CN214664751U - Equipment that electromagnetic induction and graphite alkene, carbon fiber mixed heat were used - Google Patents
Equipment that electromagnetic induction and graphite alkene, carbon fiber mixed heat were used Download PDFInfo
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- CN214664751U CN214664751U CN202120998837.5U CN202120998837U CN214664751U CN 214664751 U CN214664751 U CN 214664751U CN 202120998837 U CN202120998837 U CN 202120998837U CN 214664751 U CN214664751 U CN 214664751U
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Abstract
The utility model relates to an electric heating equipment technical field, specifically speaking relates to an equipment that electromagnetic induction and graphite alkene, carbon fiber mixed heat used, including outer box, the internally mounted of outer box has the electromagnetic induction heating body, and graphite alkene or carbon fiber heating rod are installed at the top of electromagnetic induction heating body, and graphite alkene or carbon fiber heating rod pass through the wire and are connected with electrical source controller, and the electromagnetic induction heating controller is installed to the below of electromagnetic induction heating body, and the electromagnetic induction heating controller includes the controller shell, and the inside of controller shell is provided with the pressure regulating return circuit. This electromagnetic induction heats the controller with the internal water of heating body circular telegram work with the equipment that graphite alkene, carbon fiber mixed heat used will flow through the pipe and heat, reaches the expected temperature at last to gondola water faucet play water temperature and supplies the usage of bathing, simultaneously, graphite alkene carbon fiber heating tube in the equipment passes through temperature controller start-up work during winter, and the heating tube generates heat and outwards gives off, reaches and heats for the space heating and get warm.
Description
Technical Field
The utility model relates to an electric heating equipment technical field, specifically speaking relates to an equipment that electromagnetic induction and graphite alkene, carbon fiber mixed heat used.
Background
The heating principle of the gas water heater is that flame generated by burning gas reaches instantaneous high temperature to heat a water pipe with a certain length and water flow inside the water pipe, and the heating principle of the traditional household water heating radiator is the same, and water in the burning heating water pipe circularly conducts heat in the pipe. In addition, radiators (radiating fins) must be hung in each living space of a house so as to radiate a heat source burnt by the main machine box body to the living space through heat convection, and the heating effect is realized. In the early stage, the two products are independently purchased, so that the two products can occupy a larger space when being used together, the gas water heater is insufficient for heating water, and the heat distribution of the water heating radiators is not uniform enough when the water heating radiators are heated. The main case body which is also applied by high-power electric heating can realize dual-purpose function at present, but the power is concentrated, the minimum is 5 kilowatts, the water temperature is not ideal, 8000 watts can be used in winter, the use cost is high, the requirement on circuits in ordinary families is high, and the main case body needs to be additionally modified. Moreover, the main machine box body is still required to be provided with the radiating fins.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide an equipment that electromagnetic induction and graphite alkene, carbon fiber mixed heat used to solve the problem that proposes in the above-mentioned background art.
In order to achieve the above object, the utility model provides an electromagnetic induction and graphene, carbon fiber mixed heat application device, which comprises an outer box body, wherein an electromagnetic induction heating pipe body is arranged inside the outer box body, a graphene or carbon fiber heating rod is arranged on the top of the electromagnetic induction heating pipe body, the graphene or carbon fiber heating rod is connected with a power supply controller through a lead, an electromagnetic induction heating controller is arranged below the electromagnetic induction heating pipe body, the electromagnetic induction heating controller comprises a controller shell, a voltage regulating loop is arranged inside the controller shell, one side of the voltage regulating loop is connected with an inverter loop, one side of the inverter loop is provided with a high-frequency transformer, a resonance capacitor is arranged on the high-frequency transformer, the electromagnetic induction heating pipe body comprises a heating pipe body, and an electromagnetic coil is wound on the outer wall of the heating pipe body, and the inner side of the electromagnetic coil is provided with a 430 ferrite magnetic conduction stainless steel pipe body.
Preferably, a water inlet and a water outlet are respectively arranged at two ends of the electromagnetic induction heating pipe body.
Preferably, the surface of the heating pipe body is provided with an insulating efficient heat insulation layer.
Preferably, one end of the electromagnetic induction heating pipe body is an output end, and the other end of the electromagnetic induction heating pipe body is an input end.
Preferably, the output end of the electromagnetic induction heating controller is electrically connected with the electromagnetic induction heating pipe body through a wire, and the electromagnetic induction heating controller is electrically connected with the output end of the power controller through a wire.
Preferably, a loop is formed between the graphene or carbon fiber heating rod and the power controller, and a temperature controller is installed on a circuit between one end of the graphene or carbon fiber heating rod and the power controller.
Preferably, the input end of the power supply controller is externally connected with a power supply through a wire.
