CN215634669U - Integrated universal type deformation monitoring GNSS receiver - Google Patents

Abstract

The utility model discloses an integrated universal type deformation monitoring GNSS receiver, which relates to the technical field of receivers and comprises a fixed base, a mounting seat and a receiver, wherein the mounting seat is arranged at the top end of the base, the receiver is arranged at the top of the mounting seat, a protection component is arranged at the top position of the outer side of the receiver, a plurality of fixing columns are arranged at the bottom of the receiver, the waterproof component can play a good waterproof role on an interface, the waterproof effect is good, rainwater is difficult to enter the inner side of the interface, the circuit inside the receiver is difficult to burn out, the receiver is pre-fixed by the arranged clamping component through a plugging method, a threaded hole of the receiver is aligned with a threaded hole on the mounting seat, the threaded hole of the receiver and the threaded hole on the mounting seat are not deviated, the installation is convenient, the installation efficiency is greatly improved, the protection role on the receiver is played by the arranged protection component, the receiver is prevented from being directly damaged by external objects, and the service life of the receiver is prolonged.

Description

Integrated universal type deformation monitoring GNSS receiver

Technical Field

The utility model relates to the technical field of receivers, in particular to an integrated universal type deformation monitoring GNSS receiver.

Background

The MG30 dual-frequency GNSS receiver is a special GNSS deformation monitoring receiver with high stability, high reliability, simplicity, easy use, high cost performance and convenient carrying, applies dangerous house monitoring, displacement deformation monitoring such as strip mine side slope and goaf settlement, has split type, low power consumption and design supporting remote control and state information acquisition, can meet the application of long-term stable monitoring on earth surface displacement in the field, is convenient for large-scale management and monitoring of an operation and maintenance system, and reduces the maintenance cost.

However, through the analysis discovery, the receiver usually needs to work in the field, the interface of receiver and external joint's junction need carry out waterproofly, at present, it is inboard that generally direct external joint is direct to be pegged graft to the interface of receiver, water-proof effects is poor, the rainwater enters into the interface inboard easily, lead to receiver internal circuit to burn out easily, the receiver is split type with the mount pad, the during operation needs to install the receiver on the mount pad, need align the screw hole of receiver and the screw hole on the mount pad during installation, current receiver is difficult to align the screw hole of receiver and the screw hole on the mount pad when the installation, and simultaneously, the receiver rocks easily when the installation, make the screw hole of receiver and the screw hole on the mount pad produce the deviation, the troublesome poeration, greatly reduced the installation effectiveness.

SUMMERY OF THE UTILITY MODEL

Therefore, in order to solve the defects, the integrated universal type deformation monitoring GNSS receiver provided by the utility model has the advantages that the waterproof assembly can play a good waterproof role on the interface, the waterproof effect is good, rainwater is difficult to enter the inner side of the interface, the circuit inside the receiver is not easy to burn out, the receiver is pre-fixed by the arranged clamping assembly through a plugging method, the threaded hole of the receiver is aligned with the threaded hole on the mounting seat, the threaded hole of the receiver cannot deviate from the threaded hole on the mounting seat, the installation is convenient, the installation efficiency is greatly improved, the protection effect is played on the butt joint through the arranged protection assembly, external objects are prevented from directly damaging the receiver, and the service life of the receiver is prolonged.

The utility model is realized in such a way that an integrated universal type deformation monitoring GNSS receiver is constructed, and the integrated universal type deformation monitoring GNSS receiver comprises a fixed base, a mounting seat and a receiver, wherein the mounting seat is installed at the top end of the base, the receiver is installed at the top of the mounting seat, a protection component is installed at the top of the outer side of the receiver, a plurality of fixing columns are installed at the bottom of the receiver, an opening B is formed in one end of the receiver, a plurality of openings A are formed in the top of the mounting seat, an interface is formed in the bottom of one side of the receiver, an installation groove is formed in the outer side of the interface, a clamping component is installed at the bottom of the mounting seat, a waterproof component is installed at the bottom of one side of the receiver, and fastening bolts are arranged at four corners of the bottom of the mounting seat.

Further, the protection assembly comprises a protection cover, a shock pad and a water guide plate, a plurality of shock absorbing springs with the same specification are installed on the outer side of the receiver, the protection cover is installed at one end of each shock absorbing spring, the shock pad is installed at the edge position of the inner side of the protection cover, and the water guide plate is installed at the bottom of the protection cover.

