CN216046331U - Suspension type remote sensor support frame - Google Patents

Abstract

The utility model discloses a suspension type remote sensor support frame, which aims to solve the technical problem that the conventional remote sensor suspension type support frame is easy to destabilize a remote sensor when disturbed by air. This remote sensor support frame includes the shell body, install in the inboard interior casing of shell body, set up in a fixed clamping piece and No. two fixed clamping pieces of shell body rear side, set up in a fixed clamping piece with the link of No. two fixed clamping piece rear sides. This remote sensing ware support frame adopts the inside and outside mode of cup jointing of shell body and interior casing to make remote sensing equipment move in the horizontal direction, can play certain cushioning effect when receiving horizontal acting force, including the butt joint installation of a fixed clamping piece and No. two fixed clamping pieces and the cooperation joint of extension frame lock the shell body, the link can make shell body and remote sensing equipment reduce the influence of stress through vertical removal when receiving vertical load with the installation of a fixed clamping piece and No. two fixed clamping pieces respectively.

Description

Suspension type remote sensor support frame

Technical Field

The utility model belongs to the field of remote sensing equipment, and particularly relates to a suspension type remote sensor support frame.

Background

The remote sensor is a device for sensing the position of an object in space, and uses different remote sensors with various wave bands to receive electromagnetic waves reflected by the object and irradiated on the surface of the object, and the electromagnetic waves are processed and analyzed to reflect certain characteristics of the object so as to identify the object, wherein the intensity of the reflected waves of the object is related to the characteristics of the object.

Since the remote sensor operates by receiving the reflection of the electromagnetic wave, the use of the remote sensor requires providing a stable installation environment to prevent the vibration and shaking of the remote sensor itself from causing the poor reception path of the electromagnetic wave. The installation of present remote sensor generally selects the mounting means of suspension type, makes the receiving direction of remote sensor wider, avoids the mode of ground and wall installation to cause the receiving range of remote sensor to reduce, but the unstability phenomenon appears because of the disturbance of air current in the mounting means remote sensor of suspension type easily, is unfavorable for the receipt of electromagnetic wave.

Therefore, aiming at the situation that the suspension type remote sensor is easy to be disturbed by air to cause instability, a novel remote sensor suspension support frame is developed, a buffer structure of the support frame is utilized to provide stable support for the remote sensor, and impact force of air flow on the remote sensor is reduced.

SUMMERY OF THE UTILITY MODEL

(1) Technical problem to be solved

Aiming at the defects of the prior art, the utility model aims to provide a suspension type remote sensor support frame, which aims to solve the technical problem that the conventional remote sensor suspension type support frame is easy to destabilize a remote sensor when being disturbed by air.

(2) Technical scheme

In order to solve the technical problem, the utility model provides a suspension type remote sensor support frame which comprises an outer shell, an inner shell, a first fixed clamping piece, a second fixed clamping piece and a connecting frame, wherein the inner shell is arranged on the inner side of the outer shell, the first fixed clamping piece and the second fixed clamping piece are arranged on the rear side of the outer shell, the connecting frame is arranged on the rear sides of the first fixed clamping piece and the second fixed clamping piece, the inner shell is arranged on the inner side of the outer shell, an installation hole is formed in the front end of the inner shell, remote sensing equipment is connected to the inner side of the installation hole in a threaded mode, the first fixed clamping piece is arranged above the second fixed clamping piece, extension frames are movably connected to the inner sides of the front ends of the first fixed clamping piece and the second fixed clamping piece, a lower bearing plate is fixedly connected to the lower end of the connecting frame, and a suspension clamping seat is fixedly connected to the upper end of the connecting frame.

When the suspension type remote sensor support frame adopting the technical scheme is used, a user fixes the remote sensing equipment with the inner shell in a threaded connection mode, the inner shell can horizontally move back and forth in the outer shell through connection of the guide groove and the guide rail, a buffering effect is achieved when the inner shell receives horizontal acting force, the extension frame stretches out from the first fixing clamping piece and the second fixing clamping piece and adjusts the installation position of the outer shell through bolt locking, the connecting frame is connected with an external hanging piece through the hanging clamping seat and can enable the outer shell to move up and down to buffer and reduce vertical acting force through movable connection between the first fixing clamping piece and the second fixing clamping piece.

Preferably, the equal horizontal installation in both ends has a guide rail about the shell body is inboard, a guide way has all been seted up at both ends about the interior casing, a guide rail swing joint in the guide way is inboard. The inner shell can horizontally move along the front and back of the inner side of the outer shell through the connection of the first guide rail and the first guide groove, and can play a role in reducing stress when the remote sensing equipment is subjected to horizontal acting force.