Compared with the prior art, the beneficial effects of the utility model are that:
in the equipment that this electromagnetic induction and graphite alkene, carbon fiber mixed heat were used, need not to build high-power host computer box, also need not to install the radiator, only need install the position of planning installation radiator and load onto the many this mixed heat application apparatus of small, greatly reduced cost drops into and practices thrift the space, noiselessness, pollution-free during the use. This electromagnetic induction and graphite alkene, carbon fiber mix hot application apparatus then belongs to the high-power dispersion with aforementioned host computer box in multiunit equipment, and the power is many, consequently also need not to reform transform the circuit and change thick electric wire, heats the water that flows through in the pipe body through induction heating controller and the heating body circular telegram work that wherein sets up, and this is a set of, adds up through multiunit heating, and every group's power can not be too high, for example through 4 groups series connection continuous heating, and the shower goes out the water temperature and has reached the intended temperature at last and supply the use of bathing. Meanwhile, in winter, the graphene carbon fiber heating tube in the device is started to work through the temperature controller, and the heating tube emits heat outwards to heat the space for heating.
Drawings
Fig. 1 is a schematic view of the overall structure of the present invention;
fig. 2 is a schematic structural view of the electromagnetic induction heating controller and the electromagnetic induction heating pipe body of the present invention;
fig. 3 is a schematic structural view of the middle heating pipe body of the present invention.
The various reference numbers in the figures mean:
1. an electromagnetic induction heating controller; 2. heating the pipe body by electromagnetic induction; 3. a graphene or carbon fiber heating rod; 4. a power supply controller; 5. a temperature controller; 6. an outer case; 7. a wire; 1-1, a controller shell; 1-1-1, a voltage regulating loop; 1-1-2, an inversion loop; 1-1-3, a resonant capacitor; 1-1-4, high-frequency transformer; 2-2, heating the tube body; 2-2-1, an electromagnetic coil; 2-2-2, insulating high-efficiency heat insulation layer; 2-2-3, 430 ferrite magnetic conductive stainless steel pipe body.
Detailed Description
The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.
In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and to simplify the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the present invention.
The utility model provides a device for applying electromagnetic induction and mixed heat of graphene and carbon fiber, as shown in figure 1-figure 3, comprising an outer box body 6, an electromagnetic induction heating tube body 2 is arranged in the outer box body 6, a graphene or carbon fiber heating rod 3 is arranged on the top of the electromagnetic induction heating tube body 2, the graphene or carbon fiber heating rod 3 is connected with a power supply controller 4 through a lead 7, an electromagnetic induction heating controller 1 is arranged below the electromagnetic induction heating tube body 2 to provide a large current power supply for the heating tube body, the electromagnetic induction heating controller 1 comprises a controller shell 1-1, a pressure regulating loop 1-1-1 is arranged in the controller shell 1-1, one side of the pressure regulating loop 1-1-1 is connected with an inverter loop 1-1-2, one side of the inverter loop 1-1-2 is provided with a high-frequency transformer 1-1-4, the high-frequency transformer 1-1-4 is provided with a resonant capacitor 1-1-3, the electromagnetic induction heating pipe body 2 comprises a heating pipe body 2-2, the outer wall of the heating pipe body 2-2 is wound with an electromagnetic coil 2-2-1, and the inner side of the electromagnetic coil 2-2-1 is provided with a 430 ferrite magnetic conduction stainless steel pipe body 2-2-3.
In this embodiment, the water inlet and the water outlet are respectively installed at the two ends of the electromagnetic induction heating pipe body 2, and are respectively used for water inlet and water outlet.
Specifically, the surface of the heating pipe body 2-2 is provided with an insulating efficient heat insulation layer 2-2-2, so that a certain heat insulation effect is achieved.
Further, one end of the electromagnetic induction heating pipe body 2 is an output end, and the other end is an input end, so that electromagnetic induction is generated, and heat is generated.
Further, the output end of the electromagnetic induction heating controller 1 is electrically connected with the electromagnetic induction heating pipe body 2 through a wire 7, the electromagnetic induction heating controller 1 is electrically connected with the output end of the power controller 4 through the wire 7, and the power controller 4 controls the electromagnetic induction heating controller 1 to work.
Further, a loop is formed between the graphene or carbon fiber heating rod 3 and the power controller 4, and a temperature controller 5 is installed on a circuit between one end of the graphene or carbon fiber heating rod 3 and the power controller 4 and used for controlling the temperature of the graphene or carbon fiber heating rod 3.
Further, the input end of the power controller 4 is externally connected with a power supply through a wire 7 and used for connecting the external power supply.
