CN208908194U - A kind of machinery quick energy storage system - Google Patents
A kind of machinery quick energy storage system Download PDFInfo
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- CN208908194U CN208908194U CN201721853053.3U CN201721853053U CN208908194U CN 208908194 U CN208908194 U CN 208908194U CN 201721853053 U CN201721853053 U CN 201721853053U CN 208908194 U CN208908194 U CN 208908194U
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- combined floodgate
- energy
- storage system
- separating brake
- pallet
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- 238000004146 energy storage Methods 0.000 title claims abstract description 82
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- NJPPVKZQTLUDBO-UHFFFAOYSA-N novaluron Chemical compound C1=C(Cl)C(OC(F)(F)C(OC(F)(F)F)F)=CC=C1NC(=O)NC(=O)C1=C(F)C=CC=C1F NJPPVKZQTLUDBO-UHFFFAOYSA-N 0.000 claims abstract description 8
- XEEYBQQBJWHFJM-UHFFFAOYSA-N Iron Chemical compound [Fe] XEEYBQQBJWHFJM-UHFFFAOYSA-N 0.000 claims 2
- 229910052742 iron Inorganic materials 0.000 claims 1
- 238000010586 diagram Methods 0.000 description 4
- 101150005470 LCL2 gene Proteins 0.000 description 3
- 101100255938 Arabidopsis thaliana RVE4 gene Proteins 0.000 description 2
- 101100074248 Saccharomyces cerevisiae (strain ATCC 204508 / S288c) LCL1 gene Proteins 0.000 description 2
- 230000009471 action Effects 0.000 description 1
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Abstract
The utility model relates to a kind of mechanical quick energy storage systems, including pedestal and the operating mechanism being built in pedestal, the operating mechanism includes two sets or two sets or more combined floodgate energy-storage systems, the combined floodgate energy-storage system is connect with connecting rod, realize self contained function, and each set combined floodgate energy-storage system is carried out while being latched by unified dividing tripping.Utility model has the advantages that the operating mechanism in the utility model carries out switching-in spring energy storage using pairing lock energy-storage system, energy storage time foreshortens to 2s, and when releasing energy, work independently by the energy-storage system that individually closes a floodgate can be realized feed motion;And it can either realize that separating brake movement can simplify structure, reduce cost using single brake-dividing system.
Description
Technical field
The utility model relates to a kind of breaker, in particular to a kind of mechanical quick energy storage system.
Background technique
Operating mechanism is the important component of high-voltage circuitbreaker, it is by energy-storage units, control unit and power transfer units
Composition.There are many forms for the operating mechanism of high-voltage circuitbreaker, such as spring operating mechanism, pneumatic mechanism, hydraulic mechanism and hydraulic bullet
Spring mechanism etc..
Spring operating mechanism is to utilize to make breaker actuation by power of the spring of energy storage, and spring energy-storage is usually by motor
It is completed by deceleration device, the spring operating mechanism little for certain operation powers reduces cost to simplify structure,
Can also with hand-power come energy storage, entire operating mechanism may be roughly divided into spring energy-storage, maintain energy storage, close a floodgate with maintain close a floodgate,
Four part of separating brake.
Operating mechanism during the work time, is released energy by combined floodgate energy-stored spring come drive transmission device, make breaker into
Row accurately closes a floodgate, in traditional spring operating mechanism, and energy storage time is in 6s ~ 7s, after the movement of frequent divide-shut brake, energy storage electricity
Machine has been unable to satisfy the consumption of energy storage, and the decline of combined floodgate power is very fast, easily causes combined floodgate not in place, not can guarantee divide-shut brake movement
It is accurate continuous.
Utility model content
The technical problem to be solved by the present invention is to provide a kind of fast energy storage and mechanical fast energy storage systems at low cost
System.
In order to solve the above technical problems, the technical solution of the utility model are as follows: a kind of machinery quick energy storage system, innovation
Point is: including pedestal and the operating mechanism being built in pedestal, the operating mechanism includes two sets or two sets or more combined floodgates
Energy-storage system, the combined floodgate energy-storage system are connect with connecting rod, realize self contained function, and each set combined floodgate energy-storage system passes through unification
Dividing tripping carry out and meanwhile be latched.
