CN108233516A - A kind of monitoring electric power system based on hydraulic power stent - Google Patents

Abstract

The invention discloses a kind of monitoring electric power system based on hydraulic power stent, including energy module；Intelligent control module；Electricity storage module and modular converter, wherein the hydraulic power stent includes fixed frame and tracking cell, the tracking cell includes laterally overturning component, longitudinal direction overturning component and locked component.Beneficial effects of the present invention：By the transmission mechanism of the quick detachable of setting, can need to change the distance of transmission by user, and avoid the leakage of hydraulic oil in pipeline, caused pollution and the waste of raw material during transmission line installation increases.

Description

A kind of monitoring electric power system based on hydraulic power stent

Technical field

The present invention relates to the technical fields of electric power system more particularly to a kind of monitoring based on hydraulic power stent to power and be System.

Background technology

In recent years, with the rapid development of economy, the lasting propulsion of process of industrialization, non-renewable energy resources will be by Gradually close to exhaustion, no matter the mankind take how advanced power-saving technology, fossil energy still can consume constantly, and the mankind are faced with Resource exhaustion and the dual-pressure of environmental degradation.It is to increase energy sustainable supply ability, improve energy to develop and use regenerative resource Source structure, ensure energy security, gradually natural environment rehabilitation important measures, to Resources for construction economizing type and environmentally friendly society Meeting realizes that economic society All-round, Coordinated and Sustainable Development has very important significance.At present, most of families utilize solar energy Mainly heat build-up, and rare solar energy to domestic power mainly for some large-scale AC electric appliances in family, supplier of electricity Formula is single, it is impossible to while provide easily power supply to some electronic products.

In process industry and architectural engineering, largely using various hydraulic systems, hydraulic press can be divided into hydraulic press and oil pressure Machine, wherein hydraulic press are using hydraulic oil as working media.Because it is better than better suited viscosity, sealing effect that hydraulic oil has, And with reasons such as lubricating effects, hydraulic press is made to obtain wide application, general hydraulic system all includes hydraulic pump, liquid Press pump is the dynamical element of hydraulic system, is by engine or motor drive, fluid is sucked from hydraulic oil container, form pressure Oil discharge is sent to a kind of element of executive component.Its simple in structure, reliable operation of hydraulic pump.With it come when realizing reciprocating motion, Deceleration device can be removed from, and without drive gap, stable movement, therefore obtain extensively should in the hydraulic system of various machineries With.Hydraulic cylinder power output and piston effective area and its pressure difference on both sides are directly proportional；Hydraulic cylinder is substantially by cylinder barrel and cylinder cap, work Plug and piston rod, sealing device, buffer unit and exhaust apparatus form.Buffer unit and exhaust apparatus regard concrete application occasion and Fixed, other devices are then essential.

In existing hydraulic system, since the weight very load-bearing of hydraulic pump can not be carried simply, when transmission away from From it is larger when, need to carry out the movement of hydraulic pump or increase the length of transmission line that remote transmission could be met, and passing There are problems that hydraulic oil leakage in defeated line replacement process, and operation difficulty carries out installing and dismounting in its end point and has centainly Difficulty.

Invention content

The purpose of this part is to summarize some aspects of the embodiment of the present invention and briefly introduce some preferably to implement Example.It may do in this section and the description of the application and the title of the invention a little simplified or omit to make our department Point, the purpose of abstract of description and denomination of invention obscure, and this simplification or omit and cannot be used for limiting the scope of the invention.

In view of it is above-mentioned it is existing based on the monitoring electric power system of hydraulic power stent there are the problem of, it is proposed that the present invention.

Therefore, it is an object of the present invention to provide a kind of monitoring electric power system based on hydraulic power stent, can make in stent Transmission distance on demand extend and shorten, and the oil body in transmission line is avoided to reveal in hydraulic system.

In order to solve the above technical problems, the present invention provides following technical solution：A kind of monitoring based on hydraulic power stent Electric power system including energy module, for solar panel and is set to family roof end by hydraulic power stent, can It receives solar energy and is translated into source of supply of the electric energy for family's electric energy；Intelligent control module, input terminal and the energy The output terminal connection of source module, can export the controlling electric energy converted from the energy module, and the intelligent control Module further includes charging module, discharge module, metering module, output module of the three as the intelligent control module；Storage Electric module is connect with the output terminal of the intelligent control module, and will be in the intelligent control module by the charging module The power storage of reception is spare；And modular converter, it is connect with the output terminal of the intelligent control module, further includes direct current conversion The electric energy stored in the electricity storage module is passed through the discharge module point by device and a-c transducer, the intelligent control module It is not delivered in the direct current transducer and the a-c transducer corresponding supply direct-flow current consumer and AC electric appliance uses； Wherein described intelligent control module further includes monitoring module, further includes mutual inductor, carrier pulse signal detection device, carrier wave arteries and veins Rush sender unit and current sensing means, by the signal on the intelligent control module busbar by the mutual inductor after, On the one hand it flows into the carrier pulse signal detection device to receive and parse direct current carrier signal, on the other hand flows into institute Current sensing means is stated to measure the DC current values of dc bus；And after dc bus signal is by mutual inductor, Zai Yifang Surface current enters arcing signal supervisory instrument and whether phenomenon of arc discharge occurs on dc bus to detect；Wherein described hydraulic power stent Including fixed frame, including several vertical rods and horizon bar, and the fixed frame is spliced by the vertical rod and the horizon bar Composition；And tracking cell, the tracking cell includes laterally overturning component, longitudinal direction overturning component and locked component, described Laterally overturning component is connect with the longitudinal direction overturning component with the fixed frame respectively and control it on horizontal and vertical turns over Turn, the locked component is set on the laterally overturning component, and the state after the fixed frame is adjusted locks.

