A kind of power supply structure of measuring device
Technical field
The present invention relates to measuring device internal structure technology more particularly to a kind of power supply structures of measuring device.
Background technique
The traditional charging modes of existing measuring device are as follows: by instrument and charging when client needs to measure work
Cable connection provides outer power supply source by charge cable and mobile power source equipment for instrument, i.e., when measuring device itself charges certainly
When tankage is unable to satisfy work requirements, tyre mobile power source equipment can be connect by cable with equipment, just for instrument work
Stable energy is often provided.For example, in the static data collection process of RTK101, the charging modes as shown in Fig. 1~2 are being set
It is standby in use, in the corresponding interface of 105 inserting instrument of charge cable of external power supply unit 106, and adapter is initially charged with base
It is fixed in seat 103, while high piece 102 will be surveyed and be socketed on adapter 104 by surveying the circular hole above high piece 102, it at this time will even
The host for connecting cable is connect by 8/5 connector 107 on host with adapter 104, and instrument is started to work after booting.
Measuring device by the way of existing charging, can achieve it is general using purpose, but since connecting component is more
Simultaneous with cable, user experience is poor, and in field process, special circumstances are relatively more, sometimes uses movement station mould
Formula sometimes uses benchmark static schema, and in movement station operation, requirement is light as far as possible using equipment, quantity is few, convenient for full
Sufficient equipment long working demand needs to carry mobile power source equipment in this case if equipment electricity shortage itself,
Corresponding change is also required to according to the height length of cable that equipment is set up simultaneously, inconvenience is used, influences normal operation efficiency.
Summary of the invention
For overcome the deficiencies in the prior art, the purpose of the present invention is to provide a kind of power supply structure of measuring device, make
With cruising ability that is simple and convenient, can be improved measuring device.
The purpose of the present invention is implemented with the following technical solutions:
A kind of power supply structure of measuring device further includes instrument internal connector, lock including the centering pipe connecting with RTK
Tight cap, centering tube connector, battery outer tube and connector;It is loaded in RTK in instrument internal connector, the battery on RTK
On the inside of cover board;The both ends of locking cap open up thread groove, and centering tube connector is embedded on the inside of locking cap;Locking cap one end is spirally connected
On the inside of centering pipe, the other end is bolted in 8/5 connector on RTK;Instrument internal connector passes through locking cap and centering Guan Lian
Device contact electrical connection is connect, for battery outer tube sleeve loaded in centering pipe 311, battery outer tube bottom end is embedded with attachment cap, connector and institute
Attachment cap is stated to be spirally connected.
Preferably, rubber ring is set on locking cap.
It preferably, further include positioning pin, in the location hole that positioning pin is plugged in connector and attachment cap side opens up.
Preferably, instrument internal connector includes insulation protection cover, FPC plate, pin and the first dielectric chamber, pin with
FPC plate is connected and is plugged in the first dielectric chamber, and insulation protection cover lid closes on the first dielectric chamber port.
Preferably, pin and FPC board group fill, and top is 0.3-0.7mm lower than the length of insulation protection tops, excellent
Select 0.5mm.
Preferably, the first dielectric chamber is equipped with water proof ring far from the end of insulation protection cover.
Preferably, centering tube connector include insulation protection upper cover, cathode contact, positive contact pilotage, the second dielectric chamber and
Insulation protection bottom cover;Positive contact pilotage is plugged on the inside of the second dielectric chamber, and cathode contact is fixed at the top of the second dielectric chamber
Outside, insulation protection upper cover and the cooperation assembling of insulation protection bottom cover form internal cavities, and positive contact pilotage, cathode contact are plugged in institute
It states in internal cavities.
Preferably, the top of positive contact pilotage and cathode contact is 0.3-0.7mm lower than the length of tops in insulation protection,
It is preferred that 0.5mm.
Preferably, positive contact pilotage is equipped with protective shell close to one end of insulation protection cover, and the protective shell is set in positive touching
Needle end.
