CN213810822U - Split type relay heater - Google Patents

Abstract

The utility model relates to a room heater field relates to a split type relay room heater, the purpose of the utility model includes preheating the host computer, preheating the host computer and including air inlet panel, heating module and fan, the air inlet panel includes air intake one and air intake two, heating module includes spiral heating pipeline one and spiral heating pipeline two, be equipped with the resistance lamella in spiral heating pipeline one and the spiral heating pipeline two, air intake one communicates with spiral heating pipeline one, air intake two communicates with spiral heating pipeline two, the air outlet one of spiral heating pipeline one and the air outlet two of spiral heating pipeline two communicate to the premixing chamber; the heating host computer, the heating host computer includes three air intakes, three and heating system of air outlet, the air intake tee bend tuber pipe of heating host computer and premix the room intercommunication, heating system includes snakelike heated tube way, be equipped with PTC ceramic heating element in the snakelike heated tube way.

Description

Split type relay heater

Technical Field

The utility model relates to a room heater field relates to a split type relay room heater.

Background

The existing heaters are various in types, the currently popular heaters in the market mainly comprise four types, namely an oil heater type heater, a halogen heater, a warm air type heater, a balance type heater and the like, wherein the warm air type heater is most popular with consumers, the warm air type heater is provided with an air inlet and an air outlet, when the heater works, a fan is used for blowing air to flow, cold air flows in from the air inlet and flows through a PTC (positive temperature coefficient) ceramic heating element to be blown out to form warm air, the hot air flows circularly to drive the indoor temperature rise, and the warm air type heater has the characteristics of uniform heat supply and soft light, but has the defect of slow temperature rise.

In summary, in order to overcome the defects in the prior art, a split relay heater with a simple structure and a fast temperature rise needs to be designed.

Disclosure of Invention

The utility model provides a split relay heater for solving the problems of the prior art.

The purpose of the utility model can be realized by the following technical proposal: a split relay warmer comprises:

the preheating host comprises an air inlet panel, a heating module and a fan, wherein the air inlet panel comprises an air inlet I and an air inlet II, the heating module comprises a spiral heating pipeline I and a spiral heating pipeline II, resistor layers are arranged in the spiral heating pipeline I and the spiral heating pipeline II, the air inlet I is communicated with the spiral heating pipeline I, the air inlet II is communicated with the spiral heating pipeline II, and an air outlet I of the spiral heating pipeline I and an air outlet II of the spiral heating pipeline II are communicated to the premixing chamber;

the heating host computer, the heating host computer includes three air intakes, three and heating system of air outlet, the air intake tee bend tuber pipe of heating host computer and premix the room intercommunication, heating system includes snakelike heated tube way, be equipped with PTC ceramic heating element in the snakelike heated tube way.

In a further improvement, the resistor sheet layer is in a wave-shaped section.

In a further improvement, the first spiral heating pipeline, the second spiral heating pipeline and the snake-shaped heating pipeline are made of high-temperature-resistant heat-insulating materials.

In a further improvement, the air inlet panel is provided with two illuminating lamps, and the two illuminating lamps are symmetrically arranged in the middle of the air inlet panel.

The improved air outlet device is characterized in that the air outlet I and the air outlet II are communicated with the premixing chamber through a Y-shaped three-way pipe, a hoop I is arranged at the joint of the air outlet I and the Y-shaped three-way pipe, and a hoop II is arranged at the joint of the air outlet II and the Y-shaped three-way pipe.

Compared with the prior art, the utility model discloses split type relay room heater preheats the host computer through increasing at heating host computer front end, preheats the mixture to the amount of wind that admits air through preheating double-spiral heated tube in the host computer, further heats in transmitting the heating host computer through the tuber pipe, and the effectual not good problem of heating effect of having solved the room heater because of heat waste, wind damage cause has improved intensification efficiency and user's travelling comfort.

Drawings

FIG. 1 is a schematic structural diagram of the present invention

FIG. 2 is a schematic view of the internal structure of the present invention

FIG. 3 is a schematic view of another view angle inside the present invention

FIG. 4 is a schematic view showing the structure of the inside of a heating pipe

FIG. 5 is a schematic view of the inside structure of a serpentine heating pipe

In the figure, 1-preheating host, 11-air inlet panel, 111-air inlet I, 112-air inlet II, 12-heating module, 121-spiral heating pipeline I, 1211-air outlet I, 122-spiral heating pipeline II, 1221-air outlet II, 123-resistor sheet layer, 13-fan, 14-premixing chamber, 15-lighting lamp, 16-Y type three-way pipe, 171-hoop I, 172-hoop II, 2-heating host, 21-air inlet III, 22-air outlet III, 23-heating system, 24-air pipe, 25-serpentine heating pipeline and 26-PTC ceramic heating element.

