CN203615545U - Air conditioner - Google Patents

Abstract

The utility model provides an air conditioner, which comprises an outdoor unit, an indoor unit matched with the outdoor unit, a human body inductor corresponding to the indoor unit and used for sensing personnel in a room corresponding to the indoor unit, a temperature detector used for detecting indoor ambient temperature of the room and a controller used for controlling the air conditioner according to the indoor ambient temperature and target temperature when the human body inductor senses that personnel exist in the room for more than first preset time. The air conditioner can prevent energy waste caused when a user forgets to turn off the air conditioner, and can also solve the problem that the reliability of the air conditioner is reduced due to frequent start and stop of a compressor when the user frequently enters and goes out of the room. Besides, refrigerating and heating requirements of the air conditioner can be automatically judged to meet the actual requirement of the user.

Description

Air-conditioner

Technical field

The utility model relates to household electrical appliance technical field, particularly a kind of air-conditioner.

Background technology

Along with growth in the living standard, air-conditioner is more and more general in people's life, and air-conditioner can freeze or heat, for people's life provides convenience.But people forget and close air-conditioning for some reason sometimes, thereby cause the waste of the energy.At present, energy-saving type air conditioner with infrared induction is disclosed in correlation technique, this energy-saving type air conditioner comprises outdoor machine of air-conditioner and interior machine, infrared human body sensor and artificial intelligence system that interior machine is provided with human body infrared receiver, matches with human body or outer receiver, wherein, human body sensor is arranged on the wall or ceiling of room surrounding.As shown in Figure 1, the course of work of above-mentioned energy-saving type air conditioner comprises:

S1 ', judges whether infrared induction receiver receives human infrared signal.

If so, enter step S2 ', otherwise enter step S3 '.

S2 ', inductive switch starts.

Inductive switch enters step S4 ' after starting.

S3 ', inductive switch is closed.

Inductive switch is closed, and artificial intelligence system is closed, and air-conditioning is not worked.

S4 ', artificial intelligence system is opened.

Artificial intelligence system enters step S5 ' after starting.

S5 ', starting of air conditioner.

The control method of above-mentioned energy-saving type air conditioner, do not need the opening and closing of artificial ACTIVE CONTROL air-conditioning, when have people time, the infrared ray that human body self sends is arrived by infrared induction sensor sensing, then feed back to infrared induction receiver, open inductive switch, start artificial intelligence system and carry out analyzing and processing, thereby start air-conditioning.In the time of nobody, infrared induction sensor does not receive the infrared signal of human body, and inductive switch cannot be opened, and artificial intelligence system etc. all cannot be opened, and air-conditioning is in closed condition.

Visible, although prior art can solve because forgetting the energy waste problem that air-conditioning causes of closing,, in the time that people turnover is more frequent, while opening when air-conditioning, close high frequent start-stop, thereby cause the reliability of air-conditioning to reduce.

Utility model content

The purpose of this utility model is intended to solve at least to a certain extent above-mentioned technical problem.

For this reason, the purpose of this utility model is to propose a kind of air-conditioner, this air-conditioner can prevent from closing the energy waste that causes of air-conditioner because forgetting, can avoid because user passes in and out frequently high frequent start-stop and the problem of the air conditioner reliability reduction that causes simultaneously.In addition, refrigeration that this air-conditioner can also automatic decision air-conditioner, heat demand, meet user's actual needs.

For achieving the above object, the utility model proposes a kind of air-conditioner, the indoor set that this air-conditioner comprises off-premises station and mates with described off-premises station; The human inductor corresponding with described indoor set, for responding to the personnel in the corresponding room of described indoor set; Temperature Detector, for detection of the indoor environment temperature in described room; Controller, described controller exists for personnel in described human inductor senses described room and continues the first Preset Time when above, according to described indoor environment temperature and target temperature, air-conditioner is controlled.

