CN205335949U - Indoor unit and air conditioner - Google Patents

Abstract

The utility model discloses an indoor unit and air conditioner, this indoor set include fan subassembly, conductor, power supply handle circuit, magnet and the interface that charges, and on the pivot of fan subassembly was located to this conductor or magnet, in the magnetic field range of magnet was arranged in to this conductor part or whole, fan subassembly rotating band moving -conductor or magnet rotated to make conductor cut magnetic's magnetism feel the line and produce induced -current, the conductor both ends are connected with the input of power supply handle circuit, and the power supply handle circuit is used for carrying out the power management with the induced -current that the conductor produced to mains voltage is predetermine in output through the power supply handle circuit correspondingly, the interface that should charge is connected with the output electricity of power supply handle circuit, can directly charge for external equipment. The utility model discloses battery leakage's corrosion problems can be solved futilely and change the battery repeatedly the environmental pollution problem of bringing to the indoor set, and it can charge and energy -concerving and environment -protective indoor set for the remote controller to provide one kind.

Description

Indoor set and air-conditioner

Technical field

This utility model relates to air-conditioner technical field, particularly to a kind of indoor set and air-conditioner。

Background technology

Existing electronic equipment such as remote controller etc. is both needed to use battery for its power supply, if using dry cell power supply, user needs repeatedly to change battery, simultaneously, inevitably there will be the phenomenon of leakage, the electrode even circuit board of corrosion remote controller after aneroid battery life-time service, cause that remote controller lost efficacy；If using rechargeable battery powered, then need to be repeatedly performed dismounting and it needs to individually mate charger for it, cause a lot of trouble for user, it is important that the energy is all caused great waste by both the above power supply mode。

And popularizing along with domestic electronic appliances, air-conditioner is as domestic electronic appliances used in everyday, and when its indoor set runs, fan assembly is constantly in rotary state, and this fan assembly is rotated produced kinetic energy and also fails to be used by existing indoor set。

Utility model content

Main purpose of the present utility model is to provide a kind of indoor set, it is intended to solve the problems referred to above, it is provided that a kind of can be charged for electronic equipment and the indoor set of energy-conserving and environment-protective。

For achieving the above object, the indoor set that this utility model provides includes fan assembly, conductor, power supply processing circuit, Magnet and charging inlet, described conductor or described Magnet are located in the rotating shaft of described fan assembly, described conductor part or in being all placed in the magnetic field range of described Magnet, described fan assembly rotates and drives described conductor or described magnet rotors, so that described conductor cuts the magnetic induction line in described magnetic field and produces faradic current；Described conductor two ends are connected with the input of described power supply processing circuit, and described power supply processing circuit carries out power management for the faradic current produced by described conductor, and presets supply voltage accordingly by the outfan output of described power supply processing circuit；Described charging inlet electrically connects with the outfan of described power supply processing circuit, for being charged for external equipment。

Preferably, the rotating shaft of described fan assembly is fixing with described Magnet is connected。

Preferably, described Magnet is axially symmetric structure, and described Magnet is fixed along axis of symmetry and described rotating shaft；The cross section along axis of symmetry of described Magnet is strip and two ends have protuberance, and described protuberance extends to deviating from described fan assembly direction and is oppositely arranged；Described protuberance and described rotating shaft form a groove, and described conductor is placed in described groove and near protuberance described in any one end。

Preferably, described indoor set also includes for storing the accumulator of electricity produced by described conductor, and the electricity input of described accumulator electrically connects with described charging inlet, and described accumulator is externally provided with the charging contact for charging for charging equipment。

Preferably, described indoor set also includes electric quantity monitoring circuit, the first switch and master control borad, the test side of described electric quantity monitoring circuit is connected with described accumulator, the outfan of described electric quantity monitoring circuit is connected with an input of described master control borad, and the first of described master control borad controls end and be connected with the controlled end of described first switch；Described first switch is electrically connected between described conductor and described power supply processing circuit, or described first switch is electrically connected between described power supply processing circuit and described accumulator；Described master control borad controls the opening/closing of described first switch for the battery electric quantity signal according to operation of air conditioner signal and described electric quantity monitoring electronic feedback。

Preferably, described indoor set also includes second switch, the power end of described master control borad accesses indoor set power supply, the power output end of described master control borad is connected with the input of described second switch, the outfan of described second switch is connected with described accumulator, and the controlled end of described second switch controls end with the second of described master control borad and is connected；Described master control borad controls the opening/closing of described second switch for the battery electric quantity signal according to described electric quantity monitoring electronic feedback。

