CN216814326U - Convection type electric heater based on nano silicon conductive heating - Google Patents

Abstract

The utility model discloses a convection type electric heater based on nano silicon conduction heating, which comprises a front panel, a rear panel, a left side plate, a right side plate, an upper cover plate, a lower cover plate, a convection sheet, nano silicon conduction ceramic heating pipes, pipe network brackets, panel connecting pieces, trundles and other electric fittings, wherein the front panel is welded with the convection sheet, the front panel and the rear panel are stacked in a mode that the convection sheets are oppositely arranged, three panel connecting pieces are also connected in a welding mode, two pipe networks are arranged side by side, the left end and the right end of each of the two pipe networks are respectively welded with one pipe network bracket, four nano silicon conduction ceramic heating pipes are arranged in the pipe networks, the pipe network brackets assembled with the nano silicon conduction ceramic heating pipes are arranged below the convection sheets, and finally the nano silicon conduction ceramic heating pipes, a snap-type temperature controller, an electronic temperature controller and a power line are connected with a wiring terminal row, finally, the functions of safety, reliability, high efficiency, energy conservation, high thermal efficiency, beauty, environmental protection and durability are realized.

Description

Convection type electric heater based on nano silicon conductive heating

Technical Field

The utility model relates to the technical field of nano silicon conductive heating, in particular to a convection type electric heater based on nano silicon conductive heating.

Background

With the vigorous development of national economy, the living standard of people is improved day by day, and the heating area is expanded continuously, so that the electric heating industry is developed rapidly. However, the existing electric heater has large power consumption, needs a large amount of electric charge when being placed at home, and occupies a large space due to large volume. And the appearance is too simple and crude, and the appearance is not beautiful when the clothes are placed at home. The existing electric heater has the disadvantages of slow temperature rise, low heat dissipation efficiency and incapability of achieving a good heating effect. Compare traditional heating and need the hot-water heating radiator of hydrologic cycle heating, electric heater turns into heat energy with the electric energy, has practiced thrift the valuable water resource, and can not produce smoke and dust and coal burning waste gas, causes the pollution to the environment, accords with the environmental protection needs in modernized city. Therefore, the residents need an electric heater which has the advantages of small volume, strong decoration, rapid temperature rise, high-efficiency heat dissipation, uniform heating, environmental protection and energy conservation.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a convection type electric heater based on nano-silicon conductive heating, which solves the problems in the background technology.

In order to achieve the purpose, the utility model provides the following technical scheme:

the utility model provides a convection type electric heater based on nanometer silicon is led and is heated, includes front panel, rear panel, panel connecting piece, convection current piece and two pipe networks, front panel welds with the convection current piece, rear panel and convection current piece welding, and the mode that the convection current piece was placed relatively is taken to the panel around will after the welding is accomplished stacks, the panel connecting piece is connected through the welding mode in the panel top around will.

As a further scheme of the utility model: still include nanometer silicon and lead ceramic heating pipe, two pipe networks are placed side by side, a pipe network support is all welded at both ends about two pipe networks, gets four nanometer silicon and leads ceramic heating pipe and place inside the pipe network, and the pipe network support that will assemble nanometer silicon and lead ceramic heating pipe is placed in the convection current piece below, and similarly, it will be connected through the welding mode around the panel below with three panel connecting piece, and it is fixed with the panel connecting piece to pass through cross button head screw with the pipe network support simultaneously.

As a still further scheme of the utility model: the terminal strip mounting plate is fixed on the right-most convection sheet, the wiring terminal strip is fixed on the terminal strip mounting plate through screws, the kick type temperature controller is fixed on the right-most convection sheet, the electronic temperature controller is embedded on the right side plate, and the power line is fixed on the pipe network support and is grounded. The nano silicon conductive ceramic heating pipe, the kick type temperature controller, the electronic type temperature controller and the power line are connected with the wiring terminal row in a wiring mode, and the trundles are fixed on two panel connecting pieces below the trundles through screws, so that the electric heater is assembled.

Compared with the prior art, the utility model has the beneficial effects that:

1. this practicality has improved the radiating efficiency through the mode that two rows of convection current pieces were placed relatively, increases heat radiating area, has high-efficient heat dissipation, intensification characteristics such as rapid, the even that generates heat.

2. The utility model realizes the characteristics of small volume, strong decoration, strong mobility and the like by utilizing the nano silicon conductive ceramic heating pipe.

3. The temperature control system such as the electronic temperature controller, the kick temperature controller and the like is convenient for controlling the temperature with the user, and the safety of the user is ensured.

Drawings

Fig. 1 is a front view of a convective electric heater based on nanosilicon conductive heating.

Fig. 2 is a top view of a convective electric heater based on nanosilicon conductive heating.

Fig. 3 is a right side view of a nano-silicon based conductive heating convective electric heater.

Fig. 4 is a two-dimensional view of a convective electric heater shaft based on nanosilicon-induced heating.

In the figure: the device comprises a front panel 1, a rear panel 2, a left side plate 3, a right side plate 4, an upper cover plate 5, a lower cover plate 6, casters 7, a power line 8, a panel connecting piece 9, a convection sheet 10, a pipe network 11, a pipe network bracket 12, a terminal row mounting plate 13, a kick type temperature controller 14, a wiring terminal row 15, a nano silicon conductive ceramic heating pipe 16, a power line 17 and an electronic type temperature controller 18.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 4, an overall structure of a convection type electric heater based on nano silicon conductive heating is composed of a front panel 1, a rear panel 2, a left side panel 3, a right side panel 4, an upper cover plate 5, a lower cover plate 6, convection sheets 10 and two pipe networks 11, wherein the front panel 1 is welded with the convection sheets 10, the rear panel 2 is also welded with the convection sheets 10, the front panel and the rear panel are stacked in a mode that the convection sheets 10 are oppositely arranged after welding, and three panel connecting pieces 9 are used for connecting the upper parts of the front panel and the rear panel in a welding mode.

