WO2022039678A1 - Portable super capacitor engine starter set 1 functioning to create power density and super capacitor set 2 functioning to create energy density - Google Patents
Portable super capacitor engine starter set 1 functioning to create power density and super capacitor set 2 functioning to create energy density Download PDFInfo
- Publication number
- WO2022039678A1 WO2022039678A1 PCT/TH2020/000072 TH2020000072W WO2022039678A1 WO 2022039678 A1 WO2022039678 A1 WO 2022039678A1 TH 2020000072 W TH2020000072 W TH 2020000072W WO 2022039678 A1 WO2022039678 A1 WO 2022039678A1
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- WIPO (PCT)
- Prior art keywords
- super capacitor
- functioning
- create
- engine starter
- portable
- Prior art date
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Classifications
-
- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02J—CIRCUIT ARRANGEMENTS OR SYSTEMS FOR SUPPLYING OR DISTRIBUTING ELECTRIC POWER; SYSTEMS FOR STORING ELECTRIC ENERGY
- H02J1/00—Circuit arrangements for dc mains or dc distribution networks
- H02J1/10—Parallel operation of dc sources
- H02J1/122—Provisions for temporary connection of DC sources of essentially the same voltage, e.g. jumpstart cables
-
- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02J—CIRCUIT ARRANGEMENTS OR SYSTEMS FOR SUPPLYING OR DISTRIBUTING ELECTRIC POWER; SYSTEMS FOR STORING ELECTRIC ENERGY
- H02J7/00—Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries
- H02J7/34—Parallel operation in networks using both storage and other dc sources, e.g. providing buffering
- H02J7/345—Parallel operation in networks using both storage and other dc sources, e.g. providing buffering using capacitors as storage or buffering devices
-
- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02J—CIRCUIT ARRANGEMENTS OR SYSTEMS FOR SUPPLYING OR DISTRIBUTING ELECTRIC POWER; SYSTEMS FOR STORING ELECTRIC ENERGY
- H02J7/00—Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries
- H02J7/0013—Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries acting upon several batteries simultaneously or sequentially
- H02J7/0014—Circuits for equalisation of charge between batteries
Definitions
- Portable Super Capacitor Engine Starter Set 1 functions to create power density and Super Capacitor Set 2 functions to create energy density with the following special characteristics:
- Portable Super Capacitor Engine Starter Set 1 functions to create power density with high amp output for use in starting engines and
- Super Capacitor Set 2 functions to suppply energy density and supply and balance to Super Capacitor Set 1.
- Super Capacitor Set 1 uses materials from carbon or carbon and graphene in which the carbon content is higher.
- Super Capacitor Set 2 uses materials from graphene or carbon and graphene in which the graphene content is higher.
- Super Capacitor Set 1 and Super Capacitor Set 2 are mounted in series or mounted in parallel in order to serve as the same power source and transfer energy together.
- this invention has a concept to use Portable Super Capacitor Engine Starter Set 1 functioning to create power density and Super Capacitor Set 2 functioning to create energy density in jump starts by installing a positive cable clamp and a negative cable clamp.
- the casing holds the related equipment, the positive cable clamp and the negative cable clamp shaped out from the casing, and can be portable for jump starting with a long useful life capable of starting engines for over ten thousand times.
- Super Capacitor Engine Starter Set I functions to create power density and Super Capacitor Set 2 functions to create energy density composed of the following: a.Super Capacitor Set 1; b.Super Capacitor Set 2; c. Balancer Set 1 and d.Balancer Set 2 with the following special characteristics: Casing that functions as part of the handle for portability.
- the inside of the casing is a chamber to handle installation of the following: a.Super Capacitor Set 1 ; b.Super Capacitor Set 2; c. Balancer Set 1 and d.Balancer Set 2, which are connected together.
- One of the places on the casing is equipped with positive and negative jumper cable clamps connected to the positive and negative charge points connected to the following: a.Super Capacitor Set 1 ; b.Super Capacitor Set 2; c. Balancer Set 1 and d.Balancer Set 2, which are connected to the same circuit together.
