CN104485434A - Fixing structure of button battery and remote controller - Google Patents

Abstract

The invention discloses a fixing structure of a button battery, which is arranged in a shell of a portable electronic product. The fixing structure comprises a battery cavity, a first conductive part and a battery cover, wherein a button battery can be arranged inside the battery cavity through an opening positioned in the top of the battery cavity, and the side wall of the battery cavity is provided with a first opening; the first conductive part is arranged on the outer side of the first opening; the battery cover is matched with the battery cavity, and is provided with a shifting part, and the shifting part is used for shifting the first conductive part to extend into the battery cavity through the first opening and to be contacted and communicated with the side surface of the button battery, so that the conductive part connected to the side edge of the button battery is prevented from contacting with the button battery when the button battery is primarily arranged in the battery cavity, and the conductive part can be connected with the side edge of the button battery to realize the conduction of the button battery after the battery cover is arranged.

Description

A kind of button cell fixing structure and remote controller

Technical field

The present invention relates to electronic applications, particularly relate to a kind of button cell fixing structure and remote controller.

Background technology

Button cell is because of shape, size is gained the name like button, a kind of micro-, compact battery, be mainly used in operating voltage low, the portable type electronic product that power consumption is little, as calculator, remote controller, electronic watch, electronic scale etc., relative to prismatic battery, button cell equally has positive pole and negative pole, its appearance mainly with stainless steel material as positive pole, its negative pole is stainless circular lid, sealing ring is had to insulate between positive pole and negative pole, due to button cell, in general diameter is larger, thinner thickness, therefore the distance between its both positive and negative polarity is comparatively close, how better fixing button cell can normal power supply be the problem in use needing in industry often to consider.

In the prior art, such as in common remote controller battery storehouse cavity, as shown in Figure 1, button cell step mode common in this industry is spring contact aside formula, after button cell 1 is in place, it is positive pole bottom button cell, positive wire 2 is provided with bottom battery compartment and button cell, the side of button cell is negative pole, battery compartment withstands the side of button cell by the screw type spring wires 3 stretched in warehouse, so, complete the setting to button cell 1 both positive and negative polarity wire, to arrange in pairs or groups again the battery cover that mates with battery compartment opening, final realization fixing button cell.

But present inventor is in the process realizing invention technical scheme in the embodiment of the present application, find that above-mentioned technology at least exists following technical problem:

Due to the processing of parts and assembly error inevitable, the dynamics of the spring wires matched with button cell side controls also comparatively difficulty, after button cell is tentatively placed to battery cavities, if the elastic force of spring wires is larger, easily applying comparatively noticeable effort to button cell makes button cell upspring, and installs inconvenience.

Summary of the invention

The embodiment of the present application is by providing a kind of button cell fixing structure and remote controller, to solve in prior art after button cell is tentatively placed to battery cavities, because ejecting with the excessive button cell that easily makes of the wire elastic force of button cell contact aside, the problem of inconvenience is installed, avoid the electric-conductor connecting button cell side when button cell is tentatively placed to battery cavities to contact with button cell, and can be connected with the side of button cell the conducting realizing battery after battery cover is laid.

The embodiment of the present application provides a kind of button cell fixing structure, be arranged in the casing of portable type electronic product, described fixed structure comprises: a battery cavities, described button cell is placed in described battery cavities by the open top of described battery cavities, and described battery cavities sidewall is provided with the first opening; First electric-conductor, described first electric-conductor is arranged at the outside of described first opening; One battery cover matched with described battery cavities, described battery cover is provided with a shifting part, described shifting part for stir described first electric-conductor and stretch into described battery cavities by described first opening and with the contacts side surfaces conducting of described button cell.

The embodiment of the present application additionally provides a kind of remote controller, comprises casing, is provided with the button cell fixing structure in above-described embodiment in described casing.