Compared with prior art, the beneficial effects of the present invention are:
The present invention passes through setting instrument internal connector, locking cap, centering tube connector.The components such as battery outer tube are realized
Present apparatus in-line power, is not used only simple and convenient, effectively increases the cruising ability of instrument and equipment, and it is existing to solve instrument
Some power supply modes fully rely on mobile power supply unit, use heavy inconvenience, are not able to satisfy the problem of user's actual need.
Detailed description of the invention
Fig. 1 is the decomposition texture schematic diagram of existing measuring device power supply.
Fig. 2 is the structural schematic diagram of existing measuring device power supply.
Fig. 3 is the decomposition texture schematic diagram of power supply mode of the present invention.
Fig. 4 is the structural schematic diagram of power supply mode of the present invention.
Fig. 5 is the decomposition texture schematic diagram of instrument internal connector.
Fig. 6 is the decomposition texture schematic diagram of centering tube connector.
Fig. 7 is the schematic diagram of the section structure of centering tube connector.
Fig. 8 is the structural schematic diagram of powered operation of the present invention.
Fig. 9 is the schematic perspective view that the present invention powers.
Figure 10 is practical application schematic diagram of the invention.
In figure: 101, RTK;102, high piece is surveyed;103, pedestal;104, adapter;105, connection cables;106, power supply is set
It is standby;107,8/5 connector;301, instrument internal connector;302, locking cap;303, centering tube connector;304, battery outer tube;
305, rubber ring;306, attachment cap;307, positioning pin;308, battery pack;309, connector;310, cover board;311, centering pipe;
401, insulation protection cover;402, FPC plate;403, pin;404, the first dielectric chamber;405, water proof ring;501, in insulation protection
Lid;502, cathode contact;503, positive contact pilotage;504, the second dielectric chamber;505, insulation protection bottom cover;506, protective shell;
507, position one;508, position two.
Specific embodiment
In the following, being described further in conjunction with attached drawing and specific embodiment to the present invention:
The power supply structure of the measuring device as shown in Fig. 3~4, Fig. 9~10, including the centering pipe 311 being connect with RTK101,
It further include instrument internal connector 301, locking cap 302, centering tube connector 303, battery outer tube 304 and connector 309;Instrument
Loaded on 310 inside of battery cover board in RTK101, on RTK101 in internal connector 301;It opens at the both ends of locking cap 302
If thread groove, centering tube connector 303 is embedded in 302 inside of locking cap;302 one end of locking cap is bolted in 311 inside of centering pipe,
The other end is bolted in 8/5 connector 107 on RTK101;Instrument internal connector 301 is connect by locking cap 302 with centering pipe
The contact electrical connection of device 303, battery outer tube 304 are set in centering pipe 311, and 304 bottom end of battery outer tube is embedded with attachment cap 306,
Connector 309 is spirally connected with the attachment cap 306.
Centering pipe 311 and RTK101 are assembled, and battery pack 308 is put into battery outer tube 304, battery outer tube 304 is protected
Battery pack 308 is protected, connector 309 is screwed, at this time the centering tube connector 303 in locking cap 302 and instrument internal connector 301
Contact conducting, locking cap 302 is used to connect the centering tube connector 303 being embedded in RTK101, and can protect centering Guan Lian
Device 303 is connect, the battery pack 308 in centering pipe 311 provides electric current to instrument and equipment by centering tube connector 303 and uses;Work as instrument
When device does not need power supply, as long as middle pipe is rotated counterclockwise, centering tube connector 303 and instrument internal connector 301 at this time
It will disconnect connection to cut off the power.Since power supply group and battery outer tube 304 are embedded in centering pipe 311, centering pipe 311 uses standard
8/5 connector 309 of industry is quite convenient to fast so being fixed on any measuring device, and whether base station data acquire
Or movement station mode.
Further, rubber ring 305 is set on locking cap 302, rubber ring 305 can prevent locking cap 302 and RTK101
Fan Song after threaded connection.
Further, the present embodiment further includes positioning pin 307, and positioning pin 307 is plugged in 306 side of connector 309 and attachment cap
In the location hole that face opens up, positioning pin 307 can reinforce being spirally connected for connector 309 and attachment cap 306, prevent its from connecting model pine.
