CN105698308B - A kind of bed air conditioner and its temperature control method - Google Patents

Abstract

The present invention relates to a kind of temperature control methods of bed air conditioner, for the bed air conditioner with radiant type evaporator, comprising the following steps: step 1, the human body temperature T for obtaining user₄With upper mattress surface observed temperature T₃；Step 2, according to the human body temperature T₄, determine upper mattress surface ideal working temperature T₃It is ideal；Step 3 judges the upper mattress surface ideal working temperature T₃The ideal and upper mattress surface observed temperature T₃Difference whether more than Ta DEG C；If step 4, more than Ta DEG C, radiant type evaporator surface work temperature is determined₁, and according to radiant type evaporator surface work temperature₁Adjust the distribution of radiant type evaporator refrigerant.Using radiation heat transfer principle, the optimum temperature of suitable human body is provided, avoids passing through the hysteresis quality that cross-ventilation heat exchange bring blowing feeling and air conditioner refrigerating heating effect are conveyed, is especially suitable for old man, children and Low crowd and uses.

Description

A kind of bed air conditioner and its temperature control method

Technical field

The present invention relates to a kind of air conditioner, in particular to a kind of bed air conditioner and its temperature control method.

Background technique

Traditional air conditioner blowing feels not quite the thing when user being easily caused to sleep, and is forced between air-conditioning and human body by air Heat convection, air conditioner refrigerating heating effect cannot be passed to human body in time, sometimes hot and sometimes cold, and user's sleep quality is low.Existing skill Art improves traditional air conditioner, but respectively has disadvantage.Traditional intelligence sleep air-conditioning, loads on the basis of original air-conditioning and sleeps Dormancy curve control system and thermal sensation equipment, are still between air-conditioning and human body and are exchanged heat by Air Forced Convection, bring blowing Sense can cause user uncomfortable.Radiant heating equipment is again based on the technical principle of radiation heat transfer, but can only be made Heat, no refrigerating function sleep regulatory function with easypro.In conclusion traditional air conditioner in the prior art, user's comfort is poor.

Summary of the invention

In view of this, the purpose of the present invention is to propose to a kind of bed air conditioner and its temperature control method, it is existing to solve Technical user uses the problem of air conditioning comfortableness difference.In order to which some aspects of the embodiment to disclosure have a basic understanding, Simple summary is shown below.

The invention discloses a kind of temperature control methods of bed air conditioner, empty for the bed with radiant type evaporator Adjust device, comprising the following steps:

Step 1, the human body temperature T for obtaining user₄With upper mattress surface observed temperature T₃；

Step 2, according to the human body temperature T₄, determine upper mattress surface ideal working temperature T_{3 is ideal}；

Step 3 judges the upper mattress surface ideal working temperature T3 ideal and the upper mattress surface observed temperature T₃ Difference whether more than Ta DEG C；

If step 4, more than Ta DEG C, radiant type evaporator surface work temperature is determined₁, and according to radiant type evaporator table Face work temperature₁Adjust the distribution of radiant type evaporator refrigerant.

Further, the step 4 determines radiant type evaporator surface work temperature₁, specifically include: obtaining under mattress Surface observed temperature T₂, according to the upper mattress surface observed temperature T₃With the mattress lower surface observed temperature T₂, determine mattress Heat conduction amount

According to the mattress heat conduction amountDetermine the Radiant exothermicity between radiant type evaporator and mattress

Pass through the Radiant exothermicity between the radiant type evaporator and mattressDetermine radiant type evaporator surface work Make temperature T₁。

Further, described according to the upper mattress surface observed temperature T₃With the mattress lower surface observed temperature T₂, really Fixed bed pads heat conduction amountThe step of, it specifically includes:

The mattress heat conduction amount is determined according to following formula

Wherein, A₂For the effective heat exchange area of mattress, λ is the thermal coefficient of mattress, and d is the thickness of mattress.

Further, the mattress heat conduction amount to analyzeDetermine radiant type evaporator and mattress it Between Radiant exothermicityThe step of, it specifically includes:

The Radiant exothermicity between the radiant type evaporator and mattress is determined according to following formula

Wherein, β isWithBetween the practical coefficient of heat transfer.

