CN217425682U - Geological radar auxiliary operation equipment - Google Patents

Abstract

The utility model discloses a geological radar auxiliary operation equipment, it includes the frame and sets up the bracing piece in the frame, the bracing piece is kept away from the fixed mounting panel that is used for placing geological radar antenna that is provided with of one end of frame, the mounting panel can be dismantled with geological radar antenna and link together, the case is placed to fixed being provided with in the frame, the roof of placing the case is the opening setting, it inlays and is equipped with the sponge piece to place the incasement fixation, the holding tank that is used for supplying geological radar antenna immigration is offered to the roof of sponge piece, the articulated sealed lid that is provided with of opening part of placing the case. This application has the effect of avoiding causing geological radar antenna to damage in the transport.

Description

Geological radar auxiliary operation equipment

Technical Field

The utility model relates to a geology check out test set technical field relates to geology radar auxiliary operation equipment specifically.

Background

At present, the main problems of the prior art are that the capital investment for the operation and maintenance of the highway tunnel is insufficient, the reconstruction and light management are carried out, the theory and the method for tunnel maintenance management are not really applied to the actual operation, and the best mode at the present stage is to carry out early detection on the highway tunnel, thereby finding the problem and achieving the purpose of early management.

At present, if chinese patent document that patent grant publication number is CN205583120U, it discloses a geological radar surveys auxiliary device, including geological radar antenna, the support column of installation geological radar antenna, the crossbeam that the level setting was between two spinal branch daggers, the one end fixed mounting of support column is in the geological radar frame, be equipped with the installed part that is used for installing geological radar antenna on the crossbeam, the installed part includes the bracing piece and is used for the unable adjustment base of fixed geological radar antenna, bracing piece fixed mounting is on the crossbeam.

The related art described above has the following drawbacks: because the bracing piece is vertical to be installed in the frame, and the geological radar antenna is located the top of bracing piece, has wholly occupied great vertical space for this reason, leads to when carrying geological radar frame, and bracing piece and geological radar antenna can often be collided with to external object to arouse that the bracing piece is crooked and geological radar antenna damages.

SUMMERY OF THE UTILITY MODEL

Therefore, in order to avoid damage to the geological radar antenna during transport, the present application provides a geological radar auxiliary operating device.

The utility model discloses a realize like this, construct a geological radar auxiliary operation equipment, including frame and the bracing piece of setting in the frame, the bracing piece is kept away from the fixed mounting panel that is used for placing geological radar antenna that is provided with of one end of frame, the mounting panel can be dismantled with geological radar antenna and link together, the fixed case of placing that is provided with in the frame, the roof of placing the case is the opening setting, it inlays and is equipped with the sponge piece to place the incasement fixation, the holding tank that is used for supplying geological radar antenna immigration is offered to the roof of sponge piece, the articulated sealed lid that is provided with of opening part of placing the case.

Through adopting above-mentioned technical scheme, when carrying geological radar frame, take off geological radar antenna from the mounting panel at first, then put into the holding tank on the sponge piece of placing incasement portion, and cover sealed lid, because the sponge piece has the resiliency, can play the effect of protection geological radar antenna when the shake, and place the case and also can play the effect of protection geological radar antenna as outside protection casing, thereby can effectually avoid causing geological radar antenna to damage in the transport.

Optionally, the mounting plate is fixedly provided with mounting bars, the mounting bars are located on two sides of the geological radar antenna, two insertion grooves are formed in the faces, close to each other, of the mounting bars, the insertion bars used for being inserted into the insertion grooves in a sliding mode are fixedly arranged on the two sides of the geological radar antenna, a plurality of rubber ball heads are fixedly arranged on the insertion bars along the length direction, and a plurality of ball head grooves used for being connected with the rubber ball heads in a clamping mode are formed in the inner wall of each insertion groove.

Through adopting above-mentioned technical scheme, aim at the inserting groove on two mounting bars respectively with the grafting strip of geological radar antenna both sides and insert, rubber bulb meeting joint is in the bulb inslot to fixed geological radar antenna's position, fixed mode is simple and the reliability is high, and because rubber bulb has the compressibility, can be convenient for insert the inserting groove or shift out the inserting groove with the grafting strip, and can not blockked the influence by rubber bulb's arch.

