CN105679979B - A kind of battery fastening structure of RTK measuring apparatus - Google Patents

Abstract

A kind of battery fastening structure of RTK measuring apparatus, including body, battery and retaining mechanism, the body, which is provided with one, has the battery cavities and battery cover of opening, and battery, which is worn, to be connected in battery cavities and can be moved in the presence of external force towards close to battery cavities bottom；And the side of battery top is provided with a top splenium；Retaining mechanism includes movable part, the first elastomeric element and the second elastomeric element；Movable part is installed on the opening, and movable part is located on the movement locus of top splenium when battery loads battery cavities by the opening；The top of movable part has a compression inclined-plane, and movable part is resiliently attached to battery cavity wall by the first elastomeric element；Second elastomeric element is installed in battery cavities.The battery fastening structure of the RTK measuring apparatus of the present invention, can be such that battery is locked in battery cavities, be not easy to drop in the presence of retaining mechanism；And when needing to change battery, only need to open retaining mechanism can unload battery, convenient to disassembly.

Description

A kind of battery fastening structure of RTK measuring apparatus

Technical field

The present invention relates to RTK technical field of measuring equipment, and in particular to a kind of battery fastening structure of RTK measuring apparatus.

Background technology

RTK (Real-time kinematic) real-time kinetic-control system, this is a kind of new conventional GPS measurement sides Method, RTK are can to employ carrier phase dynamic real-time difference method in real time in the wild to obtain one kind of centimeter-level positioning precision Measuring method, it is the great milestone of GPS applications, its appearance is engineering setting out, topographic mapping, and various control measurements are brought Neoma Foam, drastically increase field operation operating efficiency.Because it need to often carry out outdoor study, therefore RTK measuring apparatus continues in battery There is high requirement for boat and battery altering etc..And existing market product battery pack is filled with hand push on earth, dismantle with hand Battery lanyard is drawn to pull out battery outward, it is more inconvenient to use, and changes the less efficient of battery, causes to measure prolonging for work Late.

The content of the invention

In view of the shortcomings of the prior art, it is an object of the invention to provide a kind of battery fastening structure of RTK measuring apparatus, The process of the dismounting of its battery is realized by a retaining mechanism, convenient and swift.

To achieve the above object, the present invention adopts the following technical scheme that：

A kind of battery fastening structure of RTK measuring apparatus, including body and battery, the body, which is provided with one, has opening Battery cavities and the battery cover for covering the opening, battery wear be connected in battery cavities and can in the presence of external force towards by Nearly battery cavities bottom motion；And the top of battery is provided with a top splenium；

The battery fastening structure also includes one and is used to make battery lock onto battery cavities when battery moves to battery cavities bottom Interior retaining mechanism, retaining mechanism include movable part, the first elastomeric element and the second elastomeric element；Movable part is installed on described Opening, and movable part is located on the movement locus of top splenium when battery loads battery cavities by the opening；Movable part Top has one to be resiliently attached to for the compression inclined-plane by top splenium top pressure, movable part by the first elastomeric element in battery cavities Wall, and first elastomeric element is used for offer one and movable part is moved towards the direction of close top splenium and be resisted against top splenium First elastic stress of top；Second elastomeric element is installed in battery cavities and makes battery away from battery for providing one Second elastic stress of bottom of chamber portion motion.

Preferably, the top of battery cavities is provided with one first guide groove, and the bottom of first guide groove has a guiding surface, Movable part is installed in the first guide groove and can moved along the bearing of trend of guiding surface；Movable part is connected by the first elastomeric element It is connected to the side wall of the first guide groove.

Preferably, the side wall of battery cavities offers the second guide groove, and second guide groove prolongs along the short transverse of battery cavities Stretch, the second elastomeric element is installed in the second guide groove, and one is provided with the second guide groove and is used to compress the second elastomeric element downwards Press part, the press part is convexly equipped in the second guide groove and press part protrudes from the part of the second guide groove and forms a compression zone.

Preferably, the second elastomeric element is spring, is worn in the spring and is connected to an axis of guide, and press part is set in guiding for one The nut of axle, compression zone are formed by the boss for being convexly equipped in nut table wall.

Preferably, limited block is additionally provided with the inwall of battery cavities, stopper slot is opened up on battery, what limited block slided is embedded at In stopper slot.

