CN101931245B

CN101931245B - Electronic device and battery thereof

Info

Publication number: CN101931245B
Application number: CN200910142487.6A
Authority: CN
Inventors: 洪序宗
Original assignee: Inventec Corp
Current assignee: Nie Baohua
Priority date: 2009-06-18
Filing date: 2009-06-18
Publication date: 2012-11-21
Anticipated expiration: 2029-06-18
Also published as: CN101931245A

Abstract

The invention discloses an electronic device and a battery thereof. A first battery and a second battery are used for electrically connecting to the electronic device, wherein the first battery comprises a first battery conducting part, the second battery comprises a second battery conducting part, a third electrical connecting part of the electronic device is arranged along a sliding path, and the first battery conducting part and the second battery conducting part are respectively arranged in the first battery and the second battery along the sliding path so as to ensure that the first battery conducting part and the second battery conducting part respectively or simultaneously slide in the third electrical connecting part for supplying power to the electronic device. Therefore, the second battery conducting part can be electrically connected to the electronic device in a sliding way for replacing the first battery with insufficient power.

Description

Electronic installation and battery thereof

Technical field

The invention relates to a kind of electronic installation and battery thereof, and particularly relevant for a kind of electronic installation and battery thereof with sliding part.

Background technology

In electronics technology booming today, various electronic installation is constantly weeded out the old and bring forth the new.People utilize electronic installation to enjoy the convenience that science and technology is brought in handling various affairs and recreation in a large number.

Electronic installation needs electric power to keep its functional operation, and providing of electric power comes from external power source or be installed in the battery in the electronic installation.During the power drain of the battery in being installed in electronic installation, need shutdown could carry out the replacing of battery to electronic installation.

Yet, electronic installation, for example be mobile computer or communication device before shutdown, the user must be interrupted present work.For example, the user need finish could shut down after the conversation that mobile computer application program or user just at work need finish communication device and the opposing party, and then changes battery.After more finishing changing new battery, need open this application program again again or re-enter telephone number to continue and the uncompleted conversation of the opposing party.This quite expends user's valuable time, and carries out the motor-driven work of open and close at short notice, can reduce electronic installation serviceable life.

Summary of the invention

The object of the present invention is to provide a kind of electronic installation and battery thereof.It can make two batteries, for example is that first battery and second battery can be distinguished or the while electrically connects with electronic installation, gives electronic installation to supply power respectively or simultaneously.

For realizing that the object of the invention proposes a kind of electronic installation; One first battery and one second battery are in order to be electrically connected on the electronic installation; First battery comprises that one first battery conductive portion and one second battery sliding part and second battery comprise one second battery conductive portion and one second battery sliding part; This electronic installation comprises a body and one the 3rd electrical junction, and body comprises one the 3rd sliding part; The 3rd electrical junction is arranged at body along a sliding path; And the first battery conductive portion and the second battery conductive portion are arranged at first battery and second battery along sliding path respectively; So that the first battery conductive portion and the second battery conductive portion slide on the 3rd electrical junction respectively or simultaneously, give electronic installation so as to power supply; Wherein, the bearing of trend of the first battery sliding part, the second battery sliding part and the 3rd sliding part is parallel to sliding path in fact.

Wherein the 3rd electrical junction comprises one first spring-piece type connector and one second spring-piece type connector, and this first battery conductive portion and this second battery conductive portion are an electrical connection pad, and this electrical connection pad is elongated.

Wherein this first spring-piece type connector comprises one first anodal pin and one first negative pole pin; This second spring-piece type connector comprises one second anodal pin and one second negative pole pin; This first anodal pin is electrically connected at this second anodal pin and this first negative pole pin is electrically connected at this second negative pole pin, and this electrical connection pad comprises one first anodal connection pad and one first negative pole connection pad;

Wherein, this first anodal connection pad is in order to connecting in this first anodal pin and this second anodal pin at least one, and this first negative pole connection pad is in order to connect in this first negative pole pin and this second negative pole pin at least one.

Wherein the 3rd electrical junction is an electrical connection pad, and this electrical connection pad is elongated, and this first battery conductive portion and this second battery conductive portion comprise one the 3rd spring-piece type connector and one the 4th spring-piece type connector.