Air-conditioner of the present utility model, by controller judging that human inductor senses that room exists personnel and continues the first Preset Time when above, the operation of control air-conditioner, avoiding because of in forgetting and closing the energy waste that air-conditioning causes, can prevent to a certain extent causing air conditioner reliability to decline because of frequent discrepancy of personnel, can extend the service life of air-conditioner.And controller can move according to indoor environment temperature and the satisfied control air-conditioner that is related to of target temperature, and automatic decision freezes or heats demand, more intelligent.In addition, this air-conditioner is more energy-conservation, moves more reliable.

Particularly, described controller, also for described indoor environment temperature and described target temperature are compared, if described indoor environment temperature meets the first temperature conditions, is controlled described air-conditioner and is freezed.

Wherein, described the first temperature conditions meets:

T ₁>T _a, and t _s≤ t ₁-t _a

Wherein, t ₁for described indoor environment temperature, T _abe the first preset temperature, t _sfor described target temperature, t _ait is the first default temperature difference.

In addition, described controller also, in the time judging that described indoor environment temperature meets the second temperature conditions, is controlled described air-conditioner and is heated.

Wherein, described the second temperature conditions meets:

T ₁<T _b, and t _s>=t ₁+ t _b

Wherein, t ₁for described indoor environment temperature, T _bbe the second preset temperature, t _sfor described target temperature, t _bbe the second default temperature difference, described the second preset temperature T _bbe less than described the first preset temperature T _a.

After described air-conditioner operation, when described controller also exists for personnel in responding to less than described room more than described human inductor continues the second Preset Time, control described indoor set and close.

Described controller is also for reaching described target temperature at described indoor environment temperature, and the above induction of lasting the second Preset Time of described human inductor is less than personnel's existence in described room, controls described indoor set and closes.

Further, described indoor set is N platform, and every indoor set arranges corresponding described human inductor, described controller is also for more than judging that described human inductor senses that room corresponding to m+n platform indoor set exists personnel and continue described the first Preset Time, if the indoor environment temperature in the corresponding room of m platform indoor set meets refrigeration condition, the indoor environment temperature in the room that n platform indoor set is corresponding meets the condition that heats, according to the preset mode of described air-conditioner, described m platform indoor set and described n platform indoor set are controlled respectively, wherein, m+n≤N.

Particularly, when described air-conditioner arranges refrigeration when preferential, described controller is first controlled described m platform indoor set and is freezed, and after m platform indoor set has freezed, controls described n platform indoor set and carries out heating operation; When described air-conditioner setting heats when preferential, described controller is first controlled described n platform indoor set and is heated, and after described n platform indoor set has heated, controls described m platform indoor set and freezes.

In addition, described indoor set is N platform, and every indoor set arranges corresponding described human inductor, described controller is also for judging that described human inductor senses that room corresponding to m+n platform indoor set exists personnel and continue more than described the first Preset Time m+n≤N; Wherein, if the indoor environment temperature in the corresponding room of m platform indoor set meets refrigeration condition, the indoor environment temperature in the room that n platform indoor set is corresponding is satisfied heats condition, controls described m platform indoor set and freezes, and controls described n platform indoor set simultaneously and heats.

The aspect that the utility model is additional and advantage in the following description part provide, and part will become obviously from the following description, or recognize by practice of the present utility model.

Accompanying drawing explanation

The utility model above-mentioned and/or additional aspect and advantage will become from the following description of the accompanying drawings of embodiments obviously and easily and understand, wherein:

Fig. 1 is the control flow chart of the air-conditioning of prior art; And

Fig. 2 is according to the schematic diagram of the air-conditioner of the utility model embodiment.

Reference numeral

Off-premises station 10, indoor set 20, human inductor 30, Temperature Detector 40 and controller 50.

The specific embodiment

Describe embodiment of the present utility model below in detail, the example of described embodiment is shown in the drawings, and wherein same or similar label represents same or similar element or has the element of identical or similar functions from start to finish.Be exemplary below by the embodiment being described with reference to the drawings, only for explaining the utility model, and can not be interpreted as restriction of the present utility model.