Preferably, described charging inlet is charging terminal or charging contact。

Preferably, described indoor set also includes shell, described shell is provided with the storage tank for loading charging equipment, described charging terminal or described charging contact expose to described storage tank, when described charging equipment is loaded in described storage tank, the charging inlet of charging equipment is connected with described charging terminal, and described indoor function is the charging of described charging equipment。

This utility model also proposes a kind of air-conditioner, this air-conditioner includes indoor set and remote controller, wherein, described indoor set includes fan assembly, conductor, power supply processing circuit and Magnet, described conductor or described Magnet are located in the rotating shaft of described fan assembly, described conductor part or in being all placed in the magnetic field range of described Magnet, described fan assembly rotates and drives described conductor or described magnet rotors, so that described conductor cuts the magnetic induction line in described magnetic field and produces faradic current；Described conductor two ends are connected with the input of described power supply processing circuit, and described power supply processing circuit carries out power management for the faradic current produced by described conductor, and presets supply voltage accordingly by the outfan output of described power supply processing circuit；Described remote controller includes rechargeable battery and the charging inlet electrically connected with described rechargeable battery；Described charging inlet is connected adaptation with the outfan of the power supply processing circuit of described indoor set。

Preferably, described charging inlet is the connecting terminal that the charging contact with described indoor set matches。

Technical solutions of the utility model by setting up conductor or Magnet in the rotating shaft of indoor machine wind thermomechanical components, and by described conductor part or in being all placed in the magnetic field range of described Magnet, when described fan assembly rotates, described fan assembly rotates and drives described conductor or described magnet rotors, so that described conductor cuts the magnetic induction line in described magnetic field and produces faradic current, simultaneously, it is additionally provided with the faradic current for being produced by described conductor and carries out rectification the power supply processing circuit making its voltage stabilizing export, exported by the outfan of described power supply processing circuit and preset supply voltage accordingly, can be charged for charging equipment, this charging modes is not only convenient and swift and energy-conserving and environment-protective。

Accompanying drawing explanation

In order to be illustrated more clearly that this utility model embodiment or technical scheme of the prior art, the accompanying drawing used required in embodiment or description of the prior art will be briefly described below, apparently, accompanying drawing in the following describes is only embodiments more of the present utility model, for those of ordinary skill in the art, under the premise not paying creative work, it is also possible to the structure according to these accompanying drawings obtains other accompanying drawing。

Fig. 1 is the schematic diagram of this utility model indoor set preferred embodiment, wherein, along the axial direction of fan assembly, fan assembly and Magnet has been carried out section view；

Fig. 2 is the charging flow schematic diagram of indoor set in Fig. 1；

Fig. 3 is the structural representation of indoor set storage tank in Fig. 1；

Fig. 4 is the structural representation of this utility model remote controller。

Drawing reference numeral illustrates:

The realization of this utility model purpose, functional characteristics and advantage will in conjunction with the embodiments, are described further with reference to accompanying drawing。

Detailed description of the invention

Below in conjunction with the accompanying drawing in this utility model embodiment, the technical scheme in this utility model embodiment is clearly and completely described, it is clear that described embodiment is only a part of embodiment of the present utility model, rather than whole embodiments。Based on the embodiment in this utility model, the every other embodiment that those of ordinary skill in the art obtain under not making creative work premise, broadly fall into the scope of this utility model protection。

Need explanation, in this utility model embodiment, directional instruction (such as up, down, left, right, before and after ...) is only for explaining relative position relation between each parts, motion conditions etc. under a certain particular pose (as shown in drawings), if this particular pose changes, then directionality instruction also correspondingly changes therewith。

It addition, relate to the description of " first ", " second " etc. in this utility model only for descriptive purposes, and it is not intended that instruction or imply its relative importance or the implicit quantity indicating indicated technical characteristic。Thus, define " first ", the feature of " second " can express or implicitly include at least one this feature。Additionally; technical scheme between each embodiment can be combined with each other; but must be based on those of ordinary skill in the art are capable of; when technical scheme combination occur conflicting maybe cannot realize time will be understood that the combination of this technical scheme is absent from, also not this utility model require protection domain within。

The utility model proposes a kind of indoor set 100。

Fig. 1 is the schematic diagram of this utility model indoor set preferred embodiment, wherein, along the axial direction of fan assembly, fan assembly and Magnet has been carried out section view。