Wherein the 3rd spring-piece type connector comprises one the 3rd anodal pin and one the 3rd negative pole pin; The 4th spring-piece type connector comprises one the 4th anodal pin and one the 4th negative pole pin; The 3rd anodal pin is electrically connected at the 4th anodal pin; And the 3rd negative pole pin is electrically connected at the 4th negative pole pin, and this electrical connection pad comprises one first anodal connection pad and one first negative pole connection pad;

Wherein, this first anodal connection pad is in order to connecting in the 3rd anodal pin and the 4th anodal pin at least one, and this first negative pole connection pad is in order to connect in the 3rd negative pole pin and the 4th negative pole pin at least one.

Wherein this body has more one the 3rd side and corresponding one first side and one second side, and the 3rd side connects this first side and this second side, and this body more comprises:

One dwang has one first end and one second end, this first end be located at this body rotationally and be adjacent to the 3rd side and the corner of this first side is provided with and this second end in fact with this second side towards same direction;

This first end is located in one first stopper section;

One second stopper section, be located at this dwang and along this dwang axially with this first stopper section predeterminable range apart;

Wherein, The spacing of corresponding two side faces equals this predeterminable range in fact in this first battery and this second battery; So that when this first battery is installed in this body; This corresponding two side faces in this first stopper section and this second stopper section this first battery of difference backstop, or make when this second battery is installed in this body this corresponding two side faces in this first stopper section and this second stopper section this second battery of difference backstop.

For realizing that the object of the invention also proposes a kind of battery; Battery is in order on the body that is installed in an electronic installation; Body comprises one the 3rd electrical junction and one the 3rd sliding part, and battery comprises a battery conductive portion and a battery sliding part, and battery conductive portion and the 3rd electrical junction are along a sliding path setting; So that battery conductive portion slides on the 3rd electrical junction, give electronic installation so as to power supply; The bearing of trend of battery sliding part and the 3rd sliding part is parallel to sliding path in fact.

Wherein the 3rd electrical junction comprises one first spring-piece type connector and one second spring-piece type connector, and this battery conductive portion is an electrical connection pad, and this electrical connection pad is elongated.

Wherein this first spring-piece type connector comprises one first anodal pin and one first negative pole pin; This second spring-piece type connector comprises one second anodal pin and one second negative pole pin; This first anodal pin electrically connects this second anodal pin and this first negative pole pin electrically connects this second negative pole pin, and this electrical connection pad comprises one first anodal connection pad and one first negative pole connection pad;

Wherein the 3rd electrical junction is an electrical connection pad, and this electrical connection pad is elongated, and this battery conductive portion comprises one the 3rd spring-piece type connector and one the 4th spring-piece type connector.

Utilize the present invention; Electronic installation is under the situation of not cutting off the power supply, and the hypodynamic battery of replaceable power down is in the process of the battery of changing power shortage; Electronic installation must not shut down; The user must not interrupted the ongoing work of electronic installation separately, therefore, can save the shutdown of electronic installation and the action of start again.Describe the present invention below in conjunction with accompanying drawing and specific embodiment, but not as to qualification of the present invention.

Description of drawings

Fig. 1 is the synoptic diagram of the electronic installation of first embodiment of the invention;

Fig. 2 is a synoptic diagram of changing first battery of Fig. 1;

Fig. 3 is the top view of Fig. 2;

Fig. 4 is the synoptic diagram that Fig. 2 second battery is installed in body fully;

Fig. 5 is the synoptic diagram that the body of Fig. 1 more comprises dwang;

Fig. 6 is the synoptic diagram that the dwang of Fig. 5 rotates;

Fig. 7 is the synoptic diagram according to the electronic installation of second embodiment of the invention;

Fig. 8 is the synoptic diagram that first battery of Fig. 7 slides on body;

Fig. 9 is the synoptic diagram according to the electronic installation of third embodiment of the invention.