Further, the joint subassembly includes first fixed plate, the rotor plate, the activity square pole, the fixed disk, spring and third fixed plate, first fixed plate is installed in mount pad bottom border position, a plurality of second fixed plates are installed to the mount pad bottom, the rotor plate sets up in activity square pole one end and passes through bearing holding swing joint with the activity square pole, the activity square pole runs through the second fixed plate and keeps swing joint with the second fixed plate, a plurality of spacing square poles are installed to activity square pole one end, the fixed disk is installed in activity square pole outside one end, the third fixed plate nestification sets up in the activity square pole outside and keeps swing joint with the activity square pole, and third fixed plate one end and mount pad fixed connection, the spring nestification sets up in the activity square pole outside, and the spring both ends respectively with the fixed disk, third fixed plate fixed connection.

Further, waterproof assembly is including connecting, waterproof cover, waterproof opening and waterproof rubber ring, and waterproof cover is installed in connecting outside one end, and waterproof cover nestification sets up in the mounting groove inboard, and waterproof opening sets up in waterproof cover outside one end, and waterproof rubber ring is installed in the mounting groove inboard.

Furthermore, a limiting disc is installed at one end of the movable square rod.

Furthermore, one side of the waterproof rubber ring is provided with water absorption cotton.

Compared with the prior art, the utility model has the beneficial effects that:

the method has the advantages that: when the protection casing is touch to external object, can produce the impact force to the protection casing, the shock pad and the damping spring that receive the protection casing through setting play the cushioning effect, play the guard action to the receiver through the protection casing, play the effect of blockking to the rainwater through the water deflector that sets up to, play the guard action to the receiver through the protection subassembly that sets up, prevent that external object directly damages the receiver, improved the life of receiver.

The method has the advantages that: when the receiver is installed, the fixed base is fixed at a designated position, the receiver is moved to drive the fixed column to penetrate through the opening A, the receiver is attached to the top of the installation base, the rotating plate is pushed to drive the movable square rod to move towards the limiting disc, the movable square rod drives the fixed disc to extrude the spring to cause elastic deformation, the movable square rod drives the limiting square rod to move to enable the limiting square rod to penetrate through the opening B at one end of the fixed column, the rotating plate is rotated to enable one side of the rotating plate to be attached to one side of the first fixed plate, the rotating plate is loosened, the fixed disc, the movable square rod and the rotating plate are pushed to move towards the first fixed plate by using the elastic potential energy of the spring, the rotating plate and the movable square rod are limited by the first fixed plate, the receiver is pre-installed at the top of the installation base and is fixed again to the receiver by the fastening bolt, when the receiver is disassembled, the rotating plate is rotated to enable one side of the rotating plate to be separated from the first fixed plate, utilize the elastic potential energy of spring to promote the fixed disk, activity square pole and rotor plate move toward first fixed plate direction, drive spacing square pole through the activity square pole and remove, make spacing square pole break away from opening B, spacing square pole no longer carries on spacingly to the fixed column, dismantle fastening bolt again, pull down the receiver from the mount pad top, thereby, the method of utilizing grafting through the joint subassembly that sets up is fixed the receiver in advance, make the screw hole of receiver and the screw hole on the mount pad align, can not make the screw hole of receiver and the screw hole on the mount pad produce the deviation, and is convenient for installation, and the installation efficiency is greatly improved.

The method has the advantages that: it is inboard to connect the interface of pegging graft, it is inboard to make to connect to drive waterproof cover nestification to the mounting groove, waterproof cover is made by the rubber material, make waterproof cover closely laminate with the mounting groove of receiver one side, play waterproof effect, make waterproof cover one end pass waterproof rubber ring, play secondary waterproof effect through waterproof rubber ring, play the effect of blocking water to the rainwater through the waterproof opening that sets up, the cotton effect of absorbing water that absorbs water through setting up plays, thereby, can play fine waterproof effect to the interface through the waterproof component who sets up, water-proof effects is good, the rainwater is difficult to enter into the interface inboardly, be difficult to lead to the receiver internal circuit to burn out.

Drawings

FIG. 1 is a schematic diagram of an integrated generic type deformation monitoring GNSS receiver according to the present invention;

FIG. 2 is a schematic view of the shield assembly of the present invention;

FIG. 3 is an enlarged view of portion A of FIG. 2 in accordance with the present invention;

FIG. 4 is an enlarged view of portion B of FIG. 2 in accordance with the present invention;

FIG. 5 is an enlarged view of a portion C of FIG. 4 in accordance with the present invention;

fig. 6 is a schematic view of the structure of the limit square rod of the utility model.