In this utility model embodiment, as shown in Figure 1, described indoor set 100 includes fan assembly 110, conductor 120, power supply processing circuit 130, Magnet 140 and charging inlet, described Magnet 140 is located in the rotating shaft 111 of described fan assembly 110, described conductor 120 is partly or entirely placed in the magnetic field range of described Magnet 140, described fan assembly 110 rotates and drives described Magnet 140 to rotate, so that described conductor 120 cuts the magnetic induction line in described magnetic field and produces faradic current；Described conductor 120 two ends are connected with the input of described power supply processing circuit 130, described power supply processing circuit 130 for carrying out power management by the faradic current that described conductor 120 produces, and presets supply voltage accordingly by the outfan output of described power supply processing circuit 130；Described charging inlet electrically connects with the outfan of described power supply processing circuit 130, for being charged for external equipment。This utility model is not limiting as the concrete form of described charging inlet, and described charging inlet can be charging socket, charging terminal 131a or charging contact, and in the present embodiment, described charging inlet is charging terminal 131a。

Simultaneously, this utility model is it is also possible that state conductor 120 and be located in the rotating shaft 111 of described fan assembly 110, described conductor 120 is partly or entirely placed in the magnetic field range of described Magnet 140, described fan assembly 110 rotates and drives described conductor 120 to rotate, and described conductor 120 can be made equally to cut the magnetic induction line in described magnetic field and produce faradic current。

In the present embodiment, conductor 120 can adopt wire coil or other metallic conducting media to realize。The faradic current that conductor 120 produces can be carried out rectification, filtering, voltage conversion etc. and process by power supply processing circuit 130。Wherein, power supply processing circuit 130 exports after the faradic current formed on conductor 120 is converted to default supply voltage, can be used as Rechargeable remote controller, miniaturized electronics etc. and is charged。

Technical solutions of the utility model by setting up conductor 120 or Magnet 140 in the rotating shaft 111 of the fan assembly 110 of indoor set 100, and described conductor 120 is partly or entirely placed in the magnetic field range of described Magnet 140, when described fan assembly 110 rotates, described fan assembly 110 rotates and drives described conductor 120 or described Magnet 140 to rotate, so that described conductor 120 cuts the magnetic induction line in described magnetic field and produces faradic current, simultaneously, it is additionally provided with for the faradic current that described conductor 120 produces being carried out rectification the power supply processing circuit 130 making its voltage stabilizing export, supply voltage is preset accordingly by described charging terminal 131a output, can be charged for charging equipment, this charging modes is not only convenient and swift and energy-conserving and environment-protective。

It should be noted that above-described embodiment preferably employs the embodiment of the rotating shaft 111 that Magnet 140 is arranged on fan assembly 110, as shown in Figure 1。Described Magnet 140 is axially symmetric structure, and described Magnet 140 is fixed along axis of symmetry with described rotating shaft 111；The cross section along axis of symmetry of described Magnet 140 is strip and two ends have protuberance (not shown), and described protuberance extends to deviating from described fan assembly direction and is oppositely arranged；Described protuberance and described rotating shaft form a groove (not shown), and described conductor 120 is placed in described groove and near protuberance described in any one end。So, conductor 120 is conveniently set, only conductor 120 need to be placed in the purpose reaching to cut its magnetic induction line in the magnetic field range of Magnet 140, and noiseless between the two, structure is relatively simple。

Preferably, as it is shown in figure 1, described indoor set 100 also includes accumulator 150, the electricity input of described accumulator 150 electrically connects with described charging terminal 131a, and meanwhile, described accumulator 150 is externally provided with the charging contact 131b for charging for charging equipment；Described accumulator 150 is for storing the electricity that the sensing of described conductor 120 cutting magnetic field line produces, when charging equipment is not required to charge, electricity produced by described conductor 120 can be stored, it is to avoid while waste, moreover it is possible to ensure that described indoor set 100 can charge for charging equipment at any time。

Preferably, as shown in Figure 1, described indoor set 100 also includes electric quantity monitoring circuit 160, first and switchs 171 and master control borad 170, the test side of described electric quantity monitoring circuit 160 is connected with described accumulator 150, the outfan of described electric quantity monitoring circuit 160 is connected with an input of described master control borad 170, and the first of described master control borad 170 controls end and be connected with the controlled end of described first switch 171；Described first switch 171 is electrically connected between described conductor 120 and described power supply processing circuit 130, or described first switch 171 is electrically connected between described power supply processing circuit 130 and described accumulator 150；The outfan of described first switch 171 is connected with described accumulator 150；Described master control borad 170 controls the opening/closing of described first switch for the battery electric quantity signal fed back according to operation of air conditioner signal and described electric quantity monitoring circuit 160。