- the purpose of the invention is to procure a device supplying energy to start an engine with a super capacitor by installing positive and negative jumper cable clamps and for portable use in jump starting in a device with a long usage life and use for over 50,000 jump starts.
- Super Capacitor Set 1 functions to create power density with high amp output for use in starting engines and; b. Super Capacitor Set 2 (20) functions to create energy density by functioning in place of rechargeable batteries, because Super Capacitor Set 2 (20) stores energy due to the fact that it does not have high amp output for use in starting engines, but functions to balance voltage for Super Capacitor Set 1 (10) instead.
- Super Capacitor Set 1 (10) requires only a small amount of energy to perform the task of starting engines.
- Super Capacitor Set 1 (10) uses materials from carbon or carbon and graphene with higher carbon volume.
- Super Capacitor Set 2 (20) uses materials from graphene or carbon and graphene with higher graphene volume.
- Super Capacitor Set 1 (10) is equipped with more than one super capacitor either mounted in series or mounted in parallel for assembly together as the same power source in one of the following voltages: 12 volts, 24 volts, 36 volts, 48 volts and 96 volts, etc.
- Super Capacitor Set 2(20) is equipped with more than one super capacitor mounted in series or mounted in parallel as the same power source.
- Super Capacitor Set 1 (10) and Super Capacitor Set 2 (20) are mounted in series or mounted in parallel as the same power source and to enable the transfer of energy.
- At least one Balancer Set 1 (31) is equipped with PCB Electronic controller circuit.
- the PCB Electronic controller circuit function to distribute electrical voltage to every Super Capacitor Set 1 (10)
- At least one Balancer Set 2 (32) is equipped with PCB Electronic controller circuit.
- the PCB Electronic controller circuit function to distribute electrical voltage to every Super Capacitor Set 2 (20)
- Each Super Capacitor Set 1 (10) is connected to at least one Balancer Set 1 (31) to function in showing that each Super Capacitor Set 1 (10) is connected as the same power source with a full and equal electrical voltage.
- Every Super Capacitor Set 1 (10) functions to provide rapid energy output within a short period of time together in order to start engines requiring voltages of 12 volts, 24 volts, 36 volts, 48 volts and 96 volts.
- Each Super Capacitor Set 2 (20) is connected to at least one Balancer Set 2 (32) in order to show that every Super Capacitor Set 2 (20) is connected as the same power source with a full and equal electrical voltage.
- Super Capacitor Set 2 (20) functions to supply energy to Super Capacitor Set 1 (10) for engines with voltages of 12 volts, 24 volts, 36 volts, 48 volts and 96 volts.
- the casing (30) functions as the part with a handle for portability and is in the form of a box or geometrical shape or in the shape specified by the outer edges.
- the inside contains space for the installation of the following: a.Super Capacitor Set 1 (10); b.Super Capacitor Set 2 (20); c.Balancer Set 1 (31 ) and d.Balancer Set 2 (32), which are connected to the circuit together.
- One point on the casing (30) is equipped with positive (31) and negative (32) jump start cable clamps that are connected to positive and negative charge points with the following: a.Super Capacitor Set 1 (10); b.Super Capacitor Set 2 (20); c.Balancer Set 1 (31) and d.Balancer Set 2 (32), which are connected to the circuit together.
- Part of the positive cable clamp (31) is installed inside the casing (30) to be connected to the following: a.Super Capacitor Set 1 (10); b.Super Capacitor Set 2 (20); c.Balancer Set 1 (31) and d.Balancer Set 2 (32), which are connected to the circuit together.
- Part of the negative cable clamp (32) is installed inside the casing to be connected to the following: a.Super Capacitor Set 1 (10); b.Super Capacitor Set 2 (20); c.Balancer Set 1 (31) and d.Balancer Set 2 (32), which are connected to the circuit together.
- Part of the positive cable clamp (31) is shaped as a lead cable (40) with a selection from copper, silver, etc.
- the end of the long cable outside the casing (30) is equipped with metal parts selected from copper, silver, etc. that is Clamp Head 1 (41).
- the clamp is attached to the battery that needs to be started.
- Part of the negative cable clamp (32) is shaped as a lead cable (40) with a selection from copper, silver, etc.
