CN102474676B

CN102474676B - Remote controller

Info

Publication number: CN102474676B
Application number: CN201080036670.9A
Authority: CN
Inventors: 上田贵郎; 寺内英树; 吉田幸男; 桥本浩之
Original assignee: Hitachi Appliances Inc
Current assignee: Hitachi Johnson Controls Air Conditioning Inc; Hitachi Global Life Solutions Inc
Priority date: 2009-09-09
Filing date: 2010-02-19
Publication date: 2015-10-14
Anticipated expiration: 2030-02-19
Also published as: TWI459682B; JP5135309B2; KR20120048637A; TW201119183A; CN102474676A; WO2011030574A1; JP2011061467A; KR101396757B1

Abstract

The present invention relates to remote controller.When using universal battery (33), the battery diverter switch (20) that remote controller possesses is by slide switch (20a) splicing ear (a) and terminal (b), and splicing ear (d) terminal (e).Due to splicing ear (d) and terminal (e), so can to the electric power of microcomputer (30) supply from universal battery (33).Now, because terminal (a) is connected with terminal (b), solar cell (12) becomes the state be not connected with microcomputer (30), terminal (f) becomes unconnected state, and lithium primary battery (32) also becomes the state be not connected with microcomputer (30).Its result, solar cell (12) and lithium primary battery (32) completely cut-off to the connection of microcomputer (30).

Description

Remote controller

Technical field

The present invention relates to the remote controller of the wireless mode of operating electronic equipment.

Background technology

In recent years, in order to operating electronic equipment, mostly make remote controller wirelessly.

In the battery that this remote controller uses, as the method for extending effective life, once propose the universal battery not using alkaline manganese battery etc., but use the scheme that can obtain the lithium primary battery of larger current capacity.And propose lift-launch solar panel (solar cell), solar energy is transformed into electric energy to carry out the auxiliary technology of electric power.

Disclose following technology: when having carried the battery being difficult to replacing as lithium primary battery, reduce to suppress the convenience of availability reduction or user, the technology (such as, patent documentation 1, patent documentation 2) of the universal battery using alkaline manganese battery etc. can also be replaced.

Patent documentation 1 discloses following technology: in portable phone, carries the supply that chargeable secondary cell carries out electric power, but is being difficult under the environment carrying out charging, just can Emergency use on private jack by being mounted in by alkaline primary battery.Further, alkaline primary battery is arranged to the diode of the adverse current for preventing the electric current from secondary cell.

Patent documentation 2 discloses as follows about the technology of electronic equipment: will the secondary cell of rechargeable solar battery be utilized as main driving power, when the secondary cell as this main driving power occurs that battery supply interrupts (cutting れ), assemble removably external cell, can use as process auxiliary drive source.

In recent years, due to the raising of environmental consciousness, the product that the availability of the function of the effective life that the lift-launch of the battery requiring remote controller to use extends is high.

In patent documentation 1, carry chargeable secondary cell, can not carry out can carrying alkaline primary battery under the environment charged, thus have not by the function about the environment that uses.But the charging times of secondary cell has boundary, when reaching the boundary of charging times, secondary cell must be changed.In addition, prevent with regard to countercurrent method with regard to what employ diode, owing to there is not the diode do not leaked completely, the therefore long-time allowance likely exceeding charging current when using with this state.

In patent documentation 2, consider the following state of affairs: when causing battery supply to interrupt in the secondary cell overdischarge by rechargeable solar battery, load external cell, use switch that external cell is connected to Emergency use on circuit, but owing to using by the secondary cell of rechargeable solar battery on main driving power, therefore must there is the overdischarge that fully cannot obtain the secondary cell of the situation of the energy output of solar cell, so-called battery supply interrupts, equipment can not be used continually.This occasion, although can use external cell Emergency use, must connect external cell continually.

In addition, when the usage frequency of electronic equipment is many, under the indoor conditions that the energy output that cannot fully obtain employing solar cell is such, the occasion that also energy output of dynamical mean sun energy battery is always not enough, this occasion, from initial to finally, namely in whole use procedures of electronic equipment, repeatedly change universal battery and use.While making troubles to user thus, also become the disadvantageous state of affairs of environment.In addition, secondary cell due to the guarantee storing effect and discharge and recharge number of times shorter, therefore, along with the use of equipment, the increase of the usage frequency of external cell can be encouraged.