Wherein, Reference numeral

100,200,300: electronic installation

102,202,302: body

104,204: the three electrical junctions

106: battery cover board

108,216: the three sliding parts

110,214,304: the first batteries

112,206: the first battery conductive portions

112 (1), 122 (1), 204 (1): first anodal connection pads

112 (2), 122 (2), 204 (2): first negative pole connection pads

112 (3), 122 (3), 204 (3): first ground connection connection pads

114,218: the first battery sliding parts

116: the first spring-piece type connectors

116 (1): the first anodal pin

116 (2): the first negative pole pin

116 (3): the first ground connection pin

118: the second spring-piece type connectors

118 (1): the second anodal pin

118 (2): the second negative pole pin

118 (3): the second ground connection pin

120: the second batteries

122: the second battery conductive portions

124: the second battery sliding parts

126: dwang

128: the first stopper sections

130: the second stopper sections

132: the first ends

134: the three sides

136: the first sides

138: the second ends

140: the second sides

142,144,146,148: the side

210: the three spring-piece type connectors

The 210 (1): the 3rd anodal pin

The 210 (2): the 3rd negative pole pin

The 210 (3): the 3rd ground connection pin

212: the four spring-piece type connectors

The 212 (1): the 4th anodal pin

The 212 (2): the 4th negative pole pin

The 212 (3): the 4th ground connection pin

A: part

D1, D2: direction

L1: predeterminable range

L2: standoff distance

L3: development length

L4, L5: distance

P: sliding path

Embodiment

In electronic installation of the present invention and battery thereof, the first battery conductive portion of first battery and the second battery conductive portion of second battery can distinguish or electrically connect with the 3rd electrical junction of electronic installation simultaneously, with respectively or power supply simultaneously give electronic installation.When one of first battery and second battery, for example be first battery when being installed on the electronic installation, another person of first battery and second battery, promptly second battery can see through the mode of sliding and be installed on the body and with first battery and release.And second battery is in the process of sliding, and first battery and second battery can keep electrically connecting with electronic installation, give electronic installation with power supply simultaneously.Whereby, when the power shortage of first battery that is installed in electronic installation, electronic installation is under the situation of not cutting off the power supply, and hypodynamic first battery of replaceable power down continues power supply by the second sufficient battery of electric power and gives electronic installation.In the process of changing first battery, electronic installation must not shut down, and the user must not interrupted the ongoing work of electronic installation separately, therefore can save the shutdown of electronic installation and the action of start again.

Explain with the preferred application instance below.Right this embodiment is merely several kinds of embodiments under the invention spirit of the present invention, and the literal of its explanation and icon can't carry out limit to desire protection domain of the present invention.

First embodiment

Please with reference to Fig. 1, it is the synoptic diagram of the electronic installation of first embodiment of the invention.Electronic installation 100 comprises a body 102, one the 3rd electrical junction 104 and a battery cover board 106.Body 102 comprises one the 3rd sliding part 108, for example is slide rail.The 3rd sliding part 108 is located on the body 102 along a sliding path P.

One first battery 110 is given electronic installation 100 in order to be installed on the body 102 with power supply.First battery 110 comprises one first battery conductive portion 112 and one first battery sliding part 114, for example is chute.The first battery conductive portion 112 is provided with along sliding path P.The first battery sliding part 114 runs through that the bearing of trend of corresponding two side faces 142 and 144, the first battery sliding parts 114 is parallel to sliding path P in fact in first battery 110.In present embodiment, the first battery sliding part 114 is on being located in the groove that first battery 110 and the first battery conductive portion 112 be located at the first battery sliding part 114 along sliding path P.

Though the 3rd sliding part 108 of present embodiment is with slide rail, and the first battery sliding part 114 is to be that example is explained with the chute.Right this non-the 3rd sliding part 108 also can be chute in order to restriction the present invention, and the first battery sliding part 114 also can be slide rail.

Because the first battery sliding part 114, the 3rd sliding part 108, the first battery conductive portion 112 and the 3rd electrical junction 104 all are provided with along sliding path P.So; Seeing through the first battery sliding part 114 at first battery 110 slided in the process of body 102 along direction D1 with being connected of the 3rd sliding part 108; The first battery conductive portion 112 and the 3rd electrical junction 104 keep electrically connecting, and give electronic installation 100 with power supply.