Disclosing below provides many different embodiment or example to be used for realizing different structure of the present utility model.Of the present utility model open in order to simplify, hereinafter the parts to specific examples and setting are described.Certainly, they are only example, and object does not lie in restriction the utility model.In addition, the utility model can be in different examples repeat reference numerals and/or letter.This repetition is in order to simplify and object clearly, itself do not indicate the relation between discussed various embodiment and/or setting.In addition, the various specific technique that the utility model provides and the example of material, but those of ordinary skills can recognize the property of can be applicable to of other techniques and/or the use of other materials.In addition, First Characteristic described below Second Characteristic it " on " structure can comprise that the first and second Characteristics creations are the direct embodiment of contact, also can comprise the embodiment of other Characteristics creation between the first and second features, such the first and second features may not be direct contacts.

In description of the present utility model, it should be noted that, unless otherwise prescribed and limit, term " installation ", " being connected ", " connection " should be interpreted broadly, for example, can be mechanical connection or electrical connection, also can be the connection of two element internals, can be to be directly connected, and also can indirectly be connected by intermediary, for the ordinary skill in the art, can understand as the case may be the concrete meaning of above-mentioned term.

With reference to description and accompanying drawing below, by these and other aspects of clear embodiment of the present utility model.In these descriptions and accompanying drawing, specifically disclose some specific implementations in embodiment of the present utility model, represent some modes of the principle of implementing embodiment of the present utility model, but should be appreciated that the scope of embodiment of the present utility model is not limited.On the contrary, embodiment of the present utility model comprises all changes, modification and the equivalent within the scope of spirit and the intension that falls into additional claims.

For the problem in known technology, the air-conditioner of the utility model embodiment is started with from the operation of controlling air-conditioner, can avoid forgetting the energy waste of closing air-conditioner and cause, the reduction of the air conditioner reliability that the frequent discrepancy of the personnel that can also prevent causes.And then according to the indoor environment temperature detecting and the refrigeration of target temperature automatic decision reality, heat needs.

A kind of air-conditioner proposing according to the utility model embodiment is described with reference to the accompanying drawings.

As shown in Figure 2, the air-conditioner of the utility model embodiment comprise off-premises station 10, the indoor set 20 that mates with off-premises station 10, corresponding human inductor 30, Temperature Detector 40 and the controller 50 with indoor set 20.Wherein, human inductor 30 is for responding to the personnel in the corresponding room of indoor set 20.Temperature Detector 40 is for detection of the indoor environment temperature in room.Controller 50, for sensing in room personnel at human inductor 30 and exist and continuing the first Preset Time when above, is controlled air-conditioner according to indoor environment temperature and target temperature.

Particularly, human inductor 30 can be the infrared inductor in known technology, and the infrared ray sending by reception human body judges personnel's existence, can be also other sensing devices such as such as radar.After human inductor 30 starts, can respond in room and whether have personnel to exist by human inductor 30.In addition, can detect the indoor environment temperature in the corresponding room of indoor set by Temperature Detector 40.It should be noted that, in order to prevent that personnel from frequently passing in and out, cause human inductor 30 sensing existence and do not existing between personnel and switch continually, and then control high frequent startup, cause the reliability decrease of air-conditioner, in embodiment more of the present utility model, judging that human inductor 30 senses when having personnel in room and continuing the first Preset Time, carry out subsequent control, wherein, the first Preset Time can arrange as the case may be again.If for example human inductor 30 senses that personnel exist and continue the first Preset Time more than, can be understood as, these personnel will carry out for example halfhour activity of long period in room, this Time Controller 50 can be controlled air-conditioner operation, be that controller 50 is controlled air-conditioner according to indoor environment temperature and target temperature, wherein, target temperature can arrange as the case may be, for example, can be understood as the comfortable temperature of human body sensory.