The one or more technical schemes provided in the embodiment of the present application, at least have following technique effect or advantage:

Compared with prior art, this programme embodiment is by being arranged on the shifting part on battery cover, the first electric-conductor be arranged on outside battery cavities is originally made to stretch in battery cavities by the first opening, with the contacts side surfaces conducting of button cell, have changed the position of the first electric-conductor, enter in the process of battery cavities tentatively laying button cell, first electric-conductor does not contact with the side of button cell, but by laying in the process of battery cover, the shifting part covering setting with battery stirs the contacts side surfaces that the first electric-conductor enters battery cavities and button cell, like this, can effectively solve in prior art by the problem that spring wires and button cell contacts side surfaces are brought, namely the easy greatly button cell that makes in installation course of spring wires elastic force ejects, the problem of location difficulty is installed, achieve can preliminary button cell is installed time avoid its bouncing out battery chamber and after laying battery cover, by the shifting part of battery cover, the first electric-conductor and button cell contacts side surfaces conducting effect are realized to the technique effect that button cell is effectively energized.

Accompanying drawing explanation

Fig. 1 is the mode schematic diagram fixing button cell in the application's prior art;

Fig. 2 (a) is the schematic top plan view of button cell fixing structure in the embodiment of the present application;

Fig. 2 (b) is the elevational schematic view of button cell fixing structure in the embodiment of the present application;

Fig. 2 (c) is structure of battery corer schematic diagram in the embodiment of the present application;

Fig. 2 (d) is electric-conductor structural representation on circuit board in the embodiment of the present application;

Fig. 3 is that in the embodiment of the present application, shifting part drives the first electric-conductor to coordinate schematic top plan view with button cell;

Fig. 4 is that in the embodiment of the present application, shifting part drives the first electric-conductor to coordinate elevational schematic view with button cell;

Another shifting part that Fig. 5 provides for the embodiment of the present application and the first electric-conductor, button cell fit structure schematic diagram;

Fig. 6 is the embodiment of the present application battery cover and battery cavities initial alignment structural representation;

Fig. 7 is the embodiment of the present application battery cover outer surface structure schematic diagram;

Fig. 8 is the schematic diagram of the embodiment of the present application remote controller;

Embodiment

The embodiment of the present application provides a kind of button cell fixing structure and remote controller by providing the embodiment of the present application to pass through, to solve in prior art after button cell is tentatively placed to battery cavities, because ejecting with the excessive button cell that easily makes of the wire elastic force of button cell contact aside, the problem of inconvenience is installed, achieve button cell easy for installation and battery cover lay put in place after the technique effect that can effectively be energized.

In order to better understand technique scheme, below in conjunction with Figure of description and concrete execution mode, technique scheme is described in detail.

As Fig. 2 (a) and Fig. 2 (b) overlooks and look up shown in two kinds of structural representations to button cell fixing structure 10, present embodiments provide a kind of button cell fixing structure 10, be arranged in the casing of portable type electronic product, fixed structure 10 comprises: a battery cavities 11, button cell 111(schemes in (a) not shown) be placed in battery cavities 11 by the open top of battery cavities 11, battery cavities 11 side is provided with the first opening 112; First electric-conductor 121, first electric-conductor 121 is arranged on the outside of the first opening 112; And, as Fig. 2 (c), one battery cover 13 matched with battery cavities 11, battery cover 13 is provided with a shifting part 131, shifting part 131 for stir the first electric-conductor 121 and stretch into battery cavities 11 by the first opening 112 and with the contacts side surfaces conducting of button cell 111.

In general, for button cell 111, its battery plus-negative plate is close to each other due to the thinner thickness of button cell itself, the appearance of button cell mainly with stainless steel material as positive pole, its negative pole is stainless circular lid, for the button cell 111 in this programme, after putting into battery cavities 11, its side, negative pole place is near the bottom of battery cavities 11, the structure members such as battery cover are laid due to follow-up need in the another side relative with side, negative pole place, therefore the positive pole being communicated with button cell generally contacts the side of button cell.

Battery cavities 11 for laying button cell 111 can according to the size design of battery own, in actual applications, freely can design according to the size, quantity, kind etc. of the button cell of portable type electronic product needs, all should comprise with design philosophy of the present invention.