When the equipment using the electromagnetic induction, graphene and carbon fiber mixed heat is used, the device is firstly placed stably to be paved on a wall or a ground, when the equipment is used, the group number of the induction heating components and the graphene or carbon fiber heating tube can be opened or closed according to needs, such as ordinary heating, only the graphene or carbon fiber heating tube needs to be started, when people take a bath, a plurality of groups of electromagnetic induction heating groups can be started according to the needed water temperature, the equipment is convenient to use daily, the power controller (4) starts the induction controller through the hydrodynamic switch, so that the electromagnetic induction heating controller (1) supplies power to the electromagnetic induction heating tube body (2) to start water flow heating, the power controller (4) simultaneously supplies power to the graphene or carbon fiber heating tube (3), and the graphene or carbon fiber heating tube (3) controls whether to be electrified or not to work according to the ambient temperature through the temperature controller (5), electromagnetic induction heating controller (1) and electromagnetic induction heating body (2) are electromagnetic induction heating theory of operation, and graphite alkene or carbon fiber heating tube are graphite alkene or carbon fiber tissue direct circular telegram principle of generating heat, and two kinds of different theory of operation combinations are integrative to be used, guarantee the heating effect.
The foregoing shows and describes the general principles, essential features, and advantages of the invention. It should be understood by those skilled in the art that the present invention is not limited by the above embodiments, and the description in the above embodiments and the description is only preferred examples of the present invention, and is not intended to limit the present invention, and that the present invention can have various changes and modifications without departing from the spirit and scope of the present invention, and these changes and modifications all fall into the scope of the claimed invention. The scope of the invention is defined by the appended claims and equivalents thereof.
Claims (7)
1. The utility model provides an equipment that electromagnetic induction and graphite alkene, carbon fiber mixed heat were used, includes outer box (6), its characterized in that: the electromagnetic induction heating device is characterized in that an electromagnetic induction heating pipe body (2) is arranged inside the outer box body (6), a graphene or carbon fiber heating rod (3) is arranged at the top of the electromagnetic induction heating pipe body (2), the graphene or carbon fiber heating rod (3) is connected with a power supply controller (4) through a lead (7), an electromagnetic induction heating controller (1) is arranged below the electromagnetic induction heating pipe body (2), the electromagnetic induction heating controller (1) comprises a controller shell (1-1), a voltage regulating loop (1-1-1) is arranged inside the controller shell (1-1), one side of the voltage regulating loop (1-1-1) is connected with an inverter loop (1-1-2), one side of the inverter loop (1-1-2) is provided with a high-frequency transformer (1-1-4), the high-frequency transformer (1-1-4) is provided with a resonant capacitor (1-1-3), the electromagnetic induction heating pipe body (2) comprises a heating pipe body (2-2), the outer wall of the heating pipe body (2-2) is wound with an electromagnetic coil (2-2-1), and the inner side of the electromagnetic coil (2-2-1) is provided with a 430 ferrite magnetic-conductive stainless steel pipe body (2-2-3).
2. The apparatus for electromagnetic induction and hybrid graphene-carbon fiber heat application of claim 1, wherein: and a water inlet and a water outlet are respectively arranged at two ends of the electromagnetic induction heating pipe body (2).
3. The apparatus for electromagnetic induction and hybrid graphene-carbon fiber heat application of claim 1, wherein: the surface of the heating pipe body (2-2) is provided with an insulating efficient heat insulation layer (2-2-2).
4. The apparatus for electromagnetic induction and hybrid graphene-carbon fiber heat application of claim 1, wherein: one end of the electromagnetic induction heating pipe body (2) is an output end, and the other end of the electromagnetic induction heating pipe body is an input end.
5. The apparatus for electromagnetic induction and hybrid graphene-carbon fiber heat application of claim 1, wherein: the output end of the electromagnetic induction heating controller (1) is electrically connected with the electromagnetic induction heating pipe body (2) through a wire (7), and the electromagnetic induction heating controller (1) is electrically connected with the output end of the power supply controller (4) through the wire (7).
6. The apparatus for electromagnetic induction and hybrid graphene-carbon fiber heat application of claim 1, wherein: a loop is formed between the graphene or carbon fiber heating rod (3) and the power controller (4), and a temperature controller (5) is installed on a circuit between one end of the graphene or carbon fiber heating rod (3) and the power controller (4).
7. The apparatus for electromagnetic induction and hybrid graphene-carbon fiber heat application of claim 1, wherein: the input end of the power controller (4) is externally connected with a power supply through a lead (7).
Priority Applications (1)
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CN202120998837.5U CN214664751U (en) | 2021-05-11 | 2021-05-11 | Equipment that electromagnetic induction and graphite alkene, carbon fiber mixed heat were used |
Applications Claiming Priority (1)
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CN202120998837.5U CN214664751U (en) | 2021-05-11 | 2021-05-11 | Equipment that electromagnetic induction and graphite alkene, carbon fiber mixed heat were used |
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CN214664751U true CN214664751U (en) | 2021-11-09 |
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CN202120998837.5U Active CN214664751U (en) | 2021-05-11 | 2021-05-11 | Equipment that electromagnetic induction and graphite alkene, carbon fiber mixed heat were used |
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2021
- 2021-05-11 CN CN202120998837.5U patent/CN214664751U/en active Active
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