Further, the action logic of the mechanical quick energy storage system are as follows: when being closed a floodgate for the first time, closed a floodgate by each set
First set combined floodgate energy-storage system elder generation's energy release in energy-storage system is closed a floodgate, and continues energy storage after energy release, then by
Dividing tripping unlock carries out separating brake, when carrying out secondary combined floodgate, if first set combined floodgate energy-storage system energy deficiency, by the
Two sets of combined floodgate energy-storage system energy releases are closed a floodgate, and continue energy storage after energy release, then unlocked by dividing tripping
Carry out separating brake, and so on.
Further, the mechanical quick energy storage system is applied to breaker, automatic circuit, switchgear.
Further, the combined floodgate energy-storage system includes connecting plate, output toggle arm, retarder, pinion shaft, gear wheel
Axis, combined floodgate energy-stored spring and combined floodgate pallet component, the Large Gear Shaft and pinion shaft pass through bearing group positioned on connecting plate respectively
On, and the axis of the two is arranged in parallel;Intermeshing large and small gear is separately installed on the large and small gear shaft, it is described small
Gear shaft is connected to motor by retarder;Cam, offset assembly and combined floodgate pallet component are also equipped in the Large Gear Shaft,
The offset assembly is connect with combined floodgate energy-stored spring, and the combined floodgate pallet component is mounted on Large Gear Shaft side, and and gear wheel
Axis connection;The output toggle arm and connecting plate are hinged, and the output toggle arm has one end, which is matched by idler wheel and cam
It closes, the output toggle arm also has the other end, and the end and connecting rod are hinged.
Further, the combined floodgate pallet component includes combined floodgate pallet, combined floodgate pallet spring, floodgate semiaxis, floodgate semiaxis
Torsional spring, L-type push rod and switching electromagnet, the centre of the combined floodgate pallet and connecting plate are hinged, one end of combined floodgate pallet and canine tooth
Wheel shaft connection, the other end and semiaxis of the combined floodgate pallet cooperate, and are additionally provided in the combined floodgate pallet between the end and hinge joint
Pawl spring, one end of the floodgate semiaxis is connected with L-type push rod, and is additionally provided with floodgate semiaxis on one end of L-type push rod
Torsional spring, the L-type push rod are driven by switching electromagnet.
Further, the dividing tripping includes separating brake pallet, separating brake pallet torsional spring, separating brake semiaxis torsional spring, separating brake
Semiaxis, "-" type push rod and tripping electromagnet, the separating brake pallet are hingedly formed with connecting plate, the separating brake pallet in the hinged place
On be also equipped with separating brake pallet torsional spring, one end of the separating brake pallet couples with combined floodgate energy-storage system, the other end of separating brake pallet
It is matched with separating brake semiaxis;One end of the separating brake semiaxis is connected with "-" type push rod, and also close to one end of "-" type push rod
Equipped with separating brake semiaxis torsional spring, the "-" type push rod is driven by tripping electromagnet.
Utility model has the advantages that the operating mechanism in the utility model is closed using pairing lock energy-storage system
Lock spring energy-storage, energy storage time foreshorten to 2s, and when releasing energy, carrying out autonomous working by the energy-storage system that individually closes a floodgate can be real
Existing feed motion;And it can either realize that separating brake movement can simplify structure, reduce cost using single brake-dividing system.
Smoothly to realize pairing lock energy storage, the utility model uses different layouts as a pair of of motor of the energy storage energy,
So that structure is more compact.
The mechanical quick energy storage system of the utility model can be applied to breaker, automatic circuit, switchgear, have a wide range of application
It is general.
Detailed description of the invention
Utility model will be further described in detail below with reference to the attached drawings and specific embodiments.
Fig. 1 is the schematic diagram of the mechanical quick energy storage system of the utility model.
Fig. 2 is the schematic diagram of the operating mechanism of the utility model.
Fig. 3 is the front view of the operating mechanism of the utility model.
Fig. 4 is the A-A cross-sectional view of Fig. 3.
Fig. 5 is to be electrically connected schematic diagram in the utility model.