Further, the Radiant exothermicity by between radiant type evaporator and mattressDetermine that radiant type is steamed Send out device surface Working Temperature T₁, it specifically includes:

The radiant type evaporator surface work temperature is determined according to following formula₁:

Wherein, ε₁For the radiation heat transfer emissivity of bed evaporator, ε₂Emit for the radiation heat transfer of High heat conduction material mattress Rate, A₁For the effective heat exchange area of bed evaporator, E_b1For the black body radiation power of radiant type evaporator, E_b2For the black matrix spoke of mattress Penetrate power, C_bFor blackbody coefficient.

Further, the blackbody coefficient C_bTake 5.67W/ (m²·K⁴)。

Further, the upper mattress surface observed temperature T is obtained₃The step of, it specifically includes:

The mattress is divided into the first working region, the second working region, third according to user's head, trunk and foot Working region obtains the mattress in first working region, second working region and the third workspace respectively The observed temperature in domain.

Further, in the step 2, according to the human body temperature T₄, determine upper mattress surface ideal working temperature T_{3 is ideal}, it specifically includes:

According to the human body temperature T₄With human comfort correction factor C_nUpper mattress surface ideal is determined according to following formula Work temperature_{3 is ideal}:

T_{3 is ideal}=T₄-C_n。

Further, the human comfort correction factor C_n, it is determined according to following formula:

Wherein, R is bedding entire thermal resistance, h_rFor people's body surface surface radiation coefficient of heat transfer, h_cFor convection transfer rate, P_aFor water steaming Gas partial pressure.

The second object of the present invention discloses a kind of bed air conditioner, utilizes the temperature adjusting side of above-mentioned bed air conditioner Method including mattress, is used to support the bedstead of the mattress and is set on the downside of the mattress, is connected to bed air-conditioner outdoor unit Radiant type evaporator, the upper mattress surface is provided with the first temperature sensor, for obtaining upper mattress surface observed temperature T₃；The mattress lower surface is provided with second temperature sensor, for obtaining mattress lower surface observed temperature T₂；The radiant type Evaporator upper surface is provided with for detecting radiant type evaporator surface temperature T₁Third temperature sensor；

Parsing module receives the human body temperature T of user₄, determine upper mattress surface ideal working temperature T_{3 is ideal}；Described in judgement Upper mattress surface ideal working temperature T_{3 is ideal}With the upper mattress surface observed temperature T₃Difference whether more than Ta DEG C；

Adjustment module, if determining radiant type evaporator surface work temperature more than Ta DEG C₁, adjust radiant type evaporator system Refrigerant distribution.

The beneficial effects of the present invention are:

The temperature and radiant type of radiant type evaporator are adjusted according to human body temperature, mattress temperature using radiation heat transfer principle Evaporator refrigerant distribution, provides the optimum temperature of suitable human body, avoids passing through cross-ventilation heat exchange bring blowing feeling and sky The hysteresis quality for adjusting cooling or heating effect to convey is especially suitable for old man, children and Low crowd and uses.

For the above and related purposes, one or more embodiments include being particularly described below and in claim In the feature that particularly points out.Other benefits and novel features will become as following detailed description is considered in conjunction with the accompanying Obviously, the disclosed embodiments are all such aspects to be included and they are equal.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the embodiment of the present invention；

Fig. 2 is the structural schematic diagram of the embodiment of the present invention；

Fig. 3 is the structural schematic diagram of the embodiment of the present invention.

Specific embodiment

In the following detailed description, a large amount of specific details are proposed, in order to provide a thorough understanding of the present invention.But It will be understood by those within the art that implementable present invention without these specific details.In other cases, without detailed Well-known process and component are carefully described, in order to avoid influence the understanding of the present invention.

Below with reference to the accompanying drawings and preferred embodiment, the present invention will be described in detail.

In some illustrative embodiments, as shown in Figure 1, a kind of temperature control method of bed air conditioner, for having The bed air conditioner of radiant type evaporator, comprising the following steps:

S11, the human body temperature T for obtaining user₄With upper mattress surface observed temperature T₃；

S12, according to the human body temperature T₄, determine upper mattress surface ideal working temperature T_{3 is ideal}；

S13, judge the upper mattress surface ideal working temperature T_{3 is ideal}With the upper mattress surface observed temperature T₃Difference be It is no more than Ta DEG C；

If S14, more than Ta DEG C, radiant type evaporator surface work temperature is determined₁, and according to radiant type evaporator surface Work temperature₁Adjust the distribution of radiant type evaporator refrigerant.