Optionally, the rack is provided with a supporting block, a supporting plate is fixedly arranged on the supporting block, the supporting plate is located on two sides of the supporting rod, a rotating rod is fixedly arranged on the supporting rod, the rotating rod is rotatably arranged on the supporting plate in a penetrating mode, and a driving device used for driving the supporting rod to rotate along the rotating rod and to be fixed to any position after rotation is arranged on the supporting plate.

Through adopting above-mentioned technical scheme, utilize drive arrangement drive bracing piece to rotate along the dwang, can rotate the bracing piece to with the frame parallel and level to reduce the vertical height of bracing piece, avoid external object to touch the bracing piece when the transport, thereby arouse the bracing piece crooked and can not use, recycle drive arrangement fixed support pole to the position after the rotation, can prevent that the bracing piece from taking place to rock.

Optionally, drive arrangement includes worm wheel, worm and handle, the coaxial fixed connection of worm wheel is on the dwang, the worm rotates to be connected on the extension board, the worm wheel meshes with the worm mutually, handle fixed connection is used for driving the worm to rotate on the worm.

Through adopting above-mentioned technical scheme, the staff can drive the worm through rotating the handle and rotate to drive and rotate with worm mesh's worm wheel, drive the dwang simultaneously and rotate, because worm wheel and worm have self-locking function, after the stall handle, can fix the position of dwang, its fixed mode is simple and convenient.

Optionally, a first guide rod is fixedly arranged on the frame, a second guide rod is slidably arranged on the first guide rod, the first guide rod and the second guide rod are perpendicular to each other, sliding grooves are formed in the first guide rod and the second guide rod along the length direction of the first guide rod and the second guide rod, sliding blocks are slidably connected in the sliding grooves, the second guide rod is fixedly connected to the sliding block on the first guide rod, the supporting block is fixedly connected to the sliding block on the second guide rod, and fixing parts for fixing the position of the sliding block in the sliding grooves are arranged on the sliding blocks.

Through adopting above-mentioned technical scheme, when the position of geological radar antenna is adjusted to needs, can be through slip second guide arm or slip supporting shoe, and utilize the position of mounting fixed sliding block in the spout, thereby the position of fixed supporting shoe and geological radar antenna, realize the adjustment of geological radar antenna position in the frame, wherein the spout can play direction and spacing effect with the sliding fit of slider, because first guide arm sets up with second guide arm mutually perpendicular, through slip second guide arm or slip supporting shoe, can shift geological radar antenna to the length direction of frame and the most position on the width direction, thereby remove geological radar antenna to the most suitable detection position in the frame.

Optionally, the fixing member includes a fastening bolt, and the fastening bolt is threaded through the slider and abuts against the bottom wall of the sliding groove.

Through adopting above-mentioned technical scheme, screw up and support the bolt and can fix the slider in the spout, and unscrew and support the bolt and can loosen the slider, fixed mode is simple and convenient.

Optionally, the bracing piece includes loop bar and inserted bar, dwang fixed connection is on the loop bar, mounting panel fixed connection is on the inserted bar, the inserted bar slides and pegs graft on the inserted bar, it has the bolt to peg graft on the loop bar, a plurality of slots that are used for supplying the bolt to peg graft are seted up along length direction to the inserted bar.

Through adopting above-mentioned technical scheme, pull out the slot with the bolt and stimulate the inserted bar promptly and slide along the loop bar, when sliding to suitable position, insert the position that the inserted bar can be fixed to the slot with the bolt again to adjust geological radar antenna's height, and make things convenient for geological radar antenna at suitable altitude detection, the mode through fixed inserted bar of bolt and slot is simple and stability good, can bear great pressure.

Optionally, a level bubble is fixedly arranged on the mounting plate.

Through adopting above-mentioned technical scheme, operating personnel can be through observing the air level and reacing whether the bracing piece is in vertical state to do benefit to geological radar antenna and detect.