- the end of the long cable outside the casing (30) is equipped with metal parts selected from copper, silver, etc. that is Clamp Head 2 (42).
- the clamp is attached to the battery that needs to be started.
- the lead cable (40) is at least 5 centimeters long and up.
- Balancer Set 1 (31) is equipped with PCB Electronic controller circuit.
- the PCB Electronic controller circuit function to supply and balance electrical voltage to every Super Capacitor Set 1 (10)
- Balancer Set 2 (32) has PCB Electronic controller circuit.
- the PCB Electronic controller circuit function to supply and balance electrical voltage to every Super Capacitor Set 2 (20) When Super Capacitor Set 1 (10) is fully charged and sufficiently charged to start an engine:
- Super Capacitor Set 1 (10) has extremely low internal resistance. This feature enables the output of energy released each time rapidly and within a short period of time, which results in high amp output until it can be used to start the engine.
- the target battery has residual energy when the clamps are connected between the portable engine starting device and the target battery.
- the energy in the target battery is transferred to Super Capacitor Set 1 (10) over a period of 2-10 seconds until every Super Capacitor Set 1 (10) is fully and sufficiently charged to start the engine.
- FIG 1 shows the diagram of the parts for Portable Super Capacitor Engine Starter Set I functioning to create power density and Super Capacitor Set 2 functioning to create energy density in this invention.
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- Engineering & Computer Science (AREA)
- Power Engineering (AREA)
- Charge And Discharge Circuits For Batteries Or The Like (AREA)
Abstract
Portable Super Capacitor Engine Starter Set 1 functions to create power density and Super Capacitor Set 2 functions to create energy density composed of the following: a.Super Capacitor Set 1 (10); b.Super Capacitor Set 2 (20); c.Balancer Set 1 (31) and d.Balancer Set 2 (32). The special features are as follows: The casing (30) functions as the part with a handle for portability. There is space on the inside for the installation of the following: a.Super Capacitor Set 1 (10); b.Super Capacitor Set 2 (20); c.Balancer Set 1 (31) and d.Balancer Set 2 (32), which are connected to the circuit. One point on the casing (30) is equipped with a positive cable clamp (31) a negative cable clamp (32) connected to the positive and negative charge points of the following: a.Super Capacitor Set 1 (10); b.Super Capacitor Set 2 (20); c.Balancer Set 1 (31) and d.Balancer Set 2 (32), which are connected to the circuit.
Description
PORTABLE SUPER CAPACITOR ENGINE STARTER SET 1 FUNCTIONING TO CREATE POWER DENSITY AND SUPER CAPACITOR SET 2 FUNCTIONING TO CREATE ENERGY DENSITY
Branch of Science Associated with the Invention
Engineering in the areas involving Portable Super Capacitor Engine Starter Set 1 functioning to create power density and Super Capacitor Set 2 functioning to create energy density
of related art or science
As claimed in Thai Petty Patent Application No. 1903003160, Portable Super Capacitor Engine Starter Set 1 functions to create power density and Super Capacitor Set 2 functions to create energy density with the following special characteristics: Portable Super Capacitor Engine Starter Set 1 functions to create power density with high amp output for use in starting engines and Super Capacitor Set 2 functions to suppply energy density and supply and balance to Super Capacitor Set 1. Super Capacitor Set 1 uses materials from carbon or carbon and graphene in which the carbon content is higher. Super Capacitor Set 2 uses materials from graphene or carbon and graphene in which the graphene content is higher. Super Capacitor Set 1 and Super Capacitor Set 2 are mounted in series or mounted in parallel in order to serve as the same power source and transfer energy together.
There is a disadvantage, namely that the aforementioned energy distribution device for starting engines is permanently installed on automobiles and cannot be portable for jump starts, thereby preventing people from helping others or themselves when lead acid batteries have insufficient energy for starting engines, resulting in a need to hire other persons, loss of time and expenses including lack of safety if lead acid batteries have insufficient energy. Furthermore, this is similar for the energy distribution device for starting engines cited in Thai Petty Patent No. 1903003160 that has lead acid batteries. If lead acid batteries do not have sufficient energy, similar errors will occur.