In the figure: the waterproof device comprises a fixed base 1, a mounting seat 2, an opening A21, a fastening bolt 22, a receiver 3, a fixed column 31, an opening B32, an interface 33, a mounting groove 34, a protection component 4, a protection cover 41, a damping spring 42, a damping pad 43, a water guide plate 44, a clamping component 5, a first fixed plate 51, a rotating plate 52, a movable square rod 53, a second fixed plate 54, a limiting square rod 55, a fixed plate 56, a spring 57, a third fixed plate 58, a limiting plate 59, a waterproof component 6, a connector 61, a waterproof sleeve 62, a waterproof opening 63, a waterproof rubber ring 64 and absorbent cotton 65.

Detailed Description

The present invention will be described in detail below with reference to the attached drawings, and the technical solutions in the embodiments of the present invention will be clearly and completely described. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments of the present invention without any creative effort belong to the protection scope of the present invention; furthermore, the terms "first," "second," "third," "upper, lower, left, right," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. Meanwhile, in the description of the present invention, unless otherwise explicitly specified or limited, the terms "connected" and "connected" should be interpreted broadly, for example, as being fixedly connected, detachably connected, or integrally connected; the connection can be mechanical connection or electrical connection; may be directly connected or indirectly connected through an intermediate. To those of ordinary skill in the art, the specific meanings of the above terms in the present invention can be specifically understood, and unless otherwise defined, all technical and scientific terms used herein have the same meanings as commonly understood by one of ordinary skill in the art to which the present invention belongs.

The technical scheme of the utility model is further elaborated in detail by combining the drawings and the specific embodiments of the specification, and the integrated universal type deformation monitoring GNSS receiver provided by the embodiment of the utility model comprises a fixed base 1, a mounting seat 2 and a receiver 3, wherein the mounting seat 2 is mounted at the top end of the base 1, the receiver 3 is mounted at the top of the mounting seat 2, a protection component 4 is mounted at the top of the outer side of the receiver 3, a plurality of fixed columns 31 are mounted at the bottom of the receiver 3, an opening B32 is formed in one end of the receiver 3, a plurality of openings a21 are formed in the top of the mounting seat 2, an interface 33 is formed in the bottom of one side of the receiver 3, a mounting groove 34 is formed in the outer side of the interface 33, a clamping component 5 is mounted at the bottom of the mounting seat 2, a waterproof component 6 is mounted at the bottom of one side of the receiver 3, and fastening bolts 22 are arranged at four corners of the bottom of the mounting seat 2.

Referring to fig. 1 and fig. 2, the protection assembly 4 includes a protection cover 41, a shock absorbing pad 43 and a water guide plate 44, a plurality of shock absorbing springs 42 with the same specification are installed outside the receiver 3, the protection cover 41 is installed at one end of the shock absorbing springs 42, the shock absorbing pad 43 is installed at the edge position of the inner side of the protection cover 41, and the water guide plate 44 is installed at the bottom of the protection cover 41;

as an example, when an external object touches the hood 41, an impact force is generated on the hood 41, the shock absorbing pad 43 and the shock absorbing spring 42 are arranged to buffer the impact on the hood 41, the hood 41 protects the receiver 3, and the water deflector 44 is arranged to block rainwater.

Referring to fig. 2, 3 and 6 together, the clamping assembly 5 includes a first fixing plate 51, a rotating plate 52, a movable square bar 53, a fixing plate 56, a spring 57 and a third fixing plate 58, the first fixing plate 51 is mounted at the edge of the bottom of the mounting base 2, a plurality of second fixing plates 54 are mounted at the bottom of the mounting base 2, the rotating plate 52 is disposed at one end of the movable square bar 53 and movably connected with the movable square bar 53 through a bearing, the movable square bar 53 penetrates through the second fixing plates 54 and movably connected with the second fixing plates 54, a plurality of limiting square bars 55 are mounted at one end of the movable square bar 53, the fixing plate 56 is mounted at one end of the outer side of the movable square bar 53, the third fixing plate 58 is nested outside the movable square bar 53 and movably connected with the movable square bar 53, one end of the third fixing plate 58 is fixedly connected with the mounting base 2, the spring 57 is nested outside the movable square bar 53, two ends of the spring 57 are respectively fixedly connected with the fixed disc 56 and the third fixed plate 58;