The utility model has the advantages of as follows:

1. when the geological radar rack is carried, firstly, the geological radar antenna is taken down from the mounting plate, then, the geological radar antenna is placed in the accommodating groove in the sponge block in the placing box, and the sealing cover is covered on the accommodating groove;

2. the worm can be driven to rotate by a worker through rotating the handle, so that the worm wheel meshed with the worm is driven to rotate, the rotating rod is driven to rotate, the worm wheel and the worm have a self-locking function, the position of the rotating rod can be fixed after the handle is stopped rotating, and the fixing mode is simple and convenient;

3. when the position of geological radar antenna is adjusted to needs, can be through slip second guide arm or slip supporting shoe, and utilize the position of mounting solid fixed sliding block in the spout, thereby the position of solid fixed supporting shoe and geological radar antenna, realize the adjustment of geological radar antenna position in the frame, wherein the spout can play direction and spacing effect with the sliding fit of slider, because first guide arm sets up with second guide arm mutually perpendicular, through slip second guide arm or slip supporting shoe, can shift geological radar antenna to the length direction of frame and the most position on the width direction, thereby remove the most suitable detection position in the frame with geological radar antenna.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an embodiment of the present application;

FIG. 2 is a schematic structural view of the present application showing a holding box;

FIG. 3 is an exploded view of the present application showing the detachable structure between the geological radar antenna and the mounting plate;

fig. 4 is a schematic structural diagram for showing a driving device in the present application.

Wherein: 1. a frame; 11. a universal wheel; 2. a support bar; 21. rotating the rod; 22. a loop bar; 23. a rod is inserted; 231. a slot; 24. a bolt; 3. mounting a plate; 4. placing a box; 41. a sponge block; 411. accommodating grooves; 42. a sealing cover; 421. a magnet piece; 5. mounting a bar; 51. inserting grooves; 511. a ball head groove; 52. inserting strips; 521. a rubber ball head; 6. a support block; 61. a support plate; 62. a drive device; 621. a worm gear; 622. a worm; 623. a handle; 624. a transverse plate; 7. a first guide bar; 71. a second guide bar; 72. a chute; 73. a slider; 74. tightly abutting against the bolt; 8. a level bubble; 9. geological radar antenna.

Detailed Description

The present invention will be described in detail with reference to fig. 1 to 4, and the technical solutions in the embodiments of the present invention will be clearly and completely described, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The utility model provides a geological radar auxiliary operation device through the improvement, refer to fig. 1 and fig. 2, including frame 1 and bracing piece 2 arranged on frame 1, four universal wheels 11 are fixedly arranged at four corners of frame 1, bracing piece 2 includes loop bar 22 and inserted bar 23, the turning bar 21 is fixedly welded on loop bar 22, turning bar 21 is mutually perpendicular to loop bar 22, mounting plate 3 is fixedly welded on inserted bar 23, mounting plate 3 is fixed with level bubble 8 by glue, inserted bar 23 is inserted on inserted bar 23 in a sliding manner, inserted bar 22 is inserted with bolt 24 in a sliding manner, inserted bar 23 is provided with a plurality of slots 231 for inserting bolt 24 in a length direction, and placing box 4 is fixedly connected on frame 1 by bolts, the top wall of placing box 4 is an opening arrangement, sponge block 41 is fixedly inserted in placing box 4, the top wall of sponge block 41 is provided with a holding tank 411 for moving geological radar antenna 9 in, the opening of the placing box 4 is hinged with a sealing cover 42, one side of the sealing cover 42, which is far away from the hinge axis, is embedded with a magnet piece 421, and the opening of the placing box 4 is embedded with a magnet piece 421 attracted with the magnet piece 421 of the sealing cover 42.