In the present embodiment, fixed structure 10 also comprises the second electric-conductor 122, the second opening 113 is provided with bottom battery cavities 11, second electric-conductor 122 stretches into described battery cavities by the second opening 113, for contacting conducting with button cell 111 near the bottom surface of the second opening 113, before button cell 111 is put into battery cavities 11, second electric-conductor 122 stretches in battery cavities 11 by the second opening 113, after button cell 111 is put into battery cavities 11, button cell 111 contacts with the second electric-conductor near the bottom surface of the second opening 113, complete the conducting of position, a pole, and the first electric-conductor 121 does not now contact with the side of button cell 111, install in the process of battery cover 13, battery cover 13 is provided with a shifting part 131, shifting part 131 can for the bulge-structure stretched out towards battery cavities, utilize the effect of shifting part 131 stir the first electric-conductor 121 stretch into battery cavities 11 by the first opening 112 and with the contacts side surfaces conducting of button cell 111.

Preferably, as shown in Fig. 2 (d), and the first electric-conductor 121 is elastic metallic plectrum, therefore can there is elastic deformation in the first electric-conductor 121 under the effect of shifting part 131, finally coordinate with the lateral surface compressing of button cell 111, complete contacts side surfaces energising, and the second electric-conductor 122 is spirality metal wire, is designed to spirality mainly in order to increase the contact area between plain conductor and button cell 111.

Those skilled in the art should know; the shape of the first electric-conductor 121 also can have the variform such as sheet, wire; as long as the scheme of the technique effect of the application can be completed; all belong to the protection range of this programme; in like manner, the spirality metal wire that the shape of the second electric-conductor 122 provides except optimal way, also can in flake; wire also can be flexible conductor etc.

Wherein, can design with the first electric-conductor 121 be connected with the second electric-conductor 122 circuit board 12, and circuit board 12 can be the mainboard or power panel etc. of electronic product or a part of circuit board of electronic product.

Preferably, battery cover 13 can horizontally rotate along the open top of battery cavities 11, battery cover 13 drives shifting part 131 to stir the first electric-conductor 121 elastic deformation occurs in rotation process, and after being rotated in place, made the contacts side surfaces conducting of the first electric-conductor 122 and button cell 111 by shifting part 131.

As Fig. 3, the schematic diagram that battery cover shown in Fig. 4 coordinates with battery cavities, after battery cavities 11 installs button cell 111, now have certain gap between button cell 111 and the first electric-conductor 121, this gap is subjected to displacement to ensure button cell 111 can not be subject to the active force of the first electric-conductor 121, preferably, arranging in distance, the gap of stirring post and the first electric-conductor 121 on battery cover 13 is 0.8mm, retain the gap of 0.2 ~ 0.3mm between first electric-conductor 121 and button cell 111 simultaneously, make battery when putting into not by side power, can not upspring, easy to operate.And battery cover 13 is at the scope of activities≤0.15mm of rotary course, the insertion of therefore stirring post 131 is very easy to and is not interfered, when preliminary installation battery cover 13, stir post 131 also initial contact to the first electric-conductor 121, in battery cover 13 rotary course, stir post 131 to the first electric-conductor 121 applied thrust, make the first electric-conductor 121 that elastic deformation occur, finally abut against the side of button cell 111, namely connect position, corresponding pole.

Except battery cover 13 can cooperatively interact with battery cavities 11 in rotary manner, also can by the mode rotated, preferably, as shown in Figure 5, shifting part 131 is provided with the inclined-plane 1311 that has guide effect, after battery cover 13 is laid and put in place, inclined-plane 1311 can promote the side that the first electric-conductor 121 is pressed on button cell 111.

In the process of laying battery cover 13, because inclined-plane 1311 has guide effect, in simple terms, along with moving down of battery cover 13, inclined-plane 1311 can utilize the gradient of self to promote the first electric-conductor 121 and move, like this, after the assembling completing battery cover towards the direction near button cell side, first electric-conductor 121 is subject to the thrust on inclined-plane 1311, fits in side that is final and button cell.

Preferably, as shown in Figure 6, battery cavities 11 is being provided with the first locating part 114 near its open-topped side, battery cover 13 is provided with the initial rotation position that the first groove 115, first locating part 114 of cooperation first locating part 114 and the first groove 115 fasten to limit battery cover 13.