Thus, this invention has a concept to use Portable Super Capacitor Engine Starter Set 1 functioning to create power density and Super Capacitor Set 2 functioning to create energy density in jump starts by installing a positive cable clamp and a negative cable clamp. The
casing holds the related equipment, the positive cable clamp and the negative cable clamp shaped out from the casing, and can be portable for jump starting with a long useful life capable of starting engines for over ten thousand times.
Invention Characteristics and Objectives Portable Super Capacitor Engine Starter Set I functions to create power density and Super Capacitor Set 2 functions to create energy density composed of the following: a.Super Capacitor Set 1; b.Super Capacitor Set 2; c. Balancer Set 1 and d.Balancer Set 2 with the following special characteristics: Casing that functions as part of the handle for portability. The inside of the casing is a chamber to handle installation of the following: a.Super Capacitor Set 1 ; b.Super Capacitor Set 2; c. Balancer Set 1 and d.Balancer Set 2, which are connected together. One of the places on the casing is equipped with positive and negative jumper cable clamps connected to the positive and negative charge points connected to the following: a.Super Capacitor Set 1 ; b.Super Capacitor Set 2; c. Balancer Set 1 and d.Balancer Set 2, which are connected to the same circuit together. The purpose of the invention is to procure a device supplying energy to start an engine with a super capacitor by installing positive and negative jumper cable clamps and for portable use in jump starting in a device with a long usage life and use for over 50,000 jump starts.
Full Disclosure of Invention Figure 1 shows Portable Super Capacitor Engine Starter Set 1 functioning to create power density and Super Capacitor Set 2 functioning to create energy density composed of the following: a. Super Capacitor Set 1 (10) functions to create power density with high amp output for use in starting engines and; b. Super Capacitor Set 2 (20) functions to create energy density by functioning in place of rechargeable batteries, because Super Capacitor Set 2 (20) stores energy due to the fact that it does not have high amp output for use in starting engines, but functions to balance voltage for Super Capacitor Set 1 (10) instead. Super Capacitor Set 1 (10) requires only a
small amount of energy to perform the task of starting engines.
Super Capacitor Set 1 (10) uses materials from carbon or carbon and graphene with higher carbon volume.
Super Capacitor Set 2 (20) uses materials from graphene or carbon and graphene with higher graphene volume.
Super Capacitor Set 1 (10) is equipped with more than one super capacitor either mounted in series or mounted in parallel for assembly together as the same power source in one of the following voltages: 12 volts, 24 volts, 36 volts, 48 volts and 96 volts, etc.
Super Capacitor Set 2(20) is equipped with more than one super capacitor mounted in series or mounted in parallel as the same power source.
Super Capacitor Set 1 (10) and Super Capacitor Set 2 (20) are mounted in series or mounted in parallel as the same power source and to enable the transfer of energy. c. At least one Balancer Set 1 (31) is equipped with PCB Electronic controller circuit. The PCB Electronic controller circuit function to distribute electrical voltage to every Super Capacitor Set 1 (10) d. At least one Balancer Set 2 (32) is equipped with PCB Electronic controller circuit. The PCB Electronic controller circuit function to distribute electrical voltage to every Super Capacitor Set 2 (20) Each Super Capacitor Set 1 (10) is connected to at least one Balancer Set 1 (31) to function in showing that each Super Capacitor Set 1 (10) is connected as the same power source with a full and equal electrical voltage. Every Super Capacitor Set 1 (10) functions to provide rapid energy output within a short period of time together in order to start engines requiring voltages of 12 volts, 24 volts, 36 volts, 48 volts and 96 volts.
Each Super Capacitor Set 2 (20) is connected to at least one Balancer Set 2 (32) in order to show that every Super Capacitor Set 2 (20) is connected as the same power source with a full and equal electrical voltage. Super Capacitor Set 2 (20) functions to supply energy to Super Capacitor Set 1 (10) for engines with voltages of 12 volts, 24 volts, 36 volts, 48 volts and 96 volts. e. The casing (30) functions as the part with a handle for portability and is in the form
of a box or geometrical shape or in the shape specified by the outer edges. The inside contains space for the installation of the following: a.Super Capacitor Set 1 (10); b.Super Capacitor Set 2 (20); c.Balancer Set 1 (31 ) and d.Balancer Set 2 (32), which are connected to the circuit together.