Wherein, using radiation heat transfer principle, according to human body temperature, mattress temperature, adjust radiant type evaporator temperature and The distribution of radiant type evaporator refrigerant, provides the optimum temperature of suitable human body, avoids passing through cross-ventilation heat exchange bring blowing The hysteresis quality that sense and air conditioner refrigerating heating effect are conveyed.It is also provided with pressure sensor device, is distributed in mattress side, monitors human body Position, pressure change monitor the position of user, by data feedback to the electric-controlled parts of bed air-conditioning, so that it is determined that radiant type is steamed The working region of device is sent out, idle region refrigerant flow is adjustable or closes.The human body temperature for obtaining user can be by dividing Cloth placement bed air-conditioning the interior space or user wear Intelligent bracelet, according to Intelligent bracelet feed back human body temperature, heartbeat, The physical signs such as blood pressure can be adjusted again according to the sleep state and physical signs of user.

In some illustrative embodiments, as shown in Fig. 2, the step 4 determines radiant type evaporator surface operating temperature T₁, it specifically includes:

S21, mattress lower surface observed temperature T is obtained₂, according to the upper mattress surface observed temperature T₃Under the mattress Surface observed temperature T₂, determine mattress heat conduction amount

S22, according to the mattress heat conduction amountDetermine the Radiant exothermicity between radiant type evaporator and mattress

S23, pass through the Radiant exothermicity between the radiant type evaporator and mattressDetermine radiant type evaporator table Face work temperature₁。

In some illustrative embodiments, as shown in Fig. 2, it is described according to the upper mattress surface observed temperature T₃With it is described Mattress lower surface observed temperature T₂, determine mattress heat conduction amountThe step of, it specifically includes:

The mattress heat conduction amount is determined according to following formula

Wherein, A₂For the effective heat exchange area of mattress, λ is the thermal coefficient of mattress, and d is the thickness of mattress.

In some illustrative embodiments, as shown in Fig. 2, the mattress heat conduction amount to analyzeIt determines Radiant exothermicity between radiant type evaporator and mattress outThe step of, it specifically includes:

The Radiant exothermicity between the radiant type evaporator and mattress is determined according to following formula

Wherein, β isWithBetween the practical coefficient of heat transfer.β is measured by testing, and bed air conditioner is steamed in radiant type Send out device surface, mattress lower surface, several thermocouples of upper mattress surface distribution.Bed air conditioner is opened, radiant type is recorded respectively and steams Send out device surface, mattress lower surface, upper mattress surface electric thermo-couple temperature mean values T '₁, T '₂, T '₃, bring formula into

WithIt finds outWithValue the numerical value of β is obtained according to above-mentioned formula, according to above-mentioned steps, repeatedly, obtain the average value of β.

In some illustrative embodiments, the Radiant exothermicity by between radiant type evaporator and mattress Determine radiant type evaporator surface work temperature₁, it specifically includes:

The radiant type evaporator surface work temperature is determined according to following formula₁:

Wherein, ε₁For the radiation heat transfer emissivity of bed evaporator, ε₂Emit for the radiation heat transfer of High heat conduction material mattress Rate, A₁For the effective heat exchange area of bed evaporator, E_b1For the black body radiation power of radiant type evaporator, E_b2For the black matrix spoke of mattress Penetrate power, C_bFor blackbody coefficient.

In some illustrative embodiments, the blackbody coefficient C_bTake 5.67W/ (m²·K⁴)。

In some illustrative embodiments, the upper mattress surface observed temperature T is obtained₃The step of, it specifically includes:

The mattress is divided into the first working region, the second working region, third according to user's head, trunk and foot Working region obtains the mattress in first working region, second working region and the third workspace respectively The observed temperature in domain.