Detailed Description

The technical solution of the present invention is further explained below with reference to the following embodiments and accompanying drawings 1 to 5.

Example 1

The preheating host machine 1 comprises an air inlet panel 11, a heating module 12 and a fan 13, wherein the air inlet panel 11 comprises an air inlet I111 and an air inlet II 112, the heating module 12 comprises a spiral heating pipeline I121 and a spiral heating pipeline II 122, resistor layers 123 are arranged in the spiral heating pipeline I121 and the spiral heating pipeline II 122, the air inlet I111 is communicated with the spiral heating pipeline I121, the air inlet II 112 is communicated with the spiral heating pipeline II 122, and an air outlet I1211 of the spiral heating pipeline I121 and an air outlet II 1221 of the spiral heating pipeline II 122 are communicated with the premixing chamber 14;

heating host computer 2, heating host computer 2 includes three 21 of air intake, three 22 of air outlet and heating system 23, three 21 of air intake of heating host computer 2 pass through tuber pipe 24 and premix room 14 intercommunication, heating system 23 includes snakelike heating tube 25, be equipped with PTC ceramic heating element 26 in the snakelike heating tube 25. The existing warm air type warmer has the characteristics of uniform heat supply and soft light, and has the defect of slow temperature rise, and in order to solve the defects in the prior art, a split type relay warmer with simple structure and fast temperature rise needs to be designed.

As shown in fig. 1, fig. 2, fig. 3, fig. 4 and fig. 5, the preheating main unit 1 is connected with the heating main unit 2 through an air pipe 24, and the positions of the preheating main unit 1 and the heating main unit 2 are not affected by a water pipe and a circuit due to split connection, so that the proper position of the air inlet and the air outlet can be adjusted according to the needs of a user.

The preheating host 1 preheats the air volume in advance and then heats through the heating host 2, improves the heating effect of room heater, reduces user's latency, specifically, the air intake one 111 and the air intake two 112 of air intake panel 11 simultaneously pass through fan 13 and inhale cold wind, and two strands of cold wind get into spiral heating pipeline one 121 and spiral heating pipeline two 122 respectively, and the resistance lamella 123 in spiral heating pipeline one 121 and the spiral heating pipeline two 122 generates heat and improves cold wind to a certain temperature.

Compared with the existing single-layer resistor layer channel, the spiral first spiral heating pipeline 121 and the spiral second spiral heating pipeline 122 increase the heating path distance of cold air, improve the contact time with the resistor layer 123 and increase the temperature; compared with the single air inlet, the two heating channels can improve the air inlet amount, and can prevent air loss caused by overlong channels by being divided into the two heating channels, the preheated air amounts in the first spiral heating pipeline 121 and the second spiral heating pipeline 122 enter the premixing chamber 14 to be mixed, and then enter the heating host machine 2 through the premixing chamber 14 to be further heated; the resistive sheet layer 123 heats up quickly.

The PTC ceramic heating elements 26 in the snake-shaped heating pipeline 25 of the heating host machine 2 further heat the preheated air volume in the premixing chamber 14, the PTC ceramic heating elements 26 are arranged in the snake-shaped heating pipeline 25 in a snake shape, the heating contact area can be improved, the temperature rise is fast, the efficiency of changing the PTC ceramic heating elements 26 into heat energy is higher than that of a traditional heater, more heat energy is generated, and the heat supply is uniform; the problem of the room heater that the heating effect is not good that the effectual room heater that has solved leads to because of heat waste, wind damage has improved intensification efficiency and user's travelling comfort.

Example 2

The resistor layer 123 is of a wavy cross-section.

As shown in fig. 4, the wave-shaped cross section of the resistor layer 123 is beneficial to increase the contact area with air and improve the air heating effect.