In order to better carry out initial alignment to battery cover 13, owing to being provided with the first locating part 114 in battery cavities 11, in general, first locating part 114 is a bulge-structure, therefore when placing battery lid 13 carries out initial alignment, the position alignment battery cavities 11 that battery cover is provided with the first groove 115 can only be provided with the position of the first locating part 114, if so do not done, jack-up can be given by the first locating part 114 in other positions of battery cover 13, cannot normally put into battery cover 13, as above, rotate ensure that the position that battery cover 13 can only fasten from the first locating part 114 and the first groove 115.

Preferably, battery cavities 11 rotates the second locating part of position in the termination being also provided with to limit battery cover 13 on its open-topped side, and after battery cover 13 is rotated in place, shifting part 131 is between the first locating part 114 and described second locating part.

Because shifting part 131 is after the side of compression first electric-conductor 121 and button cell 111, all the time contact condition is in both ensureing, battery cover 13 should stop and no longer rotate, therefore, battery cover 13 is exerted a force make it rotate process in, shifting part 131 needs to cross the first locating part 114, continue to rotate, until after running into the second locating part, stop the rotation, now, shifting part 131 is between the first locating part 114 and described second locating part, after battery cover 13 stops the rotation, namely the contacts side surfaces of the first electric-conductor 121 and button cell 111 is represented, by the compression to the first electric-conductor 121, ensure that contact conduction is effective all the time.

Preferably, as shown in Figure 7, battery cover 13 the second groove 117, second groove 117 inside be provided with for applying active force is provided with to identify the coating 118 of battery cover 13 gyrobearing, and the casing of portable product is provided with the flag bit corresponding with coating 118.

The setting of the second groove 117 is for the ease of applying active force on battery cover 13, the setting of coating 118 is to point out position of rotation and obviously tipping out by coating, the present embodiment coating structure is red coatings, certainly except the present embodiment, coating structure can have multiple, be convenient to observe as long as can highlight, such as coating structure can be blue coating, violet coatings etc.

In addition, as shown in Figure 7, the casing of portable type electronic product can be provided with multiple flag bit, it is the control interval in order to coordinate coating 118 to indicate the unblock on battery cover 13 and unblank, unlock and unblank to refer to the locking of battery cover and open, if avoid user to battery cover 13 exert a force excessive cause battery cover rotate go beyond the scope, flag bit in the present embodiment is two lock flag bits, representative locks battery cover 13 and opens battery cover 13 respectively, and the interval be separated by between two lock flag bits is exactly between the Rotary District of battery cover 13.

Preferably, the first electric-conductor 121 is connected with a circuit board 12 away from one end of battery cavities, circuit board 12 is provided with a projection, and the first electric-conductor 121 is that axle is fixed away from one end of the first opening 113 with projection.

What realize battery cover 13 to enable the electronic product possessing this button cell fixing structure repeatedly opens utilization, first electric-conductor 121 needs to move with certain rule path, the stiff end of the first electric-conductor 121 is that axle is fixed with projection, and the free end of the first electric-conductor 121 just can carry out having coordinated turn-on action with button cell under the effect of shifting part 131.Therefore the present embodiment arranges a small-sized projection on circuit boards, and the first electric-conductor 121 is fixed with the mode one end be wound around and projection.

Technical scheme in above-mentioned the embodiment of the present application, at least has following technique effect or advantage:

This programme embodiment is by being arranged on the shifting part on battery cover, the first electric-conductor be arranged on outside battery cavities is originally made to stretch in battery cavities by the first opening, with the contacts side surfaces conducting of button cell, compared with prior art, have changed the position of the first electric-conductor, enter in the process of battery cavities tentatively laying button cell, first electric-conductor does not contact with the side of button cell, but by the process of subsequent installation battery cover, the shifting part covering setting with battery stirs the contacts side surfaces that the first electric-conductor enters battery cavities and button cell, like this, can effectively solve in prior art by the problem that spring wires and button cell contacts side surfaces are brought, namely the easy greatly button cell that makes in installation course of spring wires elastic force ejects, the problem of location difficulty is installed, achieve can preliminary button cell is installed time avoid its bouncing out battery chamber and after laying battery cover, by the shifting part of battery cover, the first electric-conductor and button cell contacts side surfaces conducting effect are realized to the technique effect that button cell is effectively energized.