As a kind of preferred embodiment of the monitoring electric power system of the present invention based on hydraulic power stent, wherein：Institute It states laterally overturning component and includes horizontal chassis, vertical chassis, hinge bar, axostylus axostyle, the horizontal chassis is connect with the vertical rod bottom end, institute The bottom that vertical chassis is vertically installed in the horizontal chassis is stated, and the hinge bar upper end and the bottom end of the horizontal chassis are fixed and connected It connects, lower end and the bottom of the vertical chassis are hinged, and the both ends of the axostylus axostyle are cut with scissors respectively with the vertical chassis and the hinge bar It connects.

As a kind of preferred embodiment of the monitoring electric power system of the present invention based on hydraulic power stent, wherein：Institute State longitudinal direction overturning component further include vertical bar, brace, the top of the vertical bar is connect with the vertical rod, bottom end with it is described One end of brace is hinged, and the other end of the brace is connect with the vertical rod, and the vertical bar and the brace are in same One plane.

As a kind of preferred embodiment of the monitoring electric power system of the present invention based on hydraulic power stent, wherein：Institute It states hinge bar and includes two upper and lower two parts being hinged, and the axostylus axostyle is hinged with upper part, lower part and the vertical bottom Frame connects.

As a kind of preferred embodiment of the monitoring electric power system of the present invention based on hydraulic power stent, wherein：Institute It states locked component and further includes half arc bar, external member, locking level, the both ends of the half arc bar are set to the bottom end of the horizontal chassis, institute It states external member and is set to the vertical chassis side, and the half arc bar is limited by lock hole across the external member by the locking level Position.

As a kind of preferred embodiment of the monitoring electric power system of the present invention based on hydraulic power stent, wherein：Also Including extension rod and base stage, the extension rod is connected with the vertical rod of the fixed frame outermost end, and described prolongs Boom is parallel with the horizon bar；The fixed frame is set to the tracking cell on the base stage.

As a kind of preferred embodiment of the monitoring electric power system of the present invention based on hydraulic power stent, wherein：Institute Hinge bar is stated by the way of hydraulic system braking, the hydraulic system includes actuating unit, including driving device, hydraulic pressure Fluid in the hydraulic oil container is sucked the hydraulic cavities by chamber, hydraulic oil container, output terminal and return valve, the driving device In, it is flowed back after forming pressure oil discharge by the return valve, the mechanical energy of the driving device can be converted into liquid Hydraulic energy exports；Transmission mechanism is connected with the output terminal of the actuating unit, and the actuating unit is generated hydraulic energy carries out Transmission；And executing agency, it is connect with the transmission mechanism, receives the hydraulic energy from the transmission mechanism and converted It is continued to output for mechanical energy.

As a kind of preferred embodiment of the monitoring electric power system of the present invention based on hydraulic power stent, wherein：Institute State actuating unit and further include load pipeline, pressure gauge, overflow valve and relief valve, the return valve by the load pipeline with The hydraulic chamber into communication, the pressure gauge and the overflow valve are set to the upper end of the hydraulic cavities, and the pressure gauge can Show the pressure parameter of the hydraulic cavities, the pressure in the hydraulic cavities can be let out and removed by the relief valve.

As a kind of preferred embodiment of the monitoring electric power system of the present invention based on hydraulic power stent, wherein：Institute Executing agency is stated as hydraulic cylinder, is the execution part in Hydraulic Power Transmission System, and further include hydraulic pressure access port, hydraulic return Mouth, performs chamber and piston rod, the hydraulic pressure access port are connected by the transmission mechanism with the output terminal of the actuating unit It connects, hydraulic oil is delivered in the performs chamber to be converted into after mechanical energy the piston rod is pushed to perform.

As a kind of preferred embodiment of the monitoring electric power system of the present invention based on hydraulic power stent, wherein：Institute It states hydraulic oil container and further includes hydraulic oil inlet and hydraulic oil inlet valve, the hydraulic oil inlet is connect with external for device again, And oil mass is controlled by the hydraulic oil inlet valve.

Beneficial effects of the present invention：Monitoring electric power system provided by the invention based on hydraulic power stent, passes through setting Quick detachable transmission mechanism, can by user need change transmission distance, and transmission line installation increase process In avoid the leakage of hydraulic oil in pipeline, caused pollution and the waste of raw material.

