CN212812058U - Heating module with heat storage function - Google Patents
Heating module with heat storage function Download PDFInfo
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- CN212812058U CN212812058U CN202021074889.5U CN202021074889U CN212812058U CN 212812058 U CN212812058 U CN 212812058U CN 202021074889 U CN202021074889 U CN 202021074889U CN 212812058 U CN212812058 U CN 212812058U
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Abstract
The utility model discloses a heating module with heat-retaining function, including a plurality of outer nozzle assembly that are used for the heating liquid, set up in the chock plug at a plurality of outer nozzle assembly both ends and set up in the side of outer nozzle assembly and with the heat preservation casing of all outer nozzle assembly cladding, outer nozzle assembly includes super crystal silicon glass pipe and sets up the electrode at super crystal silicon glass pipe both ends respectively, the spraying has the electric heat membrane on the outer wall of super crystal silicon glass pipe; the plug heads at the two ends are provided with mounting holes corresponding to the mounting positions of the amorphous silicon glass tubes, and the mounting holes and the inner cavities of the amorphous silicon glass tubes form channels for heating liquid. This scheme is through above-mentioned setting, and the inner chamber through with super crystal silicon glass pipe is as storage container for the heat that outer spout assembly sent can be more direct, quicker, the higher efficiency to the fluid heating, need not to borrow other spare parts as storage container again, thereby makes the module have characteristics such as small, occupation space is little concurrently.
Description
Technical Field
The utility model belongs to the heating die field especially relates to heating module with heat-retaining function.
Background
The common mechanisms for electrically heating fluid in the market comprise an electric heating plate, an electric heating rod, an electric heating wire and the like, and the heating devices are all placed in a specific container space by themselves and stored and heated by virtue of the container. In the market, an additional container is not needed, and a few heating devices with the functions of 'storage' and 'heating' are provided. Therefore, when a large volume of liquid is heated, the disadvantages of low heating efficiency and low heating rate exist. Can not meet the market demand.
SUMMERY OF THE UTILITY MODEL
In order to overcome the defects of the prior art, the utility model aims to provide a heating module with a heat storage function, which comprises a plurality of outer spray pipe assemblies for heating liquid, plugs arranged at two ends of the outer spray pipe assemblies and a heat preservation shell arranged at the side surfaces of the outer spray pipe assemblies and coating all the outer spray pipe assemblies, wherein each outer spray pipe assembly comprises a super-crystalline silicon glass pipe and electrodes respectively arranged at two ends of the super-crystalline silicon glass pipe, and an electric heating film is sprayed on the outer wall of the super-crystalline silicon glass pipe; the plug heads at the two ends are provided with mounting holes corresponding to the mounting positions of the amorphous silicon glass tubes, and the mounting holes and the inner cavities of the amorphous silicon glass tubes form channels for heating liquid. This scheme is through above-mentioned setting, and the inner chamber through with super crystal silicon glass pipe is as storage container for the heat that outer spout assembly sent can be more direct, quicker, the higher efficiency to the fluid heating, need not to borrow other spare parts as storage container again, thereby makes the module have characteristics such as small, occupation space is little concurrently.
The purpose of the utility model is realized by adopting the following technical scheme:
the heating module with the heat storage function comprises a plurality of outer spray pipe assemblies for heating liquid, plugs arranged at two ends of the outer spray pipe assemblies and a shell arranged on the side surfaces of the outer spray pipe assemblies and used for coating all the outer spray pipe assemblies, wherein each outer spray pipe assembly comprises a super-crystalline silicon glass pipe and electrodes respectively arranged at two ends of the super-crystalline silicon glass pipe, and an electrothermal film is sprayed on the outer wall of each super-crystalline silicon glass pipe; the plug heads at two ends are provided with mounting holes corresponding to the mounting positions of the amorphous silicon glass tubes, and the mounting holes and the inner cavities of the amorphous silicon glass tubes form channels for heating liquid.
Furthermore, the edges all around of the chock plug at two ends are correspondingly provided with a plurality of through holes, the chock plug is also provided with bolt nuts one by one corresponding to each through hole, and the bolts sequentially penetrate through the corresponding through holes on the chock plug and are screwed down through the nuts so as to connect and fix the chock plug.
Furthermore, the shell is divided into an upper shell and a lower shell, and heat insulation cotton for heat preservation is nested between the upper shell and the lower shell.
Furthermore, the two plugs are respectively provided with an installation groove corresponding to the shell, and the shell is nested in the installation grooves.
Furthermore, the choke plug still is equipped with the portion of converging, the portion of converging set up relatively in the choke plug corresponds the another side of installation super crystal silicon glass pipe, the portion of converging partly cladding is whole the mounting hole.