Preferably, the equal fixedly connected with spacing piece in both ends around the guide rail, spacing piece with fixedly connected with spring between the interior casing, a spring set up in both sides about a guide rail with a guide way. When the inner shell moves in the outer shell, the first spring is inwards compressed or extended under the action of extrusion force or pulling force, the acting force is reduced through the deformation recovery function of the first spring, and the buffering effect is achieved.

Preferably, the extension frame lower extreme fixedly connected with magnetic force piece No. one, the locking groove has all been seted up at both ends about the shell body, a magnetic force piece swing joint in locking inslot side, the equal fixed mounting in both ends has No. two magnetic force pieces about the interior casing, a magnetic force piece with be magnetic connection between No. two magnetic force pieces. The extension frame is fixed in the locking groove by the magnetic attraction between the first magnetic sheet and the second magnetic sheet, so that the shell is clamped by the first fixing clamping sheet and the second fixing clamping sheet.

Preferably, a fixed clamping piece upper end with No. two fixed clamping piece lower extremes all are provided with the anchor hole, the extension frame outside is provided with the fastening groove, the inboard threaded connection in anchor hole has the bolt, the bolt top set up in the fastening inslot side. After the extension frame extends out of the first fixing clamping piece and the second fixing clamping piece, the extension frame is locked with the first fixing clamping piece and the second fixing clamping piece through bolts respectively, the locking position of the outer shell is changed, and the sensing range of the remote sensing equipment is adjusted.

Preferably, the lower end of the first fixed clamping piece is fixedly connected with an insertion piece, the insertion piece is movably connected to the inner side of the upper end of the second fixed clamping piece, a through groove is formed in the inner side of the second fixed clamping piece, the lower bearing plate is movably connected to the inner side of the through groove, and a second spring is fixedly connected between the lower bearing plate and the upper end of the first fixed clamping piece. The link through No. two springs respectively with fixed clamping piece and down fixed connection between the carrier plate, can vertical removal, make the whole height of shell body change in vertical plane, play the cushioning effect when the shell body receives vertical load.

Preferably, a vertical guide way No. two of having seted up of fixed clamping piece rear end, link front end fixedly connected with guide rail No. two, No. two guide rail swing joint in No. two guide way inboards. When the link was vertical movable, No. two guide rails along No. two guide ways vertical removal, prevented that the link from taking place when the reciprocal activity between fixed clamping piece and No. two fixed clamping pieces and controlling the skew and causing the remote sensing equipment unstability.

(3) Advantageous effects

Compared with the prior art, the utility model has the beneficial effects that: the suspension type remote sensor support frame provided by the utility model can enable the remote sensing equipment to move in the horizontal direction by adopting an internal and external sleeving mode of the outer shell and the inner shell, and can play a certain buffering role when a horizontal acting force is applied, the butt joint installation of the first fixing clamping piece and the second fixing clamping piece and the matching clamping connection of the extension frame lock the outer shell in the extension frame, the extension frame can extend the first fixing clamping piece and the second fixing clamping piece forwards to change the installation position of the remote sensing equipment, and the connection frame and the first fixing clamping piece and the second fixing clamping piece are respectively installed to enable the outer shell and the remote sensing equipment to reduce the influence of stress through vertical movement when vertical load is applied to the outer shell and the remote sensing equipment.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the technical solutions in the prior art will be briefly described below, it is obvious that the drawings in the following description are only embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

FIG. 1 is a schematic view of an installation structure of a suspension type remote sensor support frame according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of an outer casing structure of a suspension type remote sensor support frame according to an embodiment of the present invention

FIG. 3 is a schematic structural diagram of an inner housing of an embodiment of a hanging remote sensor support of the present invention;

fig. 4 is a schematic view of a mounting structure of a first fixing clip and a second fixing clip of an embodiment of a suspension type remote sensor support frame according to the present invention.

The labels in the figures are: 1. an outer housing; 2. an inner housing; 3. mounting holes; 4. a remote sensing device; 5. a first fixed clip; 6. fixing the clamping piece II; 7. a stretching frame; 8. a connecting frame; 9. a lower deck plate; 10. suspending the card holder; 11. a first guide rail; 12. a first guide groove; 13. a limiting sheet; 14. a first spring; 15. a first magnetic sheet; 16. a locking groove; 17. a second magnetic sheet; 18. an anchoring hole; 19. a fastening groove; 20. a bolt; 21. a plug-in sheet; 22. a through groove; 23. a second spring; 24. a second guide groove; 25. and a second guide rail.