Specific embodiment
The following examples can make professional and technical personnel that the utility model be more fully understood, but therefore will not
The utility model is limited among the embodiment described range.
A kind of mechanical quick energy storage system as Figure 1-Figure 5, including pedestal 1 and the actuating being built in pedestal 1
Mechanism, operating mechanism includes two sets or two sets or more combined floodgate energy-storage systems, and each set combined floodgate energy-storage system uses distributed arrangement,
Combined floodgate energy-storage system is connect with connecting rod 2, realizes self contained function, and each set combined floodgate energy-storage system passes through unified separating brake tripping machine
Structure is carried out while being latched.In the present embodiment, it is explained with two sets of combined floodgate energy-storage systems.
Combined floodgate energy-storage system includes connecting plate 3, output toggle arm 4, retarder 10, pinion shaft 6, Large Gear Shaft 7, storage of closing a floodgate
Energy spring 5 and combined floodgate pallet component, Large Gear Shaft 7 and pinion shaft 6 are respectively by bearing group on connecting plate 3, and the two
Axis be arranged in parallel.Intermeshing gear wheel 8, pinion gear 9 are separately installed on Large Gear Shaft 7, pinion shaft 6, it is small
Gear shaft 6 is connect by retarder 10 with motor 11;Cam 12, offset assembly are also equipped in Large Gear Shaft 7 and tug of closing a floodgate
Sub-component, offset assembly are connect with combined floodgate energy-stored spring 5, and combined floodgate pallet component is mounted on 7 side of Large Gear Shaft, and and gear wheel
Axis 7 couples;Output toggle arm 4 and connecting plate 3 are hinged, and output toggle arm 4 has one end, which matches 12 by idler wheel 13 and cam
It closes, output toggle arm 4 also has the other end, and the end and connecting rod 2 are hinged.
Combined floodgate pallet component includes combined floodgate pallet 14, combined floodgate pallet spring 15, floodgate semiaxis 16, floodgate semiaxis torsional spring 19, L
Type push rod 18 and switching electromagnet 17, the centre of combined floodgate pallet 14 and connecting plate 2 are hinged, one end of combined floodgate pallet 14 and gear wheel
Axis 7 couples, and the other end and floodgate semiaxis 16 of combined floodgate pallet 14 cooperate, and in the combined floodgate pallet 14 between the end and hinge joint also
Equipped with combined floodgate pallet spring 15, one end of floodgate semiaxis 16 is connected with L-type push rod 18, and on one end of L-type push rod 18 also
Equipped with floodgate semiaxis torsional spring 19, L-type push rod is driven by switching electromagnet 17.
Operating mechanism further includes dividing tripping, which couples with one of combined floodgate energy-storage system.
Dividing tripping include separating brake pallet 20, separating brake pallet torsional spring 21, separating brake semiaxis torsional spring 23, separating brake semiaxis 22,
"-" type push rod 25 and tripping electromagnet 24, separating brake pallet 20 are hingedly formed with connecting plate 2, the separating brake pallet 20 in the hinged place
On be also equipped with separating brake pallet torsional spring 21, one end of separating brake pallet 20 couples with combined floodgate energy-storage system, separating brake pallet 20 it is another
End is matched with separating brake semiaxis 22, and one end of separating brake semiaxis 22 is connected with "-" type push rod 25, and close to "-" type push rod 25
One end is additionally provided with separating brake semiaxis torsional spring 23, and "-" type push rod 25 is driven by tripping electromagnet 24.
The mechanical quick energy storage system of the utility model can be applied to breaker, automatic circuit, switchgear, have a wide range of application
It is general.
