CN208421244U - A kind of high precision GNSS receiver - Google Patents

Abstract

The utility model discloses a kind of high precision GNSS receivers, including GNSS receiver ontology, USB interface, damping device, support base, bolt hole, work light, Sign Board and safety device, USB interface and work light are evenly distributed on GNSS receiver ontology, the side of GNSS receiver ontology is by being adhesively fixed with Sign Board, safety device has been bolted at the top center of GNSS receiver ontology, the bottom correspondence of GNSS receiver ontology is equipped with damping device, the bottom of damping device is by being welded with support base, bolt hole is offered on support base, damping device is by the first adjustable spring, damping marble, sliding slot, motion bar, sliding block, second adjustable spring, strengthen plate, fixing seat and column composition, the two sides of fixing seat Inner wall has been correspondingly embedded in damping marble, the GNSS receiver, with high security the feature good with buffering and damping effect.

Description

A kind of high precision GNSS receiver

Technical field

The utility model relates to GNSS receiver technical field, specially a kind of high precision GNSS receiver.

Background technique

So-called GNSS receiver is to receive one kind of two or more GNSS system signal simultaneously Receiver.The GNSS receiver really to come into operation currently on the market is mainly GPS or GLONASS receiver, and in recent years, state The interior temperature for studying GNSS receiver shows the trend to grow steadily.

But in existing GNSS receiver, there is a problem of buffering and damping effect difference, it often can be because being collided or rushing It hits and its internal element is caused to loosen or damage, to influence its normal use.Therefore, it is good to design a kind of buffering and damping effect High precision GNSS receiver is necessary.

Utility model content

The purpose of this utility model is to provide a kind of high precision GNSS receivers, to solve to propose in above-mentioned background technique The problem of.

In order to solve the above-mentioned technical problem, the utility model provides the following technical solutions: a kind of high precision GNSS receiver, Including GNSS receiver ontology, USB interface, damping device, support base, bolt hole, work light, Sign Board and safety Device, is evenly distributed with USB interface and work light on the GNSS receiver ontology, and the one of the GNSS receiver ontology Side has been bolted safety device at the top center of the GNSS receiver ontology by being adhesively fixed with Sign Board, The bottom correspondence of the GNSS receiver ontology is equipped with damping device, and the bottom of the damping device passes through welding It is fixed with support base, bolt hole is offered on the support base, the damping device is by the first adjustable spring, damping bullet Ball, motion bar, sliding block, the second adjustable spring, strengthens plate, fixing seat and column composition, the two sides inner wall of the fixing seat at sliding slot Damping marble have been correspondingly embedded in, and have been connected with reinforcing plate between two damping marble, have been passed through at the top center for strengthening plate Bolt is fixed with column, and the bottom for strengthening plate offers sliding slot, and the inside correspondence of the sliding slot is equipped with sliding block, and two It is connected with the first adjustable spring between sliding block, the second adjustable spring, institute are connected between the sliding block and the side inner wall of sliding slot It states and is connected with motion bar between sliding block and the bottom interior wall of fixing seat.

Further, the safety device is made of armature, total power switch, shield and electromagnetic coil, the protection The side inner wall of cover is separately installed with total power switch and electromagnetic coil, and the side of the total power switch has been bolted Armature, and armature is used cooperatively with electromagnetic coil.

Further, it is bolted between the total power switch and electromagnetic coil and shield.

Further, it is connected by articulate between the sliding block and fixing seat and motion bar.

Further, the damping marble are with reinforcing plate by being adhesively fixed.

Compared with prior art, the utility model beneficial effect achieved is: the GNSS receiver, when the GNSS is received When slight leaky occurs for machine, electromagnetic coil can be caused to charge and there is magnetism, and then promptly by total power switch side Armature be sucked so that total power switch becomes closed state from opening, to timely cut off general supply, in order to avoid dangerous situation Generation, help to improve the GNSS receiver use when safety；When the GNSS receiver is collided or impacts, first It is absorbed by the external force that the GNSS receiver is subject to by damping marble, then is returned by the first adjustable spring and the second adjustable spring are common Multiple power effect, the external force which is subject to are offset, further increase stability when its work, avoid because of external force mistake Normal use effect is influenced greatly, helps to improve the buffering and damping effect of the GNSS receiver.

Detailed description of the invention

Attached drawing is used to provide a further understanding of the present invention, and constitutes part of specification, practical with this Novel embodiment is used to explain the utility model together, does not constitute limitations of the present invention.In the accompanying drawings:

Fig. 1 is the overall structure diagram of the utility model；

Fig. 2 is the safety apparatus structure schematic diagram of the utility model；

Fig. 3 is the damping device structural schematic diagram of the utility model；

In figure: 1-GNSS receiver ontology；2-USB interface；3- damping device；4- support base；5- bolt hole；6- work Make indicator light；7- Sign Board；8- safety device；9- armature；10- total power switch；11- shield；12- electromagnetic coil；13- One adjustable spring；14- damping marble；15- sliding slot；16- motion bar；17- sliding block；The second adjustable spring of 18-；19- strengthens plate； 20- fixing seat；21- column.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work Every other embodiment obtained, fall within the protection scope of the utility model.

