CN105633318A - Electronic device and battery compartment thereof - Google Patents

Abstract

The invention discloses an electronic device and a battery compartment thereof, which are used for overcoming the defect of relatively high difficulty during assembly and welding operation of the battery compartment of the electronic device in the prior art. The battery compartment comprises a first compartment segment and a second compartment segment which can be detachably combined, wherein a semi-sealed accommodating space for accommodating a dry battery is formed after the first compartment segment and the second compartment segment are combined, the first compartment segment comprises a first combination end and a first matching end, the first combination end is combined with the second compartment segment, the first matching end is matched with a first electrode of the dry battery, the second compartment segment comprises a second combination end and a second matching end, the second combination end is combined with the first compartment segment, and the second matching end is matched with a second electrode of the dry battery. In the battery compartment, the electrode can be welded with a printed circuit board (PCB) before the electrode is arranged in the battery compartment, thus, the length of the electrode extending out of the battery compartment can be small, and the miniature design of an electronic product is promoted.

Description

A kind of electronic equipment and battery compartment thereof

Technical field

The present invention relates to technical field of electronic equipment, particularly relate to a kind of electronic equipment and battery compartment thereof.

Background technology

At present, common adopts in the electronic product that battery is powered, and cylindrical battery is all typically mounted in the battery compartment at the product back side. Battery compartment is generally all the housing of integrated design.

Figure 1A illustrates the schematic front view of the existing battery compartment including two pitch cylinder batteries 1, and Figure 1B illustrates the left view schematic diagram of battery compartment shown in Figure 1A. In battery compartment shown in Figure 1A and Figure 1B, two batteries 1 are connected in series to, the associating contact pin 2 being positioned at battery compartment one end designs all-in-one-piece form, and this associating contact pin 2 is connected with the positive pole of a batteries 1 and the negative pole of another batteries 1 simultaneously, in order to ensure that two batteries realize being connected in series. The other end design of battery compartment has two independent electrode contacts, and positive pole contact pin 3 therein is for connecting the positive pole of a batteries 1, and negative pole contact pin 4 is for connecting the negative pole of another batteries 1. The electrode contact of the two independence, namely positive pole contact pin 3 and negative pole contact pin 4, two junction points 5 that can pass through not contact are connected with pcb board, are thusly-formed a complete series circuit and think that electronic product is powered.

While ensureing that positive pole contact pin 3 and negative pole contact pin 4 are connected with pcb board, ensure that again overall attractive in appearance of the safety of circuit and product, as shown in Figure 1B, generally all can design through hole 6, positive pole contact pin 3 and negative pole contact pin 4 in battery compartment to be connected with pcb board again after respective through hole 6.

In order to not affect the outward appearance of electronic product, the through hole on battery compartment all can be designed to as far as possible little. For this consideration, at production link, generally all can wait until that electrode is attached with pcb board after battery compartment again. And the connection of electrode and pcb board, it is generally all welding. In actual weld job process, housing, pcb board and electrode all can be put on jig simultaneously and be operated, and positive pole contact pin and negative pole contact pin need first to be fixed in battery compartment, then source of welding current line again, by the impact that the space of shell own is limited, the space that can leave weld job for can be only small, and shell is also easily caused damage by the high temperature simultaneously welding generation. Therefore, the structure of the battery compartment of current electronic product so that assembling and the welding of electrode are all relatively difficult.

And, in order to ensure more convenient to carry out assembling and welding, generally also needing between battery compartment and electronic product casing along space more than battery axis direction reserved 5 millimeters (mm), this is unfavorable for again the miniaturization that product is overall. And, electrode is generally all very thin and is fixed up and comparatively bothers, and battery compartment would generally design deep trouth, high muscle etc. at the correspondence position installing electrode, adds the existence of through hole etc., and while the limited strength of battery compartment, also more difficult in appearance have good aesthetic feeling.

Summary of the invention

The technical problem to be solved is to overcome the battery compartment of the electronic equipment deficiency that difficulty is bigger when assembling and weld job in prior art.

