CN104964444A - Heating equipment for bathroom - Google Patents

Abstract

The invention provides heating equipment for a bathroom advantaged by being low in energy consumption and fine in heating effect. The heating equipment for the bathroom comprises an air heater used for heating air inside the bathroom. The air heater comprises an air inlet and a heat-exchange device. The heat-exchange device is arranged at the downstream position of the air inlet. The heating equipment is provided with a dehumidifying barrel arranged between the air inlet of the air heater and the heat-exchange device. The dehumidifying barrel comprises a barrel body with two ends opened and at least one blade group fixed into the barrel body. One end of the barrel body is opened and in butt joint with the air inlet in a closed manner such that air flows towards an opening at the other end of the barrel body and then enters the heat-exchange device. The at least one blade group is used for rotating with air flow guided from the air inlet.

Description

Bathroom heating equipment

Technical field

The present invention relates to a kind of bathroom heating equipment.

Background technology

At present, warm oneself in Traditional bathroom and usually adopt super bath, and the operation principle of super bath generally has two kinds: a kind of is raise bath temperature by the heat radiation of heating bubble, but only can heat by localized region, and whole bathroom can not be made warm, bath temperature is unbalanced, and the high light that this super bath produces can cause light pollution, also can cause high temperature injury to human body.Another kind is flowed by blower fan blow air, and cold air comes in flow through PTC ceramic heating element from air inlet, and blowout goes just to have become warm braw, drives indoor intensification, and this super bath power consumption is high, and economic benefits are poor.

Summary of the invention

The present invention carries out to solve above-mentioned problem, and object is to provide that a kind of energy consumption is lower, the better bathroom heating equipment of heating effect.

The present invention solves above-mentioned technical problem by following technical proposals:

The present invention relates to a kind of bathroom heating equipment, it includes the air-heater for heating bath room air, air-heater includes air inlet and heat-exchanger rig, heat-exchanger rig is arranged at the downstream of air inlet, it is characterized in that, have: dehumidification barrel, be arranged between the air inlet of air-heater and heat-exchanger rig, wherein, the staving that dehumidification barrel includes both ends open and at least one group of vane group be fixed in staving, the one end open of staving is docked with air inlet is airtight, make air towards the other end open flow of staving thus enter heat-exchanger rig, vane group is used for along with the air-flow imported from air inlet rotates.

In bathroom heating equipment of the present invention, can also have such feature: wherein, each blade of vane group is provided with some grooves vertical with the rotation of vane group on end face.

In addition, in bathroom heating equipment of the present invention, such feature can also be had: wherein, rotate in staving and be fixed with two groups of vane group, and the twist of these two groups of vane group be different.

In addition, in bathroom heating equipment of the present invention, can also have such feature: wherein, staving is provided with the water leg for collecting water on the madial wall of the side near ground.

In addition, in bathroom heating equipment of the present invention, such feature can also be had: off-premises station, be connected with the refrigerant conveying tubes for refrigerant conveying, wherein, refrigerant conveying tubes imbeds the floor in bathroom after heat-exchanger rig as ground heating pipe under, then take back to off-premises station.

In addition, in bathroom heating equipment of the present invention, such feature can also be had: flow-guiding channel, solidifying water for being formed at heat-exchanger rig top is expelled to the outside of air-heater, wherein, heat-exchanger rig top is provided with funnel shaped upper cover, and the bottom part ring of the inwall of upper cover is provided with guiding gutter, one end of flow-guiding channel is communicated with guiding gutter, and the other end is communicated to the outside of air-heater.

The effect of invention and effect

According to the bathroom heating equipment that the present invention relates to owing to being provided with the dehumidification barrel of the vane group of rotating with flowing with air between the air inlet of air-heater and heat-exchanger rig, energy consumption is lower, heating effect is better, and owing to not needing extra powered rotation blade dehumidifying, reduce further energy consumption.

Accompanying drawing explanation

Fig. 1 is the structural representation of bathroom heating equipment in embodiments of the invention;

Fig. 2 is the oblique view of bathroom heating equipment in embodiments of the invention;

Fig. 3 is the side view of air-heater in embodiments of the invention;

Fig. 4 is the sectional view along A-A in Fig. 3;

Fig. 5 is the oblique view of staving in embodiments of the invention; And

Fig. 6 is the front elevation of embodiments of the invention Leaf.

