SUMMERY OF THE UTILITY MODEL
The utility model provides a battery mounting structure has solved among the prior art battery installation after fixed insecure, the poor problem of reliability that drops easily.
In order to realize the purpose of the utility model, the utility model adopts the following technical scheme to realize:
a battery mounting structure comprises a battery compartment, wherein an assembly cavity is formed in the battery compartment;
a stopper which is installed in the assembly cavity and is rotatable relative to the assembly cavity, and a stopper portion is formed on the stopper;
the battery is arranged in the assembly cavity, and a matching part which can be matched with the limiting part is arranged on the battery;
the elastic limiting assembly is assembled in the battery bin and abutted against the limiting piece, and is used for providing elastic pressure for the limiting piece to enable the limiting piece to keep limiting the battery and limiting the limiting piece;
when the battery is assembled in the assembly cavity, the limiting part limits the battery through the matching of the limiting part and the matching part, and when acting force is applied to the limiting part, the limiting part can rotate relative to the assembly cavity to enable the limiting part to be separated from the matching part.
Furthermore, the limiting part is rotatably assembled in the assembling cavity through a limiting pin.
Furthermore, a first through hole is formed in the limiting piece, a second through hole is formed in the side wall of the battery compartment, and the limiting pin is inserted into the first through hole and the second through hole.
Further, the limiting part is a first protrusion formed on the limiting part, the matching part is a second protrusion formed on the end of the battery, and when the battery is assembled in place, the first protrusion is pressed on the second protrusion.
Furthermore, the elastic limiting assembly comprises a body member, a plug-in groove is formed in the body member, an elastic member and a pressing member are arranged in the plug-in groove, one end of the elastic member abuts against the bottom of the plug-in groove, the other end of the elastic member abuts against the pressing member, and the pressing member is partially located in a clamping groove in the limiting member.
Furthermore, a mounting hole is formed in the side wall of the battery compartment, the shape of the mounting hole is matched with that of the body piece, and the body piece is assembled and fixed in the mounting hole.
Furthermore, the assembly cavity comprises a first assembly cavity and a second assembly cavity which are communicated with each other, and the limiting piece is assembled in the second assembly cavity and has a distance with the side wall of the second assembly cavity.
Furthermore, the end of the limiting part is provided with a bending part, the bottom of the first assembling cavity is provided with a slot inserted with the bending part, and when the battery is assembled in place, the bending part is inserted into the slot and positioned at the bottom of the battery.
A game handle comprises the battery mounting structure in the technical scheme.
Compared with the prior art, the utility model discloses an advantage is with positive effect:
the utility model provides a battery mounting structure is equipped with cooperation portion on the battery, is equipped with spacing portion on the locating part, and is spacing to the battery through locating part and cooperation portion cooperation, simultaneously, carries on spacingly to the locating part through the spacing subassembly of elasticity, has guaranteed the spacing fixed of locating part to the battery for when using, the battery can not come off from the battery compartment, and then has guaranteed the reliability that the battery is connected.
Other features and advantages of the present invention will become more apparent from the following detailed description of the invention when read in conjunction with the accompanying drawings.
Detailed Description
In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings and embodiments.
It should be noted that in the description of the present invention, the terms of direction or positional relationship indicated by the terms "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, which are merely for convenience of description, and do not indicate or imply that the device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.
The utility model provides an embodiment of a battery mounting structure, which is shown in fig. 1-4, and comprises a battery compartment 100, an assembly cavity 110 is formed in the battery compartment 100, and the assembly cavity 110 is mainly used for mounting and fixing a battery 300;
the limiting member 200 is installed in the assembly cavity 110 and can rotate relative to the assembly cavity 110, a limiting portion 210 is formed on the limiting member 200, preferably, the limiting member 200 in this embodiment is a limiting shifting block, which is inserted into the battery compartment 100 during assembly, specifically, the limiting member 200 can be rotatably assembled in the assembly cavity 110 by a limiting pin 500, when connecting, a first through hole 220 can be formed on the limiting member 200, the first through hole 220 is formed to penetrate through the limiting member 200, a second through hole 120 is formed on a side wall of the battery compartment 100, 2 second through holes 120 are formed, which penetrate through two opposite side walls of the battery compartment 100, respectively, during assembly, the limiting member 200 is inserted into the assembly cavity 110 of the battery compartment 100, and then the limiting pin 500 sequentially penetrates through the second through hole 120 on one side wall of the battery compartment 100, the first through hole 220 on the limiting member 200 and then penetrates out of the second through hole 120 on the other side wall of the battery compartment 100, so as to realize the rotational connection between the limiting member 200 and the battery compartment 100, so that when the upper end of the limiting member 200 is acted by an acting force, the limiting member can rotate around the limiting pin 500 relative to the battery compartment 100, the limiting portion 210 is preferably configured as a first protrusion formed on the limiting member 200 in this embodiment, the limiting member 200 includes a limiting member body, and the first protrusion is perpendicular to the limiting member body;
and the battery 300 is installed in the assembly cavity 110, and the battery 300 is provided with a matching part 310 capable of matching with the limiting part 210, wherein when the battery 300 is assembled in the assembly cavity 110, the limiting part 200 limits the battery 300 through the matching of the limiting part 210 and the matching part 310, and when acting force is applied to the limiting part 200, the limiting part 200 can rotate along the limiting pin 500 relative to the assembly cavity 110 so that the limiting part 210 is separated from the matching part 310. Preferably, the matching portion 310 in this embodiment is a second protrusion capable of matching with the first protrusion, the second protrusion is disposed at an end position of the battery 300 and is an annular protrusion disposed along a circumferential direction of the battery 300, the limiting member 200 is assembled in the assembly cavity 110 and then pressed on the second protrusion of the battery 300 through the first protrusion above the limiting member, the battery 300 is compressed and positioned by the limiting member 200, due to the limiting effect of the limiting member 200, even if the battery 300 is placed, the battery 300 is not driven to fall out of the battery compartment 100, and the problem that the battery 300 falls off due to the falling of the battery cover to affect the user experience is effectively avoided.
