CN102427257B - Charging holder - Google Patents

Abstract

The invention provides a charging holder. The charging holder is connected to an external power supply through a charging interface and is used for charging a battery arranged on the charging holder. The charging holder comprises a fixing part, a moving part, a connecting part and a sliding piece, wherein the fixing part comprises a fixing part shell; the fixing part shell is provided with a sliding rail; the sliding rail comprises a first position and a second position; the moving part comprises a moving part shell; the connecting part and the moving part shell are formed into a whole and are connected with the fixing part in a sliding manner; the sliding piece comprises a sliding end and a fixing end; the sliding end is arranged in the sliding rail; the fixing end is fixedly connected with the moving part shell; when the sliding end is arranged at the first position of the sliding rail, the fixing part is closed with the moving part; and when the sliding end slides to the second position along the sliding rail under the action of external force, the fixing part is separated from the moving part. When the charging holder is used, the battery is conveniently disassembled and assembled on the charging holder.

Description

Cradle

Technical field

The present invention relates to a kind of cradle.

Background technology

Present cell-charging seat is generally integral type, when needs charge the battery, because charging contact has scalability, need first the metal contact piece of this battery to be contacted with this charging contact, battery is inwardly pressed, contact is shunk, then other one end of battery is pressed in battery tray, when taking out battery, need to one end of battery is plucked out from battery tray with hand, battery could be taken out from battery tray, so the dismounting of battery is inconvenient.

Summary of the invention

In view of this, therefore a kind of cradle need to be provided, this cradle is divided into two parts, facilitates the dismounting of battery.

This cradle is connected to external power supply by a charging inlet and charges to being installed on the battery of this cradle, this cradle comprises: a fixed part, this fixed part comprises that a fixed part housing and is covered in the fixed part insulator on fixed part housing, on this fixed part housing, a sliding rail is set, this sliding rail comprises a primary importance and a second place; One charging circuit board, between this fixed part housing and this fixed part insulator, and is connected with this charging inlet, and at least one charging contact connects and this charging circuit board, and through this fixed part insulator; One moving part, comprises a moving part housing; A junction, is formed at one with this moving part housing, and is slidably connected to this fixed part; One sliding part, comprises a sliding end and a stiff end, and this sliding end is placed in this sliding rail, and this stiff end is fixedly connected on this moving part housing, and when this sliding end is placed in the primary importance of this sliding rail, this fixed part and this moving part are closed; When this sliding end slides into the second place along sliding rail under external force, this fixed part and this movable part from.

Compared to prior art, the present invention is divided into two parts by cradle, and two parts connect by a slide construction, when dismounting cell, can be by two parts of cradle separately, thus facilitate the dismounting of battery.

Accompanying drawing explanation

Fig. 1 is the three-dimensional view of the cradle in an embodiment of the present invention.

Fig. 2 is the explosive view of the cradle in Fig. 1.

Fig. 3 is the enlarged drawing of the sliding rail in the cradle in Fig. 1.

Fig. 4 is the view of another angle of the fixed part insulator in the cradle in Fig. 1.

Fig. 5 is the sliding part state diagram in sliding rail while separating with moving part of the fixed part of the cradle in Fig. 1.

Fig. 6 is the state diagram of sliding part in sliding rail when closed of the fixed part of the cradle in Fig. 1 and moving part.

Main element symbol description

Cradle	1
		Fixed part	10
Moving part	20
		Connecting portion	30
Charging inlet	40
		Charging contact	50
Battery	2
		Fixed part housing	101
Fixed part insulator	102
		Charging circuit board	103
Moving part housing	201
		Moving part insulator	202
Projection	104
		Chute	301
Sliding rail	105
		Primary importance	1051
The second place	1052
		San position	1053
Si position	1056
		The first track	1054
The second track	1055
		The 3rd track	1057
The 4th track	1058
		Sliding part	60
Sliding end	601
		Stiff end	602
Groove	106
		Pad	80
Flexible member	70

Following embodiment further illustrates the present invention in connection with above-mentioned accompanying drawing.