Say that further the 3rd electrical junction 104 comprises one first spring-piece type connector 116 and one second spring-piece type connector 118.The first spring-piece type connector 116 comprises one first anodal pin 116 (1), one first negative pole pin 116 (2) and one first ground connection pin 116 (3), and the second spring-piece type connector 118 comprises one second anodal pin 118 (1), one second negative pole pin 118 (2) and one second ground connection pin 118 (3).Wherein, the first anodal pin 116 (1) is electrically connected at the second anodal pin 118 (1), the first negative pole pin 116 (2) is electrically connected at the second negative pole pin 118 (2) and the first ground connection pin 116 (3) is electrically connected at the second ground connection pin 118 (3).

Like the enlarged diagram of local A among Fig. 1, the first battery conductive portion 112 is an elongated electrical connection pad, and it comprises one first anodal connection pad 112 (1), one first negative pole connection pad 112 (2) and one first ground connection connection pad 112 (3).When first battery 110 slided on 102 along direction D1 in body, the first battery conductive portion 112 successively connected the second spring-piece type connector 118 and the first spring-piece type connector 116.In this process; The first anodal connection pad 112 (1) successively connects the second anodal pin 118 (1) and successively is connected the second negative pole pin 118 (2) and the first negative pole pin 116 (2) with the first anodal pin 116 (1), the first negative pole connection pad 112 (2); And first ground connection connection pad 112 (3) successively connect the second ground connection pin 118 (3) and the first ground connection pin 116 (3), give electronic installation 100 so as to power supply.

Please with reference to Fig. 2, it is a synoptic diagram of changing first battery of Fig. 1.When the power consumption of first battery 110 totally the time, see through the design of the electrical junction of present embodiment, can be easily at electronic installation not under the powering-off state, second battery 120 of electric power abundance in replacings.

Second battery 120 of Fig. 2 has similar structure with first battery 110.That is, second battery 120 can see through its second battery sliding part 124, for example is chute slip on 102 along direction D1 in body with being connected of the 3rd sliding part 108 (being illustrated in Fig. 1) of body 102.When second battery 120 slided on 102 toward direction D1 in body, the second battery conductive portion 122 that second battery 120 is released first batteries 110 and second battery 120 connected the second spring-piece type connector 118 (being illustrated in Fig. 1) simultaneously, gives electronic installation 100 with power supply.Wherein, the structure of the second battery conductive portion 122 is similar aforesaid first battery conductive portions 112.That is, the second battery conductive portion 122 is an elongated electrical connection pad, and it comprises one first anodal connection pad 122 (1), one first negative pole connection pad 122 (2) and one first ground connection connection pad 122 (3).

First battery 110 and second battery 120 are in position shown in Figure 2; The first battery conductive portion 112 (being illustrated in Fig. 1) of first battery 110 is connected in the first spring-piece type connector 116 (being illustrated in Fig. 1), and the second battery conductive portion 122 of second battery 120 is connected in the second spring-piece type connector 118 (being illustrated in Fig. 1).At this moment, first battery 110 and second battery 120 are supplied power simultaneously and are given electronic installation 100.So, even the power shortage of first battery 110 as long as second battery 120 has enough electric power, can be kept the normal operation of electronic installation 100.

Please with reference to Fig. 3, it is the top view of Fig. 2.When the first battery conductive portion 112 and the second battery conductive portion 122 were connected in the 3rd electrical junction 104 simultaneously, the standoff distance L2 of the first battery conductive portion 112 and the second battery conductive portion 122 was less than the development length L3 of the 3rd electrical junction 104.So make the second battery conductive portion 122 before not being connected in the 3rd electrical junction 104 as yet, the first battery conductive portion 112 keeps being connected with the 3rd electrical junction 104, gives electronic installation 100 with power supply, does not make electronic installation 100 outages.

Say that further an end of adjacent side face 144 can be at a distance of side 144 1 distance L 5 in the first battery conductive portion 112 of first battery 110, and an end of adjacent side face 142 can be at a distance of side 142 1 distance L 4 in the first battery conductive portion 112.Similarly, in the second battery conductive portion 122 of second battery 120 end of adjacent side face 148 also at a distance of side 148 1 distance L 5, and in the second battery conductive portion 122 end of adjacent side face 146 also at a distance of side 146 distance L 4.Wherein, Because the side 148 of second battery 120 contacts with the side 142 of first battery 110; So when distance L 5 and distance L 4 be less than or when equaling the development length L3 of the 3rd electrical junction 104 in fact; Slide on that at least one can be connected with the 3rd electrical junction 104 of body 102 in first battery 110 and second battery 120 on the body 102, electronic installation 100 is not cut off the power supply in the replacing cell process.