In order to limit the position of the position limiting member 200 and prevent the position limiting member 200 from falling out of the assembly cavity 110 of the battery compartment 100, in this embodiment, a set of elastic position limiting assemblies 400 is correspondingly disposed, which are assembled in the battery compartment 100 and abut against the position limiting member 200 and are used for providing elastic pressure to the position limiting member 200 to keep the position limiting member 200 limiting the position of the battery and limiting the position limiting member 200, specifically, the elastic position limiting assembly 400 in this embodiment includes a body member 410, the body member 410 is assembled in the battery compartment 100, specifically, an installation hole 130 adapted to the shape of the body member 410 is formed on a sidewall of the battery compartment 100, the body member 410 is assembled and fixed in the installation hole 130, the installation hole 130 may be a counter-bore, the body member 410 is a structure adapted to the shape of the counter-bore and assembled therein, and, meanwhile, in order to achieve the fixed connection between the body member 410 and the installation hole 130, a thread may be correspondingly disposed on, part of the inner side wall of mounting hole 130 is provided with internal threads, and body member 410 can be fixed inside mounting hole 130 by screwing. An insertion groove 411 is formed in the body member 410, an elastic member 420 and a pressing member 430 are arranged in the insertion groove 411, one end of the elastic member 420 abuts against the bottom of the insertion groove 411, the other end of the elastic member abuts against the pressing member 430, the pressing member 430 is partially positioned in the clamping groove 230 on the limiting member 200, the pressing member 430 can be a ball, and the clamping groove 230 is an arc-shaped groove matched with the shape of the clamping groove. In this embodiment, the elastic member 420 is disposed between the pressing member 430 and the inserting slot 411, and two ends of the elastic member respectively abut against the bottoms of the pressing member 430 and the inserting slot 411, so as to ensure that the elastic member 420 is in a compressed state, ensure that the elastic member always applies a reverse acting force to the pressing member 430 to enable the pressing member 430 to abut against the limiting member 200, and further ensure that the limiting member 200 is always pressed on the second protrusion of the battery, thereby ensuring the limitation of the battery 300.
Meanwhile, the retaining member 200 is provided with the slot 230, the pressing member 430 is clamped in the slot 230, and the retaining member 200 can be retained through the slot 230, so that the retaining member 200 is prevented from being separated from the assembly cavity 110, the retaining of the battery 300 by the retaining member 200 is ensured, the battery 300 is prevented from falling off from the battery compartment 100, and the reliability of connection of the battery 300 is ensured.
Specifically, in the battery mounting structure of the present embodiment, when the battery 300 is assembled in the assembly cavity 110 of the battery compartment 100, the limiting member 200 can be pressed on the second protrusion at the end of the battery 300 by the first protrusion disposed above the limiting member to limit the battery 300, and meanwhile, the elastic limiting component 400 abuts against the limiting member 200 to limit the limiting member 200, so as to finally limit and fix the battery 300, thereby ensuring that the battery 300 does not fall off from the assembly cavity 110, when the battery 300 needs to be disassembled, an acting force can be applied to the upper section of the limiting member 200, so that the limiting pin 500 rotates as a rotating shaft to be away from the second protrusion side of the battery 300, so as to finally separate the first protrusion from the second protrusion, and after the limitation of the second protrusion on the battery 300 is eliminated, the battery 300 can be taken out, meanwhile, in this embodiment, because the elastic limiting component 400 is further disposed at a position on one side of the limiting member 200, the limiting member 200 is compressed when rotating, and can be elastically deformed when being compressed due to the elastic structure, so that a space is provided for the rotation of the limiting member 200; after the battery 300 is taken out, the elastic member 420 in the elastic limiting assembly 400 recovers deformation, and the limiting member 200 is rebounded to the original position to realize resetting, and the elastic member 420 can be selected from a spring, an elastic sheet and other structures without specific limitation.
Preferably, the assembly cavity 110 in the present embodiment includes a first assembly cavity 111 and a second assembly cavity 112 that are communicated with each other, and the limiting member 200 is assembled in the second assembly cavity 112 and has a distance with a sidewall of the second assembly cavity 112, that is, the limiting member 200 in the present embodiment is not completely assembled in the second assembly cavity 112, and has a distance with each sidewall of the second assembly cavity 112, and the distance can provide a rotation space for the limiting member 200 to rotate, so that the limiting member 200 can rotate inside the second assembly cavity 112.
The end of the limiting member 200 is provided with a bending portion 240, the bending portion 240 is preferably a protrusion, and is disposed perpendicular to the limiting member body, the bottom surface of the first assembling cavity 111 is provided with an insertion slot 113, the guiding member 240 is inserted into the insertion slot 113, when the battery 300 is assembled in place, the bending portion 240 is located at the bottom of the battery 300, and when the limiting member 400 rotates, the bending portion 240 can apply force to the battery 300, so that the battery 300 is tilted, and the battery 300 is taken out in an auxiliary manner.
The utility model also provides a game paddle, including the battery mounting structure in the above-mentioned embodiment.
The above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or that equivalents may be substituted for elements thereof; such modifications and substitutions do not depart from the spirit and scope of the present invention, which is claimed.