The invention provides a kind of battery compartment, described battery compartment includes forming, after the first storehouse section and the second storehouse section of detachable combination, described first storehouse section and described second storehouse section combine, the semi-enclosed accommodation space holding aneroid battery; Described first storehouse section includes the first combination end with described second storehouse section combination and the first abutting end coordinated with the first electrode of described aneroid battery, and described second storehouse section includes the second combination end with described first storehouse section combination and the second abutting end coordinated with the second electrode of described aneroid battery.

Preferably, the second electrode contact of described battery compartment includes being arranged on the first abutting end of described first storehouse section the first electrode contact and the second abutting end of being arranged on described second storehouse section.

Preferably, the end face of the first abutting end of described first storehouse section is provided with through hole, for stretching out described first electrode contact from described accommodation space or being drawn out to described accommodation space by the electrode wires electrically connected with described first electrode contact; And/or the end face of the second abutting end of described second storehouse section is provided with through hole, for stretching out described second electrode contact from described accommodation space or the electrode wires electrically connected with described second electrode contact being drawn out to described accommodation space.

Preferably, the first abutting end of described first storehouse section offers groove, for stretching out described first electrode contact from described accommodation space or being drawn out to described accommodation space by the electrode wires electrically connected with described first electrode contact; And/or the second abutting end of described second storehouse section offers groove, for stretching out described second electrode contact from described accommodation space or the electrode wires electrically connected with described second electrode contact being drawn out to described accommodation space.

Preferably, described first storehouse section and the second storehouse section after combining, leave installation gap between described first combination end and described second combination end.

Preferably, end line at least some of of the first combination end of described first storehouse section, and/or the end line of the second combination end of the second storehouse section is at least some of, is perpendicular to the axis direction of described aneroid battery.

Preferably, described first storehouse section and described second storehouse section clamping combination.

Preferably, described battery compartment also includes battery cover, and described battery cover covers on the opening in semi-enclosed described accommodation space.

Present invention also offers a kind of electronic equipment, include separable first housing and the second housing, it is characterised in that also include battery compartment as above, described first storehouse section is arranged on described first housing, and described second storehouse section is arranged on described second housing.

Preferably, on the axis direction of described aneroid battery, the first abutting end of described first storehouse section and the distance of described first housing are less than or equal to 3 millimeters; And/or on the axis direction of described aneroid battery, the second abutting end of described second storehouse section and the distance of described second housing are less than or equal to 3 millimeters.

Compared with prior art, battery compartment is carried out split-type design by the present invention, electrode is installed to the different ingredients of battery compartment again from pcb board after having connected, again the two of battery compartment storehouse section combinations are formed the semi-enclosed accommodation space holding aneroid battery, solve working space when pcb board in prior art, electrode and monoblock type battery compartment weld together little and damage the problems such as the risk of housing is high, reduce the difficulty in the assembling of prior art battery compartment and weld job.

In the present invention, because electrode can weld with pcb board before being installed to battery compartment, so that the length that electrode extends to outside battery compartment can be only small, it is simple to miniaturization of electronic products designs.

Other features and advantages of the present invention will be set forth in the following description, and, partly become apparent from description, or understand by implementing technical scheme. The purpose of the present invention and other advantages can be realized by structure specifically noted in description, claims and accompanying drawing and/or flow process and be obtained.

Accompanying drawing explanation

Accompanying drawing is used for providing being further appreciated by technical scheme or prior art, and constitutes a part for description. Wherein, the accompanying drawing expressing the embodiment of the present invention is used for explaining technical scheme together with embodiments of the present invention, but is not intended that the restriction to technical solution of the present invention.

Figure 1A is for installing the schematic front view of the battery compartment of two pitch cylinder batteries in prior art.

Figure 1B is the left view schematic diagram of battery compartment shown in Figure 1A.

Fig. 2 A is the cross-sectional schematic of the main apparent direction of the battery compartment of the embodiment of the present invention.

Fig. 2 B is the cross-sectional schematic in the left view direction of the battery compartment of Fig. 2 A illustrated embodiment.