Wherein, the mattress is divided into the first working region, the second workspace according to user's head, trunk and foot Domain, third working region, the upper mattress surface observed temperature T₃Respectively T_{3 heads}、T_{3 trunks}、T_{3 foots}, mattress temperature is divided into three A region adjusts temperature according to user's different parts body temperature.

In some illustrative embodiments, in the step 2, according to the human body temperature T₄, determine that upper mattress surface is managed Think work temperature_{3 is ideal}, it specifically includes:

According to the human body temperature T₄With human comfort correction factor C_nUpper mattress surface ideal is determined according to following formula Work temperature_{3 is ideal}:

T_{3 is ideal}=T₄-C_n。

Wherein, T₄Respectively T_{4 heads}、T_{4 trunks}、T_{4 foots}, the T_{3 is ideal}It can be according to above-mentioned first working region, the second workspace Domain, third working region, respectively T_{3 ideal heads}、T_{3 ideal trunks}、T_{3 ideal foots}。

In some illustrative embodiments, the human comfort correction factor C_n, it is determined according to following formula:

Wherein, R is bedding entire thermal resistance, and summer takes average thermal resistance 2.07, and winter takes average thermal resistance 4.56；h_rFor human body surface Radiation heat transfer coefficient can use 3.235W/m under sleep quality²·℃；h_cFor convection transfer rate, human peripheral's air velocity compared with It is small, it can use 5.1W/m²·℃；P_aFor steam partial pressure, kPa can use Summer Indoor medial humidity 60%, winter medial humidity Steam partial pressure when 40%.

In some illustrative embodiments, as shown in figure 3, a kind of bed air conditioner, utilizes the temperature of above-mentioned bed air conditioner Adjusting method is spent, including mattress 1, the bedstead 4 of the mattress is used to support and is set to 1 downside of mattress and bed air-conditioning The radiant type evaporator 2 of device outdoor unit connection, 1 upper surface of mattress is provided with the first temperature sensor 301, for obtaining bed Pad upper surface observed temperature T₃；The mattress lower surface is provided with second temperature sensor, for obtaining the actual measurement of mattress lower surface Temperature T₂；2 upper surface of radiant type evaporator is provided with for detecting 2 surface temperature T of radiant type evaporator₁Third temperature Sensor 302；

Parsing module 5 receives the human body temperature T of user₄, determine upper mattress surface ideal working temperature T_{3 is ideal}；Described in judgement Upper mattress surface ideal working temperature T₃The ideal and upper mattress surface observed temperature T₃Difference whether more than Ta DEG C；

Adjustment module, if determining radiant type evaporator surface work temperature more than Ta DEG C₁, adjust radiant type evaporator system Refrigerant distribution.

Wherein, the mattress 1 is High heat conduction material, and 1 upper surface of mattress is uniformly distributed multiple pressure sensors 6, described Pressure sensor, the first temperature sensor, second temperature sensor, third temperature sensor are by the solution for being set to 4 downside of bedstead Module 5 is analysed to control.

The bed air conditioner further includes auxiliary electrical heater system, is set to inside the mattress 1, and auxiliary heating is played Effect.Heat preservation component 7 is provided on the downside of the bedstead 4, radiation-inhibiting formula evaporator is to except the heat dissipation of user direction.The radiant type Radiation reflecting layer 8 is additionally provided between evaporator 2 and heat preservation component 7, the heat for reflected radiation formula evaporator 2.

The bed air conditioner also can receive temperature set by user, be directly used in radiation heating or refrigeration.

The foregoing is only a preferred embodiment of the present invention, is not intended to restrict the invention, for the skill of this field For art personnel, the invention may be variously modified and varied.All within the spirits and principles of the present invention, made any to repair Change, equivalent replacement, improvement etc., should all be included in the protection scope of the present invention.

Claims (10)

1. a kind of temperature control method of bed air conditioner, for the bed air conditioner with radiant type evaporator, feature exists In, comprising the following steps:

Step 1, the human body temperature T for obtaining user₄With upper mattress surface observed temperature T₃；

Step 2, according to the human body temperature T₄, determine upper mattress surface ideal working temperature T_{3 is ideal}；

Step 3 judges the upper mattress surface ideal working temperature T_{3 is ideal}With the upper mattress surface observed temperature T₃Difference whether More than Ta DEG C；

If step 4, more than Ta DEG C, radiant type evaporator surface work temperature is determined₁, and worked according to radiant type evaporator surface Temperature T₁Adjust the distribution of radiant type evaporator refrigerant.