Referring to fig. 3, mounting bars 5 are fixedly welded on a mounting plate 3, the mounting bars 5 are located on two sides of a geological radar antenna 9, insertion grooves 51 are formed in the surfaces, close to each other, of the two mounting bars 5, the cross section of each insertion groove 51 is square, insertion bars 52 for being slidably inserted into the insertion grooves 51 are fixedly welded on two sides of the geological radar antenna 9, a plurality of rubber bulbs 521 are fixedly bonded on the insertion bars 52 along the length direction by using glue, a plurality of bulb grooves 511 for being clamped with the rubber bulbs 521 are formed in the inner wall of each insertion groove 51, so that the mounting plate 3 and the geological radar antenna 9 can be detachably connected together with the plug strip 52 through the plug slot 51, the inserting strips 52 at two sides of the geological radar antenna 9 are respectively aligned with the inserting grooves 51 on the two mounting strips 5 to be inserted, and the rubber ball head 521 can be clamped in the ball head groove 511, so that the position of the geological radar antenna 9 is fixed.

Referring to fig. 1 and 4, a first guide rod 7 is fixedly mounted on a frame 1 by using bolts, a second guide rod 71 is slidably mounted on the first guide rod 7, the first guide rod 7 and the second guide rod 71 are perpendicular to each other, sliding grooves 72 are formed in the first guide rod 7 and the second guide rod 71 along the length direction of the first guide rod 7 and the second guide rod 71, in this embodiment, the cross sections of the sliding grooves 72 are dovetail-shaped, in other embodiments, the cross sections of the sliding grooves 72 can be T-shaped, sliding blocks 73 are slidably connected in the two sliding grooves 72, the sliding blocks 73 are slidably matched with the sliding grooves 72, the second guide rod 71 is fixedly welded on the sliding block 73 on the first guide rod 7, a supporting block 6 is fixedly welded on the sliding block 73 on the second guide rod 71, fixing pieces for fixing the positions of the sliding blocks 73 in the sliding grooves 72 are mounted on the two sliding blocks 73, in this embodiment, the fixing pieces are abutting bolts 74, the abutting bolts 74 are threaded on the sliding blocks 73 and abut against the bottom walls of the sliding grooves 72, the supporting plate 61 is fixedly welded on the supporting block 6, the supporting plate 61 is located on two sides of the supporting rod 2, the rotating rod 21 is rotatably arranged on the supporting plate 61 in a penetrating mode, and the supporting plate 61 is provided with a driving device 62 which is used for driving the supporting rod 2 to rotate along the rotating rod 21 and is fixed to any position after rotation.

Referring to fig. 4, in order to drive the support rod 2 to rotate along the rotating rod 21, the driving device 62 includes a worm wheel 621, a worm 622 and a handle 623, the worm wheel 621 is coaxially and fixedly welded on the rotating rod 21, two transverse plates 624 are fixedly welded on the support plate 61, the worm 622 is rotatably connected on the transverse plates 624, the worm wheel 621 is meshed with the worm 622, the handle 623 is fixedly connected on the worm 622 and used for driving the worm 622 to rotate, the handle 623 is used for driving the worm wheel 621 and the worm 622 to rotate, thereby driving the loop bar 22 to rotate along the rotating rod 21, namely rotating the loop bar 22 to be flush with the rack 1, and reducing the vertical height of the support rod 2, avoiding the external object from touching the support rod 2 during the transportation, thereby causing the support rod 2 to be bent and unusable.

The implementation principle of the geological radar auxiliary operation equipment in the embodiment of the application is as follows: when the geological radar rack 1 is conveyed, firstly, the geological radar antenna 9 is taken down from the mounting plate 3, then the geological radar antenna is placed in the accommodating groove 411 on the sponge block 41 in the placing box 4, and the sealing cover 42 is covered, so that the effect of protecting the geological radar antenna 9 during shaking can be achieved due to the buffering property of the sponge block 41, and the placing box 4 serving as an external protection shell can also achieve the effect of protecting the geological radar antenna 9, so that the geological radar antenna 9 can be effectively prevented from being damaged during conveying; when the geological radar antenna 9 is detected, the rack 1 can be pulled to a proper detection position, the position of the second guide rod 71 on the first guide rod 7 or the position of the supporting block 6 on the second guide rod 71 is adjusted, and the height of the geological radar antenna 9 is adjusted through the inserting rod 23 and the sleeve rod 22, so that the geological radar antenna 9 is finely adjusted to the proper detection position, and the geological radar antenna 9 is convenient to detect.

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 invention. 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.

