CN111081936A - Battery box structure for GNSS receiver and assembling method thereof - Google Patents

Abstract

The invention discloses a battery box structure for a GNSS receiver and an assembling method thereof, the GNSS receiver comprises a main body shell, the battery box structure is arranged at the bottom of the main body shell and comprises a box body for accommodating a battery, a battery cover and a fixing part, the battery cover comprises a cover plate and an extension arm, the cover plate is vertical to the extension arm, two rotating shafts are arranged at two sides of the extension arm, a spring coil of a torsion spring is sleeved on each rotating shaft, an accommodating groove is arranged outside the side surface of the box body, the fixing part comprises a mounting plate, two mounting arms and an opening, the two mounting arms are arranged at two sides of the opening, the extension arm penetrates through the opening and is clamped in the accommodating groove, the mounting arm is mounted outside the side face of the box body through a mounting piece, and the torsion spring applies acting force far away from the GNSS receiver to the battery cover. The invention has the advantages of quick and convenient installation, assembly time saving and engineering material cost reduction.

Description

Battery box structure for GNSS receiver and assembling method thereof

Technical Field

The invention relates to a battery box structure for a GNSS receiver and an assembling method thereof.

Background

The satellite navigation positioning technology has basically replaced the ground-based radio navigation, the traditional geodetic survey and the astronomical survey navigation positioning technology at present, and promotes the brand new development of the field of geodetic survey and navigation positioning. Nowadays, the GNSS system is not only an infrastructure of national safety and economy, but also an important mark for embodying the status of modernized big countries and the national comprehensive strength. Due to the important significance in politics, economy, military and other aspects, the major military countries and the economic bodies in the world compete to develop independent and autonomous satellite navigation systems.

In the coming years, the satellite navigation system will enter a completely new phase. The user is faced with the situation that near-hundred navigation satellites of 4 global systems coexist and are compatible with each other. The abundant navigation information can improve the usability, accuracy, completeness and reliability of satellite navigation users, but meanwhile, the problems of frequency resource competition, satellite navigation market competition, time frequency dominance competition, compatibility and interoperability dispute and the like can be faced.

The battery box on the existing GNSS receiver is difficult to assemble, long in assembly time consumption, high in material requirement and high in cost.

Disclosure of Invention

The invention aims to overcome the defects that a battery box on a GNSS receiver is difficult to assemble, long in assembly time consumption and high in material requirement cost in the prior art, and provides a battery box structure for the GNSS receiver and an assembly method thereof, wherein the battery box structure is quick and convenient to install, the assembly time is saved, and the engineering material cost is reduced.

The invention solves the technical problems through the following technical scheme:

a battery box structure for a GNSS receiver comprises a main body shell, the battery box structure is arranged at the bottom of the main body shell, and the GNSS receiver is characterized in that the battery box structure comprises a box body for accommodating a battery, a battery cover and a fixing part, the battery cover comprises a cover plate and an extension arm, the cover plate is vertically connected with the extension arm, two rotating shafts are arranged at two sides of the extension arm, a spring ring of a torsion spring is sleeved on the rotating shaft, an accommodating groove is arranged outside the side surface of the box body, the fixing part comprises an installing plate, two installing arms and an opening, the two installing arms are arranged at two sides of the opening, the extension arm penetrates through the opening and extends to the accommodating groove and is clamped on the inner surface of the fixing part through the rotating shafts, the installing arms are installed outside the side surface of the box body through installing parts, the torsion spring applies a force to the battery cover away from the GNSS receiver.

Preferably, the torsion spring comprises two spring coils and a connecting rod, the spring coils are arranged on two sides of the connecting rod, and the two spring coils and the connecting rod are of an integrated structure.

Preferably, the first ends of the two spring coils are connected with the connecting rod, and the second ends of the two spring coils are clamped on the extension arm.

Preferably, the mounting part is a screw, two bosses are arranged on the outer side of the box body of the main body shell, and the two mounting arms are mounted on the bosses through the screw.

Preferably, two guide grooves are arranged below the boss, an installation table top is arranged at the top end of each guide groove and is vertically connected with an installation side wall, two limiting bulges matched with the shapes of the guide grooves and clamped in the guide grooves are arranged at the bottom end of the inner side of the fixing piece, and clamping bulges matched with the installation side walls to clamp the connecting rods are arranged between the two limiting bulges.

