CN203163067U - Vapor-water circulating type warmer - Google Patents

Abstract

The utility model relates to a vapor-water circulating type warmer. The vapor-water circulating type warmer can lower energy consumption, improve heat efficiency and prolong the service life. According to the technical scheme, the vapor-water circulating type warmer is characterized by comprising a water tank and a plurality of heat dissipating pipes. The water tank is a closed cuboid, a cavity used for storing water is formed inside the water tank, and an electric heating pipe is installed inside the cavity. The heat dissipating pipes are vertically installed on the top of the water tank, are hollow and are communicated with the water tank through vapor outlet pipes and condensate water return pipes on the bottom. A hollow pipe perpendicular to the heat dissipating pipe is arranged on the top of each heat dissipating pipe correspondingly, and the hollow pipes are connected in an end-to-end mode for forming a communicating pipe communicated with the heat dissipating pipes. One end of the communicating pipe is closed, a solenoid valve SV1 is installed at the other end of the communicating pipe, and a thermistor RT1 is arranged inside the communicating pipe. A control cabinet is installed below one side of the solenoid valve SV1. The vapor-water circulating type warmer is applicable to household heating equipment.

Description

The vapor and water circulating type warmer

Technical field

The utility model relates to a kind of vapor and water circulating type warmer.Be applicable to family's heating system.

Background technology

At present, exist in the warmer of selling on the market with oil or liquid as the heat-carrying media.Yet this power consumption power is bigger with oil or the liquid warmer as the heat-carrying media, and service life is short, and is dry uncomfortable.

Summary of the invention

The technical problems to be solved in the utility model is: at the problem of above-mentioned existence, provide a kind of vapor and water circulating type warmer simple in structure, easy to make, with low cost, to cut down the consumption of energy, improve the thermal efficiency, increase the service life.

The technical scheme that the utility model adopts is: a kind of vapor and water circulating type warmer is characterized in that: this warmer comprises water tank and some radiating tubes, and described water tank is airtight cuboid, and it is inner for being used for depositing the cavity of water, and electrothermal tube is housed in the cavity; Described radiating tube vertically is installed on tank top, radiating tube is that hollow and the steam by the bottom go out pipe and the condensate return pipe is communicated with water tank, be shaped on perpendicular hollow tube corresponding to each radiating tube at its top, all hollow tubes join end to end successively and form the communicating pipe that is communicated with each radiating tube, this communicating pipe one end sealing, the other end is installed magnetic valve SV1, communicating pipe inside be provided with thermistor RT1; Below magnetic valve SV1 one side, control cabinet is housed.

The integrated circuit U1 that single-chip microcomputer U4 is housed in the described control cabinet, opens and closes corresponding to magnetic valve SV1, be the integrated circuit U2 of 600W, be integrated circuit U3 and the power unit of 1000W corresponding to heating power corresponding to heating power, installing is electrically connected with single-chip microcomputer U4 on the control cabinet starting switch S1, shutdown switch S2 and power selector switch S3; Single-chip microcomputer U4 is electrically connected described thermistor RT1.

Be shaped on radiating fin on the described radiating tube, radiating fin forms flow-guiding channel from bottom to top.

Described steam goes out to manage the lower end air intake and is higher than peak level in the water tank, and the upper end venthole is higher than the highest water accumulation level in radiating tube bottom; Described condensate return pipe upper end water inlet flushes with tank top, or slightly exceeds tank top but do not exceed the highest water accumulation level bottom the radiating tube.

Described radiating tube and radiating fin are made by aluminium alloy.

The beneficial effects of the utility model are: the utility model is the heat-carrying media with the water vapour, adopt steam to go out pipe and condensate return pipe joining water box and radiating tube and form closed circuit, radiating tube and radiating fin cooling heat release condense into water, add the thermosetting water vapour through electrothermal tube again, so go round and begin again, improve periphery and indoor environment temperature, thermal efficiency height and energy consumption are low.Because the utility model as the heat-carrying media, does not produce any noise with water vapour in the water vapour flow process, indoor also can be too dry, human body sensory be comfortable.The utility model only makes electricity consumption and water, can not cause any pollution to surrounding enviroment.

