CN111238169A

CN111238169A - 360-degree bedding heating method and 360-degree bedding dryer

Info

Publication number: CN111238169A
Application number: CN202010114872.6A
Authority: CN
Inventors: 村田浩贵; 喜内一彰
Original assignee: Deye Japan Co ltd; Ningbo Deye Technology Co ltd
Current assignee: NINGBO DEYE DOMESTIC ELECTRICAL APPLIANCE TECHNOLOGY Co.,Ltd.
Priority date: 2020-02-25
Filing date: 2020-02-25
Publication date: 2020-06-05

Abstract

The invention discloses a method for heating 360-degree bedding, which comprises the steps of jacking a tiled quilt to form a heating space with the bedding; the invention also discloses a 360-degree quilt dryer, which heats the quilt by heating the circulating air in the heating space in the step S1 in a 360-degree air inlet and outlet mode, improves the heating efficiency of the quilt dryer and enables the temperature in the quilt to be uniformly distributed.

Description

360-degree bedding heating method and 360-degree bedding dryer

Technical Field

The invention relates to the technical field of bedding heating, in particular to a 360-degree bedding heating method and a 360-degree bedding dryer.

Background

At ordinary times, people all have the feeling that bedding always feels damp in a relatively humid period, particularly in the south, the humid environment of the bedding is easy to breed various bacteria and fungi, and the influence on the skin of a human body can be generated to different degrees.

However, the current bedding drying mode has the following problems: 1. at present, the bedding drying mode is that the bedding is dried outside a bed body and is heated and then sent between a quilt and the bedding through an air outlet pipeline, but because a dryer is positioned outside the bed body, in order to control the temperature of the whole mattress with high pressure loss, a product needs to be carried with a fan with larger volume, and finally the whole volume is huge and the carrying is inconvenient; 2. because the temperature need constantly heat the air of external normal atmospheric temperature to 60 ℃ and the air-out in transportation process (because the air inlet is outside, therefore the air-out temperature need be higher than the 45 degrees that finally will predetermine and require just can be fast carry out the process of rising the temperature with quilt inside), so just lengthened the operating time of heater, finally lead to the electric power that consumes also to increase along with it.

In the prior art, hot air is generally conveyed to the space inside the bedding only through a single unidirectional nozzle type blast pipe or a plurality of unidirectional nozzle type blast pipes, and 360-degree air inlet and outlet cannot be realized, so that the air in the internal space is fully utilized and circulated, heat loss is caused, and power consumption is improved.

Disclosure of Invention

The invention aims to solve the defects of the prior art and provide a 360-degree quilt heating method and a 360-degree quilt dryer which can realize 360-degree air inlet and outlet, improve the air circulation efficiency and ensure that the temperature in the quilt is uniformly distributed.

In order to achieve the purpose, the invention designs a 360-degree quilt heating method and a 360-degree quilt dryer, which comprise the following steps:

s1, jacking the flatly laid quilt to form a heating space with the mattress;

s2, heating the bedding by circularly heating the air in the heating space in the step S1;

s3, the air circulation in the step S2 adopts a mode of 360-degree air inlet and outlet.

The embodiment also discloses a 360 degree bed clothes drying-machine, including arranging the casing between quilt and bed clothes in, set up air intake and air outlet on the casing, be equipped with the heater that carries out the heating to the air that the air intake input came in and send out the fan of air outlet with the warm braw after the heating in the casing, the air intake includes the first air intake that sets up at the casing side and the second air intake that sets up at the casing top, first air intake just is 360 degrees horizontal evenly distributed on casing upper portion, the air outlet just is 360 degrees horizontal evenly distributed in the casing lower part.

The air in the heating space is from the air inside the bedclothes and from the air outside the bedclothes in order to recycle the heated air.

In order to prevent the heated air from escaping from the edges of the quilt, the four sides of the quilt are attached to the quilt after the flat quilt is lifted in step S1.

In order to avoid dangerous situations such as the fire of bedding caused by overhigh temperature due to the cyclic heating, the method also comprises the following steps: and S4, detecting the air outlet temperature in real time, detecting the air outlet temperature with the preset air outlet temperature, and immediately closing heating once the air outlet temperature is higher than the preset temperature.