Further, in patent documentation 2, few at the usage frequency of electronic equipment, in the sufficient situation of energy output of solar cell, although do not need to load external cell within the long time, there is the situation using the frequency of diverter switch also to tail off.This situation, although depend on the environment for use of electronic equipment, but consider following possibility: such as many at moisture, the special area many at salinities such as coastal areas, get rusty easily, auxiliarily using once want to load external cell, contact because getting rusty contact bad, can not electronic equipment be used.

Prior art document

Patent documentation

Patent documentation 1: patent No. 3642769 publication

Patent documentation 2: Japanese Unexamined Patent Publication 4-325840 publication

Summary of the invention

Invent problem to be solved

As mentioned above, in the battery that remote controller uses, in order to extend effective life, there is the built-in method obtaining the universal battery such as lithium primary battery alkaline battery instead of built-in alkaline manganese battery of larger current capacity.

But, there is following problem: the situation of built-in lithium primary battery is difficult to change as mentioned above, needs the long life realizing effective life, and need can replace using the mechanism for the universal battery suppressing the convenience of user to decline.

The invention solves above-mentioned existing problem, the object of the present invention is to provide a kind of long life realizing the effective life of built-in primary cell, and the replacement possessing universal battery uses the remote controller of mechanism.

For solving the method for problem

In order to solve above-mentioned problem, the present invention at built-in primary cell, possess with this primary cell and solar cell remote controller in, it is characterized in that possessing: universal battery is inserted into the insertion mechanism in above-mentioned remote controller; And above-mentioned primary cell and above-mentioned solar cell are switched to the battery switching mechanism of above-mentioned universal battery.

In addition, the present invention at built-in primary cell, possess with this primary cell and solar cell remote controller in, it is characterized in that possessing: the indication mechanism showing the content of operation of above-mentioned remote controller; And controlling organization, this controlling organization in untapped situation, carrying out the control changed to standby mode, when being converted to this standby mode, carrying out the control of the display stopping above-mentioned indication mechanism during above-mentioned remote controller is predetermined.

In addition, the present invention is at built-in primary cell, possess with this primary cell and solar cell remote controller in, it is characterized in that, possesses the insertion mechanism be inserted into by universal battery in above-mentioned remote controller, during above-mentioned primary cell overdischarge, cut off the second power supply circuit that the first power supply circuit that above-mentioned primary cell connects is connected with above-mentioned solar cell, connect the 3rd power supply circuit that the universal battery be inserted in above-mentioned insertion mechanism connects.

A kind of remote controller of the present invention, built-in lithium primary battery, possess with above-mentioned lithium primary battery and solar cell, it is characterized in that possessing: universal battery is inserted into the insertion mechanism in above-mentioned remote controller; Above-mentioned lithium primary battery and above-mentioned solar cell are switched to the battery switching mechanism of above-mentioned universal battery; Control the controlling organization of above-mentioned remote controller; And the diode OR circuit to be made up of the first diode and the second diode, above-mentioned lithium primary battery is connected with above-mentioned controlling organization by above-mentioned first diode, above-mentioned solar cell is connected with above-mentioned controlling organization by above-mentioned second diode, above-mentioned battery switching mechanism, when above-mentioned lithium primary battery and above-mentioned solar cell are switched to above-mentioned universal battery, cuts off the connection of above-mentioned lithium primary battery and above-mentioned solar cell.

Selectable, above-mentioned insertion mechanism is the battery socket that can insert above-mentioned universal battery.

Selectable, above-mentioned battery switching mechanism is the switch above-mentioned lithium primary battery and above-mentioned solar cell being switched to above-mentioned universal battery.

Selectable, above-mentioned battery switching mechanism is the switch that the second power supply circuit that the first power supply circuit connected by above-mentioned lithium primary battery is connected with solar cell is switched to the 3rd power supply circuit that above-mentioned universal battery connects.

Selectable, above-mentioned battery switching mechanism is the double circuit double contact switch simultaneously cutting off the second power supply circuit that the first power supply circuit that above-mentioned lithium primary battery connects is connected with above-mentioned solar cell.