Description of drawings

Fig. 1 is structural scheme of mechanism of the present utility model.

Fig. 2 is the A-A cutaway view of Fig. 1.

Fig. 3 is the B-B cutaway view of Fig. 1.

Fig. 4 is circuit theory diagrams of the present utility model.

The specific embodiment

Present embodiment is a kind of vapor and water circulating type warmer, is the heat-carrying media with the water vapour, condenses into water and emits heat after the heat radiation cooling.As Fig. 1 ~ shown in Figure 3, warmer is made up of water tank 1, radiating tube 3 and radiating fin 7 in the present embodiment, and wherein water tank 1 is airtight cuboid, and it is inner for being used for depositing the cavity of water, and casing is provided with water inlet and delivery port and is furnished with capping.Electrothermal tube 2 is housed in the cavity of water tank 1, and electrothermal tube 2 becomes the water heating into water vapour.Radiating tube 3 has 10 in the present embodiment, vertically is installed on water tank 1 top.Radiating tube 3 hollows, its top is shaped on perpendicular hollow tube 6, and all radiating tube 3 top hollow tubes 6 join end to end successively and form the communicating pipe that is communicated with each radiating tube 3, communicating pipe one end sealing, the other end is installed magnetic valve SV1, and communicating pipe and each radiating tube 3 form an airtight cooling chamber.The bottom of each radiating tube 3 is equipped with the steam that is communicated with water tank 1 internal cavity and goes out pipe 4 and condensate return pipe 5, wherein steam goes out pipe 4 lower end air intakes and is higher than peak level in the water tank 1, the upper end venthole must be higher than the highest water accumulation level in radiating tube 3 bottoms, described condensate return pipe 5 upper end water inlets flush with water tank 1 top substantially, or slightly high water tank 1 top but can not exceed the highest water accumulation level of radiating tube 3 bottoms.Radiating tube 3 surfaces are shaped on some radiating fins 7, its be shaped as the bottom vertically, top is wing shape, this radiating fin 7 form from bottom to top, be conducive to gas communication flow-guiding channel.In this example radiating tube 3 and radiating fin 7 all adopt thermal conductivity preferably aluminium alloy process.

Present embodiment is installed control cabinet below one side of warmer, magnetic valve SV1.As shown in Figure 4, single-chip microcomputer U4(SM39R08A2 is housed in the control cabinet), single-chip microcomputer U4 pin 8 is through integrated circuit U1(MOC3083), silicon controlled crystal brake pipe VS1(ZO409MF) connect magnetic valve SV1; Pin 11 is through integrated circuit U2(MOC3083), bidirectional triode thyristor VS2(BTA08-600) connect the 600W heating power circuit of electrothermal tube 2; Pin 9 is through integrated circuit U3(MOC3083), bidirectional triode thyristor VS3(BTA08-600) connect the 1000W heating power circuit of electrothermal tube 2; Pin 6,7,12 is hinged with starting switch S1, the shutdown switch S2 and the power selector switch S3(that are located on the control cabinet respectively and is used for selecting electrothermal tube 2 power outputs); Pin 19 meets thermistor RT1, and thermistor RT1 is installed in the hollow tube 6 that is connected with magnetic valve SV1, is used for measuring the temperature in the hollow tube 6.AC220V is by voltage stabilizing after the KBP307 rectification in this example, and the working power of circuit chips etc. is provided.