One point on the casing (30) is equipped with positive (31) and negative (32) jump start cable clamps that are connected to positive and negative charge points with the following: a.Super Capacitor Set 1 (10); b.Super Capacitor Set 2 (20); c.Balancer Set 1 (31) and d.Balancer Set 2 (32), which are connected to the circuit together.
Part of the positive cable clamp (31) is installed inside the casing (30) to be connected to the following: a.Super Capacitor Set 1 (10); b.Super Capacitor Set 2 (20); c.Balancer Set 1 (31) and d.Balancer Set 2 (32), which are connected to the circuit together.
Part of the negative cable clamp (32) is installed inside the casing to be connected to the following: a.Super Capacitor Set 1 (10); b.Super Capacitor Set 2 (20); c.Balancer Set 1 (31) and d.Balancer Set 2 (32), which are connected to the circuit together.
Part of the positive cable clamp (31) is shaped as a lead cable (40) with a selection from copper, silver, etc. The end of the long cable outside the casing (30) is equipped with metal parts selected from copper, silver, etc. that is Clamp Head 1 (41). The clamp is attached to the battery that needs to be started.
Part of the negative cable clamp (32) is shaped as a lead cable (40) with a selection from copper, silver, etc. The end of the long cable outside the casing (30) is equipped with metal parts selected from copper, silver, etc. that is Clamp Head 2 (42). The clamp is attached to the battery that needs to be started.
The lead cable (40) is at least 5 centimeters long and up.
Work begins with Super Capacitor Set 2 (20) transferring energy to Super Capacitor Set 1 (10) until Super Capacitor Set 1 (10) is sufficiently charged to start the engine (50).
Balancer Set 1 (31) is equipped with PCB Electronic controller circuit. The PCB Electronic controller circuit function to supply and balance electrical voltage to every Super Capacitor Set 1 (10) Balancer Set 2 (32) has PCB Electronic controller circuit. The PCB
Electronic controller circuit function to supply and balance electrical voltage to every Super Capacitor Set 2 (20) When Super Capacitor Set 1 (10) is fully charged and sufficiently charged to start an engine:
Clamp the positive cable clamp (31) and the negative cable clamp (32) Cable Clamp Head 1 (41) and Cable Clamp Head 2 (42) to the positive and negative charge points of the target battery, respectively.
Then return to the passenger’s compartment to start the engine. The motor starter connected to Super Capacitor Set 1 (10) will function to connect starter circuit of the engine until the engine is started.
And the most important feature is that Super Capacitor Set 1 (10) has extremely low internal resistance. This feature enables the output of energy released each time rapidly and within a short period of time, which results in high amp output until it can be used to start the engine.
The target battery has residual energy when the clamps are connected between the portable engine starting device and the target battery. The energy in the target battery is transferred to Super Capacitor Set 1 (10) over a period of 2-10 seconds until every Super Capacitor Set 1 (10) is fully and sufficiently charged to start the engine.
For a successful start of engines requiring higher voltage and amps, there are more than one Super Capacitor Set 1 (10) and Super Capacitor Set 2 (20) as the same power source in order to obtain sufficient volts and amps to start the engine.
Brief Description of Drawing
Figure 1 shows the diagram of the parts for Portable Super Capacitor Engine Starter Set I functioning to create power density and Super Capacitor Set 2 functioning to create energy density in this invention.
Best Invention Method
As mentioned in the section of the complete disclosure of the invention.
Claims
6
Claims
1.Portable Super Capacitor Engine Starter Set 1 functioning to create power density and Super Capacitor Set 2 functioning to create energy density are composed of the following: a. Super Capacitor Set 1 (10) functions to create power density with high amp output for use in starting engines and; b. Super Capacitor Set 2 (20) functions to create energy density by working instead of rechargeable batteries, because Super Capacitor Set 2 (20) can store energy due to the fact that there is no high amp output for use in starting engines, but functions to supply and balance voltage to Super Capacitor Set 1 (10) instead. Super Capacitor Set 1 (10) requires only a small amount of energy to perform the task of starting engines.