Selectable, near above-mentioned insertion mechanism, be provided with above-mentioned battery switching mechanism.

Selectable, above-mentioned lithium primary battery and above-mentioned solar cell, when above-mentioned universal battery is inserted in above-mentioned insertion mechanism, are switched to above-mentioned universal battery by above-mentioned battery switching mechanism.

Selectable, above-mentioned lithium primary battery and above-mentioned solar cell, when above-mentioned universal battery is inserted in above-mentioned insertion mechanism, are forcibly switched to above-mentioned universal battery by above-mentioned battery switching mechanism.

Selectable, be provided with when above-mentioned universal battery is inserted in above-mentioned insertion mechanism, impel the mechanism of the using method noted when using above-mentioned universal battery.

Selectable, possess: the indication mechanism showing the content of operation of above-mentioned remote controller; Above-mentioned controlling organization in untapped situation, carrying out the control changed to standby mode, when being converted to this standby mode, carrying out the control of the display stopping above-mentioned indication mechanism during above-mentioned remote controller is predetermined.

Selectable, the contact of above-mentioned switch uses golden contact.

A kind of remote controller, built-in primary cell, possess with this primary cell and solar cell, possess: universal battery is inserted into the insertion mechanism in above-mentioned remote controller, control the controlling organization of above-mentioned remote controller, and the diode OR circuit to be made up of the first diode and the second diode, above-mentioned lithium primary battery is connected with above-mentioned controlling organization by above-mentioned first diode, above-mentioned solar cell is connected with above-mentioned controlling organization by above-mentioned second diode, during above-mentioned primary cell overdischarge, cut off the second power supply circuit that the first power supply circuit that above-mentioned primary cell connects is connected with above-mentioned solar cell, connect the 3rd power supply circuit that the universal battery be inserted in above-mentioned insertion mechanism connects.

According to the present invention, possess the insertion mechanism inserting universal battery, replace the built-in primary cell being difficult to change, thus the state becoming akinesia because battery supply interrupts can be avoided, improve availability.

In addition, stop the display of indication mechanism when standby mode, thus the load current of built-in primary cell can be alleviated, realize the long life of the effective life of primary cell.

In addition, when being switched to universal battery from primary cell and solar cell, by cutting off the connection of primary cell and solar cell, the charging current flowing to universal battery can be prevented.

Effect of the present invention is as follows.

The present invention can provide the effective life long life realizing built-in primary cell, and the replacement possessing universal battery uses the remote controller of mechanism.

Accompanying drawing explanation

Fig. 1 is the figure of the surface structure representing the air conditioner that the remote controller of present embodiment controls.

Fig. 2 is the front view of the outward appearance representing remote controller.

Fig. 3 is the rearview of the outward appearance representing remote controller.

Fig. 4 is the end view of the outward appearance representing remote controller.

Fig. 5 is the sectional view representing remote controller.

Fig. 6 is the figure of the battery socket representing remote controller.

Fig. 7 is the figure of the structure of the transmission and reception unit representing remote controller.

Fig. 8 is the circuit diagram of the control structure representing remote controller.

Fig. 9 is the figure of the circuit structure representing battery diverter switch and periphery.

Figure 10 is the figure of the circuit structure representing battery diverter switch and periphery.

Figure 11 is the figure of the circuit structure represented as comparative example.

Embodiment

Be described in detail referring to the remote controller of accompanying drawing to embodiments of the present invention.

Fig. 1 is the figure of the surface structure representing the air conditioner that the remote controller of present embodiment controls.Air conditioner 1 connects indoor set 2 and off-premises station 3 by connecting pipings 4 and forms, and carries out air conditioning to indoor.The bottom right-hand member shown in bottom right on the figure of indoor set 2, is provided with the indoor transmission and reception unit 7 received from the ultrared operation signal of the remote controller 5 of split.Namely, remote controller 5 can carry out the operation of air conditioner 1 by the indoor transmission and reception unit 7 on machine 2 disposed in the interior.