Description of the drawings

In order to illustrate the technical solution of the embodiments of the present invention more clearly, required use in being described below to embodiment Attached drawing be briefly described, it should be apparent that, the accompanying drawings in the following description is only some embodiments of the present invention, for this For the those of ordinary skill of field, without having to pay creative labor, it can also be obtained according to these attached drawings other Attached drawing.Wherein：

Fig. 1 is that the overall structure of the monitoring electric power system based on hydraulic power stent described in the first embodiment of the invention is former Manage frame diagram；

Fig. 2 is that the overall structure of the monitoring electric power system based on hydraulic power stent described in second of embodiment of the invention is shown It is intended to；

Fig. 3 is lateral overturning group in the monitoring electric power system based on hydraulic power stent described in second of embodiment of the invention The overall structure diagram of part；

Fig. 4 is longitudinal overturning group in the monitoring electric power system based on hydraulic power stent described in second of embodiment of the invention The overall structure diagram of part；

Fig. 5 is locked component in the monitoring electric power system based on hydraulic power stent described in second of embodiment of the invention Overall structure diagram；

Fig. 6 is that the overall structure of the monitoring electric power system based on hydraulic power stent described in the third embodiment of the invention is shown It is intended to；

Fig. 7 is actuating unit in the monitoring electric power system based on hydraulic power stent described in the third embodiment of the invention Overall structure diagram；

Fig. 8 is executing agency in the monitoring electric power system based on hydraulic power stent described in the third embodiment of the invention Overall structure diagram；

Fig. 9 be the overall structure of the monitoring electric power system based on hydraulic power stent described in 4th kind of embodiment of the invention and Overall structure exploded perspective view；

Figure 10 is the first connection in the monitoring electric power system based on hydraulic power stent described in the 4th kind of embodiment of the invention The overall structure exploded perspective view of part；

Figure 11 is first embedding in the monitoring electric power system based on hydraulic power stent described in 4th kind of embodiment of the invention The overall structure assembling schematic diagram of sympodium and the 4th chimeric axis；

Figure 12 is cutting ferrule ring in the monitoring electric power system based on hydraulic power stent described in the 4th kind of embodiment of the invention Overall structure diagram；

Figure 13 is the first activity in the monitoring electric power system based on hydraulic power stent described in the 4th kind of embodiment of the invention The overall structure exploded perspective view of circulation road；

Figure 14 is the overall structure of the monitoring electric power system based on hydraulic power stent described in the 4th kind of embodiment of the invention Schematic cross-sectional view.

Specific embodiment

In order to make the foregoing objectives, features and advantages of the present invention clearer and more comprehensible, it is right with reference to the accompanying drawings of the specification The specific embodiment of the present invention is described in detail, it is clear that and described embodiment is the part of the embodiment of the present invention, and It is not all of embodiment.Based on the embodiments of the present invention, ordinary people in the field is without making creative work All other embodiments obtained should all belong to the range of the protection of the present invention.

Many details are elaborated in the following description to facilitate a thorough understanding of the present invention, still the present invention can be with Implemented using other different from other manner described here, those skilled in the art can be without prejudice to intension of the present invention In the case of do similar popularization, therefore the present invention is not limited by following public specific embodiment.

Secondly, " one embodiment " or " embodiment " referred to herein refers to may be included at least one realization side of the present invention A particular feature, structure, or characteristic in formula." in one embodiment " that different places occur in the present specification not refers both to Same embodiment, nor the individual or selective embodiment mutually exclusive with other embodiment.

Thirdly, combination schematic diagram of the present invention is described in detail, when describing the embodiments of the present invention, for purposes of illustration only, Represent that the sectional view of device architecture can disobey general proportion and make partial enlargement, and the schematic diagram is example, herein not The scope of protection of the invention should be limited.In addition, the three-dimensional space of length, width and depth should be included in actual fabrication.

Simultaneously in the description of the present invention, it should be noted that the orientation of the instructions such as " upper and lower, inner and outer " in term Or position relationship is based on orientation shown in the drawings or position relationship, is for only for ease of the description present invention and simplifies description, and It is not instruction or implies signified device or element there must be specific orientation, with specific azimuth configuration and operation, therefore It is not considered as limiting the invention.In addition, term " first, second or third " is only used for description purpose, without being understood that To indicate or implying relative importance.

In the present invention unless otherwise clearly defined and limited, term " installation is connected, connection " should be interpreted broadly, example Such as：Can be fixedly connected, be detachably connected or integral type connection；It can be equally mechanical connection, be electrically connected or be directly connected to, It can also be indirectly connected by intermediary or the connection inside two elements.For the ordinary skill people of this field For member, the concrete meaning of above-mentioned term in the present invention can be understood with concrete condition.