Detailed description of the invention

Below, with reference to accompanying drawing, bathroom heating equipment structural map involved in the present invention is elaborated.

Fig. 1 is the structural representation of bathroom heating equipment in embodiments of the invention; Fig. 2 is the oblique view of bathroom heating equipment in embodiments of the invention.

As shown in Figure 1, 2, in the present embodiment, in the mounted bathroom do not shown in the drawings of bathroom heating equipment 100, for heating in bathing process.Bathroom heating equipment 100 comprises: air-heater 10, off-premises station 20, ground heating pipe 30 and refrigerant conveying tubes 40.

Air-heater 10 is arranged in bathroom, for adding hot-air.

Fig. 3 is the side view of air-heater in embodiments of the invention; Fig. 4 is the sectional view along A-A in Fig. 3.

As shown in Figure 3,4, air-heater 10 comprises shell 1, for by the air inlet 2 of air intake air-heater 10, heat-exchanger rig 3, dehumidification barrel 4, outlet passageway 5 and upper cover 7.

Shell 1 has and offers horn shape opening downwards.

Heat-exchanger rig 3 is arranged at the downstream of air inlet 2.

The top of heat-exchanger rig 3 is provided with funnel shaped upper cover 7.

Upper cover 7 includes a flow-guiding channel and guiding gutter (all not shown in figure).Guiding gutter is located on the inwall of the bottom of upper cover 7.One end of flow-guiding channel is communicated with guiding gutter, and the other end is communicated to the outside of air-heater.

Upper cover 7 can make the water of condensation along the tilt internal wall landing of upper cover 7 in guiding gutter, then the water in guiding gutter is expelled to outside by flow-guiding channel, drops to heat-exchanger rig 3 on after forming ponding to avoid condensation.

Outlet passageway 5 is discharged to bathroom for the air sucking air-heater from air inlet 2 heated through heat-exchanger rig 3.

Dehumidification barrel 4 is arranged between air inlet 2 and heat-exchanger rig 3, and dehumidification barrel 4 includes the staving 43 of both ends open, vane group 61 and vane group 62.

Fig. 5 is the oblique view of staving in embodiments of the invention.

As shown in Figure 5, integratedly on staving 43 support 41, rotating shaft 63, discharge outlet 42 and water leg 44 is provided with.

Water leg 44 is arranged at the side inwall on the close ground of staving 43.Support 41 is arranged at staving 43 both ends open place, for setting up rotating shaft 63.Rotating shaft 63 is for wearing vane group 61 and vane group 62, and namely vane group 61 and vane group 62 63 are rotated around the shaft.Discharge outlet 42 is communicated with water leg 44, for being expelled to outside staving 43 by the moisture in water leg 44.

One end open and airtight the docking of air inlet 2 of staving 43, make air to the other end open flow of staving 43 to heat-exchanger rig 3.Staving 43 internal fixtion has vane group 61 for rotating along with the air-flow that imports from air inlet 2 and vane group 62.

Fig. 6 is the front elevation of embodiments of the invention Leaf.

As shown in Figure 6, each blade of vane group 61 and vane group 62 is provided with on end face (can only in the side end face towards air inlet 2, also can be that both sides end face is all arranged, all arrange for both sides end face in the present embodiment) some grooves 64 vertical with the rotation of vane group.

Vane group 61 and vane group 62 rotate with the wind, and the moisture content be mingled with in air-flow is attached to the inwall each blade being thrown to again staving 43 by centrifugal action along groove 64, and moisture content flows in water leg 44 along inwall under gravity, flows out subsequently from discharge outlet 42.

Vane group 61 and the moisture content of vane group 62 for being mingled with in adsorption gas flow, and vane group 61 is different from the speed that vane group 62 is rotated with air-flow.The rotation required drive of vane group 61 and vane group 62 is that the air-flow sucked by air inlet 2 provides.

In addition, vane group 61 is different with the twist that vane group 62 rotates, their speed of rotating with air-flow is different like this, the path growth that air-flow flow in staving 43 and enhance the disturbance of fluid, makes vane group 61 and vane group 62 can more effective absorption moisture content.

Off-premises station 20 is communicated with refrigerant conveying tubes 40.