Further, in embodiment more of the present utility model, controller 50 is controlled air-conditioner according to indoor environment temperature and target temperature, particularly, for example, controller 50 compares indoor environment temperature and target temperature, if indoor environment temperature meets the first temperature conditions, controls air-conditioner and freezes.In a specific embodiment of the present utility model, the first temperature conditions meets:

T ₁>T _a, and t _s≤ t ₁-t _a, (1)

Wherein, t ₁for indoor environment temperature, T _abeing the first preset temperature, for example, can be 24-28 ℃, t _sfor target temperature, t _ait is the first default temperature difference.Be understandable that T _a, t _sand t _acan before controlling air-conditioner operation, arrange.

In addition, in embodiment more of the present utility model, controller 50 compares indoor environment temperature and target temperature, and in the time judging that indoor environment temperature meets the second temperature conditions, controller 50 is controlled air-conditioner and heated.In a specific embodiment of the present utility model, the second temperature conditions meets::

T ₁<T _b, and t _s>=t ₁+ t _b, (2)

Wherein, t ₁for indoor environment temperature, T _bbe the second preset temperature, t _sfor target temperature, t _bbe the second default temperature difference, the second preset temperature T _bbe less than the first preset temperature T _a, for example the second preset temperature T _bcan be 20-24 ℃.Be understandable that T _band t _bcan arrange as the case may be.

Further, controller 50, after according to the operation of indoor environment temperature and target temperature control air-conditioner, can control indoor set 20 at the Time Controller 50 that meets the following conditions and cut out and control air-conditioner standby.Particularly, for example, when in human inductor 30 continues more than the second Preset Time to respond to less than room, personnel exist, controller 50 can control indoor set 20 and cut out, can avoid not needing air-conditioner operation time, air-conditioner still moves the energy waste causing, wherein, the second Preset Time can be set as the case may be.For example reach target temperature at indoor environment temperature again, and human inductor 30 continues the above induction of the second Preset Time and exist less than personnel in room, controller 50 can control indoor set 20 and cuts out.

Be understandable that, when air-conditioner is one-to-one system, be off-premises station 10 while mating an indoor set 20, controller 50 can be controlled air-conditioner according to indoor environment temperature and the satisfied for example above-mentioned formula (1) of relation of target temperature or (2) and automatically move.And in practical application, for saving resource, also can use the air-conditioner of multi-connected machine system, in other words, an off-premises station 10 mates many indoor sets 20, many indoor sets 20 are positioned at different rooms, and the indoor environment temperature in different rooms may be different, there will be a part of indoor set 20 to heat demand, and another part indoor set 20 has refrigeration demand, likely there is the problem of the conflict of operating modes of air conditioner, in embodiment more of the present utility model, can control air-conditioner respectively for different multi-connected machine system controllers 50.

For example, for the air-conditioner of common multi-connected machine system, indoor set 20 is N platform, N platform indoor set 20 freezes simultaneously or heats control simultaneously, and every indoor set can arrange corresponding human inductor 30, more than judging that human inductor 30 senses that the room of m+n platform indoor set 20 correspondences exists personnel and continues the first Preset Time, wherein, if the indoor environment temperature in the corresponding room of m platform indoor set meets for example formula of refrigeration condition (1), and the indoor environment temperature in room corresponding to n platform indoor set meets and heats for example formula of condition (2), when basis sets in advance refrigeration or heats preferential pattern, carry out corresponding control, for example, when air-conditioner arranges refrigeration when preferential, controller 50 is first controlled m platform indoor set 20 and is freezed, after m platform indoor set 20 has freezed, controlling n platform indoor set 20 heats, when air-conditioner setting heats when preferential, controller 50 is first controlled n platform indoor set 20 and is heated, and after n platform indoor set 20 has heated, control m platform indoor set 20 and freeze, wherein, m+n≤N.Particularly, because an off-premises station 10 mates many indoor sets 20, the human inductor 30 that can arrange by every indoor set 20, detect in respective chambers machine 20 corresponding room in-scopes and whether have personnel activity, when having personnel to exist in human inductor 30 is responded to the room of current indoor set 20 correspondences and continuing the first Preset Time, controller 50 can be controlled the running status when platform indoor set 20.If judge that human inductor 30 senses that there is personnel activity in the room of many indoor sets 20 correspondences, controller 50 can be controlled according to above-mentioned satisfied formula the running status of every indoor set 20, namely control every indoor set 20 and freeze simultaneously, or heat simultaneously.But wherein for example m platform indoor set 20 of a part of indoor set 20 has refrigeration demand, and another part indoor set 20 is when for example n platform indoor set 20 heats demand, while there is pattern conflict, controller 50 can be controlled air-conditioner with a kind of mode operation, after meeting a kind of demand of pattern, then control air-conditioner with another kind of mode operation to meet the demand of another kind of pattern.For example off-premises station 10 receives the instruction of indoor set 20, off-premises station 10 can preferentially freeze, to meet the refrigeration demand of m platform indoor set 20, and after m platform indoor set 20 completes refrigeration, then switch to heating mode to meet the demand that heats of n platform indoor set 20.