Further, as shown in figure 5, instrument internal connector 301 includes insulation protection cover 401, FPC plate 402, pin 403
With the first dielectric chamber 404, pin 403 and FPC plate 402 are connected and are plugged in the first dielectric chamber 404, and insulation is protected
The lid of protecting cover 401 closes on 404 port of the first dielectric chamber.
Insulation protection cover 401 weld after, can protect instrument internal connector 301 with it is apparatus insulated be isolated do not generate it is short
Road, FPC plate 402 are used to draw in electric current, and pin 403 conducts electric current, and the first dielectric chamber 404 guarantees that positive and negative anodes are not short-circuit.When
Instrument using when need according to the outer dimension of instrument internal connector 301 punch simultaneously (can also instrument and equipment design when
Reserve corresponding hole location) FPC plate 402 is welded in 403 top of pin, and meanwhile insulation protection cover 401 is fixed, at this time by instrument
Device internal connector 301 is packed into advance in the hole that instrument bottom is held successfully, after instrument internal connector 301 is packed into instrument, is prevented
The extruding interference of hydrosphere 405 and instrument inner wall plays the role of protection, while in the instrument internal connector 301 of instrument internal
Due to the fixed function of battery window cover 310, upper and lower displacement not can be carried out.
Further, the top after pin 403 and FPC plate 402 assembles is lower than the length at 401 top of insulation protection cover
0.3-0.7mm, preferably 0.5mm.Since 301 actual size of instrument internal connector is smaller, it is easy to carelessly encounter gold
Belong to object and cause positive and negative anodes short-circuit, is designed in this way the risk that can be effectively reduced positive and negative anodes short circuit.
Further, the first dielectric chamber 404 is equipped with water proof ring 405 far from the end of insulation protection cover 401.Water proof ring 405
Convenient for instrument internal connector 301 and instrument removal and protection.
Further, as shown in fig. 6, centering tube connector 303 includes insulation protection upper cover 501, cathode contact 502, anode
Contact pilotage 503, the second dielectric chamber 504 and insulation protection bottom cover 505;Positive contact pilotage 503 is plugged in the second dielectric chamber 504
Side, cathode contact 502 are fixed in the outside at 504 top of the second dielectric chamber, insulation protection upper cover 501 and insulation protection bottom cover
505 cooperation assemblings form internal cavities, and positive contact pilotage 503, cathode contact 502 are plugged in the internal cavities.
Further, the top of positive contact pilotage 503 and cathode contact 502 is lower than the length at 501 top of insulation protection upper cover
0.3-0.7mm, preferably 0.5mm.
In the present embodiment, which passes through positive contact pilotage 503 and first assembles simultaneously with the second dielectric chamber 504
It is inside loaded on 504 inside of the second dielectric chamber, while centering tube connector 303 is lower than 504 upper top 0.5mm of the second dielectric chamber,
Cathode contact 502 is affixed to be connected with cathode contact 502, positive contact pilotage 503 on the outside of the second dielectric chamber 504, is avoided, finally will be exhausted
Edge protects upper cover 501 and the fit assembling of insulation protection bottom cover 505 or directly injection molding to complete.
The centering tube connector 303 is inserted into locking cap 302, battery pack 308 is screwed into connection after being packed into battery outer tube 304
First 309, complete the assembling of 311 power supply unit 106 of centering pipe.
Further, described as shown in fig. 7, positive contact pilotage 503 is equipped with protective shell 506 close to one end of insulation protection cover 401
Protective shell 506 is set in positive 503 end of contact pilotage.Protective shell 506 is installed additional by the stress point of positive contact pilotage 503 by position 1
It is moved to position 2 508, when connector 309 is screwed into centering pipe 311, pin 403 produces the upper stress point of lateral force first
It is position 2 508 excessively to position 1, torsion suffered by pin 403 is substantially reduced, to protect the service life of pin 403.
It will be apparent to those skilled in the art that can make various other according to the above description of the technical scheme and ideas
Corresponding change and deformation, and all these changes and deformation all should belong to the protection scope of the claims in the present invention
Within.