Preferably, the clamping protrusion comprises a clamping surface and an assembling surface, the clamping surface is matched with the mounting side wall for clamping the connecting rod, the assembling surface is connected with the bottom edge of the clamping surface and the bottom edge of the fixing piece, and an included angle between the clamping surface and the assembling surface is an obtuse angle.

Preferably, the height of the front side wall of the box body is greater than that of the rear side wall of the box body, the rear side wall is close to the side wall of the main body shell, the cover plate is provided with the accommodating box, the height of the front side wall of the accommodating box is less than that of the rear side wall of the accommodating box, and after the accommodating box and the box body are closed, the accommodating box and the box body are cuboid in overall shape.

The invention also provides an assembly method realized by using the battery box structure, which is characterized by comprising the following steps:

sleeving two spring coils of a torsion spring on the two rotating shafts respectively;

clamping the rotating shaft on the inner surface of the fixed part;

sliding the limiting protrusion of the fixing piece to the bottom end of the side face of the box body along the guide groove and pressing the fixing piece on the side face of the box body;

and screwing the screw into the screw hole of the boss.

On the basis of the common knowledge in the field, the above preferred conditions can be combined randomly to obtain the preferred embodiments of the invention.

The positive progress effects of the invention are as follows:

the battery box structure for the GNSS receiver and the assembling method thereof have the advantages of being fast and convenient to install, saving assembling time and reducing engineering material cost.

Drawings

Fig. 1 is a schematic structural view of a battery pack structure according to embodiment 1 of the present invention.

Fig. 2 is another structural schematic diagram of the battery case structure according to embodiment 1 of the present invention.

Fig. 3 is another schematic structural view of the battery pack structure according to embodiment 1 of the present invention.

Detailed Description

The invention is further illustrated by the following examples, which are not intended to limit the scope of the invention.

Example 1

Referring to fig. 1 and fig. 2, the present embodiment provides a battery box structure for a GNSS receiver.

The GNSS receiver includes a main body case 11, and the battery box structure is disposed at the bottom of the main body case.

The battery box structure includes a box body 12 for accommodating a battery, a battery cover 13 and a fixing member 14.

The battery cover 13 includes a cover plate 131 and an extension arm 132.

The cover plate is vertically connected with the extension arm.

Two rotating shafts 133 are arranged on two sides of the extension arm, and the spring coils 151 of the torsion spring 15 are sleeved on the rotating shafts 133.

A receiving groove 16 is formed outside the side surface of the case 12.

The fixing member 14 includes a mounting plate 141, two mounting arms 142 and a gap 143.

The two mounting arms 142 are disposed on two sides of the opening.

The extension arm 132 passes through the opening 143 and extends to the receiving groove 16, and is clamped on the inner surface of the fixing element 14 through the rotation shaft 133

The mounting arm is mounted outside the side of the cassette by mounting member 17.

The torsion spring 15 exerts a force on the battery cover 13 away from the GNSS receiver.

Among the battery case structure among the prior art, the installation of spring is comparatively inconvenient, and this application provides a split type battery cover, makes things convenient for the installation of spring.

Specifically, the torsion spring includes two coils 151 and a connecting rod 152, and the coils 151 are disposed on two sides of the connecting rod 152.

The first ends of the two spring coils are connected with the connecting rod, and the second ends of the two spring coils are clamped on the extension arm.

The two spring coils and the connecting rod are of an integrated structure. Through the torsion spring of integral type, the installation of spring is convenient and fast more.

In particular, the mounting is a screw 17.

The main body shell is located the outside of box body is equipped with two bosss 18, two installation arms pass through the screw install in on the boss.

The height of the front side wall 191 of the box body is larger than that of the rear side wall 192 of the box body, the rear side wall is close to the side wall of the main body shell, the cover plate is provided with an accommodating box, the height of the front side wall 193 of the accommodating box is smaller than that of the rear side wall 194 of the accommodating box, and the accommodating box and the box body are closed and then are cuboid in overall shape.

Utilize above-mentioned battery case structure, make things convenient for the installation and the dismantlement of battery.