The beneficial effects of the present invention are：

Compared to prior art, the battery fastening structure of RTK measuring apparatus of the invention, need to only pass through when installing battery People's external force promotes battery, battery can be made to be locked in battery cavities in the presence of retaining mechanism, be not easy to drop；And needing more When changing battery, only need to open retaining mechanism can unload battery, convenient to disassembly.

Brief description of the drawings

Fig. 1 is the structural representation of the present invention；

Fig. 2 is the housing construction schematic diagram of the present invention；

Fig. 3 is the structural representation of the installing plate of the present invention；

Fig. 4 is the battery structure schematic diagram of the present invention.

Wherein, 10, body；11st, battery cavities；110th, installing plate；12nd, limited block；13rd, guiding surface；14th, second it is oriented to Groove；15th, the axis of guide；16th, compression zone；20th, battery；21st, top splenium；22nd, stopper slot；31st, movable part；311st, compression inclined-plane；32、 Second elastomeric element；33rd, the first elastomeric element.

Embodiment

Below, with reference to accompanying drawing and embodiment, the present invention is described further：

A kind of battery fastening structure of RTK measuring apparatus as Figure 1-4, including body 10, battery 20 and locking Mechanism, a battery cavities 11 are provided with body 10, the battery cavities 11 have opening, can load above-mentioned battery 20 by the opening In battery cavities 11, wear battery 20 and be connected in battery cavities 11, and one external force is applied to battery 20 with human hand, battery 20 can be outer at this Moved in the presence of power towards close to the bottom of battery cavities 11；Above-mentioned locking can be passed through when battery 20 moves to 11 bottom of battery cavities Mechanism makes battery 20 lock onto in battery cavities 11, while is covered the opening with a battery cover.Preferably, in the present embodiment In, battery cavities 11 have an installing plate 110, and retaining mechanism can be located on the installing plate 110.

Specific retaining mechanism includes movable part 31, the first elastomeric element 33 and the second elastomeric element 32；Movable part 31 is pacified Loaded on the opening, while a top splenium 21 is set in the side at the top of battery 20, and when battery 20 loads electricity by the opening During cell cavity 11, the movable part 31 is located on the movement locus of the top splenium 21, and the top of movable part 31 has a compression inclined-plane 311, And movable part 31 is resiliently attached to the inwall of battery cavities 11 by above-mentioned first elastomeric element 33, first elastomeric element 33 is used to carry The first elasticity for making movable part 31 be moved towards the direction of close top splenium 21 for one and being finally resisted against the top of top splenium 21 should Power；In addition, above-mentioned second elastomeric element 32 is installed in battery cavities 11, likewise, second elastomeric element 32 can be used for providing One makes the second elastic stress that battery 20 moves away from the bottom of battery cavities 11.

On the basis of said structure, it is necessary to when battery 20 is loaded in battery cavities 11, first with human hand by battery 20 towards electricity The bottom of cell cavity 11 promotes, and is located at due to movable part 31 on the movement locus of the top splenium 21, above-mentioned top splenium 21 is to downward The above-mentioned compression inclined-plane 311 of top pressure, the compression inclined-plane 311 cause above-mentioned movable part 31 to have one perpendicular to the downward active force Horizontal applied force, make movable part 31 away from top splenium 21 direction move；And move to battery cavities 11 in battery 20 During bottom, above-mentioned movable part 31 can be in the presence of the first elastic stress that above-mentioned first elastomeric element 33 is provided towards close The direction motion of top splenium 21, and finally support in the top of top splenium 21 so that battery 20 is stuck in battery cavities 11, is locked Tightly；Certainly, during battery 20 moves towards the bottom of battery cavities 11, above-mentioned second elastomeric element 32 can be compressed, and needed When dismantling battery 20, only it need to pass through the above-mentioned movable part 31 of people's hand propelled so that the first elastomeric element 33 is compressed, movable part 31 Moved away from the direction of top splenium 21, such battery 20 can be in the second elasticity that above-mentioned second elastomeric element 32 is provided The effect of stress is used to be moved away from the bottom of battery cavities 11 by the top pressure of top splenium 21, and then bouncing out battery chamber 11, convenient Dismounting.

Certainly, in the present embodiment, can be in electricity in order to preferably install above-mentioned first elastomeric element 33 and movable part 31 The top of cell cavity 11 is provided with one first guide groove, can specifically have a guiding surface 13 in the bottom of first guide groove, above-mentioned First elastomeric element 33 is connected to the side wall of the first guide groove, and movable part 31 is installed in the first guide groove and can be along guiding surface 13 bearing of trend motion, under the guiding of the guiding surface 13, movable part 31, can when by above-mentioned 21 downward top pressure of top splenium Preferably movable part 31 is set to move in the horizontal direction.