The explanation > of < remote controller

Secondly, the overall structure of Fig. 2 to Fig. 7 to the remote controller 5 of present embodiment is used to be described.Fig. 2 is the front view of the outward appearance representing remote controller 5.Fig. 3 is the rearview of the outward appearance representing remote controller 5.Fig. 4 is the end view of the outward appearance representing remote controller 5.Fig. 5 is the sectional view of remote controller 5.Fig. 6 is the figure of the battery socket representing remote controller 5.Fig. 7 is the figure of the structure of the transmission and reception unit representing remote controller 5.

As shown in Figure 2, remote controller 5 possesses: for carrying out the action button 10 of operation instruction; The liquid crystal display picture (LCD module) 11 of display content of operation; Solar cell (solar panel) 12; And with indoor transmission and reception unit 7 carry out that twocouese communicates by the remote controller transmission and reception unit 13 covered by light shield 13a.

As shown in Figure 3, battery socket lid 14 is possessed at the back side of remote controller 5.

As shown in Figure 4, remote controller 5 substantial middle part overleaf possesses and holds finger 34.

As shown in Figure 5, remote controller 5 is built-in with the lithium primary battery 32 as being difficult to the battery changed.In addition, remote controller 5 possesses the battery socket 15 and attention label 35 that insert universal battery in the inside covered by battery socket lid 14.

Fig. 6 represents and in above-mentioned battery socket 15, is provided with the state after pulling down battery socket lid 14 (with reference to Fig. 3) cell connection terminal 16,17,18,19, makes the structure that user can change battery simply.In this battery socket 15, insert universal battery, such as alkaline manganese dry cell, thus can supply as the power supply of remote controller 5.In addition, universal battery is the battery that such as single three dry cells or single four dry cells etc. generally can be bought at convenience store etc.

In addition, near battery socket 15, battery diverter switch 20 is possessed.

In addition, the attention label 35 shown in Fig. 5 is configured in battery socket 15, to allow user read when opening battery socket lid 14.The object arranging this attention label 35 impels user to notice: the using method of the battery diverter switch 20 when inserting universal battery in battery socket 15 and lithium primary battery 32 are that spendable state does not insert universal battery (impelling user to note the mechanism of the using method using universal battery).

Fig. 7 is the figure of the structure of the remote controller transmission and reception unit 13 representing remote controller 5.Fig. 7 is the figure observing remote controller 5 from the arrow A direction shown in Fig. 2.Remote controller transmission and reception unit 13 possesses infrared ray photo detector 21 and infrared light-emitting diode 22.In addition, near remote controller transmission and reception unit 13, the room temperature thermistor 23 detecting room temperature is equipped with, the room temperature of remote controller 5 periphery can be detected at any time.

Fig. 8 is the circuit diagram of the control structure representing remote controller 5.Remote controller 5 possesses the microcomputer 30 controlling entirety.Attended operation button 10, liquid crystal display picture (LCD module) 11 and transtation mission circuit 31 on microcomputer 30.

Electric power is supplied from lithium primary battery 32 and solar cell 12 pairs of microcomputers 30.Lithium primary battery 32 to be connected with microcomputer 30 by battery diverter switch 20, diode 41, booster circuit 42, the diode 43 be connected in parallel with booster circuit 42 and diode 44 and to supply electric power (the first power supply circuit) to microcomputer 30.

In addition, because transtation mission circuit 31 flows the big current of about 500mA, therefore directly electric power is supplied by lithium primary battery 32.The impact of the voltage drop of the lithium primary battery 32 brought to not be subject to transtation mission circuit 31, the first power supply circuit be connected with microcomputer 30 uses booster circuit 42.

Solar cell 12 by charging with capacitor 51, adjuster 52, battery diverter switch 20, diode 53 be connected with microcomputer 30, and supply electric power (the second power supply circuit) to microcomputer 30.Form diode OR circuit (ダイオー De オア loop) 50 by diode 44 and diode 53, a direction microcomputer 30 high from the service voltage of lithium primary battery 32 or solar cell 12 supplies electric power.

Battery diverter switch 20 has six terminals a, b, c, d, e, f, each terminal and and the slide switch 20a of each termination contact between be effectively antirust golden contact, become and can switch double circuit structure (double circuit two point) simultaneously.