Fig. 3 and Fig. 4 illustrates the housing of the electronic equipment of the embodiment of the present invention.

Detailed description of the invention

Describing embodiments of the present invention in detail below with reference to drawings and Examples, to the present invention, how application technology means solve technical problem whereby, and the process that realizes reaching relevant art effect can fully understand and implement according to this. Each feature in the embodiment of the present invention and embodiment, can be combined with each other under not colliding premise, and the technical scheme formed is all within protection scope of the present invention.

The battery compartment of the embodiment of the present invention, including two storehouse sections of detachable combination, just can form, after the combination of the two storehouse section, the semi-enclosed accommodation space holding aneroid battery. Namely semi-enclosed accommodation space holds space and has opening, and this opening is for putting into battery in accommodation space. The two storehouse section, each includes the combination end for carrying out coordinating with the other side, and is used for the abutting end matched with the electrode of aneroid battery. Battery compartment is carried out split-type design by the present invention, it is possible to again by two storehouse sections combinations after first welding needing the electrode being connected with aneroid battery, therefore electrode is welded with pcb board time, working space is unrestricted; Therefore, it is possible to well solve the technical problem that in prior art, integral battery storehouse section working space when being welded by electrode is little, operation is difficult and welding mortality is high with pcb board.

Two storehouse sections are also each provided with the electrode contact that the electrode with aneroid battery is electrically connected.

Fig. 2 A is the cross-sectional schematic of the main apparent direction of a kind of battery compartment that can hold two joint aneroid battery of the embodiment of the present invention, and Fig. 2 B is the left view direction cross-sectional schematic of the battery compartment of Fig. 2 A illustrated embodiment.

As shown in Figure 2 A and 2 B, the battery compartment of the embodiment of the present invention, include detachable the first storehouse section 11 and the second storehouse section 12 (as shown in Figure 2 B) separating and can combining, when the first storehouse section 11 and the second storehouse section 12 form the semi-enclosed accommodation space that can hold battery aneroid battery when combining. Battery compartment also includes battery cover 200, and battery cover covers on the opening in semi-enclosed accommodation space.

The associating contact pin 21 being used for being directly connected to first segment aneroid battery 101 positive pole and second section aneroid battery 102 negative pole is arranged in the first storehouse section 11, it is used for connecting the positive pole contact pin 22 of second section aneroid battery 102 positive pole and for connecting the negative pole contact pin 23 of first segment aneroid battery 101 negative pole, is arranged in the second storehouse section 12. Under this situation, associating contact pin 21 is aforesaid first electrode contact, positive pole contact pin 22 and negative pole contact pin 23 and is aforesaid second electrode contact. Certainly, positive pole contact pin 22 and negative pole contact pin 23 are arranged in the first storehouse section 11, and associating contact pin 21 are arranged in the second storehouse section 12, also feasible.

As shown in Figure 2 B, two joint aneroid battery are set in parallel in battery compartment. The second storehouse section 12 that positive pole contact pin 22 and negative pole contact pin 23 are set is additionally provided with two through holes 120, facilitates positive pole contact pin 22 and negative pole contact pin 23 to draw from the two through hole 120 respectively. Certainly, it is also feasible for arranging in the second storehouse section 12 that a through hole, positive pole contact pin 22 and negative pole contact pin 23 draws from a through hole, but needs to ensure that the two electrode contact is insulation each other. In other embodiments of the present invention, it is simple to the through hole drawing positive pole contact pin and negative pole contact pin is provided in the second storehouse section 12. It practice, for adopting two through holes to draw the situation of the two electrode contact respectively, the first storehouse section and the second storehouse section respectively arrange a through hole, also feasible.