2. temperature control method according to claim 1, which is characterized in that the step 4 determines radiant type evaporator table Face work temperature₁, specifically include: obtaining mattress lower surface observed temperature T₂, according to the upper mattress surface observed temperature T₃With The mattress lower surface observed temperature T₂, determine mattress heat conduction amount

According to the mattress heat conduction amountDetermine the Radiant exothermicity between radiant type evaporator and mattress

Pass through the Radiant exothermicity between the radiant type evaporator and mattressDetermine radiant type evaporator surface operating temperature T₁。

3. temperature control method according to claim 2, which is characterized in that described to survey temperature according to the upper mattress surface Spend T₃With the mattress lower surface observed temperature T₂, determine mattress heat conduction amountThe step of, it specifically includes:

The mattress heat conduction amount is determined according to following formula

Wherein, A₂For the effective heat exchange area of mattress, λ is the thermal coefficient of mattress, and d is the thickness of mattress.

4. temperature control method according to claim 2, which is characterized in that the mattress heat conduction amount to analyzeDetermine the Radiant exothermicity between radiant type evaporator and mattressThe step of, it specifically includes:

The Radiant exothermicity between the radiant type evaporator and mattress is determined according to following formula

Wherein, β isWithBetween the practical coefficient of heat transfer.

5. temperature control method according to claim 2, which is characterized in that it is described by radiant type evaporator and mattress it Between Radiant exothermicityDetermine radiant type evaporator surface work temperature₁, it specifically includes:

The radiant type evaporator surface work temperature is determined according to following formula₁:

Wherein, ε₁For the radiation heat transfer emissivity of bed evaporator, ε₂For the radiation heat transfer emissivity of High heat conduction material mattress, A₁For the effective heat exchange area of bed evaporator, E_b1For the black body radiation power of radiant type evaporator, E_b2For the black body radiation of mattress Power, C_bFor blackbody coefficient.

6. temperature control method according to claim 5, which is characterized in that the blackbody coefficient C_bTake 5.67W/ (m²·K⁴)。

7. temperature control method according to claim 1, which is characterized in that obtain the upper mattress surface observed temperature T₃ The step of, it specifically includes:

The mattress is divided into the first working region, the second working region, third work according to user's head, trunk and foot Region obtains the mattress in first working region, second working region and the third working region respectively Observed temperature.

8. temperature control method according to claim 1, which is characterized in that in the step 2, according to the human body temperature T₄, determine upper mattress surface ideal working temperature T_{3 is ideal}, it specifically includes:

According to the human body temperature T₄With human comfort correction factor C_nUpper mattress surface ideal operation is determined according to following formula Temperature T_{3 is ideal}:

T_{3 is ideal}=T₄-C_n。

9. temperature control method according to claim 8, which is characterized in that the human comfort correction factor C_n, according to Following formula determines:

Wherein, R is bedding entire thermal resistance, h_rFor people's body surface surface radiation coefficient of heat transfer, h_cFor convection transfer rate, P_aFor vapor point Pressure.

10. a kind of bed air conditioner, utilizes the temperature control method of bed air conditioner, which is characterized in that including mattress, for branch The radiant type evaporator for supportting the bedstead of the mattress and being set on the downside of the mattress, being connected to bed air-conditioner outdoor unit, institute It states upper mattress surface and is provided with the first temperature sensor, for obtaining upper mattress surface observed temperature T₃；The mattress lower surface It is provided with second temperature sensor, for obtaining mattress lower surface observed temperature T₂；The setting of radiant type evaporator upper surface Have for detecting radiant type evaporator surface temperature T₁Third temperature sensor；

Parsing module receives the human body temperature T of user₄, determine upper mattress surface ideal working temperature T_{3 is ideal}；Judge the mattress Upper surface ideal working temperature T_{3 is ideal}With the upper mattress surface observed temperature T₃Difference whether more than Ta DEG C；

Adjustment module, if determining radiant type evaporator surface work temperature more than Ta DEG C₁, adjust radiant type evaporator refrigerant Distribution.