Still include nanometer silicon and lead ceramic heating pipe 16, place two pipe networks 11 side by side, pipe network support 12 is all welded at both ends about two pipe networks 11, get four nanometer silicon and lead ceramic heating pipe 16 and place inside pipe network 11, pipe network support 12 that will assemble nanometer silicon and lead ceramic heating pipe 16 places in convection current piece 10 below, and similarly, it connects front and back panel below through the welding mode to get three panel connecting piece 9, and it is fixed with panel connecting piece 9 to pass through cross button head screw with pipe network support 12 simultaneously.

The solar energy heat collecting and power supply system further comprises a terminal row mounting plate 13 and a sudden-jump type temperature controller 14, wherein the terminal row mounting plate 13 is fixed on the rightmost convection sheet 10, a wiring terminal row 15 is fixed on the terminal row mounting plate 13 through screws, the sudden-jump type temperature controller 14 is fixed on the rightmost convection sheet 10, an electronic type temperature controller 18 is embedded on the right side plate 4, and a power line 17 is fixed on the pipe network support 12 and connected with a ground wire.

The nano silicon conductive ceramic heating pipe 16, the kick type temperature controller 14, the electronic temperature controller 18 and the power line 17 are connected with the wiring terminal strip 15 in a wiring manner, the left side plate 3, the right side plate 4, the upper cover plate 5 and the lower cover plate 6 are connected with the panel main body, and the caster wheels 7 are fixed on two panel connecting pieces 9 below through screws, so that the electric heating assembly is completed.

After the power line of the electric heater is connected, the temperature is set on the operation panel of the electronic type temperature controller 18, under the power-on state, the nano silicon conductive ceramic heating pipe 16 is heated and then conducts radiation heat to the pipe network 11, the pipe network 11 transfers heat to the convection sheet 10 in a radiation heat transfer mode, convection heat dissipation is conducted through the two rows of convection sheets 10, hot air rises, cold air sinks, convection circulation is formed inside the electric heater, when the temperature of the convection sheet 10 reaches a set value, the sudden jump type temperature controller 14 fixed on the right side convection sheet 10 gives a feedback signal after sensing the temperature of the convection sheet 10, the sudden jump type temperature controller 14 is disconnected, and the nano silicon conductive ceramic heating pipe 16 stops working.

The electric heater will work with the set temperature, and when the temperature is lower than the set temperature, the kick type temperature controller 14 is connected again, and the nano silicon conductive ceramic heating pipe 16 starts to heat until the temperature reaches the set temperature again.

The working principle of the utility model is as follows:

when the temperature-controlled electric heating device is used, firstly, a power line is connected, the temperature is set on an electronic type temperature controller operation panel, in the power-on state, the nano silicon conductive ceramic heating pipe is heated and then conducts radiation heat to a pipe network, the pipe network transfers heat to the convection sheets in a radiation heat transfer mode, convection heat dissipation is conducted through the two rows of convection sheets, hot air rises, cold air sinks, convection circulation is formed inside the electric heating device, when the temperature of the convection sheets reaches a set value, the sudden-jump type temperature controller fixed on the right convection sheet gives a feedback signal after sensing the temperature of the convection sheets, the sudden-jump type temperature controller is disconnected, and the nano silicon conductive ceramic heating pipe stops working. The electric heater works at a set temperature, when the temperature is lower than the set temperature, the kick type temperature controller is connected again, and the nano silicon ceramic heating tube starts to heat until the temperature reaches the set temperature again. A convection type electric heater based on nano-silicon conduction heating has radiation heat transfer, convection heat transfer and other heat dissipation modes.

Claims (3)

1. The utility model provides a convection type electric heater based on nanometer silicon is led and is heated, includes front panel (1), rear panel (2), panel connecting piece (9), convection current piece (10) and two pipe networks (11), its characterized in that: the front panel (1) is welded with the convection sheets (10), the rear panel (2) is welded with the convection sheets (10), the front panel and the rear panel are stacked in a mode that the convection sheets (10) are oppositely arranged, and the panel connecting piece (9) is connected with the front panel and the rear panel in a welding mode.

2. A convection type electric heater based on nano-silicon conductive heating as set forth in claim 1, wherein: still include nanometer silicon and lead ceramic heating pipe (16), two root canal networks (11) are placed side by side, two root canal networks (11) about both ends all weld pipe network support (12), three panel connecting piece (9) are connected panel below through the welding mode around with, and it is fixed with panel connecting piece (9) to pass through cross button head screw with pipe network support (12) simultaneously.

3. A convection type electric heater based on nano-silicon conductive heating as set forth in claim 1, wherein: still include terminal row mounting panel (13) and kick temperature controller (14), terminal row mounting panel (13) are fixed on rightmost side convection current piece (10), binding post row (15) are fixed on terminal row mounting panel (13) through the screw, kick temperature controller (14) are fixed on rightmost side convection current piece (10), electronic type temperature controller (18) are inlayed on right side board (4), power cord (17) are fixed and are grounded on pipe network support (12), nanometer silicon leads ceramic heating pipe (16), kick temperature controller (14), electronic type temperature controller (18) and power cord (17) all with binding post row (15) between carry out the connection of working a telephone switchboard, truckle (7) are fixed on two panel connection spare (9) in the below through the screw.

Images