Embodiment

As shown in Figure 1, one cradle 1 comprises a fixed part 10 and a moving part 20, this moving part 20 is connected in this fixed part 10 by a junction 30, this connecting portion 30 forms one with this moving part 20, and be connected in this fixed part 10 by a slide construction, this fixed part 10 is provided with charging inlet 40 and charging contact 50, when this connecting portion 30 skids off from fixed part 10, this fixed part 10 separates with this moving part 20, battery 2 can be put into cradle 1, or battery 2 is taken off from cradle 1, when battery 2 is put into cradle 1, can apply external force in moving part 20, make connecting portion 30 slip into fixed part 10, this moving part 20 is connected with this fixed part 10, thereby battery 2 is fixed on to this cradle 1 to charge.

Please refer to Fig. 2, this fixed part 10 comprises that a fixed part housing 101 and is covered in the fixed part insulator 102 on fixed part housing 101.One charging circuit board 103, between this fixed part housing 101 and this fixed part insulator 102, and is connected with this charging inlet 40, and this charging contact 50 is connected in this charging circuit board 103, and through this fixed part insulator 102.

This moving part 20 comprises that a moving part housing 201 and is covered in the moving part insulator 202 on this moving part housing 201.

In present embodiment, the slide construction that this connecting portion 30 is connected in this fixed part 10 is specially: on this fixed part housing 101, be provided with two projections 104, on this connecting portion 30, be provided with two chutes 301, two projections 104 are placed in respectively to this two chutes 301, under external force, can make connecting portion 30 move around in fixed part 10 along projection 104.

Please refer to Fig. 3, a sliding rail 105 is also set on this fixed part housing 101, this sliding rail 105 is a groove, comprises a primary importance 1051, a second place 1052, a San position 1053, a Si position 1056.Between primary importance 1051 and San position 1053, form one first track 1054, between the second place 1052 and San position 1053, form one second track 1055, between the second place 1052 and Si position 1056, form one the 3rd track 1057, between Si position 1056 and primary importance 1051, form one the 4th track 1058.And the bottom surface of these four tracks is not in same plane, in the present embodiment, between the bottom surface of the bottom surface of this first track 1054 and the second track 1055, form offset, and the bottom surface of the first track 1054 is higher than the bottom surface of the second track 1055, between this second track 1055 and the bottom surface of the 3rd track 1057, form offset, and the bottom surface of the second track 1055 is higher than the bottom surface of the 3rd track 1057, between the bottom surface of the bottom surface of the 3rd track 1057 the 4th track 1058, form offset, and the bottom surface of the 3rd track 1057 is higher than the bottom surface of the 4th track 1058.

One sliding part 60 comprises a sliding end 601 and a stiff end 602.This sliding end 601 is placed in this sliding rail 105, and can in sliding rail 105, slide, and this stiff end 602 is fixedly connected on connecting portion 30.In present embodiment, this sliding part is metal.In other embodiments, also can be other on-deformable materials.

Consult Fig. 4, a pad 80 is placed in a groove 106 of this fixed part insulator 102 simultaneously, and this pad 80 has elasticity, covers this sliding part 60, avoids this sliding part 60 to depart from sliding rail 105.In present embodiment, this pad 80 is quality of rubber materials.

Two flexible member 70 one end connect and fixed part housing 101, and the other end is connected in connecting portion 30, and two flexible members 70 lay respectively at this sliding rail 105 both sides.In present embodiment, this flexible member 70 is spring.

In Fig. 5, the sliding end 601 of this sliding part 60 is positioned at the primary importance 1051 of sliding rail 105, when moving part 20 under external force, connecting portion 30 is outwards slided, this sliding end 601 slides along the bottom surface of the first track 1054, and deformation occurs flexible member 70, produces elastic force.When this sliding end 601 slides into San position 1053, the plane that this sliding end 601 contacts is also fallen into the bottom surface of the second track 1055 by the bottom surface of the first track 1054, because the bottom surface of bottom surface second track 1055 of the first track 1054 forms offset, and the bottom surface of the first track 1054 is higher than the bottom surface of the second track 1055, so, after external force discharges, as shown in Figure 6, this sliding end 601 slides into the second place 1052 along the second track 1055, so, after again fixed part 10 being separated by external force with moving part 20, can be fixed on this San position 1053 by this sliding end 601 makes fixed part 10 and moving part 20 maintain separated position.