Furthermore, a pipeline joint used for being connected with a pipeline is arranged on the confluence part.
Further, the plug head can be made of a high-temperature-resistant silica gel material or a metal material.
Further, the housing may be made of a metal material, and the housing may be made of an aluminum plate or a zinc-iron plate.
Further, the electrode is a copper electrode.
Compared with the prior art, the beneficial effects of the utility model reside in that:
the utility model discloses a heating module with heat-retaining function, including a plurality of outer nozzle assembly that are used for the heating liquid, set up in the chock plug at a plurality of outer nozzle assembly both ends and set up in the side of outer nozzle assembly and with the heat preservation casing of all outer nozzle assembly cladding, outer nozzle assembly includes super crystal silicon glass pipe and sets up the electrode at super crystal silicon glass pipe both ends respectively, the spraying has the electric heat membrane on the outer wall of super crystal silicon glass pipe; the plug heads at the two ends are provided with mounting holes corresponding to the mounting positions of the amorphous silicon glass tubes, and the mounting holes and the inner cavities of the amorphous silicon glass tubes form channels for heating liquid. This scheme is through above-mentioned setting, and the inner chamber through with super crystal silicon glass pipe is as storage container for the heat that outer spout assembly sent can be more direct, quicker, the higher efficiency to the fluid heating, need not to borrow other spare parts as storage container again, thereby makes the module have characteristics such as small, occupation space is little concurrently.
Drawings
FIG. 1 is a schematic structural diagram of a preferred embodiment of a heating module with heat storage function according to the present invention;
FIG. 2 is a schematic structural view of the heating module with heat storage function according to the present invention after the housing is removed;
fig. 3 is a schematic structural diagram of a preferred embodiment of the plug head of the present invention.
In the figure: 1. a heating module with a heat storage function; 2. an outer spout assembly; 21. a super crystal silicon glass tube; 22. an electrode; 3. a plug head; 31. mounting holes; 32. a confluence section; 33. a pipe joint; 4. a housing; 51. a bolt; 52. and a nut.
Detailed Description
The present invention will be further described with reference to the accompanying drawings and the detailed description, and it should be noted that the embodiments or technical features described below can be arbitrarily combined to form a new embodiment without conflict.
The heating module 1 with heat storage function of the utility model is shown in fig. 1-3, and comprises a plurality of outer spray pipe assemblies 2 for heating liquid, plugs 3 arranged at two ends of the outer spray pipe assemblies 2, and a heat preservation shell 4 arranged at the side surface of the outer spray pipe assemblies 2 and covering all the outer spray pipe assemblies 2, wherein the outer spray pipe assemblies 2 comprise a monocrystalline silicon glass pipe 21 and electrodes 22 respectively arranged at two ends of the monocrystalline silicon glass pipe 21, and the outer wall of the monocrystalline silicon glass pipe 21 is coated with an electrothermal film; the plug heads 3 at two ends are provided with mounting holes 31 corresponding to the mounting positions of the amorphous silicon glass tube 21, and the mounting holes 31 and the inner cavity of the amorphous silicon glass tube 21 form a channel for heating liquid. This scheme is through above-mentioned setting, and through the inner chamber with super crystal silicon glass pipe 21 as storage container for the heat that outer nozzle assembly 2 sent can be more direct, quicker, the fluidic of higher efficiency heats, need not to borrow other spare parts as storage container again, thereby makes the module have characteristics such as small, occupation space is little concurrently.
The motor in this embodiment employs copper electrodes 22 in order to ensure a reduction in the resistance of the electrodes 22 to conduct electricity. And the copper motor also has the advantage of convenient and simple material taking.
In this embodiment, a plurality of through holes are correspondingly formed in the edges of the periphery of the plug head 3 at the two ends, a bolt 51 and a nut 52 are further arranged one by one in the plug head 3 corresponding to each through hole, and the bolt 51 sequentially penetrates through the corresponding through holes in the plug head 3 and then is screwed down through the nut 52 so as to connect and fix the plug head 3. The length of the bolt 51 is equal to the length of the amorphous silicon glass tube 21 plus the thickness of the plug head 3, the plug heads 3 at two ends cannot be easily loosened from the intermediate amorphous silicon glass tube 21 through the arrangement of the bolt 51 and the nut 52, and the overall stability of the heating module is ensured.
Preferably, the plug 3 is further provided with a confluence portion 32, the confluence portion 32 is oppositely arranged on the other surface of the plug 3 corresponding to the mounting of the amorphous silicon glass tube 21, and the confluence portion 32 covers all the mounting holes 31. The confluence portion 32 is provided with a pipe joint 33 for connecting with a pipe. Through the setting, can with realize after this module of outside single pipeline access, under equipment such as external water pump, motor pressurizeing, the heating in each outer spray tube subassembly 2 is entered into in the reposition of redundant personnel of external pipeline, converge again after the heating is accomplished and discharge from single pipeline, need not to correspond every outer spray tube subassembly 2 and all set up a pipeline, practiced thrift the cost.