Referring to fig. 3, further, two guide grooves 21 are arranged below the boss, a mounting table is arranged at the top end of each guide groove, the mounting table is vertically connected with a mounting side wall 22, two limiting protrusions 23 which are matched with the guide grooves in shape and clamped in the guide grooves are arranged at the bottom end of the inner side of the fixing piece, and a clamping protrusion 24 which is matched with the mounting side wall to clamp the connecting rod is arranged between the two limiting protrusions.

The centre gripping arch includes a clamping face and an assembly face, the clamping face with installation lateral wall cooperation centre gripping the connecting rod, the assembly face is connected the bottom edge of clamping face and the bottom edge of mounting, the clamping face is the obtuse angle with the contained angle of assembly face.

The embodiment also provides an assembling method of the battery box structure, which comprises the following steps:

sleeving two spring coils of a torsion spring on the two rotating shafts respectively;

clamping the rotating shaft on the inner surface of the fixed part;

sliding the limiting protrusion of the fixing piece to the bottom end of the side face of the box body along the guide groove and pressing the fixing piece on the side face of the box body;

and screwing the screw into the screw hole of the boss.

While specific embodiments of the invention have been described above, it will be appreciated by those skilled in the art that these are by way of example only, and that the scope of the invention is defined by the appended claims. Various changes and modifications to these embodiments may be made by those skilled in the art without departing from the spirit and scope of the invention, and these changes and modifications are within the scope of the invention.

Claims (8)

1. A battery box structure for a GNSS receiver comprises a main body shell, the battery box structure is arranged at the bottom of the main body shell, and the GNSS receiver is characterized in that the battery box structure comprises a box body for accommodating a battery, a battery cover and a fixing part, the battery cover comprises a cover plate and an extension arm, the cover plate is vertically connected with the extension arm, two rotating shafts are arranged at two sides of the extension arm, a spring ring of a torsion spring is sleeved on the rotating shaft, an accommodating groove is arranged outside the side surface of the box body, the fixing part comprises an installing plate, two installing arms and an opening, the two installing arms are arranged at two sides of the opening, the extension arm penetrates through the opening and extends to the accommodating groove and is clamped on the inner surface of the fixing part through the rotating shafts, the installing arms are installed outside the side surface of the box body through installing parts, the torsion spring applies a force to the battery cover away from the GNSS receiver.

2. A battery pack structure as claimed in claim 1, wherein said torsion spring comprises two coils and a connecting rod, said coils being disposed at both sides of said connecting rod, and said two coils and said connecting rod being of an integral structure.

3. A battery pack structure as claimed in claim 2 wherein first ends of said two coils are each connected to said connecting bar and second ends of said two coils are each snap-fitted to said extension arm.

4. A battery pack structure as claimed in claim 3, wherein said mounting member is a screw, and said main body casing is provided with two bosses on the outer side of said case body, and said two mounting arms are mounted on said bosses by said screw.

5. A battery box structure as defined in claim 4 wherein two guide grooves are provided below said boss, a mounting table is provided at the top end of said guide grooves, said mounting table is vertically connected to a mounting sidewall, two position-limiting protrusions are provided at the bottom end of the inner side of said fixing member, said position-limiting protrusions are matched with said guide grooves and are engaged with said guide grooves, and a holding protrusion is provided between said two position-limiting protrusions, said holding protrusion cooperates with said mounting sidewall to hold said connecting rod.

6. A battery pack structure as claimed in claim 5, wherein said holding projection includes a holding face for holding said connecting rod in cooperation with said mounting side wall, and an assembling face for connecting a bottom edge of said holding face and a bottom edge of said fixing member, the angle between said holding face and said assembling face being an obtuse angle.

7. The battery pack structure according to claim 1, wherein the height of the front side wall of the case body is greater than the height of the rear side wall of the case body, the rear side wall is a side wall close to the main body case, the cover plate is provided with the accommodation case, the height of the front side wall of the accommodation case is less than the height of the rear side wall of the accommodation case, and the accommodation case and the case body are closed to form a rectangular parallelepiped.

8. An assembling method achieved by the battery case structure according to claim 6, characterized in that the assembling method comprises:

sleeving two spring coils of a torsion spring on the two rotating shafts respectively;

clamping the rotating shaft on the inner surface of the fixed part;

sliding the limiting protrusion of the fixing piece to the bottom end of the side face of the box body along the guide groove and pressing the fixing piece on the side face of the box body;

and screwing the screw into the screw hole of the boss.

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