In order to realize the detection of the outlet air temperature and the function of closing the heater according to the condition, a temperature detector is arranged at the outlet air, and a controller electrically connected with the temperature detector is arranged in the shell

According to the 360-degree quilt heating method and the 360-degree quilt dryer, the dryer is placed inside the quilt, air is fed and exhausted at 360 degrees, hot air is recycled, power consumption of the dryer is greatly reduced, and the risk caused by placing the dryer inside the quilt can be effectively prevented by the temperature control assembly.

Drawings

FIG. 1 is a front view of a 360-degree quilt dryer of embodiment 1;

FIG. 2 is an exploded view of a 360-degree quilt dryer of example 1;

figure 3 is a sectional view of a 360 quilt dryer of embodiment 1,

FIG. 4 is an exploded view of a 360 quilt dryer of embodiment 2.

In the figure: the air conditioner comprises a shell 1, an air inlet 2, an air outlet 3, a heater 4, a fan 5, a temperature detector 6, a controller 7, a first air inlet 2-1, a second air inlet 2-2 and an air flow channel 8.

Detailed Description

The invention is further illustrated by the following figures and examples.

Example 1:

the 360-degree quilt heating method provided by the embodiment comprises the following steps:

s1, jacking the flatly laid quilt to form a heating space with the mattress;

Further, in order to enhance the heating effect, the four sides of the quilt are attached to the mattress after the laid quilt is lifted up in step S1.

By the method, a raised heating space is formed between the quilt and the mattress, then the heating space is heated circularly, and 360-degree air inlet and outlet are ensured. The heated warm air in the quilt is sucked in the heating process in the quilt and the quilt, the air in the quilt is fully utilized by 360 degrees, the heating efficiency is finally improved, and the energy-saving effect can be achieved.

As shown in fig. 1-3, this embodiment further discloses a 360-degree quilt dryer, which includes a casing 1 disposed between a quilt and a quilt, an air inlet 2 and an air outlet 3 are disposed on the casing 1, an air flow channel 8 communicating the air inlet 2 and the air outlet 3 is disposed in the casing 1, a heater 4 and a fan 5 are disposed in the air flow channel 8, the heater 4 is used for heating air sucked from the air inlet 2, the fan 5 is used for sucking air outside the air inlet 2 and heating the air by the heater 4, and then sending out warm air from the air outlet 3, and is characterized in that the air inlet 2 includes a first air inlet 2-1 disposed at a side of the casing and a second air inlet 2-2 disposed at a top of the casing, the first air inlet 2-1 is uniformly distributed at an upper portion of the casing 1 at a 360-degree level, and the air outlet 3 is uniformly distributed at a lower portion of the casing 1 at a 360-degree level, the second air inlet 2-2 is used for absorbing air outside the bedding.

Through the structure, when the quilt is used, the quilt can be placed between the quilt and the bed, because the product has a certain height, the quilt can be jacked up from the bed, a bulged heating space is finally formed, a certain gap is ensured, the fan 5 and the heater 4 are started to work at the moment, when the quilt is used for the first time, cold air is arranged in the heating space, air in the quilt and outside the quilt is sucked in through the first air inlet 2-1 and the second air inlet 2-2 by using the fan 5, then warm air is sent out from the air outlet 3 after being heated by the heater 4, the sent warm air is mixed with the cold air in the heating space, the temperature of the cold air in the heating space is immediately raised, the cold air is changed into warmer air, the fan 5 works continuously at the moment, and the mixed warm air is sucked in the second time by the fan, then further heating is carried out, the temperature of the mixture of the air and the warm air in the heating space is continuously raised by the fan 5 from the air outlet 3, and the purpose of warming the bedding is achieved by installing the air circulation heating mode, therefore, the product is placed between the bedding and the bedding through the structural design, and simultaneously, because the air inlet 2 and the air outlet 3 are both arranged in the quilt, the first air inlet 2-1 and the second air inlet 2-2 suck cold air from the first time in the heating process, and the later-stage sucked warm air is heated, so compared with the method of always sucking and heating the cold air in the atmosphere in the prior art, the energy-saving effect of the invention is better, and in addition, from the heating efficiency, the time analysis of the heating of the same bedding in the prior art is that the cold air is always heated, then the air is conveyed to the inside of the bedding, the heating temperature of an air outlet of the air conditioner needs to be more than 60 ℃ in order to reach the final required temperature for heating the bedding, then the temperature is reduced by the temperature loss in the pipeline conveying process, and the temperature finally conveyed to the inside of the bedding can reach about 40 ℃ which is required to be preset, so that the air cooling heating to 60 ℃ needs a long time. And because the first air inlet 2-1 and the air outlet 3 are horizontally and uniformly distributed in 360 degrees, air in the bedding can be fully sucked, and the heated air is uniformly distributed to each position in the bedding, so that the temperature in the bedding is uniform, and the occurrence of temperature dead angles is greatly reduced. Meanwhile, the second air inlet (2-2) is arranged to suck air outside the bedding, so that the air volume in the bedding is larger, the situation that safety performance is reduced due to the fact that the air temperature rises too fast is avoided, pressure rises while more air is sucked continuously, air heated in the bedding can escape through the bedding, the bedding is heated uniformly, and the situation that one side is overheated and the other side is cool due to the thickness of the bedding is avoided. Therefore, the invention has the following advantages: 1. energy conservation can be realized; 2. The heating efficiency is high; 3. the whole volume is small and convenient to carry; 4. fully utilizes the air in the bedding and ensures that the temperature in the bedding is uniform. 5. The bedding is heated thoroughly.