Detailed Description

In order to make the technical means, the original characteristics, the achieved purposes and the effects of the utility model easily understood and obvious, the technical solutions in the embodiments of the present invention are clearly and completely described below to further illustrate the utility model, and obviously, the described embodiments are only a part of the embodiments of the present invention, but not all the embodiments.

Example 1

The specific embodiment is a device for a suspension type remote sensor support frame, the installation structure schematic diagram of which is shown in figure 1, the structure schematic diagram of an outer shell 1 is shown in figure 2, the structure schematic diagram of an inner shell 2 is shown in figure 3, and the installation structure schematic diagram of a first fixing clip 5 and a second fixing clip 6 is shown in figure 4, the remote sensor support frame comprises an outer shell 1, an inner shell 2 arranged inside the outer shell 1, a first fixing clip 5 and a second fixing clip 6 arranged at the rear side of the outer shell 1, and a connecting frame 8 arranged at the rear sides of the first fixing clip 5 and the second fixing clip 6, wherein the inner side of the outer shell 1 is provided with the inner shell 2, the front end of the inner shell 2 is provided with an installation hole 3, the inner side of the installation hole 3 is in threaded connection with a remote sensing device 4, the first fixing clip 5 is arranged above the second fixing clip 6, and the inner sides of the front ends of the first fixing clip 5 and the second fixing clip 6 are both movably connected with an extending frame 7, the lower end of the connecting frame 8 is fixedly connected with a lower bearing plate 9, and the upper end of the connecting frame 8 is fixedly connected with a suspension clamping seat 10.

For the present embodiment, the first spring 14 provides an elastic deformation effect in the horizontal direction of the inner housing 2 and the remote sensing device 4, and assists to reduce the horizontal acting force, and the second spring 23 provides a vertical buffering effect between the first fixing clip 5 and the second fixing clip 6.

Wherein, the equal horizontal installation in both ends has guide rail 11 about shell body 1 inboard, and guide way 12 has all been seted up at both ends about interior casing 2, and 11 swing joint in guide way 12 inboards for a guide rail, the equal fixedly connected with spacing piece 13 in both ends around guide rail 11, spring 14 of fixedly connected with between spacing piece 13 and interior casing 2, spring 14 set up in both sides about guide rail 11 and guide way 12. Interior casing 2 can follow the inboard front and back horizontal migration of shell body 1 through the connection of a guide rail 11 and a guide way 12, can play the effect of cutting down the stress when remote sensing equipment 4 receives horizontal effort, and interior casing 2 is when the casing 1 removes, and spring 14 receives extrusion force or the inward compression of pulling force or extension, and the effort that receives is cut down to the deformation recovery function through spring 14, reaches the buffering effect.

Simultaneously, 7 lower extremes fixedly connected with magnetic sheet 15 of frame extend, and locking groove 16 has all been seted up at both ends about shell body 1, and a magnetic sheet 15 swing joint is in locking groove 16 inboardly, and the equal fixed mounting in both ends has No. two magnetic sheets 17 about interior casing 2, is magnetic force between a magnetic sheet 15 and No. two magnetic sheets 17 and is connected. The extension frame 7 is fixed in the locking groove 16 by the magnetic attraction between the first magnetic sheet 15 and the second magnetic sheet 17, so that the outer shell 1 is clamped by the first fixing clamping sheet 5 and the second fixing clamping sheet 6.

In addition, the upper end of the first fixing clip 5 and the lower end of the second fixing clip 6 are both provided with anchoring holes 18, the outer side of the extension frame 7 is provided with a fastening groove 19, the inner side of each anchoring hole 18 is in threaded connection with a bolt 20, and the top end of each bolt 20 is arranged on the inner side of the fastening groove 19. After the extension frame 7 extends out of the first fixed clamping piece 5 and the second fixed clamping piece 6, the extension frame 7 is locked with the first fixed clamping piece 5 and the second fixed clamping piece 6 through the bolts 20, the locking position of the outer shell 1 is changed, and the sensing range of the remote sensing equipment 4 is adjusted.

In addition, 5 lower extreme fixedly connected with inserted sheet 21 of fixed clamping piece, inserted sheet 21 swing joint is inboard in 6 upper ends of No. two fixed clamping pieces, No. two fixed clamping pieces 6 inboards have been seted up and have been led to groove 22, lower carrier plate 9 swing joint is inboard in leading to groove 22, No. two springs 23 of fixedly connected with between lower carrier plate 9 and a fixed clamping piece 5 upper ends, No. two guide ways 24 have been vertically seted up in 5 rear ends of a fixed clamping piece, No. two guide rails 25 of 8 front end fixedly connected with of link, No. two guide rails 25 swing joint are inboard in No. two guide ways 24. The link 8 respectively through No. two springs 23 with fixed clamping piece 5 and lower carrier plate 9 between fixed connection, can vertical removal, make the whole height of shell body 1 change in vertical plane, play the cushioning effect when shell body 1 receives vertical load, during the vertical activity of link 8, No. two guide rails 25 along No. two guide way 24 vertical removal, prevent that the skew causes the unstability of remote sensing equipment 4 when taking place to control between link 8 and a fixed clamping piece 5 and No. two fixed clamping pieces 6 when the reciprocal activity.