The concrete working method of present embodiment is as follows:

Dress water starts warmer in water tank 1, and magnetic valve SV1 opens, the water in the electrothermal tube 2 beginning heating water tank 1.Along with temperature raises gradually, the cold air in the airtight cooling chamber is discharged by magnetic valve SV1.When temperature rises to 88 ℃ (RT1 records by thermistor), single-chip microcomputer U4 sends instruction and closes magnetic valve SV1, the closed operation under the minute-pressure state of whole device, and water vapour goes out pipe 4 through steam and enters in the airtight cooling chamber.Water vapour condenses into water in the airtight cooling chamber after radiating tube 3 and radiating fin 7 heat radiations, in condensate return pipe 5 flow back into water tank 1, continues heating and generates water vapour again, forms the carbonated drink circulation in the device.Because the special construction of radiating fin 7 forms air-flow, descend cold air to replenish certainly, behind the heat that absorption radiating tube 3 and radiating fin 7 send, hot-air up spreads, and is the surrounding enviroment heating.Be not suitable for as temperature, can select the transform power selector switch, regulate electrothermal tube 2 power outputs.

Owing in running, constantly be full of water vapour in the airtight cooling chamber, in case stopping to add hot water and steam just will disappear, produce negative pressure immediately, when thermistor RT1 records airtight cooling cavity temperature and is down to 70 ℃, then single-chip microcomputer U4 control magnetic valve SV1 opens, outside air is inhaled in the warmer, to be cooledly closes to uniform temperature magnetic valve SV1, return to use before state.

The utility model control system also is provided with the ceiling temperature, and when thermistor RT1 recorded airtight cooling cavity temperature and rises to 110 ℃, single-chip microcomputer U4 sent instruction and cuts off the electricity supply, and electrothermal tube 2 stops heating; When temperature fell after rise to 85 ℃, single-chip microcomputer U4 sends instruction again restarted electrothermal tube 2.Above-mentioned control all can be finished by enrolling software program in the single-chip microcomputer U4.

Claims (5)

1. vapor and water circulating type warmer, it is characterized in that: this warmer comprises water tank (1) and some radiating tubes (3), and described water tank (1) is airtight cuboid, it is inner for being used for depositing the cavity of water, and electrothermal tube (2) is housed in the cavity; Described radiating tube (3) vertically is installed on water tank (1) top, radiating tube (3) is for hollow and the steam by the bottom goes out pipe (4) and condensate return pipe (5) is communicated with water tank (1), be shaped on perpendicular hollow tube (6) at its top corresponding to each radiating tube (3), all hollow tubes (6) join end to end successively and form the communicating pipe that is communicated with each radiating tube (3), this communicating pipe one end sealing, the other end is installed magnetic valve SV1, communicating pipe inside be provided with thermistor RT1; Below magnetic valve SV1 one side, control cabinet is housed.

2. vapor and water circulating type warmer according to claim 1, it is characterized in that: the integrated circuit U1 that single-chip microcomputer U4 is housed in the described control cabinet, opens and closes corresponding to magnetic valve SV1, be the integrated circuit U2 of 600W, be integrated circuit U3 and the power unit of 1000W corresponding to heating power corresponding to heating power, installing is electrically connected with single-chip microcomputer U4 on the control cabinet starting switch S1, shutdown switch S2 and power selector switch S3; Single-chip microcomputer U4 is electrically connected described thermistor RT1.

3. vapor and water circulating type warmer according to claim 1 and 2 is characterized in that: be shaped on radiating fin (7) on the described radiating tube (3), radiating fin (7) formation flow-guiding channel from bottom to top.

4. vapor and water circulating type warmer according to claim 2 is characterized in that: described steam goes out pipe (4) lower end air intake and is higher than interior the peak level of water tank (1), and the upper end venthole is higher than the highest water accumulation level bottom the radiating tube (3); Described condensate return pipe (5) upper end water inlet flushes with water tank (1) top, or slightly high water tank (1) top but do not exceed the highest water accumulation level bottom the radiating tube (3).

5. vapor and water circulating type warmer according to claim 1 and 2 is characterized in that: described radiating tube (3) is made by aluminium alloy with radiating fin (7).

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