Claims (8)

1. A geological radar auxiliary operating device, characterized in that: including frame (1) and bracing piece (2) of setting in frame (1), the fixed mounting panel (3) that are used for placing geological radar antenna (9) that are provided with of one end that frame (1) was kept away from in bracing piece (2), mounting panel (3) can be dismantled with geological radar antenna (9) and link together, fixed being provided with in frame (1) places case (4), the roof of placing case (4) is the opening setting, it inlays and is equipped with sponge piece (41) to place case (4) internal fixation, holding tank (411) that are used for supplying geological radar antenna (9) immigration are seted up to the roof of sponge piece (41), the articulated sealed lid (42) that is provided with of opening part of placing case (4).

2. Geological radar assisted operation device according to claim 1, characterized in that: the mounting plate is characterized in that a mounting strip (5) is fixedly arranged on the mounting plate (3), the mounting strip (5) is located on two sides of the geological radar antenna (9), two insertion grooves (51) are formed in the surfaces, close to each other, of the mounting strip (5), insertion strips (52) used for being inserted into the insertion grooves (51) in a sliding mode are fixedly arranged on two sides of the geological radar antenna (9), a plurality of rubber ball heads (521) are fixedly arranged on the insertion strips (52) along the length direction, and a plurality of ball head grooves (511) used for being connected with the rubber ball heads (521) in a clamping mode are formed in the inner wall of the insertion grooves (51).

3. The geological radar assisted manipulation apparatus of claim 1, wherein: the support frame is characterized in that a supporting block (6) is arranged on the frame (1), a supporting plate (61) is fixedly arranged on the supporting block (6), the supporting plate (61) is located on two sides of the supporting rod (2), a rotating rod (21) is fixedly arranged on the supporting rod (2), the rotating rod (21) is rotatably arranged on the supporting plate (61) in a penetrating mode, and a driving device (62) used for driving the supporting rod (2) to rotate along the rotating rod (21) and fixed to any position after rotation is arranged on the supporting plate (61).

4. The geological radar assisted manipulation apparatus of claim 3, wherein: drive arrangement (62) include worm wheel (621), worm (622) and handle (623), worm wheel (621) coaxial fixed connection is on dwang (21), worm (622) rotate to be connected on fulcrum bar (61), worm wheel (621) and worm (622) mesh mutually, handle (623) fixed connection is on worm (622) and is used for driving worm (622) to rotate.

5. The geological radar assisted manipulation apparatus of claim 3, wherein: the guide device is characterized in that a first guide rod (7) is fixedly arranged on the rack (1), a second guide rod (71) is arranged on the first guide rod (7) in a sliding mode, the first guide rod (7) and the second guide rod (71) are perpendicular to each other, sliding grooves (72) are formed in the first guide rod (7) and the second guide rod (71) along the length direction of the first guide rod (7) and the second guide rod (71), sliding blocks (73) are connected into the sliding grooves (72) in a sliding mode, the second guide rod (71) is fixedly connected onto sliding blocks (73) on the first guide rod (7), supporting blocks (6) are fixedly connected onto the sliding blocks (73) on the second guide rod (71), and fixing pieces used for fixing the positions of the sliding blocks (73) in the sliding grooves (72) are arranged on the sliding blocks (73).

6. The geological radar assisted manipulation apparatus of claim 5, wherein: the fixing piece comprises a fastening bolt (74), and the fastening bolt (74) is arranged on the sliding block (73) in a penetrating mode through threads and is abutted to the bottom wall of the sliding groove (72).

7. Geological radar assisted operation device according to claim 3, characterized in that: bracing piece (2) are including loop bar (22) and inserted bar (23), dwang (21) fixed connection is on loop bar (22), mounting panel (3) fixed connection is on inserted bar (23), inserted bar (23) slide and peg graft on inserted bar (23), it has bolt (24) to slide the grafting on loop bar (22), a plurality of slots (231) that are used for supplying bolt (24) to peg graft are seted up along length direction in inserted bar (23).

8. The geological radar assisted manipulation apparatus of claim 1, wherein: and a level bubble (8) is fixedly arranged on the mounting plate (3).

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