Embodiment 1

As Fig. 1 provide a kind of monitoring electric power system based on hydraulic power stent principle assumption diagram, in the present embodiment In the electric power system include energy module T-100, intelligent control module T-200 electricity storage modules T-300 and modular converter T- 400.Specifically, energy module T-100 is set to family roof end by hydraulic power stent, can receive solar energy and by its It is converted into source of supply of the electric energy for family's electric energy；The input terminal of intelligent control module T-200 is with the energy module T-100's Output terminal connects, and can export the controlling electric energy converted from the energy module T-100, and the intelligent control module T-200 further includes charging module T-201, discharge module T-202, metering module T-203, and three is used as the intelligent control mould The output module of block T-200, wherein charging module T-201, discharge module T-202 are the charging circuit of internal circuit connection composition And discharge circuit；Electricity storage module T-300 is connect with the output terminal of the intelligent control module T-200, and passes through the charging mould Block T-201 is spare by the power storage received in the intelligent control module T-200；And modular converter T-400, with the intelligence The output terminal connection of energy control module T-200, further includes direct current transducer T-401 and a-c transducer T-402, the intelligence The electric energy stored in the electricity storage module T-300 is delivered to institute by control module T-200 respectively by the discharge module T-202 It states and supply direct-flow current consumer T-401a is corresponded in the direct current transducer T-401 and a-c transducer T-402 and exchanges electricity consumption Device T-402b is used.Further, the energy module T-100 is the solar array composition for being set to roof end, is passed through Hydraulic power stent is fixed on roof；The intelligent control module T-200 is solar controller, and it is for monolithic to control chip Machine；And the metering module T-203 can connect with external detection device and measure power supply parameter.It should be noted that in this implementation Direct current transducer T-401 referred to that DC/DC converters were transformed into various direct currents, and a-c transducer T-402 refers to directly in example Circulation exchange DC-AC inverter, passes through the current transformation between the two.Electricity is translated into when solar irradiation is mapped on solar panels Can, it is stored under the action of charging module T-201 in electricity storage module T-300, in case supplying alternating current-direct current electrical appliance after alternating current With the acp chip of intelligent control module T-200 can be microcontroller or DSP.When alternating current-direct current electrical appliance needs electricity consumption to work, Discharge module T-202 is by electricity storage module T-300, and using accumulator group in the present embodiment, therefore the electric energy in accumulator group is divided to two Road supplies electrical appliance：Stream DC-AC inverter is delivered by direct current be transformed into alternating current supply AC electric appliance T-402a all the way；Separately Various direct-flow current consumer T-401a are transformed by DC/DC converters all the way, when electric power system operates, pass through metering module T- 203 external metering devices, such as two-way ammeter measure relevant parameter when electric power system operates.

In the present embodiment, wherein intelligent control module T-200 further includes monitoring module T-204, further includes mutual inductor T-204a, carrier pulse signal detection device T-204b, carrier pulse signal sending device T-204c and current sensing means T- 204d, by the signal on intelligent control module T-200 busbares by mutual inductor T-204a after, on the one hand flow into carrier pulse signal To receive and parse direct current carrier signal in detection device T-204b, another aspect inflow current detection device T-204d to Measure the DC current values of dc bus；And after dc bus signal is by mutual inductor T-204c, another further aspect flows into arcing letter Whether number detection device T-204e there is phenomenon of arc discharge to detect on dc bus, it should be noted that：The friendship of dc bus Stream ingredient is input to after being coupled by mutual inductor T-204a in arcing signal supervisory instrument T-204e.

Photovoltaic generating system include several solar panels and with the corresponding dc bus of these solar panels.It collects corresponding The Parameter Switch of solar panel is sent to dc bus for direct current carrier signal, therefore direct current carrier signal sends out letter by dc bus Number.In the present embodiment, after the signal on dc bus is by mutual inductor T-204a, carrier pulse signal detection is on the one hand flowed into Device T-204b converts thereof into the electricity of solar panel according to the agreement of agreement to receive and parse the direct current carrier signal sent out Press the parameter messages such as temperature；On the other hand arcing signal supervisory instrument T-204e is flowed into judge whether occur on dc bus Phenomenon of arc discharge is parsed to judge whether current loop has phenomenon of arc discharge generation by the alternating component to dc bus；Again One side inflow current detection device T-204d is measuring the DC current values of dc bus.Carrier pulse signal sending device The another way direct current carrier signal that T-204c is sent out is sent by mutual inductor T-204a to dc bus.The direct current of dc bus The measurement of flow valuve is that current signal is converted to voltage signal by the inductive pick-up of current sensing means T-204d, and is entered Current sensing means T-204d is realized.In addition, the transmission of another way direct current carrier signal is carrier pulse signal sending device T- 204c sends direct current carrier signal to realize the purpose of two-way communication by mutual inductor T-204a to dc bus.