Concrete, when described indoor set 100 is in running status, described master control borad 170 controls described first switch 171 disconnection, and described conductor 120 cannot close formation loop, is formed without faradic current and described accumulator 150 is charged；When described indoor set 100 receive stopping signal be in stopped status or be in holding state owing to indoor temperature reaches design temperature time; described first switch 171 Guan Bi; described fan assembly 110 drives described Magnet 140 to rotate for effect of inertia, and described conductor 120 forms faradic current and described accumulator 150 is charged。

Concrete, the actual electricity of described accumulator 150 is defined as V, be full of time charge value be Vm, it is Vs by limit low value presetting for described master control borad 170, described electric quantity monitoring circuit 160 detects that the actual charge value of accumulator 150 is V, when the electricity V of described accumulator 150 reaches Vm, described first switch 171 disconnection, described accumulator 150 is not charged by described conductor 120, it is to avoid accumulator 150 overcharges and causes damaging。Above-mentioned design; can make fan assembly 110 only when indoor set 100 is in stopped status or holding state and V less than Vm; described first switch Guan Bi; to make described conductor 120 Guan Bi form loop formation faradic current, described accumulator 150 is charged; such that it is able to reclaim the energy that when fan assembly 110 stopped status or holding state, inertia rotates, while energy-conserving and environment-protective, also it is avoided that the effect affected when described indoor set 100 runs。

Preferably, as shown in Figure 1, described indoor set 100 also includes second switch 172, the power end of described master control borad 170 accesses the power supply of indoor set 100, the power output end of described master control borad 170 is connected with the input of described second switch 172, the outfan of described second switch 172 is connected with described accumulator 150, and the controlled end of described second switch 172 controls end with the second of described master control borad 170 and is connected；Described master control borad 170 is for controlling the opening/closing of described second switch 172 according to the battery electric quantity signal of described electric quantity monitoring circuit 160 feedback。

Described electric quantity monitoring circuit 160 is timely by the actual charge value V feedback of the accumulator 150 detected to described master control borad 170, described electricity V and Vs, Vm will be contrasted by the predefined program of described master control borad 170 automatically, only when V is < during Vs and when needing charger is charged, described master control borad 170 controls described second switch 172 and closes, and described accumulator 150 is carried out quick charge by described master control borad 170。When the electricity V of described accumulator 150 reaches Vm or when described accumulator 150 does not need outside equipment charge, described second switch 172 disconnects, and described accumulator 150 is not charged by described master control borad 170, it is to avoid accumulator 150 overcharges and causes damaging。

In conjunction with above-described embodiment and Fig. 2, wherein, Fig. 2 is the charging flow schematic diagram for the indoor set shown in Fig. 1, below the charging control mode of indoor set is described in detail:

S1: electricity supervisory circuit 160 monitors the real time electrical quantity V of accumulator 150；

S2: the electricity V-value data of accumulator 150 are transferred to master control borad 170 by electricity supervisory circuit 160；

S3: master control borad 170 judges whether the real time electrical quantity V of accumulator 150 meets V < Vs and accumulator 150 is in discharge condition？If so, step S4 is jumped into；If it is not, jump into step S5；

S4: second switch 172 closes, accumulator is charged by master control borad 170；

S5: master control borad 170 continues to judge whether the real time electrical quantity V of accumulator 150 meets V < Vm？If so, step S6 is jumped into, if it is not, jump into step S9；

S6: second switch disconnects；

S7: master control borad continues to judge whether indoor set 100 runs, and if so, jumps into step S8, if it is not, jump into step S9；

S8: the first switch 171 Guan Bi, accumulator 150 is charged by conductor 120 cutting magnetic induction line；

S9: the first switch 171 disconnection, conductor 120 and/or power supply processing circuit 130 are formed without closed-loop path, accumulator are not charged。

Preferably, as it is shown on figure 3, wherein, Fig. 3 is the structural representation of indoor set storage tank in Fig. 1。Described indoor set 100 also includes shell 180, described shell 180 is provided with the storage tank 181 for loading charging equipment, the charging contact 131b of described accumulator exposes to described storage tank 181, when described charging equipment is loaded in described storage tank 181, the connecting terminal 220 of charging equipment is connected with described charging contact 131b, described indoor set 100 can be the charging of described charging equipment, above-mentioned design can simplify the operating process of charging, also provides a place placed for charging equipment simultaneously。