Example 2:

the 360-degree quilt heating method provided by the embodiment further comprises the step S4 of detecting the air outlet temperature in real time in order to improve the use safety, and detecting the air outlet temperature in advance, wherein once the air outlet temperature is higher than the preset temperature, the heating is immediately closed, and the process of stopping heating when the inside of the quilt reaches the preset temperature is controlled by detecting the air outlet temperature in real time.

As shown in fig. 4, the embodiment further discloses a 360-degree quilt dryer, in order to improve the safety of use, a temperature detector 6 is arranged at the air outlet 3, a controller 7 electrically connected with the temperature detector 6 is arranged in the casing 1, the temperature detector 6 is arranged to send a signal to the controller 7 after the heating temperature of the air outlet 3 reaches a preset requirement, and the controller 7 controls the heater 4 to avoid the potential safety hazard caused by the fact that the temperature is too high and unknown.

Claims

1. A360-degree quilt heating method is characterized by comprising the following steps:

s1, jacking the flatly laid quilt to form a heating space with the mattress;

2. A 360 degree quilt heating method as claimed in claim 1, wherein the air circulation heating method in step S2 is to warm the quilt by sucking the air outside the quilt and the air in the heating space and mixing them, and then performing circulation heating.

3. The method of claim 1, wherein four sides of the quilt are attached to the mattress after the laid quilt is lifted up in the step S1.

4. The method for heating bedding of 360 degrees according to claim 1, further comprising a step S4 of detecting the outlet air temperature in real time and detecting the outlet air temperature with a preset outlet air temperature, and immediately turning off the heating when the outlet air temperature is higher than the preset temperature.

5. A360-degree quilt dryer adopts the quilt heating method of any one of claims 1 to 4, and comprises a shell (1) arranged between a quilt and a quilt, wherein the shell (1) is provided with an air inlet (2) and an air outlet (3), an air flow channel (8) which is communicated with the air inlet (2) and the air outlet (3) is arranged in the shell (1), a heater (4) and a fan (5) are arranged in the air flow channel (8), the heater (4) is used for heating air sucked from the air inlet (2), the fan (5) is used for sucking air outside the air inlet (2) and heating the air by the heater (4) and then sending warm air out from the air outlet (3), the quilt dryer is characterized in that the air inlet (2) comprises a first air inlet (2-1) arranged at the side edge of the shell and a second air inlet (2-2) arranged at the top of the shell, the first air inlets (2-1) are horizontally and uniformly distributed at 360 degrees on the upper portion of the shell (1), the air outlets (3) are horizontally and uniformly distributed at 360 degrees on the lower portion of the shell (1), and the second air inlets (2-2) are used for absorbing air outside the bedding.

6. A360 degree quilt dryer as claimed in claim 5, wherein: a temperature detector (6) is arranged at the air outlet, and a controller (7) electrically connected with the temperature detector (6) is arranged in the shell (1).