Embodiment 2

Show with reference to the overall structure that Fig. 2 is monitoring electric power system of second of embodiment based on hydraulic power stent of the invention It is intended to, in the present embodiment including fixed frame 100, tracking cell 200, extension rod 300 and base stage 400.It is specifically, fixed Frame 100 includes several vertical rods 101 and horizon bar 102, and fixed frame 100 is made of vertical rod 101 and the splicing of horizon bar 102； And tracking cell 200, tracking cell 200 include laterally overturning component 201, longitudinal direction overturning component 202 and locked component 203, it laterally overturns component 201 and is connect respectively with fixed frame 100 with longitudinal direction overturning component 202 and control it on horizontal and vertical Overturning, locked component 203 is set on laterally overturning component 201, the locking of state after fixed frame 100 is adjusted, the tracking It is big warm.Further, it with reference to Fig. 3, laterally overturns component 201 and includes horizontal chassis 201a, vertical chassis 201b, hinge bar 201c, axis Bar 201d, wherein horizontal chassis 201a is connect with 101 bottom end of vertical rod, vertical chassis 201b is vertically installed in the bottom of horizontal chassis 201a Portion, and hinge bar 201c upper ends are fixedly connected with the bottom end of horizontal chassis 201a, lower end and the bottom of vertical chassis 201b are hinged, axis The both ends of bar 201d are hinged respectively with vertical chassis 201b and hinge bar 201c；And hinge bar 201c includes two and is hinged Upper and lower two parts, and axostylus axostyle 201d is hinged with upper part, lower part is connect with vertical chassis 201b.

With reference to Fig. 4, in the present embodiment, longitudinal direction overturns component 202 and further includes vertical bar 202a, brace 202b, wherein vertically The top of bar 202a is connect with vertical rod 101, and bottom end and one end of brace 202b are hinged, and the other end of brace 202b is with hanging down Straight-bar 101 connects, and vertical bar 202a and brace 202b are in same plane.Further, with reference in Fig. 5, locked component 203 is also Including half arc bar 203a, external member 203b, locking level 203c, wherein the both ends of half arc bar 203a are set to the bottom of horizontal chassis 201a End, external member 203b is set to vertical chassis 201b sides, and half arc bar 203a is locked by lock hole 203d across external member 203b Bar 203c is limited.And extension rod 300 is connected with the vertical rod 101 of 100 outermost end of fixed frame, and extension rod 300 and horizon bar 102 is parallel；Fixed frame 100 is set to tracking cell 200 on base stage 400；Pass through between extension rod 300 and fixed frame 100 It is bolted.

Embodiment 3

With reference in Fig. 6~8, the hydraulic system includes actuating unit 500, transmission mechanism 600 and holds in the present embodiment Row mechanism 700.Specifically, actuating unit 500, including driving device 501, hydraulic cavities 502, hydraulic oil container 503, output terminal 504 and return valve 505, driving device 501 forms pressure oil row by the fluid sucking hydraulic cavities 502 in hydraulic oil container 503 It is flowed back after going out by return valve 505, the mechanical energy of driving device 501 can be converted into the hydraulic energy output of liquid；Driver Structure 600, is connected with the output terminal 504 of actuating unit 500, and actuating unit 500 is generated hydraulic energy is transmitted；And it performs Mechanism 700 is connect with transmission mechanism 600, is received the hydraulic energy from transmission mechanism 600 and is translated into mechanical energy continuation Output.Actuating unit 500 further includes load pipeline 506, pressure gauge 507, overflow valve 508 and relief valve 509, return valve 505 It is connected by load pipeline 506 with hydraulic cavities 502, pressure gauge 507 and overflow valve 508 are set to the upper end of hydraulic cavities 502, and press Power meter 507 can show the pressure parameter of hydraulic cavities 502, and the pressure in hydraulic cavities 502 can be let out and removed by relief valve 509.It performs Mechanism 700 is hydraulic cylinder, is the execution part in Hydraulic Power Transmission System, and further include hydraulic pressure access port 701, hydraulic return mouth 702nd, performs chamber 703 and piston rod 704, hydraulic pressure access port 701 pass through transmission mechanism 600 and the output terminal of actuating unit 500 504 are connected, and hydraulic oil is delivered in performs chamber 703 and is converted into mechanical energy pusher piston bar 704 and performs.Hydraulic oil Case 503 further includes hydraulic oil inlet 503a and hydraulic oil inlet valve 503b, hydraulic oil inlet 503a and connects with external for device again It connects, and oil mass is controlled by hydraulic oil inlet valve 503b.Oil filter 505a is additionally provided on return valve 505, oil filter 505a is set Being placed on load pipeline 506 can will be filtered in the hydraulic oil of reflux containing solid pollution particle.

It should be noted that actuating unit 500 is hydraulic pump in the present embodiment, hydraulic pump is the power member of hydraulic system Part is by engine or motor drive, fluid is sucked from hydraulic oil container, forms pressure oil discharge, is sent to executive component A kind of element；Hydraulic pump is divided into gear pump, plunger pump, vane pump and screw pump by structure；Fluid under pressure is provided for hydraulic drive A kind of Hydraulic Elements, be pump one kind；Its function is that the mechanical energy of engine (such as motor and internal combustion engine) is converted Into the hydraulic energy of liquid, and driving device 501 is engine.Transmission mechanism 600 is transmission pipeline, is the conveyer of hydraulic energy Structure.Main function of the hydraulic oil container 503 in hydraulic system is oil storage, heat dissipation, detaches contained air in oil and eliminates foam, is pressed It can be divided into overhead, side-mounted and underneath type according to the difference of installation site.Further, executing agency 700 is liquid for hydraulic cylinder The executive component in transmission system is pressed, replaces the hinge bar in the first embodiment with executing agency 700 in the present embodiment 201c, you can realize drivings of the hinge bar 201c by hydraulic system, it is the energy conversion for hydraulic energy being converted into mechanical energy Device.Hydraulic motor is accomplished that continuous rotary moves, and what hydraulic cylinder was realized is then to move back and forth.The structural shape of hydraulic cylinder There are piston cylinder, plunger case, oscillating cylinder three categories, piston cylinder and plunger case realize linear reciprocating motion, output speed and thrust, pendulum Dynamic cylinder realizes reciprocally swinging, Output speed (rotating speed) and torque.Hydraulic cylinder, can be with two or more other than individually use It combines aly or gets up to use with other Mechanism Combinations.