When needs make fixed part 10 and moving part 20 closed, moving part 20 is applied to external force, due to the bottom surface of the second track 1055 and the bottom surface of the 3rd track 1057 formation offset, and the bottom surface of the second track 1055 is higher than the bottom surface of the 3rd track 1057, the sliding end 601 of sliding part 60 slides into Si position 1056 along the 3rd track 1057, and sliding end 601 falls into the 4th track 1058, after discharging external force, due to the bottom surface of the 3rd track 1057 and the bottom surface of the 4th track 1058 formation offset, and the bottom surface of the 3rd track 1057 is higher than the bottom surface of the 4th track 1058, the sliding end 601 of this sliding part 60 slides into primary importance 1051 along the 4th track 1058, thereby make fixed part 10 and moving part 20 closures.

In present embodiment, the sliding trace of this sliding end 601 is counterclockwise, in other embodiments, also sliding trace that can this sliding end 601 is set to clockwise, be specially and make the bottom surface of the first track 1054 lower than the bottom surface of the second track 1055, make the bottom surface of the second track 1055 lower than the bottom surface of the 3rd track 1057, make the bottom surface of the 3rd track 1057 lower than the bottom surface of the 4th track 1058.

Claims (7)

1. a cradle, this cradle is connected to external power supply by a charging inlet and charges to being installed on the battery of this cradle, it is characterized in that, and this cradle comprises:

One fixed part, this fixed part comprises that a fixed part housing and is covered in the fixed part insulator on fixed part housing, on this fixed part housing, a sliding rail is set, this sliding rail comprises a primary importance, one second place, one San position and a Si position, one first track and one second track, between primary importance and San position, form one first track, between the second place and San position, form one second track, between the second place and Si position, form one the 3rd track, between Si position and primary importance, form one the 4th track, and the bottom surface of these four tracks is not in same plane, between the bottom surface of the bottom surface of this first track and the second track, form offset, between this second track and the bottom surface of the 3rd track, form offset, between the bottom surface of the bottom surface of the 3rd track the 4th track, form offset,

One charging circuit board, between this fixed part housing and this fixed part insulator, and is connected with this charging inlet, and at least one charging contact connects and this charging circuit board, and through this fixed part insulator;

One moving part, comprises a moving part housing;

A junction, is formed at one with this moving part housing, and is slidably connected to this fixed part;

One sliding part, comprises a sliding end and a stiff end, and this sliding end is placed in this sliding rail, and this stiff end is fixedly connected on this moving part housing;

At least one flexible member, the two ends of this flexible member are connected to this fixed part housing and this moving part housing;

When the sliding end of this sliding part is positioned at the primary importance of sliding rail, this fixed part and this moving part are closed, when moving part under external force, connecting portion is outwards slided, this sliding end slides along the bottom surface of the first track, flexible member generation deformation, produce elastic force, when this sliding end slides into San position, this sliding end falls into the second track, after external force discharges, this sliding end slides into the second place along the second track, at sliding end during in the second place, this fixed part and this movable part from, moving part is applied to external force, make the sliding end of sliding part slide into Si position along the 3rd track, and sliding end falls into the 4th track, after discharging external force, the sliding end of this sliding part slides into primary importance along the 4th track, fixed part and moving part are closed.

2. cradle as claimed in claim 1, is characterized in that, the bottom surface of this first track is higher than the bottom surface of the second track, and the bottom surface of this second track is higher than in the bottom surface of the 3rd track, and the bottom surface of the 3rd track is higher than the bottom surface of the 4th track.

3. cradle as claimed in claim 1, is characterized in that, the bottom surface of this first track is lower than the bottom surface of the second track, and the bottom surface of this second track is lower than the bottom surface of the 3rd track, and the bottom surface of the 3rd track is lower than the bottom surface of the 4th track.

4. cradle as claimed in claim 1, is characterized in that, this cradle also comprises a pad, and this pad is placed in a groove of this fixed part insulator, and this pad covers this sliding part.

5. cradle as claimed in claim 4, is characterized in that, this pad is an elastomeric material.

6. cradle as claimed in claim 1, is characterized in that, this flexible member is spring.

7. cradle as claimed in claim 1, is characterized in that, this sliding part is metal.

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