In having some embodiments, electrode contact is arranged on inside battery compartment, utilizes electrode wires to be connected on electrode contact and extracts as being externally supplied electric energy. Under this situation, what draw from the two through hole is two electrode wires connecting positive pole contact pin and negative pole contact pin respectively. Similarly, arranging a through hole in the first storehouse section or the second storehouse section, it is also feasible that two electrode wires are drawn from this through hole, it is ensured that these two electrode wires mutually insulateds. It practice, be easy to draw the through hole of these two electrode wires, it is all feasible for being arranged in any one storehouse section. Further, adopt two through holes to draw the situation of two electrode wires respectively, the first storehouse section and the second storehouse section respectively arrange a through hole, also feasible.

It is positioned at the positive pole contact pin outside battery compartment and negative pole contact pin without directly being stretched out a part by electrode wires, or it is used for the electrode wires of extension electrode contact pin (positive pole contact pin 22 and negative pole contact pin 23), is generally all that the end face middle position from battery compartment is stretched out.

The battery compartment of the present invention adopts split type setting, and therefore battery compartment arranges this end face of positive pole contact pin 22 and negative pole contact pin 23 and can be divided into two parts, and a portion is positioned in the first storehouse section 11, and another part is positioned in the second storehouse section 12. Thus, the through hole of the part that extraction positive pole contact pin 22 and negative pole contact pin 23 externally connect, it is possible to be arranged in the first storehouse section 11, it is also possible to be arranged in the second storehouse section 12, depend primarily on the outside connection requirement to positive pole contact pin 22 and negative pole contact pin 23.

It is divided into two parts owing to battery compartment stretches out this end face of a part of electrode contact (or extraction electrode line), therefore the first storehouse section 11 and the second storehouse section 12 are when combination forms semi-enclosed accommodation space, on this end face, first storehouse section 11 and the second storehouse section 12 typically at least ground localized contact are can mutually support when combination, combine to be formed between end at two in other words and mutually support, thus forming firm semi-enclosed accommodation space. In certain embodiments, first storehouse section 11 and the second storehouse section 12 are localized contact on this end face, electrode contact stretch out the part (or electrode wires) of battery compartment just can from the first storehouse section 11 and the second storehouse section 12 on each combination end not in contact with the gap (installation gap) that formed of part in stretch out (or extraction). In further embodiments, first storehouse section 11 is intactly contact with the second storehouse section 12 on this end face, then as it was previously stated, the part (or electrode wires) that electrode contact stretches out battery compartment just can be drawn from the through hole the first storehouse section 11 and/or the second storehouse section 12.

In other embodiments of the present invention, first abutting end of the first storehouse section 11 is provided with groove, such first storehouse section 11 and the second storehouse section 12 are when combination, and electrode contact stretches out the part (or electrode wires) of battery compartment and namely stretches out (or extraction) from this groove. It will be apparent to those skilled in the art that groove is arranged on the second abutting end of the second storehouse section 12, or be simultaneously located on the first abutting end of the first storehouse section 11 and the first abutting end of the second storehouse section 12, be equally also all feasible. In Fig. 4 as described later, positive pole contact pin 52 and negative pole contact pin 53 are stretched out the part of warehouse and are stretched out from the groove the second storehouse section 42 respectively.

It should be noted that the groove that the upper surface that aforementioned grooves can be the second abutting end of the first abutting end from the first storehouse section 11 or the second storehouse section 12 is offered downwards.

The present invention has some embodiments, when first storehouse section 11 and the second storehouse section 12 are by being us shown firmly attached on housing except the part of respective connecting portion, first storehouse section 11 and the second storehouse section 12 are positioned at battery compartment and can also be not directly contacted with on electrode contact (or extraction electrode line) this end face stretching out, namely two combination ends are not directly contacted with, thus the first storehouse section 11 and the second storehouse section 12 leave installation gap on this end face, electrode contact (or electrode wires) stretches out (or extraction) from this gap. Stretch out electrode contact (or extraction electrode line) by groove or gap, it is ensured that while the bulk strength of battery compartment, also improve the overall appearance aesthetic feeling of battery compartment.

