CN210951499U - Intelligent nano superconductive electric heating stove - Google Patents

Abstract

The utility model relates to an intelligent nanometer superconductive electric heating stove, including furnace body, electrothermal tube, guide plate and base, the base both ends are equipped with the supporting seat, link firmly the furnace body through the flange between two supporting seats, the furnace body is square tubular structure, and its inside transversely distributes has heating chamber and thermostatic chamber, be equipped with the electrothermal tube that correspondingly stretches into heating chamber or thermostatic chamber in two supporting seats; through two groups of electric heating tubes, one group heats and the other group keeps the medium at a constant temperature, the frequency of repeated starting of the electric heating tubes is avoided, and therefore energy consumption is reduced.

Description

Intelligent nano superconductive electric heating stove

Technical Field

The utility model relates to a heating furnace, concretely relates to intelligent nanometer superconductive electric heat heating stove.

Background

The heating in winter is of various types, but the heating modes are roughly two, one is direct heating type, namely, the heat is directly radiated to the indoor through a furnace body and a chimney, and the other is indirect type, namely, the heat is transferred or conveyed to a room needing heating through a heat transfer medium; the heating mode generally adopted at present is the latter one, generally heat up to preset temperature to the medium directly through the electrothermal tube in use, so the heater has the defects of large continuous heating energy consumption, low heating precision and the like.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, a heating stove with simple structure and capable of reducing energy consumption is provided, the utility model designs an intelligent nano superconducting electric heating stove.

The utility model discloses the concrete technical scheme who takes does: an intelligent nano superconducting electric heating furnace comprises a furnace body, electric heating tubes, a guide plate and a base, wherein supporting seats are arranged at two ends of the base, the furnace body is fixedly connected between the two supporting seats through a flange, the furnace body is of a square tubular structure, a heating cavity and a constant temperature cavity are transversely distributed in the furnace body, and the electric heating tubes correspondingly extending into the heating cavity or the constant temperature cavity are arranged in the two supporting seats; the heating chamber is internally provided with a plurality of guide plates, the guide plates are arranged on the upper wall and the lower wall of the furnace body in a staggered manner, the lower part of the furnace body is provided with a water inlet corresponding to the front end of the heating chamber, and the upper part of the furnace body is provided with a water outlet corresponding to the rear end of the constant temperature chamber.

Preferably, the middle part of the supporting seat is provided with a mounting bulge correspondingly extending into the furnace body. The base comprises two splicing parts corresponding to the two support seats, and the joints of the two splicing parts are connected through mutually matched step parts; step portion is equipped with the bar hole that extends along base length direction, the downthehole bolt that is equipped with of bar.

Preferably, the outer wall of the furnace body is adhered with a heat insulation sleeve. The thermostatic chamber is internally provided with a temperature sensor corresponding to the water outlet, the temperature sensor is correspondingly connected to the controller, and the controller is electrically connected with the electric heating tube correspondingly.

Preferably, the controller is a plc controller or a single chip microcomputer. The electric heating pipe is a superconducting electric heating pipe.

The beneficial technical effects are as follows: through two groups of electric heating tubes, one group heats and the other group keeps the medium at a constant temperature, the frequency of repeated starting of the electric heating tubes is avoided, and therefore energy consumption is reduced.

Drawings

FIG. 1 is a schematic diagram of the present apparatus.

In the figure, a supporting seat 1, a base 2, a step 3, a constant temperature cavity 4, a heating cavity 5, a guide plate 6 and an electrothermal tube 7 are arranged.

Detailed Description

An intelligent nano superconducting electric heating stove, see figure 1: the furnace body is of a square tubular structure, a heating cavity 5 and a constant temperature cavity 4 are transversely distributed in the furnace body, and the two supporting seats 1 are internally provided with the electric heating tubes 7 correspondingly extending into the heating cavity 5 or the constant temperature cavity 4; heating chamber 5 is inside to be equipped with a plurality of guide plates 6, guide plate 6 staggered arrangement is in furnace body upper wall and lower wall, and the furnace body below is equipped with the water inlet that corresponds heating chamber 5 front end, and the furnace body top is equipped with the delivery port that corresponds 4 rear ends in thermostatic chamber.