In addition, for the multi-link system that can freeze, heat simultaneously, an off-premises station 10 mates many indoor sets 20, and many indoor sets 20 can heat simultaneously or freeze simultaneously, or the part part of freezing heats.For example N platform indoor set 20 can freeze respectively simultaneously or heat control, wherein, every indoor set 20 arranges corresponding human inductor 30, if the indoor environment temperature in m platform indoor set 20 corresponding rooms meets refrigeration condition, and the indoor environment temperature in room corresponding to n platform indoor set meets the condition that heats, control m platform indoor set and freeze, control n platform indoor set 20 simultaneously and heat.Particularly, because an off-premises station 10 mates many for example N platform indoor sets 20, the human inductor 30 that can arrange by every indoor set 20, detect in respective chambers machine 20 corresponding room in-scopes and whether have personnel activity, when having personnel to exist in human inductor 30 is responded to the room that current indoor set is corresponding and continuing the first Preset Time, controller 50 can be controlled the running status when platform indoor set 20.If judge that human inductor 30 senses that there is personnel activity in the room of many indoor sets 20 correspondences, controller 50 can be controlled according to meeting above-mentioned formula the running status of every indoor set 20.But wherein for example m platform indoor set 20 of a part heats demand, and another part is when for example n platform indoor set 20 has refrigeration demand, while there is pattern conflict, off-premises station 10 receives the instruction of indoor set 20, the m platform indoor set 20 that can control refrigeration demand serves as evaporimeter and completes refrigeration, there is the indoor set 20 of the demand of heating to serve as condenser to complete heating effect and control simultaneously, control many indoor sets 20 simultaneously and freeze respectively or heat thereby can realize.

In sum, the air-conditioner of the utility model embodiment, by controller judging that human inductor senses that room exists personnel and continues the first Preset Time when above, the operation of control air-conditioner, avoiding because of in forgetting and closing the energy waste that air-conditioning causes, can prevent to a certain extent causing air conditioner reliability to decline because of frequent discrepancy of personnel, can extend the service life of air-conditioner.And controller can move according to indoor environment temperature and the satisfied control air-conditioner that is related to of target temperature, and automatic decision freezes or heats demand, more intelligent.In addition, this air-conditioner is more energy-conservation, moves more reliable.

Each functional unit in each embodiment of the utility model can be integrated in a processing module, can be also that the independent physics of unit exists, and also can be integrated in a module two or more unit.Above-mentioned integrated module both can adopt the form of hardware to realize, and also can adopt the form of software function module to realize.If described integrated module realizes and during as production marketing independently or use, also can be stored in a computer read/write memory medium using the form of software function module.

The above-mentioned storage medium of mentioning can be read-only storage, disk or CD etc.

In the description of this description, the description of reference term " embodiment ", " some embodiment ", " example ", " concrete example " or " some examples " etc. means to be contained at least one embodiment of the present utility model or example in conjunction with specific features, structure, material or the feature of this embodiment or example description.In this manual, the schematic statement of above-mentioned term is not necessarily referred to identical embodiment or example.And specific features, structure, material or the feature of description can be with suitable mode combination in any one or more embodiment or example.