When the suspension type remote sensor support frame adopting the technical scheme is used, a user fixes the remote sensing equipment 4 with the inner shell 2 in a threaded connection mode, the inner shell 2 can horizontally move back and forth in the outer shell 1 through connection of the first guide groove 12 and the first guide rail 11, a buffering effect is achieved when the inner shell receives a horizontal acting force, meanwhile, the extension frame 7 extends out of the first fixing clamping piece 5 and the second fixing clamping piece 6 and is locked into the fastening groove 19 through the bolt 20 to adjust the installation position of the outer shell 1, the connecting frame 8 is connected with an external hanging piece through the suspension clamping seat 10 and is suspended, when the outer shell 1 receives a vertical acting force, the second spring 23 is vertically stretched, and the movable connection between the connecting frame 8 and the first fixing clamping piece 5 and the second fixing clamping piece 6 can enable the outer shell 1 to move up and down to buffer and reduce the vertical acting force.

Having thus described the principal technical features and basic principles of the utility model, and the advantages associated therewith, it will be apparent to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.

Furthermore, it should be understood that although the present description is described in terms of various embodiments, not every embodiment includes only a single embodiment, and such descriptions are provided for clarity only, and those skilled in the art will recognize that the embodiments described herein can be combined as a whole to form other embodiments as would be understood by those skilled in the art.

Claims (7)

1. A suspension type remote sensor support frame comprises an outer shell, an inner shell arranged on the inner side of the outer shell, a first fixed clamping piece and a second fixed clamping piece which are arranged on the rear side of the outer shell, and a connecting frame arranged on the rear sides of the first fixed clamping piece and the second fixed clamping piece; the novel remote sensing device is characterized in that an inner shell is arranged on the inner side of the outer shell, a mounting hole is formed in the front end of the inner shell, remote sensing equipment is connected to the inner side of the mounting hole in a threaded mode, a fixed clamping piece is arranged above a fixed clamping piece II, an extension frame is movably connected to the inner sides of the front ends of the fixed clamping piece I and the fixed clamping piece II, a lower bearing plate is fixedly connected to the lower end of the connecting frame, and a hanging clamping seat is fixedly connected to the upper end of the connecting frame.

2. The suspension type remote sensor support frame of claim 1, wherein a first guide rail is horizontally mounted at each of the left and right ends inside the outer casing, a first guide groove is formed at each of the left and right ends of the inner casing, and the first guide rail is movably connected to the inside of the first guide groove.

3. The suspension type remote sensor support frame of claim 2, wherein both front and rear ends of the first guide rail are fixedly connected with a limiting piece, a first spring is fixedly connected between the limiting piece and the inner shell, and the first spring is arranged on the upper and lower sides of the first guide rail and the first guide groove.

4. The suspension type remote sensor support frame according to claim 1, wherein a first magnetic sheet is fixedly connected to a lower end of the extension frame, locking grooves are formed in upper and lower ends of the outer shell, the first magnetic sheet is movably connected to an inner side of the locking grooves, a second magnetic sheet is fixedly mounted at upper and lower ends of the inner shell, and the first magnetic sheet is magnetically connected with the second magnetic sheet.

5. The suspension type remote sensor support frame according to claim 1, wherein the upper end of the first fixing clip and the lower end of the second fixing clip are provided with anchoring holes, fastening grooves are formed in the outer sides of the extension frames, bolts are connected to the inner sides of the anchoring holes in a threaded mode, and the top ends of the bolts are arranged on the inner sides of the fastening grooves.

6. The suspension type remote sensor support frame of claim 1, wherein an insertion piece is fixedly connected to a lower end of the first fixing clamping piece, the insertion piece is movably connected to an inner side of an upper end of the second fixing clamping piece, a through groove is formed in an inner side of the second fixing clamping piece, the lower support plate is movably connected to an inner side of the through groove, and a second spring is fixedly connected between the lower support plate and the upper end of the first fixing clamping piece.

7. The suspension type remote sensor support frame of claim 1, wherein a second guide groove is vertically formed in the rear end of the first fixing clamping piece, a second guide rail is fixedly connected to the front end of the connecting frame, and the second guide rail is movably connected to the inner side of the second guide groove.

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