This utility model also proposes a kind of air-conditioner, this air-conditioner include indoor set 100, remote controller 200 and with the described matching used off-premises station of indoor set 100, the concrete structure of this indoor set 100 is with reference to above-described embodiment, owing to this air-conditioner have employed whole technical schemes of above-mentioned all embodiments, therefore at least having all beneficial effects that the technical scheme of above-described embodiment is brought, this is no longer going to repeat them。

Wherein, as shown in Figure 4, Fig. 4 is the structural representation of this utility model remote controller, and described remote controller includes rechargeable battery 210 and the connecting terminal 220 electrically connected with described rechargeable battery 210；Described connecting terminal 220 is connected adaptation with the charging contact 131b of described indoor set 100。

Described connecting terminal 220 with leak outside when the charging contact 131b of described storage tank 181 is in connection status, can charge for described rechargeable battery 210。

The foregoing is only preferred embodiment of the present utility model; not thereby the scope of the claims of the present utility model is limited; every under inventive concept of the present utility model; utilize the equivalent structure transformation that this utility model description and accompanying drawing content are made, or directly/be indirectly used in other relevant technical fields and be included in scope of patent protection of the present utility model。

Claims (10)

1. an indoor set, it is characterized in that, described indoor set includes fan assembly, conductor, power supply processing circuit, Magnet and charging inlet, described conductor or described Magnet are located in the rotating shaft of described fan assembly, described conductor part or in being all placed in the magnetic field range of described Magnet, described fan assembly rotates and drives described conductor or described magnet rotors, so that described conductor cuts the magnetic induction line in described magnetic field and produces faradic current；Described conductor two ends are connected with the input of described power supply processing circuit, and described power supply processing circuit carries out power management for the faradic current produced by described conductor, and presets supply voltage accordingly by the outfan output of described power supply processing circuit；Described charging inlet electrically connects with the outfan of described power supply processing circuit, for being charged for external equipment。

2. indoor set as claimed in claim 1, it is characterised in that the rotating shaft of described fan assembly is fixing with described Magnet to be connected。

3. indoor set as claimed in claim 2, it is characterised in that described Magnet is axially symmetric structure, and described Magnet is fixed along axis of symmetry and described rotating shaft；The cross section along axis of symmetry of described Magnet is strip and two ends have protuberance, and described protuberance extends to deviating from described fan assembly direction and is oppositely arranged；Described protuberance and described rotating shaft form a groove, and described conductor is placed in described groove and near protuberance described in any one end。

4. indoor set as claimed in claim 3, it is characterized in that, described indoor set also includes for storing the accumulator of electricity produced by described conductor, and the electricity input of described accumulator electrically connects with described charging inlet, and described accumulator is externally provided with the charging contact for charging for charging equipment。

5. indoor set as claimed in claim 4, it is characterized in that, described indoor set also includes electric quantity monitoring circuit, the first switch and master control borad, the test side of described electric quantity monitoring circuit is connected with described accumulator, the outfan of described electric quantity monitoring circuit is connected with an input of described master control borad, and the first of described master control borad controls end and be connected with the controlled end of described first switch；Described first switch is electrically connected between described conductor and described power supply processing circuit, or described first switch is electrically connected between described power supply processing circuit and described accumulator；Described master control borad controls the opening/closing of described first switch for the battery electric quantity signal according to operation of air conditioner signal and described electric quantity monitoring electronic feedback。

6. indoor set as claimed in claim 5, it is characterized in that, described indoor set also includes second switch, the power end of described master control borad accesses indoor set power supply, the power output end of described master control borad is connected with the input of described second switch, the outfan of described second switch is connected with described accumulator, and the controlled end of described second switch controls end with the second of described master control borad and is connected；Described master control borad controls the opening/closing of described second switch for the battery electric quantity signal according to described electric quantity monitoring electronic feedback。

7. the indoor set as described in claim 1 to 6 any one, it is characterised in that described charging inlet is charging terminal or charging contact。

8. indoor set as claimed in claim 7, it is characterized in that, described indoor set also includes shell, described shell is provided with the storage tank for loading charging equipment, described charging terminal or described charging contact are located in described storage tank, when described charging equipment is loaded in described storage tank, the charging inlet of described charging equipment is connected with described charging terminal or described charging contact, to be charged。

9. an air-conditioner, it is characterised in that include remote controller and the indoor set as described in any one of claim 1-8；Described remote controller includes rechargeable battery and the charging inlet electrically connected with described rechargeable battery；Described charging inlet is connected adaptation with the outfan of the power supply processing circuit of described indoor set。

10. air-conditioner as claimed in claim 9, it is characterised in that described charging inlet is the connecting terminal that the charging contact with described indoor set matches。