When distance L 5 and distance L 4 be less than or when equaling the development length L3 of the 3rd electrical junction 104 in fact; The materials of the first battery conductive portion 112 and the second battery conductive portion 122 can be minimum, can save the first battery conductive portion 112 and the second battery conductive portion, 122 materials costs.

Though the first battery conductive portion 112 of Fig. 1 flushes with side 142.So; The first battery conductive portion 112 is provided with the position by the development length of the 3rd electrical junction 104 and the position is set decides; As long as electronic installation 100 does not cut off the power supply in changing cell process, the size of the first battery conductive the portion 112 and position is set not limited by present embodiment.For example, the first battery conductive portion 112 of Fig. 3 just with side 142 at a distance of a distance L 4.

When second battery 120 of Fig. 2 continues just can first battery 110 be released fully when direction D1 slides, replace first battery 110 by second battery 120 and supply power to electronic installation 100.In the case, second battery 120 just fully is installed on the body 102, and is as shown in Figure 4, and it is the synoptic diagram that Fig. 2 second battery is installed in body fully.

As stated, in the process of whole replacing first battery 110, electronic installation 100 does not need shutdown, and the user can save the time of shutdown and start again and relevant necessity operation.

In addition, please with reference to Fig. 5, it is the synoptic diagram that the body of Fig. 1 more comprises dwang.Body 102 more comprises dwang 126, one first stopper section 128 and one second stopper section 130.The corner that one first end 132 of dwang 126 is located at body 102 rotationally and is adjacent to the 3rd side 134 and first side 136 of body 102 be provided with and second end 138 of dwang 126 in fact with second side 140 towards same direction, wherein first side 136 is corresponding with second side 140.First end 132 is located in first stopper section 128, and second stopper section 130 be located at dwang 126 and along dwang axially with first stopper section 128 at a distance of a predeterminable range L1.Relatively two

sides

142 and 144 spacing equal predeterminable range L1 in fact in first battery 110; So that when first battery slides on position shown in Figure 5; Relative two side faces 142 and 144 in first stopper section 128 and second stopper section, 130 difference backstops, first battery 110 is with fixing first battery 110.

In addition, please with reference to Fig. 6, it is the synoptic diagram of the dwang rotation of Fig. 5.In the time will changing first battery 110,, make second battery 120 promote first stopper section 128 as long as second battery 120 is slipped into body 102.After first stopper section 128 is pushed, drive the dwang 126 and second stopper section 130 toward direction D2 rotation.So, the side 144 of first battery 110 just no longer receives the backstop of second stopper section 130, and under the situation that second battery 120 continues to promote, first battery 110 is just fully released outside the body 102, accomplishes the replacing to first battery 110 whereby.

Second embodiment

Please with reference to Fig. 7, it is the synoptic diagram according to the electronic installation of second embodiment of the invention.In second embodiment, continue to use same numeral with the first embodiment something in common, repeat no more at this.Second embodiment and the first embodiment difference are that the 3rd electrical junction 204 of the body 202 of electronic installation 200 is elongated electrical connection pad, and the first battery conductive portion 206 of first battery 214 is the spring-piece type connector.

The 3rd sliding part 216 of body 202 is a slide rail, and the first battery sliding part 218 of first battery 214 is a chute.The first battery conductive portion 206 is provided with along sliding path P, and the bearing of trend of the first battery sliding part 218 is parallel to sliding path P in fact.In present embodiment, the first battery sliding part 218 is to be located at first battery 214 and the first battery conductive portion 206 is located in the groove of the first battery sliding part 218 along sliding path P.

Though the 3rd sliding part 216 of present embodiment is with slide rail, and the first battery sliding part 218 is to be that example is explained with the chute, so this is non-in order to restriction the present invention, and the 3rd sliding part 216 also can be chute, and the first battery sliding part 218 also can be slide rail.