Embodiment 4

It, should for one embodiment that hydraulic connecting device of the present invention (i.e. transmission mechanism 600) provides with reference to Fig. 9~14 The main body of device includes the first connector of hydraulic pressure 800, the second connector of hydraulic pressure 900 and the part 1000 that is connected together in embodiment.Tool Body embodiment is：The first connector of hydraulic pressure 800 includes the first connecting tube 801, the first connecting tube 801 and an external hose It is connected, is internally provided with two stage steps, and the first connecting tube 801 is protruded from 801 first order stepped hole of the first connecting tube Surface, the port of the other end is in dentation, i.e. port has elasticity, and the outer end of the first connecting tube 801 is additionally provided with third external screw thread 801b, external hose are inserted by the elastic port of dentation in the first connecting tube 801, pass through the first connector 804 Internal thread matched with third external screw thread 801b, by the port of one end of dentation, widened diameter is shunk, so as to make The first connecting tube 801 is obtained mutually to link closely with external hose.

The second connector of hydraulic pressure 900 includes the second connecting tube 901, the second connecting tube 901 and another external hose phase Connection, 901 inside of the second connecting tube is two stage steps hole, and protrude from second at the first order stepped hole of the second connecting tube 901 The surface of connecting tube 901, the other end and first connecting tube 801 are similar, and the connection flexible pipe by way of engaging is not gone to live in the household of one's in-laws on getting married It states.

The part 1000 that is connected together includes the first chimeric 1001 and second chimeric axis 1002 of axis, and the first chimeric 1001 inside of axis is embedding First movement magnet 1001a is closed, the first chimeric axis 1001 is sleeved in the first connecting tube 801, and the second chimeric 1002 inside of axis is embedding The second moving magnet 1002a is closed, the second chimeric axis 1002 is sleeved in the second connecting tube 901.First chimeric axis 1001 and second The structure of chimeric axis 1002 is identical, for convenience of understanding, is now illustrated by taking the first chimeric axis 1001 as an example, the first chimeric axis 1001 include the first limiting slot 1001b, the first limit protrusion 1001c and the first deep gouge 1001d, and the first limiting slot 1001b is set on The surface of first chimeric axis 1001 is contradicted from one end of the first chimeric axis 1001 to the port of the first deep gouge 1001d, preferably, It is parallel with the busbar of the first chimeric axis 1001.From the port of the first deep gouge 1001d, (first limits first limit protrusion 1001c The end of slot 1001b is contradicted to the port of the first deep gouge 1001d, but the first limit protrusion 1001c center lines and the first limit The centerline parallel of position slot 1001b, and misaligned) outwardly convex extends backward with the negative direction equipped with the first limiting slot 1001b. It should be noted that the distance of the first limit protrusion 1001c from the first deep gouge 1001d extension protrusions is the 2 of the first deep gouge 1001d Times, with extend outwardly after the vertically extending distance in direction and the first limit protrusion 1001c end 1001c-1 to adjacent thereto The distance of the front end 1001c-2 of first limit protrusion 1001c is equal.Similar therewith, the second chimeric axis 1002 includes the second limit Position slot 1002b, the second limit protrusion 1002c and the second deep gouge 1002d, concrete structure do not repeat.When the first chimeric 1001 He of axis When second chimeric axis 1002 coordinates, first movement magnet 1001a contradicts the step of the first order stepped hole to the first connecting tube 801 Place, to first, chimeric 1001 and first connecting tube 801 of axis limits, and the second moving magnet 1002a is contradicted to the second connecting tube 901 At the step of first order stepped hole, to second, chimeric 1002 and second connecting tube 901 of axis limits, at this point, the first limit protrusion 1001c is inserted into the second deep gouge of the second chimeric axis 1002 by the gap at the second chimeric 1,002 second limit protrusion 1002c of axis It in 1002d, and rotates so that the first limit protrusion 1001c and the second limit protrusion 1002c are mutually clamped, the chimeric axis to first 1001 and second chimeric axis 1002 orientation up and down limiting, be connected to the first connecting tube 801 and the second connecting tube 901.

