind turbines virtual synchronous grid-connected control method and system |
CN107077893A (en) * | 2014-05-29 | 2017-08-18 | 辉光能源公司 | Electricity generation system and its correlation technique |
CN107104534A (en) * | 2017-05-15 | 2017-08-29 | 河南质量工程职业学院 | A kind of motor damping shell mechanism |
CN108139118A (en) * | 2015-10-08 | 2018-06-08 | 三菱电机株式会社 | Refrigerating circulatory device |
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CN101510705A (en) * | 2008-02-15 | 2009-08-19 | 通用汽车环球科技运作公司 | Cooling systems and methods for integrated electric motor-inverters |
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CN108139118A (en) * | 2015-10-08 | 2018-06-08 | 三菱电机株式会社 | Refrigerating circulatory device |
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