Shown in Fig. 8 " usually; Do not place universal battery " state under, battery diverter switch 20 is by slide switch 20a splicing ear b and terminal c, and splicing ear e and terminal f.Namely, to microcomputer 30 because terminal b is connected with terminal c, the electric power from solar cell 12 can be supplied, because terminal e is connected with terminal f, the electric power from lithium primary battery 32 can be supplied.

As shown in Figure 8, the electric power worked for making remote controller 5 with lithium primary battery 32 for main power source, and and supply with solar cell 12 ground.In addition, usually as shown in Figure 8, battery socket 15 is empty state.

The effect of this structure is as follows: use a teleswitch 5 the illumination of indoor high, when fully can guarantee the energy output of solar cell 12, the load current of the microcomputer 30 when a part, the such as standby mode of load current born by solar cell 12, do not supply the electric power from lithium primary battery 32, to extend the battery life of lithium primary battery 32.

Further, in order to extend the battery life of lithium primary battery 32, microcomputer 30 controls as follows: do not use a teleswitch 5 time, standby mode time, stop the display of liquid crystal display picture 11, alleviate load current.

At this, with regard to the setting changed to standby mode, by such as detect not have at three hours the situation of the input of action button 10 etc., unused state thus change to standby mode.In addition, to standby mode change setting be not limited to three hours, also can by one day, two days, three Tian Dengtian units or hour or a minute unit set, in a word, as long as guarantee the convenience of user, and change energy saver mode into.

In addition, also can with can detect the static capacity of remote controller 5 change, namely can detect mode that whether staff contact with remote controller 5 to carry out setting standby mode transformation by the presence or absence detected.In addition, also lid can be set on remote controller 5, utilize the transformation of the opening and closing setting standby mode of lid.

In addition, make be main power source with lithium primary battery 32 and and by the structure of solar cell 12 when supposing that the illumination in room is low, the energy output of solar cell 12 not very, restriction can not be caused because remote controller 5 cannot use to the use of air conditioner 1, thus realize the convenience of user to greatest extent.

In addition, usually, about lithium primary battery, although allow a small amount of charging current, due to restricted, therefore need to reduce charging current as far as possible.Therefore, the structure of the circuit shown in Fig. 8 of present embodiment is: when also with lithium primary battery 32 and solar cell 12, charging current does not flow to lithium primary battery 32 from solar cell 12.

< illustrates the situation > using universal battery

As mentioned above, even if the remote controller 5 supplying electric power by lithium primary battery 32 and solar cell 12 uses the large lithium primary battery 32 of current capacity, also battery must be there is.When usage frequency is considerably beyond imagination, in the life span of air conditioner 1, suppose lithium primary battery 32 overdischarge.

But, under normal circumstances, because the battery altering being built in the lithium primary battery 32 in remote controller 5 needs more special technology, therefore need to avoid user to carry out battery altering.

Therefore, in the present embodiment, the structure of the universal battery that can carry alkaline manganese battery etc. is made.Namely, as shown in Figure 6, the structure can inserting the universal batteries such as alkaline manganese battery on battery socket 15 is made.When inserting universal battery, switching the switch of battery diverter switch 20, switching connecting circuit, the electric power supply electric power be switched to from universal battery from lithium primary battery 32 and solar cell 12 is supplied.

Fig. 9 and Figure 10 is the figure of the circuit structure represented when universal battery 33 being inserted into battery socket 15.

Fig. 9 represents the state of the battery diverter switch 20 that lithium primary battery 32 is connected with microcomputer 30 with solar cell 12.

Figure 10 represents the state of the battery diverter switch 20 that universal battery 33 is connected with microcomputer 30.

Under the state of " when placing universal battery " shown in Fig. 9, battery diverter switch 20 is by slide switch 20a splicing ear b and terminal c, and splicing ear e and terminal f.Namely, to microcomputer 30 because terminal b is connected with terminal c, the electric power from solar cell 12 can be supplied, because terminal e is connected with terminal f, the electric power from lithium primary battery 32 can be supplied.