Meanwhile, because the first electric-conductor part that is struck is pressed on the side of button cell, the reliability of its contact is increased.

In addition, present invention also provides a kind of remote controller 14, as shown in Figure 8, remote controller 14 comprises casing 141, is provided with the button cell fixing structure 11 of either type in above-described embodiment content in casing 141.

Due to the button cell fixing structure that uses in the remote controller described in the present embodiment with before the button cell fixing structure described in embodiment identical, therefore the two can solve identical technical problem, and reaches identical Expected Results.

In addition, should also be understood that the material of battery cover is preferably PC plastic cement, intensity is high, good toughness, so it is tough to stir post, can not rupture, and also can not be out of shape because of the reaction force by the first electric-conductor.

Remote controller in above-described embodiment has button cell and powers on stable, advantage easy for installation.

It should be noted that, except remote controller, above-mentioned portable type electronic product is specifically as follows any product or parts installing button cell such as calculator, electronic watch, electronic dictionary.

Although describe the preferred embodiments of the present invention, those skilled in the art once obtain the basic creative concept of cicada, then can make other change and amendment to these embodiments.So claims are intended to be interpreted as comprising preferred embodiment and falling into all changes and the amendment of the scope of the invention.

Obviously, those skilled in the art can carry out various change and modification to the present invention and not depart from this

Bright spirit and scope.Like this, if these amendments of the present invention and modification belong within the scope of the claims in the present invention and equivalent technologies thereof, then the present invention is also intended to comprise these change and modification.

Claims (10)

1. a button cell fixing structure, is arranged in the casing of electronic product, it is characterized in that, described fixed structure comprises:

One battery cavities, described button cell is placed in described battery cavities by the open top of described battery cavities, and described battery cavities sidewall is provided with the first opening;

First electric-conductor, described first electric-conductor is arranged at the outside of described first opening;

One battery cover matched with described battery cavities, described battery cover is provided with a shifting part, described shifting part for stir described first electric-conductor and stretch into described battery cavities by described first opening and with the contacts side surfaces conducting of described button cell.

2. fixed structure as claimed in claim 1, it is characterized in that, described fixed structure also comprises the second electric-conductor, the second opening is provided with bottom described battery cavities, described second electric-conductor stretches into described battery cavities by described second opening, for contacting conducting with described button cell near the bottom surface of described second opening.

3. fixed structure as claimed in claim 2, it is characterized in that, described first electric-conductor is elastic metallic plectrum, and described second electric-conductor is spirality metal wire.

4. fixed structure as claimed in claim 3, it is characterized in that, described battery cover can horizontally rotate along the open top of described battery cavities, and after being rotated in place, make described first electric-conductor generation elastic deformation by described shifting part and with the contacts side surfaces conducting of described button cell.

5. fixed structure as claimed in claim 3, it is characterized in that, described shifting part is provided with the inclined-plane that has guide effect, after described battery cover is laid and put in place, by the contacts side surfaces conducting of the first electric-conductor described in described slope driving and described button cell.

6. fixed structure as claimed in claim 4, it is characterized in that, described battery cavities is being provided with the first locating part near its open-topped side, described battery cover is provided with the first groove coordinating described first locating part, described first locating part and described first groove fasten the initial rotation position limiting described battery cover.

7. fixed structure as claimed in claim 6, it is characterized in that, described battery cavities rotates the second locating part of position in the termination being also provided with to limit described battery cover on its open-topped side, after described battery cover is rotated in place, described shifting part is between described first locating part and described second locating part.

8. fixed structure according to claim 7, it is characterized in that, described battery cover is provided with the second groove for applying active force, and described second inside grooves is provided with the coating identifying gyrobearing, and the casing of described portable product is provided with the flag bit corresponding with described coating.

9. according to the arbitrary described fixed structure of claim 2 ~ 8, it is characterized in that, described first electric-conductor is connected with a circuit board away from one end of described battery cavities, and described circuit board is also provided with a projection, described first electric-conductor away from one end of described battery cavities with described projection for axle is fixed.

10. a remote controller, comprises casing, be provided with in described casing as arbitrary in claim 1 ~ 9 as described in button cell fixing structure.