Preferably, the part 1000 that is connected together further includes cutting ferrule ring 1003,1003 inner hollow of cutting ferrule ring, one end is equipped with limiting Convex block 1003a, the other end are equipped with limit buckle 1003b, are internally provided with engaging convex block 1003c.When the first chimeric axis 1001 and second After both chimeric axis 1002 mutually buckle is good, the first limiting slot 1001b and the second limiting slot 1002b are just corresponding, are one Slideway, the spacing block set 1003a of cutting ferrule ring 1003 are tilted, and engaging convex block 1003c is limited along the first limiting slot 1001b and second Slot 1002b is moved, and to first, chimeric 1001 and second chimeric axis 1002 of axis limits, until limit buckle 1003b is contradicted to second embedding The end of sympodium 1002 realizes the left and right limiting of the chimeric 1001 and second chimeric axis 1002 of axis to first, avoids the first chimeric axis 1001 and second chimeric axis 1002 pass through relative rotation again.

Preferably, the first connector of hydraulic pressure 800 further includes the first 802 and first blank cap 803 of movable circulation road, first lives Dynamic circulation road 802 is placed in the first connecting tube 801, and the first blank cap 803 is placed in the first movable circulation road 802.Wherein, first The outer edge of blank cap 803 is equipped with the first external screw thread 803a, is internally provided in first at the first order step of the first connecting tube 801 Screw thread 801a, the first internal thread 801a are matched with the first external screw thread 803a.

It should be noted that the first movable circulation road 802 is including the 4th connecting tube 802a, the first fixed magnet 802b and admittedly One end of stator 802c, the 4th connecting tube 802a are equipped with the second external screw thread 802a-1, and the first fixed magnet 802b is sheathed on the 4th Connecting tube 802a, and pass through the second internal thread 802c-1 and the second external screw thread 802a-1 cooperation of fixinig plate 802c, to fixed magnetic Iron 802b is limited.

During original state, when the cooperation close to each other of both the first chimeric 1001 and second chimeric axis 1002 of axis, with first Chimeric axis 1001 illustrates.When first chimeric axis 1001 is toward close to the second chimeric 1002 direction of axis movement, first movement magnetic Iron 1001a slowly with the first fixed magnet 802b phases close to (the two in a state of nature when, magnetic pole repel each other end correspond to), two magnetic The repulsive force that iron is subject to is increasing so that the first movable circulation road 802 is blocked just by the first blank cap 803, all runners It is all obstructed.After the first chimeric 1001 and second chimeric axis 1002 of axis cooperation because the other end of first movement magnet 1001a with The first fixed magnet 802b other ends are due to repulsion so that the first movable circulation road 802 is far from the first blank cap 803, in pipe Liquid was circulated the past by the gap between the first 802 and first blank cap 803 of movable circulation road.

Preferably, the first movable 802 scope of activities of circulation road blocks at the second step of the first connecting tube 801 to first Between lid 803.Similar therewith, one end of the second connector of hydraulic pressure 900 is identical at the first connector of hydraulic pressure 800, does not repeat.

It should be noted that the above embodiments are merely illustrative of the technical solutions of the present invention and it is unrestricted, although with reference to preferable The present invention is described in detail in embodiment, it will be understood by those of ordinary skill in the art that, it can be to the technology of the present invention Scheme is modified or replaced equivalently, and without departing from the spirit and scope of technical solution of the present invention, should all be covered in this hair In bright right.

Claims (10)

1. a kind of monitoring electric power system based on hydraulic power stent, it is characterised in that：Including,

Energy module (T-100) for solar panel and is set to family roof end, Neng Goujie by hydraulic power stent It receives solar energy and is translated into source of supply of the electric energy for family's electric energy；

Intelligent control module (T-200), input terminal are connect with the output terminal of the energy module (T-100), can be by source In the controlling electric energy output that the energy module (T-100) converts, and the intelligent control module (T-200) further includes charging mould Block (T-201), discharge module (T-202), metering module (T-203), three is as the intelligent control module (T-200) Output module；

Electricity storage module (T-300) connect with the output terminal of the intelligent control module (T-200), and passes through the charging module (T-201) it is the power storage received in the intelligent control module (T-200) is spare；And

Modular converter (T-400) connect with the output terminal of the intelligent control module (T-200), further includes direct current transducer (T- 401) and a-c transducer (T-402), the intelligent control module (T-200) will store in the electricity storage module (T-300) Electric energy by the discharge module (T-202) be delivered to respectively the direct current transducer (T-401) and it is described exchange convert Corresponding supply direct-flow current consumer (T-401a) and AC electric appliance (T-402a) use in device (T-402)；

Wherein described intelligent control module (T-200) further includes monitoring module (T-204), further include mutual inductor (T-204a), Carrier pulse signal detection device (T-204b), carrier pulse signal sending device (T-204c) and current sensing means (T- 204d), by the signal on the intelligent control module (T-200) busbar by the mutual inductor (T-204a) after, on the one hand flow Enter in the carrier pulse signal detection device (T-204b) to receive and parse direct current carrier signal, on the other hand flow into institute Current sensing means (T-204d) is stated to measure the DC current values of dc bus；And dc bus signal passes through mutual inductor (T-204c) after, another further aspect flows into whether arcing signal supervisory instrument (T-204e) arcing occurs to detect on dc bus Phenomenon；

Wherein described hydraulic power stent includes fixed frame (100), including several vertical rods (101) and horizon bar (102), and The fixed frame (100) is made of the vertical rod (101) and the horizon bar (102) splicing；And tracking cell (200), The tracking cell (200) includes laterally overturning component (201), longitudinal direction overturning component (202) and locked component (203), institute State laterally overturning component (201) with it is described longitudinal direction overturning component (202) connect respectively with the fixed frame (100) and control its Overturning on horizontal and vertical, the locked component (203) is set on the laterally overturning component (201), by the fixation State locking after frame (100) adjustment.