In sum, when first storehouse section 11 and the combination of the second storehouse section 12 form battery compartment, battery compartment stretches out on the end face of electrode contact (or extraction electrode line), leaving gap or through hole, electrode contact (or electrode wires) stretches out (or extraction) from this gap or through hole. For stretching out the situation of electrode contact (or extraction electrode line) from gap, the first storehouse section 11 is positioned at battery compartment with the second storehouse section 12 and does not at least partially contact on this end face; For stretching out the situation of electrode contact (or extraction electrode line) from through hole, this through hole is arranged on the first storehouse section 11 or the second storehouse section 12 is positioned at the part on this end face stretching out electrode contact (or extraction electrode line), or this through hole is arranged in the first storehouse section 11 or the second storehouse section 12 binding site (namely aforementioned situation drawn from groove) on this end face.

The battery compartment of embodiments of the invention is when application, first storehouse section 11 and the second storehouse section 12 are set up separately on different housings, electrode contact (or the lead-out wire being connected with electrode contact) in such second storehouse section 12 just can first weld with pcb board, then again the electrode contact (or lead-out wire) after welding is arranged in the second storehouse section 12, finally is combined forming semi-enclosed accommodation space by the second storehouse section 12 and the first storehouse section 11. First storehouse section 11 is installed associating contact pin, generally installs in the way of grafting, it is to avoid the harmful effect to battery compartment of the high temperature under welding surroundings, especially for the battery compartment of plastic, it is to avoid occur being subject to the high temperature of welding surroundings and the problem that deforms.

Battery compartment is carried out split setting by the present invention, facilitates installation and the weld job of electrode contact etc., thus after electrode contact stretches out battery compartment, need not reserve bigger space to carry out aforesaid installation and weld job outside battery compartment. In embodiments of the invention, electrode contact stretches out the part of battery compartment, short compared to existing technology along the upper reserved size of aneroid battery axis direction (namely being perpendicular to the direction of end face belonging to the abutting end of any one storehouse section), it is typically smaller than equal to 3 millimeters (mm). For drawing the situation of battery compartment after being connected electrode contact by lead-out wire, lead-out wire is positioned at the part outside battery compartment, and along aneroid battery axis direction, reserved size, refer to former electrodes contact pin and directly stretch out the situation of battery compartment.

The battery compartment of the stagewise of the embodiment of the present invention, avoid the operation process carrying out welding after electrode contact is installed to battery compartment again with pcb board, but first electrode contact or lead-out wire are welded with pcb board, significantly reduce welding difficulty, improve working performance. And, the position that first storehouse section 11 is connected with the second storehouse section 12 is open design, such first storehouse section 11 and the second storehouse section 12 compared to existing technology in the battery compartment of integral type add again more opening, when installing the electrode being already welded on pcb board, can there is more installing space, reduce the difficulty installing electrode, improve installation effectiveness.

The battery compartment of the embodiment of the present invention, above for two save aneroid battery be illustrated. It practice, for a battery compartment saving the battery compartment of aneroid battery or three joints and above quantity aneroid battery, the split-type structural of the equally possible employing present invention and reduce the difficulty of welding electrode and the working performance of raising welding electrode.

For being only capable of holding the battery compartment of a joint aneroid battery, positive pole contact pin and negative pole contact pin are disposed in two storehouse sections. For this situation, positive pole contact pin and negative pole contact pin, one of them is the first electrode contact, and another is the second electrode contact.

For the battery compartment of the more piece aneroid battery connected in a series arrangement can be held, it is divided into again two kinds of situations according to the quantity of the aneroid battery that can hold.

When the aneroid battery that can hold adds up to even number, positive pole contact pin and negative pole contact pin are generally simultaneously located in the section of same storehouse, and another one storehouse section then arranges at least one associating contact pin. Such as, in the embodiment of aforementioned two joint aneroid battery, associating contact pin 21 is arranged in the first storehouse section 11, and positive pole contact pin 22 and negative pole contact pin 23 are then arranged in the second storehouse section 12. For, for the more more piece aneroid battery of even number (as four save aneroid battery, six joint aneroid battery etc.), arranging in this storehouse section of positive pole contact pin and negative pole contact pin, in addition it is also necessary to arrange at least one associating contact pin simultaneously. In this case, positive pole contact pin, negative pole contact pin and with positive pole contact pin and negative pole contact pin homonymy combine contact pin for a kind of electrode contact (the first electrode contact can be referred to as), the associating contact pin of other side is another kind of electrode contact (can be referred to as the second electrode contact).