Because the first battery sliding part 218, the 3rd sliding part 216, the first battery conductive portion 206 and the 3rd electrical junction 204 all are provided with along sliding path P.So; Seeing through the first battery sliding part 218 at first battery 214 slided in the process of body 202 along direction D1 with being connected of the 3rd sliding part 216; The first battery conductive portion 206 and the 3rd electrical junction 204 keep electrically connecting, and give electronic installation 200 with power supply.

Say that further the first battery conductive portion 206 comprises one the 3rd spring-piece type connector 210 and one the 4th spring-piece type connector 212.The 3rd spring-piece type connector 210 comprises one the 3rd anodal pin 210 (1), one the 3rd negative pole pin 210 (2) and one the 3rd ground connection pin 210 (3).The 4th spring-piece type connector 212 comprises one the 4th anodal pin 212 (1), one the 4th negative pole pin 212 (2) and one the 4th ground connection pin 212 (3).Wherein, the 3rd anodal pin 210 (1) is electrically connected at the 4th anodal pin 212 (1), the 3rd negative pole pin 210 (2) is electrically connected at the 4th negative pole pin 212 (2), and the 3rd ground connection pin 210 (3) is electrically connected at the 4th ground connection pin 212 (3).The 3rd electrical junction 204 is an elongated electrical connection pad, and it comprises one first anodal connection pad 204 (1), one first negative pole connection pad 204 (2) and one first ground connection connection pad 204 (3).

Please with reference to Fig. 8, it is the synoptic diagram that first battery of Fig. 7 slides on body.When first battery 214 when direction D1 slides on body 202, the 3rd spring-piece type connector 210 (being illustrated in Fig. 7) and the 4th spring-piece type connector 212 (being illustrated in Fig. 7) connect the 3rd electrical junction 204 in regular turn.And the 3rd anodal pin the 210 (1) and the 4th anodal pin 212 (1) connects the first anodal connection pad 204 (1) in regular turn, and the 3rd negative pole pin 210 (2) and the 4th negative pole pin 212 (2) connect the first negative pole connection pad 204 (2) in regular turn, gives electronic installation 200 with power supply.

The technology contents that is disclosed similar in appearance to first embodiment; When the power consumption of first battery 214 that is installed in body 202 totally the time; Electronic installation 200 can be under the situation of not cutting off the power supply, and sufficient second battery (not illustrating) of electric power is gone up in first battery 214 and replacing under changing.Wherein, The second battery conductive portion (not illustrating) of second battery of second embodiment is similar in appearance to the structure of the first battery conductive portion 206 that second embodiment is disclosed; And the structure of the first battery sliding part 218 that the second battery sliding part (not illustrating) of second battery is disclosed similar in appearance to second embodiment repeats no more at this.

The 3rd embodiment

Please with reference to Fig. 9, it is the synoptic diagram according to the electronic installation of third embodiment of the invention.In present embodiment, continue to use same numeral with the first embodiment something in common, repeat no more at this.The 3rd embodiment and the first embodiment difference are that the bearing of trend of the 3rd sliding part 108 of the body 302 of electronic installation 300 is not along sliding path P, and the bearing of trend of the first battery sliding part 114 of first battery 304 is not also along sliding path P.

As shown in Figure 9; Though the bearing of trend of the 3rd sliding part 108 and the first battery sliding part 114 is not along sliding path P; The position of the 3rd sliding part 108 of right body 302 is corresponding with the position of the first battery sliding part 114, first battery 304 is connected with the 3rd sliding part 108 through the first battery sliding part 114 and slides on the body 102 along direction D1.

And the bearing of trend of the 3rd sliding part 108 and the first battery sliding part 114 is parallel to sliding path P in fact.Therefore, slide in the process of the 3rd sliding part 108 at the first battery sliding part 114, the first battery conductive portion 112 positively keeps electrically contacting and can not break away from mutually with the 3rd electrical junction 104, gives electronic installation 300 with power supply normally.