Super Capacitor Set 1 (10) uses materials from carbon or carbon and graphene with higher carbon volume.
Super Capacitor Set 2 (20) uses graphene materials or carbon and graphene with higher graphene volume.
Super Capacitor Set 1 (10) is equipped with more than one super capacitor mounted in series or mounted in parallel to obtain the same power source at either 12 volts, 24 volts, 36 volts, 48 volts or 96 volts, etc.
Super Capacitor Set 2 (20) is equipped with more than one super capacitor mounted in series or mounted in parallel as the same power source.
Super Capacitor Set 1 (10) and Super Capacitor Set 2 (20) are mounted in series or mounted in parallel to as the same power source and to enable the transfer of energy. c. At least one Balancer Set 1 (31) composed of PCBElectronic controller circuit. The PCB Electronic controller circuit function to balance voltage to every Super Capacitor Set I (10). d. At least one Balancer Set 2 (32) equipped with PCB Electronic controller circuit. The PCB Electronic controller circuit function to balance voltage to every Super Capacitor Set 2 (20) Each Super Capacitor Set 1 (10) is connected to at least one Balancer Set 1 (31) to perform the task of showing that each Super Capacitor Set 1 (10) connected as the same
7 power source is fully and equally charged, so all Super Capacitors Set 1 (10) can release energy quickly in a in a short period of time to start engines requiring 12 volts, 24 volts, 36 volts, 48 volts and 96 volts. Each Super Capacitor Set 2 (20) is connected to at least one Balancer Set 2 (32) to perform the task of showing that each Super Capacitor Set 2 (20) connected as the same power source is fully and equally charged, so every Super Capacitor Set 2 (20) can release energy quickly for Super Capacitor Set 1 (10) to start engines requiring 12 volts, 24 volts, 36 volts, 48 volts and 96 volts.
Special characteristics are as follows:
The casing (30) functions as the handle for portability. Inside the casing is a space for the installation of the following: a.Super Capacitor Set 1 (10); b.Super Capacitor Set 2 (20); c.Balancer Set 1 (31) and d.Balancer Set 2 (32), which are connected to the circuit together.
One of the places on the casing (30) is equipped with the positive jumper cable clamp (31) and the negative jumper cable clamp (32) connected to the positive and negative charge points connected to the following: a.Super Capacitor Set 1 (10); b.Super Capacitor Set 2 (20); c.Balancer Set 1 (31) and d.Balancer Set 2 (32), which are connected to the same circuit together.
2. The Portable Super Capacitor Engine Starter Set 1 functioning to create power density and the Portable Super Capacitor Engine Starter Set 2 functioning to create energy density in Claim 1 were such as the casing (30) interior is hollow for installing work equipment.
3. The Portable Super Capacitor Engine Starter Set 1 functioning to create power density and the Portable Super Capacitor Engine Starter Set 2 functioning to create energy density in Claims 1-2 are such that part of the positive cable clamp (31) is installed inside the casing (30) to connect the circuit to a.Super Capacitor Set 1 (10); b.Super Capacitor Set 2 (20); c.Balancer Set 1 (31) and d.Balancer Set 2 (32), which are connected to the circuit.
4. The Portable Super Capacitor Engine Starter Set 1 functioning to create power density and the Portable Super Capacitor Engine Starter Set 2 functioning to create energy density in Claims 1-3 are such that part of the negative cable clamp (32) is installed inside the casing (30) to connect the circuit to a.Super Capacitor Set 1 (10); b.Super Capacitor Set 2
8
(20); c.Balancer Set 1 (31) and d.Balancer Set 2 (32), which are connected to the circuit.
5. The Portable Super Capacitor Engine Starter Set 1 functioning to create power density and the Portable Super Capacitor Engine Starter Set 2 functioning to create energy density in Claims 1-4 are such that the positive cable clamp (31) is shaped as a lead cable (40). The end of the long cable outside the casing (30) is equipped with metal parts selected from copper, silver, etc. that is Clamp Head 1 (41). The clamp is attached to the battery that needs to be started.