2. the monitoring electric power system based on hydraulic power stent as described in claim 1, it is characterised in that：The laterally overturning Component (201) includes horizontal chassis (201a), vertical chassis (201b), hinge bar (201c), axostylus axostyle (201d),

The horizontal chassis (201a) connect with the vertical rod (101) bottom end, and the vertical chassis (201b) is vertically installed in described The bottom of horizontal chassis (201a), and the hinge bar (201c) upper end is fixedly connected with the bottom end of the horizontal chassis (201a), Lower end and the bottom of the vertical chassis (201b) are hinged, the both ends of the axostylus axostyle (201d) respectively with the vertical chassis (201b) and The hinge bar (201c) is hinged.

3. the monitoring electric power system based on hydraulic power stent as claimed in claim 1 or 2, it is characterised in that：The longitudinal direction Overturning component (202) further includes vertical bar (202a), brace (202b),

The top of the vertical bar (202a) is connect with the vertical rod (101), bottom end and one end of the brace (202b) It is hinged, and the other end of the brace (202b) is connect with the vertical rod (101), the vertical bar (202a) and the brace (202b) is in same plane.

4. the monitoring electric power system based on hydraulic power stent as claimed in claim 2, it is characterised in that：The hinge bar Upper and lower two parts that (201c) is hinged including two, and the axostylus axostyle (201d) is hinged with upper part, lower part with it is described Vertical chassis (201b) connection.

5. the monitoring electric power system based on hydraulic power stent as claimed in claim 4, it is characterised in that：The locked component (203) half arc bar (203a), external member (203b), locking level (203c) are further included,

The both ends of the half arc bar (203a) are set to the bottom end of the horizontal chassis (201a), and the external member (203b) is set to institute Vertical chassis (201b) side is stated, and the half arc bar (203a) is described across the external member (203b) by lock hole (203d) Locking level (203c) limits.

6. the monitoring electric power system based on hydraulic power stent as described in claim 1,2,4 or 5 are any, it is characterised in that： Extension rod (300) and base stage (400) are further included,

The extension rod (300) is connected, and the extension with the vertical rod (101) of the fixed frame (100) outermost end Bar (300) is parallel with the horizon bar (102)；The fixed frame (100) is set to the pedestal with the tracking cell (200) On platform (400).

7. the monitoring electric power system based on hydraulic power stent as claimed in claim 6, it is characterised in that：The hinge bar (201c) by the way of hydraulic system braking, the hydraulic system includes actuating unit (500), including driving device (501), hydraulic cavities (502), hydraulic oil container (503), output terminal (504) and return valve (505), the driving device (501) Fluid in the hydraulic oil container (503) is sucked in the hydraulic cavities (502), passes through the reflux after forming pressure oil discharge Valve (505) flows back, and the mechanical energy of the driving device (501) can be converted into the hydraulic energy output of liquid；Transmission mechanism (600), be connected with the output terminal of the actuating unit (500) (504), by the actuating unit (500) generate hydraulic energy into Row transmission；And executing agency (700), it connect, receives from the transmission mechanism (600) with the transmission mechanism (600) Hydraulic energy and be translated into mechanical energy and continue to output.

8. the monitoring electric power system based on hydraulic power stent as claimed in claim 7, it is characterised in that：The actuating unit (500) load pipeline (506), pressure gauge (507), overflow valve (508) and relief valve (509) are further included,

The return valve (505) is connected by the load pipeline (506) with the hydraulic cavities (502), the pressure gauge (507) The upper end of the hydraulic cavities (502) is set to the overflow valve (508), and the pressure gauge (507) can show the liquid The pressure parameter of chamber (502) is pressed, the pressure in the hydraulic cavities (502) can be let out and removed by the relief valve (509).

9. the monitoring electric power system based on hydraulic power stent as claimed in claim 8, it is characterised in that：The executing agency (700) it is hydraulic cylinder, is the execution part in Hydraulic Power Transmission System, and further include hydraulic pressure access port (701), hydraulic return mouth (702), performs chamber (703) and piston rod (704),

The hydraulic pressure access port (701) passes through the transmission mechanism (600) and the output terminal (504) of the actuating unit (500) It is connected, hydraulic oil is delivered to interior be converted into after mechanical energy of the performs chamber (703) pushes the piston rod (704) to hold Row.

10. the monitoring electric power system based on hydraulic power stent as claimed in claim 9, it is characterised in that：The hydraulic oil Case (503) further includes hydraulic oil inlet (503a) and hydraulic oil inlet valve (503b), the hydraulic oil inlet (503a) with it is outer It connects for device connection again, and oil mass is controlled by the hydraulic oil inlet valve (503b).