as an example, when the receiver 3 is installed, the fixed base 1 is fixed at a designated position, then the receiver 3 is moved to drive the fixed column 31 to pass through the opening a21, the receiver 3 is attached to the top of the mounting base 2, the rotating plate 52 is pushed to drive the movable square rod 53 to move toward the limiting disc 59, the movable square rod 53 drives the fixed disc 56 to press the spring 57 to generate elastic deformation, the movable square rod 53 drives the limiting square rod 55 to move to drive the limiting square rod 55 to pass through the opening B32 at one end of the fixed column 31, the rotating plate 52 is rotated to make one side of the rotating plate 52 attach to one side of the first fixing plate 51, the rotating plate 52 is released, the fixed disc 56, the movable square rod 53 and the rotating plate 52 are pushed to move toward the first fixing plate 51 by the elastic potential energy of the spring 57, it is spacing to rotate board 52 and activity square pole 53 through first fixed plate 51, it is spacing to fixed column 31 through spacing square pole 55, make receiver 3 preinstall at the 2 tops of mount pad, it is fixed once more to receive machine 3 through fastening bolt 22 again, when dismantling receiver 3, rotate board 52 and make its one side break away from with first fixed plate 51, utilize the elastic potential energy of spring 57 to promote fixed disk 56, activity square pole 53 and rotating plate 52 move towards first fixed plate 51 direction, drive spacing square pole 55 through activity square pole 53 and move, make spacing square pole 55 break away from opening B32, spacing square pole 55 no longer carries on spacingly to fixed column 31, dismantle fastening bolt 22 again, dismantle receiver 3 from the mount pad 2 tops.

Referring to fig. 2, 4 and 6, the waterproof assembly 6 includes a joint 61, a waterproof jacket 62, a waterproof opening 63 and a waterproof rubber ring 64, the waterproof jacket 62 is installed at one end of the outer side of the joint 61, the waterproof jacket 62 is nested inside the installation groove 34, the waterproof opening 63 is opened at one end of the outer side of the waterproof jacket 62, and the waterproof rubber ring 64 is installed inside the installation groove 34;

as an example, it should be noted that, the connector 61 is inserted into the interface 33, so that the connector 61 drives the waterproof sleeve 62 to be nested inside the mounting groove 34, the waterproof sleeve 62 is made of rubber material, so that the waterproof sleeve 62 is tightly attached to the mounting groove 34 on one side of the receiver 3 to perform a waterproof function, one end of the waterproof sleeve 62 passes through the waterproof rubber ring 64, the waterproof rubber ring 64 performs a secondary waterproof function, the waterproof opening 63 performs a waterproof function on rainwater, and the absorbent cotton 65 performs an absorbent function.

Referring to fig. 6, a limiting plate 59 is installed at one end of the movable square rod 53;

as an example, it should be noted that the movable square bar 53 is limited by the limiting disc 59.

As shown in fig. 5, a water absorbent cotton 65 is installed on one side of the waterproof rubber ring 64;

as an example, it should be noted that the absorbent cotton 65 is made of sponge, and the absorbent cotton 65 is provided to absorb water.

The working principle of the utility model is as follows:

when the receiver 3 is installed, the fixed base 1 is fixed at a designated position, then the receiver 3 is moved to drive the fixed column 31 to pass through the opening A21, so that the receiver 3 is attached to the top of the installation base 2, the rotating plate 52 is pushed to drive the movable square rod 53 to move towards the direction of the limiting disc 59, the movable square rod 53 drives the fixed disc 56 to extrude the spring 57 to generate elastic deformation, the movable square rod 53 drives the limiting square rod 55 to move so that the limiting square rod 55 passes through the opening B32 at one end of the fixed column 31, then the rotating plate 52 is rotated to make one side of the rotating plate 52 attached to one side of the first fixed plate 51, the rotating plate 52 is released, the fixed disc 56, the movable square rod 53 and the rotating plate 52 are pushed to move towards the direction of the first fixed plate 51 by the elastic potential energy of the spring 57, the rotating plate 52 and the movable square rod 53 are limited by the first fixed plate 51, the limiting square rod 55 is used for limiting the fixed column 31, the receiver 3 is pre-installed at the top of the installation seat 2, the receiver 3 is fixed again through the fastening bolt 22, when the receiver 3 is disassembled, the rotating plate 52 is rotated to enable one side of the rotating plate to be separated from the first fixing plate 51, the fixed plate 56, the movable square rod 53 and the rotating plate 52 are pushed to move towards the direction of the first fixing plate 51 by utilizing the elastic potential energy of the spring 57, the movable square rod 53 drives the limiting square rod 55 to move, the limiting square rod 55 is separated from the opening B32, the limiting square rod 55 does not limit the fixing column 31 any more, then the fastening bolt 22 is disassembled, and the receiver 3 is disassembled from the top of the installation seat 2;

when an external object touches the protective cover 41, impact force is generated on the protective cover 41, the impact on the protective cover 41 is buffered through the arranged shock absorption pad 43 and the shock absorption spring 42, the protective cover 41 protects the receiver 3, and the arranged water guide plate 44 blocks rainwater;

it is inboard to peg graft interface 33 with connecting 61, it is inboard to make to connect 61 to drive waterproof cover 62 nested to mounting groove 34, waterproof cover 62 is made by the rubber material, make waterproof cover 62 closely laminate with the mounting groove 34 of receiver 3 one side, play waterproof effect, make waterproof cover 62 one end pass waterproof rubber ring 64, play secondary waterproof effect through waterproof rubber ring 64, waterproof opening 63 through the setting plays the effect of blocking water to the rainwater, the cotton 65 that absorbs water through the setting plays the effect of absorbing water, water-proof effects is good.