6. The Portable Super Capacitor Engine Starter Set 1 functioning to create power density and the Portable Super Capacitor Engine Starter Set 2 functioning to create energy density in Claims 1-5 are such that the negative cable clamp (32) is shaped as a lead cable (40). The end of the long cable outside the casing (30) is equipped with metal parts selected from copper, silver, etc. that is Clamp Head 2 (42). The clamp is attached to the battery that needs to be started.
7. The Portable Super Capacitor Engine Starter Set 1 functioning to create power density and the Portable Super Capacitor Engine Starter Set 2 functioning to create energy density in Claims 1-6 are such that the positive cable clamp (31) will be the lead cable (40) selected from copper or silver.
8. The Portable Super Capacitor Engine Starter Set 1 functioning to create power density and the Portable Super Capacitor Engine Starter Set 2 functioning to create energy density in Claims 1-7 are such that the negative cable clamp (32) will be the lead cable (40) selected from copper or silver.
9. The Portable Super Capacitor Engine Starter Set 1 functioning to create power density and the Portable Super Capacitor Engine Starter Set 2 functioning to create energy density in Claims 1-8 are such that the lead cable (40) is at least 5 centimeters long and up.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
TH2003001961U TH19544C3 (en) | 2020-08-17 | Portable engine starting device with the first SuperCapacitor generating power density and the second SuperCapacitor generating power density. Energy Density) | |
TH2003001961 | 2020-08-17 |
Publications (1)
Publication Number | Publication Date |
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WO2022039678A1 true WO2022039678A1 (en) | 2022-02-24 |
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Application Number | Title | Priority Date | Filing Date |
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PCT/TH2020/000072 WO2022039678A1 (en) | 2020-08-17 | 2020-10-28 | Portable super capacitor engine starter set 1 functioning to create power density and super capacitor set 2 functioning to create energy density |
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CN204517508U (en) * | 2014-10-24 | 2015-07-29 | 武汉威科奇新动力能源科技有限公司 | Car emergency starts supply unit |
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CN205977505U (en) * | 2016-08-30 | 2017-02-22 | 王庆福 | Starting drive of graphite alkene super capacitor group for internal -combustion engine |
CN106877423A (en) * | 2015-10-02 | 2017-06-20 | 卡梅隆文荣 | A kind of automobile engine starting device power supply box |
WO2018004471A1 (en) * | 2016-07-01 | 2018-01-04 | Gunngritt Gunn | Power supply device for starting engines and box structure |
CN208707320U (en) * | 2018-08-01 | 2019-04-05 | 安徽开博电容科技有限公司 | A kind of supercapacitor and dry-type capacitor hybrid energy-storing mould group for voltage dip compensation |
-
2020
- 2020-10-28 WO PCT/TH2020/000072 patent/WO2022039678A1/en active Application Filing
Patent Citations (7)
Publication number | Priority date | Publication date | Assignee | Title |
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US20150302998A1 (en) * | 2014-04-19 | 2015-10-22 | Kok Onn Lo | Hybrid Supercharged Ultra Cell Technology to replaced Non Environmental Friendly Lead Acid Battery |
CN204517508U (en) * | 2014-10-24 | 2015-07-29 | 武汉威科奇新动力能源科技有限公司 | Car emergency starts supply unit |
CN106877423A (en) * | 2015-10-02 | 2017-06-20 | 卡梅隆文荣 | A kind of automobile engine starting device power supply box |
CN205335897U (en) * | 2015-12-31 | 2016-06-22 | 上海广为美线电源电器有限公司 | Use on -vehicle emergent start power of super capacitor as carrier |
WO2018004471A1 (en) * | 2016-07-01 | 2018-01-04 | Gunngritt Gunn | Power supply device for starting engines and box structure |
CN205977505U (en) * | 2016-08-30 | 2017-02-22 | 王庆福 | Starting drive of graphite alkene super capacitor group for internal -combustion engine |
CN208707320U (en) * | 2018-08-01 | 2019-04-05 | 安徽开博电容科技有限公司 | A kind of supercapacitor and dry-type capacitor hybrid energy-storing mould group for voltage dip compensation |
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