When the aneroid battery that can hold adds up to odd number, positive pole contact pin and negative pole contact pin are separately positioned in two storehouse sections, and also need in the section of each storehouse arrange at least one associating contact pin. In this case, positive pole contact pin and with positive pole contact pin homonymy combine contact pin for a kind of electrode contact (the first electrode contact can be referred to as), negative pole contact pin and with negative pole contact pin homonymy combine contact pin for another kind of electrode contact (the second electrode contact can be referred to as).

In some embodiments of the present invention, whole battery compartment is cut into two sections along the direction being perpendicular to aneroid battery axis, each storehouse section is correspondingly arranged corresponding electrode contact, two storehouse sections is combined be the formation of semi-enclosed accommodation space in use. Two storehouse sections, at the end line of binding site, are perpendicular to aneroid battery axis direction.

The battery compartment of the embodiment of the present invention, because changing, electrode is first installed in battery compartment to carry out by prior art the sequence of operation welded again, but first electrode is welded with pcb board, thus it is also possible that the part that electrode stretches out outside battery compartment can be short as best one can, this is also beneficial to save hardware cost, and reduce the overall dimensions of battery compartment and surrounding enviroment, it is ensured that with the integral miniaturization of electronic equipment of the battery compartment of the embodiment of the present invention.

Fig. 3 and Fig. 4 illustrates the housing parts of the electronic equipment of the embodiment of the present invention, this electronic equipment includes separable first housing 31 and the second housing 32, first storehouse section 41 of the battery compartment of the embodiment of the present invention as above and the second storehouse section 42 are separately positioned on the two housing, wherein the first storehouse section 41 is arranged on the first housing 31, and the second storehouse section 42 is arranged on the second housing 32. When first housing and the second shell combination are set-located, the first storehouse section 41 and one semi-enclosed accommodation space of the second storehouse section 42 formation stitched together. When separately the first housing 31 and the second housing 32, the first storehouse section 41 and the second storehouse section 42 are also followed two housings and are separated. The electronic equipment of the present invention, split-type design is carried out by battery compartment, again two storehouse section the first housings 31 and the second housing 32 can be combined by need the electrode being connected first to weld with aneroid battery after, therefore electrode is welded with pcb board time, working space is unrestricted; Namely when not combining at the first housing 31 and the second housing 32, just electrode is welded with pcb board, again the first housing 31 and the second housing 32 are assembled after welding is good, weld with pcb board without welding electrode again after assembling; Therefore, it is possible to well solve the technical problem that in prior art, integral battery storehouse section working space when being welded by electrode is little, operation is difficult and welding mortality is high with pcb board.

In the second housing 32 shown in Fig. 4, the second storehouse section 42 is additionally provided with positive pole contact pin 52 and negative pole contact pin 53. Second storehouse section 42, corresponding to arranging positive pole contact pin 52 and the position of negative pole contact pin 53, offers groove respectively, facilitates positive pole contact pin 52 and negative pole contact pin 53 to extend to outside from the inside of the second storehouse section 42. And, on the second housing 32 with the second storehouse section 42 just to part, and the distance between the second storehouse section 42 is less than or equal to 3 millimeters. It is to say, the size that the part stretched out from the second storehouse section 42 of positive pole contact pin 52 and negative pole contact pin 53 is on the axis direction of aneroid battery, less than or equal to 3 millimeters. It should be noted that the axis direction of aneroid battery as shown in Figure 4, and it is perpendicular to the direction of end face belonging to the first abutting end of the first storehouse section, is identical. It is perpendicular to the direction of end face belonging to the first abutting end of the first storehouse section, and is perpendicular to the direction of end face belonging to the second abutting end of the second storehouse section, be also identical.