In addition, the installation of the second elastomeric element 32 for convenience, can offer the second guide groove in the side wall of battery cavities 11 14, make short transverse extension of second guide groove 14 along battery cavities 11, above-mentioned second elastomeric element 32 is installed on second and led Into groove 14.A press part for being used to compress the second elastomeric element 32 downwards specifically can be also provided with the second guide groove 14, is made The press part is convexly equipped in the second guide groove 14, and press part protrudes from the part of the second guide groove 14 can form a compression zone 16, When battery 20 moves towards the bottom of battery cavities 11, the bottom of battery 20 can the downward top pressure compression zone 16 so that the second elasticity Part 32 is compressed, and such battery 20 can smoothly enter battery cavities 11.Certainly, protrusion can be also set directly on battery 20 Portion, protuberance is set to be directly protruding into the second guide groove 14, compression spring can also realize the effect above during moving downward.

Further, above-mentioned second elastomeric element 32 is spring, while is worn in the spring and be connected to an axis of guide 15, above-mentioned Press part is a nut for being set in the axis of guide 15, and compression zone 16 is formed by the boss for being convexly equipped in nut table wall, is so being oriented to In the presence of axle 15, spring can be avoided to be rocked in compression process, make its movement locus more steady.

In addition, can be on the inwall of battery cavities 11 in order that obtaining battery 20 can preferably be stuck in battery cavities 11 If limited block 12, the bottom on corresponding battery 20 opens up stopper slot 22, and what limited block 12 slided is embedded in stopper slot 22, such as , when battery 20 moves to 11 bottom of battery cavities, under the collective effect of limited block 12 and stopper slot 22, battery 20 can not be upward for this Depart from battery cavities 11, locking effect is more preferable.

It will be apparent to those skilled in the art that technical scheme that can be as described above and design, make other various Corresponding change and deformation, and all these changes and deformation should all belong to the protection domain of the claims in the present invention Within.

Claims (5)

1. a kind of battery fastening structure of RTK measuring apparatus, including body and battery, the body, which is provided with one, has the electricity of opening Cell cavity and the battery cover for covering the opening, it is characterised in that battery, which is worn, to be connected in battery cavities and can be in the work of external force Moved under towards close to battery cavities bottom；And the side of battery top is provided with a top splenium；

The battery fastening structure also includes one and is used to make battery lock onto in battery cavities when battery moves to battery cavities bottom Retaining mechanism, retaining mechanism include movable part, the first elastomeric element and the second elastomeric element；Movable part is installed on the opening Place, and movable part is located on the movement locus of top splenium when battery loads battery cavities by the opening；The top of movable part Battery cavity wall is resiliently attached to by the first elastomeric element for the compression inclined-plane by top splenium top pressure, movable part with one, And first elastomeric element is used for offer one and movable part is moved and is resisted against above top splenium towards close to the direction of top splenium The first elastic stress；Second elastomeric element is installed in battery cavities and makes battery away from battery cavities bottom for providing one Second elastic stress of portion's motion.

2. the battery fastening structure of RTK measuring apparatus as claimed in claim 1, it is characterised in that the top of battery cavities is provided with One first guide groove, the bottom of first guide groove have a guiding surface, and movable part is installed in the first guide groove and can edge The bearing of trend motion of guiding surface；Movable part is connected to the side wall of the first guide groove by the first elastomeric element.

3. the battery fastening structure of RTK measuring apparatus as claimed in claim 1, it is characterised in that the side wall of battery cavities opens up There is the second guide groove, short transverse extension of second guide groove along battery cavities, the second elastomeric element is installed on the second guide groove It is interior, a press part for being used to compress the second elastomeric element downwards is provided with the second guide groove, the press part is convexly equipped in the second guiding The part that groove and press part protrude from the second guide groove forms a compression zone.

4. the battery fastening structure of RTK measuring apparatus as claimed in claim 3, it is characterised in that the second elastomeric element is bullet Spring, wear in the spring and be connected to an axis of guide, press part is a nut for being set in the axis of guide, and compression zone is by being convexly equipped in nut table wall Boss formed.

5. the battery fastening structure of RTK measuring apparatus as claimed in claim 1, it is characterised in that on the inwall of battery cavities also Provided with limited block, stopper slot is opened up on battery, what limited block slided is embedded in stopper slot.