Schematic diagram as shown in Figure 5 is it is found that tank circuit and closing circuit have two-way, and sub-gate circuit has all the way, and two
Road tank circuit simultaneously connects, and two-way closing circuit and sub-gate circuit all the way simultaneously connect, wherein first tank circuit include
Terminal box JH-2, connecting terminal JX-2 made of being sequentially connected in series, travel switch SP1, rectifier DX1, connecting terminal JX-1, wiring
Box JH-1, goes back on rectifier DX1 and is connected to motor M1, and Article 2 tank circuit includes travel switch made of being sequentially connected in series
SP2, rectifier DX2 go back on rectifier DX2 and are connected to motor M1, and the both ends of Article 2 tank circuit are attempted by wiring respectively
On terminal JX-2, connecting terminal JX-1, first closing circuit include the terminal box JH-4 being sequentially connected in series, connecting terminal JX-5,
Travel switch SP1, auxiliary switch S, closing coil LCL1, connecting terminal JX-3, terminal box JH-3, Article 2 closing circuit include
Travel switch SP2, travel switch SP1, auxiliary switch S, the closing coil LCL2 being sequentially connected in series, the both ends of Article 2 closing circuit
It is attempted by connecting terminal JX-5, connecting terminal JX-3 respectively, sub-gate circuit includes terminal box JH-5, the connecting terminal according to concatenation
JX-6, auxiliary switch S, opening coil LTR, connecting terminal JX-4, connecting terminal JX-4 access closing coil LCL2 and terminals
Between sub- JX-3.
In above-mentioned circuit, travel switch has two docking points, and auxiliary switch has 6 opened points, 6 normally closed points, and energy storage is returned
Travel switch SP1, travel switch SP2 in road are normally off, and the travel switch SP1 in first closing circuit is normal
Open state, auxiliary switch S are normally off, and the travel switch SP2 in Article 2 closing circuit is normally open, travel switch
SP1 is normally off, and auxiliary switch S is normally off, and the auxiliary switch S in sub-gate circuit is normally open, first storage
It can circuit first set combined floodgate energy-storage system corresponding with first closing circuit, Article 2 tank circuit and Article 2 closing circuit pair
Second set of combined floodgate energy-storage system is answered, sub-gate circuit corresponds to dividing tripping.
When carrying out energy storage, travel switch SP1, formation switch SP2 in two tank circuits are normally off, so that
Two tank circuits are smoothly connected to, i.e., two sets of combined floodgate energy-storage systems carry out energy storage.
When being closed a floodgate for the first time, in place, switching signal inputs the energy storage of two sets of combined floodgate energy-storage systems, and first at this time
Travel switch SP1 in closing circuit becomes normally closed from normally opened, and the travel switch SP2 in Article 2 closing circuit is also by normally opened change
To be normally closed, and the travel switch SP1 in Article 2 closing circuit then becomes normally opened from normally closed, i.e. first closing circuit connection,
Article 2 closing circuit is different, and travel switch SP1, the travel switch SP2 in corresponding two tank circuits are normally closed become
Normally opened, at this point, closing coil LCL1 is connected, the switching electromagnet movement in first set combined floodgate energy-storage system, energy release is carried out
It closes a floodgate, and continues energy storage after energy release, at this point, the travel switch SP1 in first tank circuit becomes normal from normally opened again
It closing, first set combined floodgate energy-storage system continues energy storage, then is unlocked by dividing tripping and carry out separating brake, sub-gate signal input,
Auxiliary switch S in sub-gate circuit becomes normally closed from normally opened, and the auxiliary switch S in two closing circuits becomes normally opened from normally closed,
I.e. sub-gate circuit is connected, and opening coil LTR is connected, and the tripping electromagnet 24 in dividing tripping works, and carries out separating brake movement,
When carrying out secondary combined floodgate, switching signal inputs again, if first set combined floodgate energy-storage system energy is insufficient, i.e., first energy storage is returned
In place, then travel switch SP1 is still kept normally closed the non-energy storage in road, then the SP1 in first closing circuit is maintained a normally open, and corresponding
SP1 in Article 2 closing circuit keeps normally closed, at this point, Article 2 closing circuit is connected to, is then connected by closing coil LCL2, the
Switching electromagnet movement in two sets of combined floodgate energy-storage systems, energy release are closed a floodgate, and continue energy storage after energy release, then
It is unlocked by dividing tripping and carries out separating brake, and so on.
It should be understood by those skilled in the art that the present utility model is not limited to the above embodiments, above-described embodiment and
Only illustrate the principles of the present invention described in specification, on the premise of not departing from the spirit and scope of the utility model,
The utility model also has various changes and improvements, these changes and improvements both fall within the scope of the claimed invention
It is interior.The protection scope of the present invention is defined by the appended claims and their equivalents.