The technology contents that is disclosed similar in appearance to first embodiment; When the power consumption of first battery 304 that is installed in body 302 totally the time; Electronic installation 300 can be under the situation of not cutting off the power supply, and sufficient second battery (not illustrating) of electric power is gone up in first battery 304 and replacing under changing.Wherein, The second battery conductive portion (not illustrating) of second battery is similar in appearance to the structure of the first battery conductive portion 112 that the 3rd embodiment is disclosed, and the structure of the first battery sliding part 114 that the second battery sliding part (not illustrating) of second battery is disclosed similar in appearance to the 3rd embodiment.

Electronic installation that the above embodiment of the present invention disclosed and battery thereof; The 3rd electrical junction of the first battery conductive portion of first battery, the second battery conductive portion of second battery and electronic installation is along the sliding path setting; Second battery is installed in the process of body; The first battery conductive portion and the second battery conductive portion are electrically connected at the 3rd electrical junction simultaneously, give electronic installation with power supply simultaneously.Whereby, electronic installation is under the situation of not cutting off the power supply, and hypodynamic first battery of replaceable power down continues power supply by the second sufficient battery of electric power and gives electronic installation.In the process of changing battery, electronic installation must not shut down, and the user must not interrupted the ongoing work of electronic installation separately, therefore can save the shutdown of electronic installation and the action of start again.

In addition; The bearing of trend of the 3rd sliding part of the first battery sliding part of first battery, the second battery sliding part of second battery and electronic installation is parallel to sliding path in fact; Second battery is installed in the process of body; First battery and second battery slide along the direction of sliding path, and be electrical to guarantee that the first battery conductive portion and the second battery conductive portion are electrically connected at the 3rd electrical junction simultaneously.So, before not accomplishing battery altering, the situation that electrically separate the first battery conductive portion and the second battery conductive portion and the 3rd electrical junction can not take place.

Certainly; The present invention also can have other various embodiments; Under the situation that does not deviate from spirit of the present invention and essence thereof; Those of ordinary skill in the art work as can make various corresponding changes and distortion according to the present invention, but these corresponding changes and distortion all should belong to the protection domain of the appended claim of the present invention.

Claims

1. electronic installation; It is characterized in that; One first battery and one second battery are in order to be electrically connected on this electronic installation; This first battery comprises that one first battery conductive portion and one first battery sliding part and this second battery comprise one second battery conductive portion and one second battery sliding part, and this electronic installation comprises:

One body comprises one the 3rd sliding part;

One the 3rd electrical junction; Be arranged at this body along a sliding path; And this first battery conductive portion and this second battery conductive portion are arranged at this first battery and this second battery along this sliding path respectively; So that this first battery conductive portion and this second battery conductive portion slide on the 3rd electrical junction respectively or simultaneously, give this electronic installation so as to power supply;

Wherein, the bearing of trend of this first battery sliding part, this second battery sliding part and the 3rd sliding part is parallel to this sliding path in fact;

This first end is located in one first stopper section;

2. electronic installation according to claim 1; It is characterized in that; Wherein the 3rd electrical junction comprises one first spring-piece type connector and one second spring-piece type connector, and this first battery conductive portion and this second battery conductive portion are an electrical connection pad, and this electrical connection pad is elongated.

3. electronic installation according to claim 2; It is characterized in that; Wherein this first spring-piece type connector comprises one first anodal pin and one first negative pole pin; This second spring-piece type connector comprises one second anodal pin and one second negative pole pin, and this first anodal pin is electrically connected at this second anodal pin and this first negative pole pin is electrically connected at this second negative pole pin, and this electrical connection pad comprises one first anodal connection pad and one first negative pole connection pad;

4. electronic installation according to claim 1; It is characterized in that; Wherein the 3rd electrical junction is an electrical connection pad, and this electrical connection pad is elongated, and this first battery conductive portion and this second battery conductive portion comprise one the 3rd spring-piece type connector and one the 4th spring-piece type connector.

5. electronic installation according to claim 4; It is characterized in that; Wherein the 3rd spring-piece type connector comprises one the 3rd anodal pin and one the 3rd negative pole pin, and the 4th spring-piece type connector comprises one the 4th anodal pin and one the 4th negative pole pin, and the 3rd anodal pin is electrically connected at the 4th anodal pin; And the 3rd negative pole pin is electrically connected at the 4th negative pole pin, and this electrical connection pad comprises one first anodal connection pad and one first negative pole connection pad;