Although illustrated and described embodiment of the present utility model, for the ordinary skill in the art, be appreciated that in the situation that not departing from principle of the present utility model and spirit and can carry out multiple variation, modification, replacement and modification to these embodiment, scope of the present utility model is by claims and be equal to and limit.

Claims (10)

1. an air-conditioner, is characterized in that, comprising:

Off-premises station and the indoor set mating with described off-premises station;

The human inductor corresponding with described indoor set, for responding to the personnel in the corresponding room of described indoor set;

Temperature Detector, for detection of the indoor environment temperature in described room;

Controller, described controller exists for personnel in described human inductor senses described room and continues the first Preset Time when above, according to described indoor environment temperature and target temperature, air-conditioner is controlled.

2. air-conditioner as claimed in claim 1, is characterized in that, described controller, also for described indoor environment temperature and described target temperature are compared, if described indoor environment temperature meets the first temperature conditions, is controlled described air-conditioner and freezed.

3. air-conditioner as claimed in claim 2, is characterized in that, described the first temperature conditions meets:

T ₁>T _a, and t _s≤ t ₁-t _a

Wherein, t ₁for described indoor environment temperature, T _abe the first preset temperature, t _sfor described target temperature, t _ait is the first default temperature difference.

4. air-conditioner as claimed in claim 1, is characterized in that, described controller also, in the time judging that described indoor environment temperature meets the second temperature conditions, is controlled described air-conditioner and heated.

5. air-conditioner as claimed in claim 4, is characterized in that, described the second temperature conditions meets:

T ₁<T _b, and t _s>=t ₁+ t _b

Wherein, t ₁for described indoor environment temperature, T _bbe the second preset temperature, t _sfor described target temperature, t _bbe the second default temperature difference, described the second preset temperature T _bbe less than described the first preset temperature T _a.

6. the air-conditioner as described in claim 2 or 4, is characterized in that, when described controller also exists for personnel in responding to less than described room more than described human inductor continues the second Preset Time, controls described indoor set and closes.

7. the air-conditioner as described in claim 2 or 4, it is characterized in that, described controller is also for reaching described target temperature at described indoor environment temperature, and the above induction of lasting the second Preset Time of described human inductor is less than personnel's existence in described room, controls described indoor set and closes.

8. the air-conditioner as described in claim 2 or 4, it is characterized in that, described indoor set is N platform, and every indoor set arranges corresponding described human inductor, described controller is also for more than judging that described human inductor senses that room corresponding to m+n platform indoor set exists personnel and continue described the first Preset Time, if the indoor environment temperature in the corresponding room of m platform indoor set meets refrigeration condition, the indoor environment temperature in the room that n platform indoor set is corresponding meets the condition that heats, according to the preset mode of described air-conditioner, described m platform indoor set and described n platform indoor set are controlled respectively, wherein, m+n≤N.

9. air-conditioner as claimed in claim 8, is characterized in that,

When described air-conditioner arranges refrigeration when preferential, described controller is first controlled described m platform indoor set and is freezed, and after described m platform indoor set has freezed, controls described n platform indoor set and heats;

When described air-conditioner setting heats when preferential, described controller is first controlled described n platform indoor set and is heated, and after described n platform indoor set has heated, controls described m platform indoor set and freezes.

10. the air-conditioner as described in claim 2 or 4, it is characterized in that, described indoor set is N platform, and every indoor set arranges corresponding described human inductor, described controller is also for more than judging that described human inductor senses that room corresponding to m+n platform indoor set exists personnel and continue described the first Preset Time, if the corresponding room of m platform indoor set indoor environment temperature meet refrigeration condition, the indoor environment temperature in the room that n platform indoor set is corresponding meets while heating condition, controlling described m platform indoor set freezes, control described n platform indoor set heats simultaneously, wherein m+n≤N.

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