Under the state of " when using universal battery " shown in Figure 10, battery diverter switch 20 is by the slide switch 20a splicing ear a after switching and terminal b, and splicing ear d and terminal e.Namely, due to terminal d be connected with terminal e, can only supply electric power (the 3rd power supply circuit) from universal battery 33 to microcomputer 30.Namely, this occasion, because terminal a is connected with terminal b, solar cell 12 becomes the state be not connected with microcomputer 30, and terminal f becomes unconnected state, and therefore lithium primary battery 32 also becomes the state be not connected with microcomputer 30.

Its result, solar cell 12 and lithium primary battery 32 are connected to become to microcomputer 30 state cut off completely.

In addition, also battery diverter switch 20 can be configured to: when inserting universal battery 33 in battery socket 15, automatically be switched to the universal battery 33 of insertion from solar cell 12 and lithium primary battery 32.In this case, the convenience of user can be improved further.

In addition, the universal batteries such as alkaline manganese battery 33 are different from lithium primary battery 32, do not allow charging current completely.Therefore, diode etc. is namely used to prevent current leakage from can not prevent leakage current completely.Therefore, in the present embodiment, when using universal battery 33, by the circuit using battery diverter switch 20 to cut off lithium primary battery 32 and solar cell 12 completely, thus can prevent charging current from flowing in universal battery 33.

In addition, battery diverter switch 20 is made and is switched double circuit structure simultaneously, and makes the double circuit structure of the circuit that switching is simultaneously connected with lithium primary battery 32 and the circuit be connected with solar cell 12, thus can prevent misoperation.

In addition, when lithium primary battery 32 has surplus usual, just be built in regard to the lithium primary battery 32 in remote controller 5, owing to being born a part for load by solar cell 12, and the display of liquid crystal display picture 11 is stopped when standby mode, current sinking is suppressed lower, thus can not overdischarge at long time, spendable state can be maintained.Therefore, the chance that uses of universal battery 33 is inserted for after have passed through long time.

In addition, usually, diverter switch carries out switch due to docking point, thus mechanically and electrically regenerates, in the present embodiment, as mentioned above, can realize the long lifetime of lithium primary battery 32, use the frequency of battery diverter switch 20 extremely low, the moment of use is also after have passed through long time, cannot expect the contact regeneration that contact opening and closing obtains likely to cause contact bad because contact gets rusty.This contact many coastal areas of swimming of salinity in atmosphere of getting rusty are even more serious, in the present embodiment, battery diverter switch 20 use rustless golden contact antirust to realize.

In addition, why to the primary cell be built in remote controller 5 use lithium primary battery 32 be in order to can be less expensive realize high capacity, the financial burden of user can be alleviated.In addition, about the suitable selection to built-in primary cell, even if use the primary cell beyond lithium also can obtain same effect.

In addition, when using universal battery 33, by in advance in battery socket 15 folding and unfolding describe the attention label 35 of using method of the battery diverter switch 20 switching power supply circuit, thus correctly to pass on using method to user, although can prevent as the spendable state of lithium primary battery 3 is mistakenly inserted the situation of universal battery.Further, when using universal battery after lithium primary battery 32 overdischarge, due in advance noting using method label 35 being recorded the battery diverter switch 20 for switching battery, can promote correctly to operate.

Figure 11 represents the structure of the battery socket 15 not inserting power change-over switch 20 and insertion universal battery 33 as comparative example.

According to the present embodiment, the primary cell changed is difficult to even if built-in, the structure of battery (universal battery) can be changed simply by additional user, thus can availability be improved, and can continue to use a teleswitch, as a result, the long life of the effective life of air conditioner can be realized.

In addition, the long life realizing the effective life being built in primary cell in remote controller can be formed, and can carry out changing battery, improve availability and consider the remote controller of earth environment.

Symbol description

1-air conditioner, 2-indoor set, 3-off-premises station, 4-connecting pipings, 5-remote controller, 7-indoor transmission and reception unit, 10-action button, 11-liquid crystal display picture (LCD module: indication mechanism), 12-solar cell (solar panel), 13-remote controller transmission and reception unit, 15-battery socket (inserting mechanism), 16, 17, 18, 19-cell connection terminal, 20-battery diverter switch (switching mechanism), 21-infrared ray photo detector, 22-infrared light-emitting diode, 23-room temperature thermistor, 30-microcomputer (controlling organization), 31-transtation mission circuit, 32-lithium primary battery, 33-universal battery, 35-note label, 41, 43, 44, 53-diode, 42-booster circuit, 50-diode OR circuit, 51-capacitor, 52-adjuster.