For the battery compartment that can hold other quantity aneroid battery, including being only capable of holding the battery compartment of a joint aneroid battery, first storehouse section or the second storehouse section stretch out positive pole contact pin and the part of negative pole contact pin or extraction electrode line, and just to housing between distance, less than or equal to 3 millimeters.

So arrange, positive pole contact pin 52 and negative pole contact pin 53 can after being installed in the second storehouse section 42 and connecting with PCB, it is combined with the first storehouse section 41 being mounted with associating contact pin again, reduce the difficulty of welding positive pole contact pin and negative pole contact pin, improve the working performance of welding positive pole contact pin and negative pole contact pin, also contribute to Miniaturization Design and the production of electronic equipment simultaneously.

Although the embodiment that disclosed herein is as above, but described content is only the embodiment readily appreciating technical solution of the present invention and adopt, and is not limited to the present invention. Technical staff in any art of the present invention; under the premise without departing from the spirit and scope that disclosed herein; any amendment and change can be carried out in the form implemented and details; but the scope of patent protection of the present invention, still must be as the criterion with the scope that appending claims defines.

Claims (10)

1. a battery compartment, it is characterised in that described battery compartment includes the first storehouse section and the second storehouse section of detachable combination, described first storehouse section and semi-enclosed accommodation space of formation accommodation aneroid battery after described second storehouse section combination;

Described first storehouse section includes the first combination end with described second storehouse section combination and the first abutting end coordinated with the first electrode of described aneroid battery,

Described second storehouse section includes the second combination end with described first storehouse section combination and the second abutting end coordinated with the second electrode of described aneroid battery.

2. battery compartment according to claim 1, it is characterised in that

Second electrode contact of the first electrode contact that described battery compartment includes being arranged on the first abutting end of described first storehouse section and the second abutting end of being arranged on described second storehouse section.

3. battery compartment according to claim 2, it is characterised in that

The end face of the first abutting end of described first storehouse section is provided with through hole, for stretching out described first electrode contact from described accommodation space or being drawn out to described accommodation space by the electrode wires electrically connected with described first electrode contact; And/or

The end face of the second abutting end of described second storehouse section is provided with through hole, for stretching out described second electrode contact from described accommodation space or the electrode wires electrically connected with described second electrode contact being drawn out to described accommodation space.

4. battery compartment according to claim 2, it is characterised in that

First abutting end of described first storehouse section offers groove, for stretching out described first electrode contact from described accommodation space or being drawn out to described accommodation space by the electrode wires electrically connected with described first electrode contact; And/or

Second abutting end of described second storehouse section offers groove, for stretching out described second electrode contact from described accommodation space or the electrode wires electrically connected with described second electrode contact being drawn out to described accommodation space.

5. battery compartment according to claim 2, it is characterised in that

Described first storehouse section and the second storehouse section after combining, leave installation gap between described first combination end and described second combination end.

6. battery compartment according to any one of claim 1 to 5, it is characterised in that

End line at least some of of the first combination end of described first storehouse section, and/or the end line of the second combination end of the second storehouse section is at least some of, is perpendicular to the axis direction of described aneroid battery.

7. battery compartment according to any one of claim 1 to 5, it is characterised in that

Described first storehouse section and described second storehouse section clamping combination.

8. battery compartment according to any one of claim 1 to 5, it is characterised in that

Described battery compartment also includes battery cover, and described battery cover covers on the opening in semi-enclosed described accommodation space.

9. an electronic equipment, include separable first housing and the second housing, it is characterised in that also include the battery compartment as according to any one of claim 1 to 8, described first storehouse section is arranged on described first housing, and described second storehouse section is arranged on described second housing.

10. battery compartment according to claim 9, it is characterised in that

On the axis direction of described aneroid battery, the first abutting end of described first storehouse section and the distance of described first housing are less than or equal to 3 millimeters; And/or

On the axis direction of described aneroid battery, the second abutting end of described second storehouse section and the distance of described second housing are less than or equal to 3 millimeters.