Through two groups of electric heating tubes 7, one group heats and the other group keeps the medium at a constant temperature, thereby avoiding the frequency of repeated starting of the electric heating tubes 7 and reducing the energy consumption.

The power of the electric heating tube 7 in the heating cavity 5 is larger than that of the electric heating tube 7 in the constant temperature cavity 4, so that the consumption caused by multiple starting of a group of traditional high-power electric heating tubes 7 is avoided. The guide plate 6 is arranged, so that the heating time is prolonged, and the heating efficiency is improved.

The middle part of the supporting seat 1 is provided with a mounting bulge correspondingly extending into the furnace body. The base 2 comprises two splicing parts corresponding to the two support seats 1, and the joints of the two splicing parts are connected through mutually matched step parts 3; step portion 3 is equipped with the bar hole that extends along 2 length direction of base, the downthehole bolt that is equipped with of bar.

The supporting seat 1 is directly fixedly connected with the bottom plate, and the furnace body is installed and then secondarily connected through the step part 3, so that the installation stability is guaranteed.

The outer wall of the furnace body is attached with a heat insulation sleeve. A temperature sensor corresponding to the water outlet is arranged in the constant temperature cavity 4, the temperature sensor is correspondingly connected to the controller, and the controller is correspondingly electrically connected with the electric heating tube 7. The controller is a plc controller or a single chip microcomputer. The electrothermal tube 7 is a superconducting electrothermal tube 7, the heating tube, the temperature sensor, the plc controller or the single chip microcomputer are all commercially available products, temperature sensing and monitoring can be achieved through conventional electrical connection, the heating temperature accuracy of the heating furnace is improved, and the intelligent degree is high.

Claims (7)

1. The utility model provides an intelligent nanometer superconductive electric heating stove, includes furnace body, electrothermal tube, guide plate and base, characterized by: the furnace body is of a square tubular structure, a heating cavity and a constant temperature cavity are transversely distributed in the furnace body, and electric heating tubes correspondingly extending into the heating cavity or the constant temperature cavity are arranged in the two supporting seats; the heating chamber is internally provided with a plurality of guide plates, the guide plates are arranged on the upper wall and the lower wall of the furnace body in a staggered manner, the lower part of the furnace body is provided with a water inlet corresponding to the front end of the heating chamber, and the upper part of the furnace body is provided with a water outlet corresponding to the rear end of the constant temperature chamber.

2. The intelligent nano superconducting electrothermal heating stove according to claim 1, characterized in that: the middle part of the supporting seat is provided with a mounting bulge correspondingly extending into the furnace body.

3. The intelligent nano superconducting electrothermal heating stove according to claim 1, characterized in that: the base comprises two splicing parts corresponding to the two support seats, and the joints of the two splicing parts are connected through mutually matched step parts; step portion is equipped with the bar hole that extends along base length direction, the downthehole bolt that is equipped with of bar.

4. The intelligent nano superconducting electrothermal heating stove according to claim 1, characterized in that: the outer wall of the furnace body is attached with a heat insulation sleeve.

5. The intelligent nano superconducting electrothermal heating stove according to claim 1, characterized in that: the thermostatic chamber is internally provided with a temperature sensor corresponding to the water outlet, the temperature sensor is correspondingly connected to the controller, and the controller is electrically connected with the electric heating tube correspondingly.

6. The intelligent nano superconducting electrothermal heating stove according to claim 5, characterized in that: the controller is a plc controller or a single chip microcomputer.

7. The intelligent nano superconducting electrothermal heating stove according to claim 1, characterized in that: the electric heating pipe is a superconducting electric heating pipe.

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