Example 3

The first spiral heating pipeline 121, the second spiral heating pipeline 122 and the snake-shaped heating pipeline 25 are high-temperature-resistant heat-insulating materials. The high-temperature-resistant heat-insulating material can be a ceramic fiber composite heat-insulating material, is high-temperature-resistant and has a good heat-insulating effect, the spiral heating pipeline I121, the spiral heating pipeline II 122 and the snake-shaped heating pipeline 22 which are made of the ceramic fiber composite heat-insulating material effectively prevent heat generated by the internal resistance sheet layer 123 of the pipeline and the PTC ceramic heating element 26 from being dissipated, the temperature of the internal working environment of the warmer is reduced, and the heat is not dissipated, so that the air volume temperature is improved, the heat loss is reduced, and the warming effect is further improved.

Example 4

Be equipped with light 15 on the air inlet panel 11, light 15 is provided with two in air inlet panel 11 middle part symmetry.

As shown in fig. 1, two illuminating lamps 15 are arranged in the middle of the air inlet panel 11, so that the light intensity in the bathroom can be adjusted in two steps, and different use requirements of users on the light intensity can be met.

Example 5

The first air outlet 1211 and the second air outlet 1221 are communicated with the premixing chamber 14 through the Y-shaped three-way pipe 16, a hoop I171 is arranged at the joint of the first air outlet 1211 and the Y-shaped three-way pipe 16, and a hoop II 172 is arranged at the joint of the second air outlet 1221 and the Y-shaped three-way pipe 16.

As shown in fig. 3, the gas in the first spiral heating pipeline 121 and the second spiral heating pipeline 122 is transmitted into the premixing chamber 14 through the Y-shaped three-way pipe 16, the Y-shaped three-way pipe 16 is an aluminum telescopic pipe, is resistant to high temperature, can be lengthened or shortened according to practical use, the sealing performance of the joint between the first air outlet 1211 and the Y-shaped three-way pipe 16 is reinforced through the first hoop 171, and the sealing performance of the joint between the second air outlet 1221 and the Y-shaped three-way pipe 16 is reinforced through the second hoop 172, so that wind loss is reduced, and poor air outlet effect of the warmer due to air pressure loss at the joint is prevented.

The foregoing has described in detail preferred embodiments of the present invention. It should be understood that numerous modifications and variations can be devised by those skilled in the art in light of the present teachings without departing from the inventive concepts. Therefore, the technical solutions that can be obtained by a person skilled in the art through logic analysis, reasoning or limited experiments based on the prior art according to the concepts of the present invention should be within the scope of protection defined by the claims.

Claims (5)

1. The utility model provides a split type relay room heater which characterized in that includes:

the preheating host (1) comprises an air inlet panel (11), a heating module (12) and a fan (13), the air inlet panel (11) comprises an air inlet I (111) and an air inlet II (112), the heating module (12) comprises a spiral heating pipeline I (121) and a spiral heating pipeline II (122), a resistor sheet layer (123) is arranged in the spiral heating pipeline I (121) and the spiral heating pipeline II (122), the air inlet I (111) is communicated with the spiral heating pipeline I (121), the air inlet II (112) is communicated with the spiral heating pipeline II (122), and an air outlet I (1211) of the spiral heating pipeline I (121) and an air outlet II (1221) of the spiral heating pipeline II (122) are communicated to the premixing chamber (14);

heating host computer (2), heating host computer (2) are including three (21) of air intake, three (22) of air outlet and heating system (23), three (21) of air intake of heating host computer (2) are through tuber pipe (24) and premix room (14) intercommunication, heating system (23) are including snakelike heating tube way (25), be equipped with PTC ceramic heating element (26) in snakelike heating tube way (25).

2. The split relay warmer according to claim 1, wherein the resistor layer (123) has a wavy cross section.

3. The split relay warmer according to claim 1, wherein the first spiral heating pipeline (121), the second spiral heating pipeline (122) and the serpentine heating pipeline (25) are made of high temperature resistant heat insulation materials.

4. The split relay warmer according to claim 1, wherein two illuminating lamps (15) are symmetrically arranged in the middle of the air inlet panel (11) on the air inlet panel (11) of the illuminating lamps (15).

5. The split relay warmer according to claim 1, wherein the first air outlet (1211) and the second air outlet (1221) are communicated with the premixing chamber (14) through a Y-shaped tee pipe (16), a first hoop (171) is arranged at the joint of the first air outlet (1211) and the Y-shaped tee pipe (16), and a second hoop (172) is arranged at the joint of the second air outlet (1221) and the Y-shaped tee pipe (16).

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