Claims (5)
1. a kind of machinery quick energy storage system, it is characterised in that: described including pedestal and the operating mechanism being built in pedestal
Operating mechanism includes two sets or two sets or more combined floodgate energy-storage systems, and the combined floodgate energy-storage system is connect with connecting rod, is realized independent
Movement, and each set combined floodgate energy-storage system is carried out while being latched by unified dividing tripping.
2. machinery quick energy storage system according to claim 1, it is characterised in that: the machinery quick energy storage system application
In breaker, automatic circuit, switchgear.
3. machinery quick energy storage system according to claim 1, it is characterised in that: the combined floodgate energy-storage system includes connection
Plate, output toggle arm, retarder, pinion shaft, Large Gear Shaft, combined floodgate energy-stored spring and combined floodgate pallet component, the Large Gear Shaft
Pass through bearing group respectively with pinion shaft on connecting plate, and the axis of the two is arranged in parallel;Divide on the large and small gear shaft
Intermeshing large and small gear is not installed, the pinion shaft is connected to motor by retarder;In the Large Gear Shaft also
Cam, offset assembly and combined floodgate pallet component are installed, the offset assembly is connect with combined floodgate energy-stored spring, the combined floodgate pallet
Component is mounted on Large Gear Shaft side, and couples with Large Gear Shaft;The output toggle arm and connecting plate are hinged, the output toggle arm
With one end, which also has the other end by idler wheel and cam engagement, the output toggle arm, the end and connecting rod
Hingedly.
4. machinery quick energy storage system according to claim 3, it is characterised in that: the combined floodgate pallet component includes closing a floodgate
Pawl, combined floodgate pallet spring, floodgate semiaxis, floodgate semiaxis torsional spring, L-type push rod and switching electromagnet, in the combined floodgate pallet
Between it is hinged with connecting plate, one end of combined floodgate pallet couples with Large Gear Shaft, and the other end of the combined floodgate pallet and semiaxis cooperate, and
Pawl spring is additionally provided in combined floodgate pallet between the end and hinge joint, one end of the floodgate semiaxis is connected with L-type push rod, and
It is additionally provided with floodgate semiaxis torsional spring on one end of L-type push rod, the L-type push rod is driven by switching electromagnet.
5. machinery quick energy storage system according to claim 1, it is characterised in that: the dividing tripping includes separating brake
Pawl, separating brake pallet torsional spring, separating brake semiaxis torsional spring, separating brake semiaxis, "-" type push rod and tripping electromagnet, the separating brake pallet with
Connecting plate hingedly forms, and separating brake pallet torsional spring, one end of the separating brake pallet are also equipped in the separating brake pallet of the hinged place
Couple with combined floodgate energy-storage system, the other end of separating brake pallet is matched with separating brake semiaxis;One end of the separating brake semiaxis is connected with
"-" type push rod, and it is additionally provided with separating brake semiaxis torsional spring close to one end of "-" type push rod, the "-" type push rod is by separating brake electromagnetism
Iron driving.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN2017113661720 | 2017-12-18 | ||
CN201711366172 | 2017-12-18 |
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Publication Number | Publication Date |
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CN208908194U true CN208908194U (en) | 2019-05-28 |
CN208908194U8 CN208908194U8 (en) | 2023-12-05 |
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CN201721853053.3U Active CN208908194U8 (en) | 2017-12-18 | 2017-12-27 | Mechanical rapid energy storage system |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108447710A (en) * | 2017-12-27 | 2018-08-24 | 江苏省如高高压电器有限公司 | A kind of machinery quick energy storage system |
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2017
- 2017-12-27 CN CN201721853053.3U patent/CN208908194U8/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN108447710A (en) * | 2017-12-27 | 2018-08-24 | 江苏省如高高压电器有限公司 | A kind of machinery quick energy storage system |
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CU01 | Correction of utility model |
Correction item: National priority False: 201711366172.0 2017.12.18 CN Number: 22-01 Page: The title page Volume: 35 Correction item: National priority False: 201711366172.0 2017.12.18 CN Number: 22-01 Volume: 35 |