Claims

1. a remote controller, built-in lithium primary battery, possess with above-mentioned lithium primary battery and solar cell, it is characterized in that possessing:

Universal battery is inserted into the insertion mechanism in above-mentioned remote controller,

Above-mentioned lithium primary battery and above-mentioned solar cell are switched to the battery switching mechanism of above-mentioned universal battery, control the controlling organization of above-mentioned remote controller, and

The diode OR circuit be made up of the first diode and the second diode,

Above-mentioned lithium primary battery is connected with above-mentioned controlling organization by above-mentioned first diode, and above-mentioned solar cell is connected with above-mentioned controlling organization by above-mentioned second diode,

Above-mentioned battery switching mechanism, when above-mentioned lithium primary battery and above-mentioned solar cell are switched to above-mentioned universal battery, cuts off the connection of above-mentioned lithium primary battery and above-mentioned solar cell.

2. remote controller according to claim 1, is characterized in that,

Above-mentioned insertion mechanism is the battery socket that can insert above-mentioned universal battery.

3. remote controller according to claim 1, is characterized in that,

Above-mentioned battery switching mechanism is the switch above-mentioned lithium primary battery and above-mentioned solar cell being switched to above-mentioned universal battery.

4. the remote controller according to any one of claims 1 to 3, is characterized in that,

Above-mentioned battery switching mechanism is the switch that the second power supply circuit that the first power supply circuit connected by above-mentioned lithium primary battery is connected with solar cell is switched to the 3rd power supply circuit that above-mentioned universal battery connects.

5. the remote controller according to any one of claims 1 to 3, is characterized in that,

Above-mentioned battery switching mechanism is the double circuit double contact switch simultaneously cutting off the second power supply circuit that the first power supply circuit that above-mentioned lithium primary battery connects is connected with above-mentioned solar cell.

6. the remote controller according to any one of claims 1 to 3, is characterized in that,

Above-mentioned battery switching mechanism is provided with near above-mentioned insertion mechanism.

7. the remote controller according to any one of claims 1 to 3, is characterized in that,

Above-mentioned lithium primary battery and above-mentioned solar cell, when above-mentioned universal battery is inserted in above-mentioned insertion mechanism, are switched to above-mentioned universal battery by above-mentioned battery switching mechanism.

8. remote controller according to claim 7, is characterized in that,

Above-mentioned lithium primary battery and above-mentioned solar cell, when above-mentioned universal battery is inserted in above-mentioned insertion mechanism, are forcibly switched to above-mentioned universal battery by above-mentioned battery switching mechanism.

9. the remote controller according to any one of claims 1 to 3, is characterized in that,

Be provided with when above-mentioned universal battery is inserted in above-mentioned insertion mechanism, impel the mechanism of the using method noted when using above-mentioned universal battery.

10. the remote controller according to any one of claims 1 to 3, is characterized in that, possesses:

Show the indication mechanism of the content of operation of above-mentioned remote controller;

Above-mentioned controlling organization in untapped situation, carrying out the control changed to standby mode, when being converted to this standby mode, carrying out the control of the display stopping above-mentioned indication mechanism during above-mentioned remote controller is predetermined.

11., according to the remote controller described in claim 3, is characterized in that,

The contact of above-mentioned switch uses golden contact.

12. 1 kinds of remote controllers, built-in primary cell, possess with this primary cell and solar cell, it is characterized in that,

Possess:

Control the controlling organization of above-mentioned remote controller, and

The diode OR circuit be made up of the first diode and the second diode,

Above-mentioned primary cell is connected with above-mentioned controlling organization by above-mentioned first diode, and above-mentioned solar cell is connected with above-mentioned controlling organization by above-mentioned second diode,

During above-mentioned primary cell overdischarge, cut off the second power supply circuit that the first power supply circuit that above-mentioned primary cell connects is connected with above-mentioned solar cell, connect the 3rd power supply circuit that the universal battery be inserted in above-mentioned insertion mechanism connects.