The plug 3 can be made of high-temperature-resistant silica gel material or metal material. The preferred silica gel material that adopts of this embodiment makes, the silica gel material of high temperature resistance not only can make the heat of outer nozzle subassembly 2 production not too fast distribute, and the material property of self also can ensure not melted by high temperature simultaneously. Meanwhile, the silica gel has good elasticity, so that the fitting hole 31 and the amorphous silicon glass tube 21 can be in interference fit, and the plug 3 and the amorphous silicon glass tube 21 are more stable in connection.
In the embodiment, the shell 4 is divided into an upper shell 4 and a lower shell 4, and heat insulation cotton for heat preservation is nested between the upper shell 4 and the lower shell 4. The heat generated by the outer spray pipe assembly 2 can not be dissipated too fast, and all the outer spray pipe assemblies 2 are insulated and heat-preserved, and meanwhile, the heating efficiency is better. And the two plug heads 3 are respectively provided with mounting grooves corresponding to the shell 4, and the shell 4 is nested in the mounting grooves. Thereby making the connection between the housing 4 and the plug 3 tighter.
Preferably, the housing 4 may be made of a metal material, and the housing 4 may be made of an aluminum plate or a zinc-iron plate. The material has good heat insulation performance, and meanwhile, the whole rigidity is also strong, so that the material cannot be easily damaged due to external collision.
The above embodiments are only preferred embodiments of the present invention, and the protection scope of the present invention cannot be limited thereby, and any insubstantial changes and substitutions made by those skilled in the art based on the present invention are all within the protection scope of the present invention.
Claims (9)
1. Heating module with heat-retaining function, its characterized in that: the liquid heating device comprises a plurality of outer spray pipe assemblies for heating liquid, plugs arranged at two ends of the outer spray pipe assemblies and a shell arranged on the side surfaces of the outer spray pipe assemblies and used for coating all the outer spray pipe assemblies, wherein each outer spray pipe assembly comprises a super-crystalline silicon glass pipe and electrodes respectively arranged at two ends of the super-crystalline silicon glass pipe, and an electric heating film is sprayed on the outer wall of each super-crystalline silicon glass pipe; the plug heads at two ends are provided with mounting holes corresponding to the mounting positions of the amorphous silicon glass tubes, and the mounting holes and the inner cavities of the amorphous silicon glass tubes form channels for heating liquid.
2. The heating module with heat storage function of claim 1, wherein: the edge correspondence all around of chock plug at both ends is provided with a plurality of through-holes, the chock plug corresponds every through-hole and still is equipped with the bolt nut one by one, and the bolt passes two in proper order behind the through-hole that corresponds on the chock plug screw up so that two the chock plug connection is fixed.
3. The heating module with heat storage function of claim 1, wherein: the shell is divided into an upper shell and a lower shell, and heat insulation cotton for heat preservation is nested between the upper shell and the lower shell.
4. The heating module with heat storage function of claim 1, wherein: the two plug heads are respectively provided with mounting grooves corresponding to the shell, and the shell is nested in the mounting grooves.
5. The heating module with heat storage function of claim 1, wherein: the choke plug still is equipped with the portion of converging, the portion of converging set up relatively in the choke plug corresponds the another side of installation super crystal silicon glass pipe, the portion of converging partly covers wholly the mounting hole.
6. The heating module with heat storage function of claim 5, wherein: and the confluence part is provided with a pipeline joint used for being connected with a pipeline.
7. The heating module with heat storage function of claim 1, wherein: the plug head can be made of high-temperature-resistant silica gel materials or metal materials.
8. The heating module with heat storage function of claim 1, wherein: the shell can be made of metal materials, and the shell can be made of aluminum plates or zinc-iron plates.
9. The heating module with heat storage function of claim 1, wherein: the electrode is a copper electrode.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202021074889.5U CN212812058U (en) | 2020-06-11 | 2020-06-11 | Heating module with heat storage function |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202021074889.5U CN212812058U (en) | 2020-06-11 | 2020-06-11 | Heating module with heat storage function |
Publications (1)
Publication Number | Publication Date |
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CN212812058U true CN212812058U (en) | 2021-03-26 |
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CN202021074889.5U Active CN212812058U (en) | 2020-06-11 | 2020-06-11 | Heating module with heat storage function |
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2020
- 2020-06-11 CN CN202021074889.5U patent/CN212812058U/en active Active
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