Under the part of refrigerant conveying tubes 40 is layed in bathroom floor as ground heating pipe 30, layout takes two Parallel Design, and this paving mode can allow the enough even of ground heat distribution, there will not be the situation that heat one side is cold.Concrete design can change accordingly according to the actual conditions in bathroom.

Condensing agent in refrigerant conveying tubes 40 flows through the heat-exchanger rig 3 of air-heater 10 after off-premises station 20 is heated, then flows back into off-premises station 20 through ground heating pipe 30.

In the present embodiment bathroom heating equipment 100, the refrigerant gas of HTHP, first by the air-heater 10 at top, bathroom, adds hot-air.Cold-producing medium is partly condensed after by air-heater 10, utilize cold-producing medium waste heat, by ground heating pipe 30 (namely embedding the refrigerant conveying tubes 40 in bathroom floor) pipeline heating ground, realize total condensation and excessively cold (excessively cold refer to saturation temperature refrigerant liquid temperature be reduced to lower than under pressure residing for it) simultaneously.So, if solve cold-producing medium directly to take back cold-producing medium that off-premises station 20 may cause fail the problem that complete liquefied just enters circulation once again and then cause cycle efficieny low after heat-exchanger rig 3, it also avoid simultaneously and arrange separately one and become liquid device to cause waste to heat energy the refrigerant cools through heat-exchanger rig 3.

The effect of embodiment and effect

The bathroom heating equipment related to according to the present embodiment is owing to being provided with the dehumidification barrel of the vane group of rotating with flowing with air between the air inlet of air-heater and heat-exchanger rig, energy consumption is lower, heating effect is better, and owing to not needing extra powered rotation blade dehumidifying, reduce further energy consumption.

Because each blade is provided with some grooves on end face, under the effect of the centrifugal force that the moisture content that therefore blade adsorbs can produce in blade rotation, flow to the inwall of staving along groove.

Because the twist of vane group is different, the path that therefore air-flow flow in staving 43 increases and the disturbance of fluid enhancing, makes vane group can more effective absorption moisture content.

Owing to being provided with water leg in staving, therefore moisture content can be collected in water leg.

Owing to arranging under refrigerant conveying tubes imbeds bathroom floor, both make use of cold-producing medium waste heat and which in turn improved refrigerant circulation efficiency, and meanwhile, improved the Temperature Distribution in bathroom during heating, add comfortableness.

Owing to being provided with the flow-guiding channel being communicated with guiding gutter and air-heater outside, therefore the solidifying water at heat-exchanger rig top can be discharged preferably.

Claims (6)

1. a bathroom heating equipment, comprise the air-heater for heating bath room air, described air-heater comprises air inlet and heat-exchanger rig, it is characterized in that, has:

Dehumidification barrel, between the air inlet being arranged at described air-heater and heat-exchanger rig,

Wherein, the staving that described dehumidification barrel includes both ends open and at least one group of vane group be fixed in described staving,

The one end open of described staving is docked with described air inlet is airtight, makes described air towards the other end open flow of described staving thus enters described heat-exchanger rig,

Described vane group is used for along with the air-flow imported from described air inlet rotates.

2. bathroom heating equipment as claimed in claim 1, is characterized in that:

Wherein, each blade of described vane group is provided with the vertical groove of the rotation of some and described vane group on end face.

3. bathroom heating equipment as claimed in claim 2, is characterized in that:

Wherein, rotate in described staving and be fixed with vane group described in two groups, and the twist of vane group described in these two groups is different.

4. bathroom heating equipment as claimed in claim 2, is characterized in that:

Wherein, described staving is provided with the water leg for collecting water on the madial wall of the side near ground.

5. bathroom heating equipment as claimed in claim 1, is characterized in that, also comprise:

Off-premises station, is connected with the refrigerant conveying tubes for refrigerant conveying,

Wherein, described refrigerant conveying tubes imbeds the floor in bathroom after described heat-exchanger rig as ground heating pipe under, then take back to described off-premises station.

6. bathroom heating equipment as claimed in claim 5, is characterized in that, also comprise:

Flow-guiding channel, the solidifying water for being formed at described heat-exchanger rig top is expelled to the outside of described air-heater,

Wherein, described heat-exchanger rig top is provided with funnel shaped upper cover, and the bottom part ring of the inwall of described upper cover is provided with guiding gutter,

One end of described flow-guiding channel is communicated with described guiding gutter, and the other end is communicated to the outside of described air-heater.