Fig. 1-3 is please referred to, the utility model provides a kind of technical solution: a kind of high precision GNSS receiver, including GNSS Receiver ontology 1, USB interface 2, damping device 3, support base 4, bolt hole 5, work light 6, Sign Board 7 and safety Device 8 is evenly distributed with USB interface 2 and work light 6, the side of GNSS receiver ontology 1 on GNSS receiver ontology 1 By being adhesively fixed with Sign Board 7, safety device 8, GNSS has been bolted at the top center of GNSS receiver ontology 1 The bottom of receiver ontology 1 is corresponding to be equipped with damping device 3, and the bottom of damping device 3 is by being welded with branch Support seat 4, offer bolt hole 5 on support base 4, damping device 3 by the first adjustable spring 13, damping marble 14, sliding slot 15, Motion bar 16, sliding block 17, the second adjustable spring 18, reinforcing plate 19, fixing seat 20 and column 21 form, in the two sides of fixing seat 20 Wall has been correspondingly embedded in damping marble 14, and is connected between two damping marble 14 and strengthens plate 19, strengthens the top center of plate 19 Place has been bolted column 21, and the bottom for strengthening plate 19 offers sliding slot 15, and the inside correspondence of sliding slot 15 is equipped with sliding block 17, and the first adjustable spring 13 is connected between two sliding blocks 17, is connected between sliding block 17 and the side inner wall of sliding slot 15 Two adjustable springs 18, are connected with motion bar 16 between sliding block 17 and the bottom interior wall of fixing seat 20.

Further, safety device 8 is made of armature 9, total power switch 10, shield 11 and electromagnetic coil 12, protection The side inner wall of cover 11 is separately installed with total power switch 10 and electromagnetic coil 12, and the side of total power switch 10 is solid by bolt Surely there is armature 9, and armature 9 is used cooperatively with electromagnetic coil 12, convenient for improving safety when using.

Further, it is bolted between total power switch 10 and electromagnetic coil 12 and shield 11, convenient for total The fixation of power switch 10 and electromagnetic coil 12.

Further, it is connected by articulate between sliding block 17 and fixing seat 20 and motion bar 16, is convenient for motion bar 16 activity.

Further, damping marble 14 and the stability for strengthening plate 19 by being adhesively fixed, when convenient for raising connection.

Working principle: when slight leaky occurs for the GNSS receiver, electromagnetic coil 12 can be caused to charge and had Magnetism, and then promptly the armature 9 of 10 side of total power switch is sucked, so that total power switch 10 is become closing shape from unlatching State, so that general supply is timely cut off, in case the generation of dangerous situation, helps to improve the safety when GNSS receiver uses Property；When the GNSS receiver is collided or impacts, first absorbed by the external force that the GNSS receiver is subject to by damping marble 14, It is acted on again by the common restoring force of the first adjustable spring 13 and the second adjustable spring 18, the external force which is subject to is supported Disappear, further increase stability when its work, avoids influencing normal use effect because external force is excessive, help to improve this The buffering and damping effect of GNSS receiver.

Finally, it should be noted that the above descriptions are merely preferred embodiments of the present invention, it is not limited to this Utility model, although the utility model is described in detail with reference to the foregoing embodiments, for those skilled in the art For, it is still possible to modify the technical solutions described in the foregoing embodiments, or to part of technical characteristic It is equivalently replaced.Within the spirit and principle of the utility model, any modification, equivalent replacement, improvement and so on, It should be included within the scope of protection of this utility model.

Claims (5)

1. a kind of high precision GNSS receiver, including GNSS receiver ontology (1), USB interface (2), damping device (3), Support base (4), bolt hole (5), work light (6), Sign Board (7) and safety device (8), it is characterised in that: the GNSS It is evenly distributed with USB interface (2) and work light (6) on receiver ontology (1), the one of the GNSS receiver ontology (1) Side has been bolted safety at the top center of the GNSS receiver ontology (1) by being adhesively fixed with Sign Board (7) The bottom correspondence of device (8), the GNSS receiver ontology (1) is equipped with damping device (3), the damping device (3) bottom offers bolt hole (5), the bumper and absorbing shock on the support base (4) by being welded with support base (4) Device (3) is stretched by the first adjustable spring (13), damping marble (14), sliding slot (15), motion bar (16), sliding block (17), second Spring (18), reinforcing plate (19), fixing seat (20) and column (21) composition, the two sides inner wall of the fixing seat (20) are correspondingly embedded in Have damping marble (14), and be connected between two damping marble (14) and strengthen plate (19), in the top for strengthening plate (19) It has been bolted at the heart column (21), the bottom for strengthening plate (19) offers sliding slot (15), the sliding slot (15) Inside correspondence is equipped with sliding block (17), and is connected with the first adjustable spring (13) between two sliding blocks (17), the sliding block (17) It is connected between the side inner wall of sliding slot (15) the second adjustable spring (18), the bottom of the sliding block (17) and fixing seat (20) Motion bar (16) are connected between inner wall.

2. a kind of high precision GNSS receiver according to claim 1, it is characterised in that: the safety device (8) is by holding in the mouth Iron (9), total power switch (10), shield (11) and electromagnetic coil (12) composition, the side inner wall point of the shield (11) Total power switch (10) and electromagnetic coil (12) are not installed, the side of the total power switch (10) has been bolted rank Iron (9), and armature (9) is used cooperatively with electromagnetic coil (12).

3. a kind of high precision GNSS receiver according to claim 2, it is characterised in that: the total power switch (10) and It is bolted between electromagnetic coil (12) and shield (11).

4. a kind of high precision GNSS receiver according to claim 1, it is characterised in that: the sliding block (17) and fixing seat (20) it is connect by articulate between motion bar (16).

5. a kind of high precision GNSS receiver according to claim 1, it is characterised in that: damping marble (14) and strong Change plate (19) by being adhesively fixed.