In conclusion; according to the integrated universal type deformation monitoring GNSS receiver, the waterproof assembly can play a good waterproof role on the interface, the waterproof effect is good, rainwater is difficult to enter the inner side of the interface, the circuit inside the receiver is not easy to burn out, the receiver is pre-fixed by the clamping assembly through the inserting method, the threaded hole of the receiver is aligned with the threaded hole in the mounting seat, deviation between the threaded hole of the receiver and the threaded hole in the mounting seat is avoided, the mounting is convenient, the mounting efficiency is greatly improved, the protection effect on the receiver is achieved through the protection assembly, external objects are prevented from directly damaging the receiver, and the service life of the receiver is prolonged.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the utility model. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein, and it is to be understood that various changes and modifications may be made by one of ordinary skill in the art without departing from the spirit and scope of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (6)

1. The utility model provides a general type of integration deformation monitoring GNSS receiver, includes unable adjustment base (1), mount pad (2) and receiver (3), its characterized in that: install in base (1) top mount pad (2), install in mount pad (2) top receiver (3), protection component (4) are installed to receiver (3) outside top position, a plurality of fixed columns (31) are installed to receiver (3) bottom, opening B (32) have been seted up to receiver (3) one end, a plurality of opening A (21) have been seted up at mount pad (2) top, interface (33) have been seted up to receiver (3) one side bottom position, the interface (33) outside is equipped with mounting groove (34), joint subassembly (5) are installed to mount pad (2) bottom, waterproof component (6) are installed to receiver (3) one side bottom position, mount pad (2) bottom four corners all is provided with fastening bolt (22).

2. The integrated generic deformation monitoring GNSS receiver of claim 1, wherein: the protection assembly (4) includes protection casing (41), shock pad (43) and water guide plate (44), the same damping spring (42) of a plurality of specifications of receiver (3) outside installation, protection casing (41) are installed in damping spring (42) one end, the inboard edge position in protection casing (41) is installed in shock pad (43), water guide plate (44) are installed in protection casing (41) bottom.

3. The integrated generic deformation monitoring GNSS receiver of claim 1, wherein: the clamping assembly (5) comprises a first fixing plate (51), a rotating plate (52), a movable square rod (53), a fixing plate (56), a spring (57) and a third fixing plate (58), wherein the first fixing plate (51) is installed at the edge position of the bottom of the installation seat (2), a plurality of second fixing plates (54) are installed at the bottom of the installation seat (2), the rotating plate (52) is arranged at one end of the movable square rod (53) and is movably connected with the movable square rod (53) through a bearing, the movable square rod (53) penetrates through the second fixing plate (54) and is movably connected with the second fixing plate (54), a plurality of limiting square rods (55) are installed at one end of the movable square rod (53), the fixing plate (56) is installed at one end of the outer side of the movable square rod (53), the third fixing plate (58) is nested in the outer side of the movable square rod (53) and is movably connected with the movable square rod (53), and one end of the third fixing plate (58) is fixedly connected with the mounting seat (2), the spring (57) is nested outside the movable square rod (53), and two ends of the spring (57) are respectively fixedly connected with the fixed plate (56) and the third fixing plate (58).

4. The integrated generic deformation monitoring GNSS receiver of claim 1, wherein: waterproof subassembly (6) are including connecting (61), waterproof cover (62), waterproof opening (63) and waterproof rubber ring (64), waterproof cover (62) is installed in connecting (61) outside one end, and waterproof cover (62) nestification sets up in mounting groove (34) inboardly, waterproof opening (63) are seted up in waterproof cover (62) outside one end, waterproof rubber ring (64) are installed in mounting groove (34) inboardly.

5. The integrated generic deformation monitoring GNSS receiver of claim 3, wherein: and one end of the movable square rod (53) is provided with a limiting disc (59).

6. The integrated generic deformation monitoring GNSS receiver of claim 4, wherein: and one side of the waterproof rubber ring (64) is provided with water absorption cotton (65).

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