CN219959407U - Geological radar antenna boom - Google Patents

Abstract

The utility model discloses a geological radar antenna bracket which comprises a concave supporting column and an adjusting vertical rod, wherein the concave supporting column is fixedly arranged at the upper end position of the adjusting vertical rod, an automatic adjusting rotating rod is arranged in the concave supporting column, a pulling fixing rope is arranged at the rear end of the automatic adjusting rotating rod, a bracket tray is arranged at the front end of the automatic adjusting rotating rod, a geological radar antenna box is arranged at the upper end of the bracket tray, and a geological radar antenna is arranged in the geological radar antenna box. The geological radar antenna bracket disclosed by the utility model has the technical effects of automatically adjusting the placement angle of the integral support, so that the integral support is more convenient in angle adjustment.

Description

Geological radar antenna boom

Technical Field

The utility model relates to the field of geological radar antenna brackets, in particular to a geological radar antenna bracket.

Background

In geological exploration operation, the radar antenna is placed at a position about 30cm away from the ground downwards, the effective acquisition of radar data can be influenced by the fact that the distance is too large, the distance is too small, the antenna is easy to collide by an exploration surface, and the safety of the geological exploration antenna device is endangered.

The current geological radar antenna bracket is when placing the use, assembles through stand pole and dwang, and personnel need the manual fixing bolt that loosens of personnel when adjusting the supporting angle of dwang to adjust the angle that changes the dwang, thereby change antenna bracket's angular position, be not very convenient problem when adjusting like this.

Disclosure of Invention

The utility model discloses a geological radar antenna bracket, which aims to solve the technical problems that when the conventional geological radar antenna bracket is placed and used, a vertical rod and a rotating rod are assembled, and when a person adjusts the supporting angle of the rotating rod, the person is required to manually loosen a fixing bolt, so that the angle of the rotating rod is adjusted and changed, and the angle position of the antenna bracket is changed, and thus the adjustment is not very convenient.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

the utility model provides a geological radar antenna support, includes concave type support column and adjusts the vertical pole, concave type support column installation is fixed on adjusting the upper end position of vertical pole, the inside of concave type support column is provided with the automatically regulated dwang, the rear end of automatically regulated dwang is provided with pulls fixed rope, the front end of automatically regulated dwang is provided with the support tray, the upper end of support tray is provided with geological radar antenna box, the inside of geological radar antenna box is provided with geological radar antenna.

Through being provided with and adjusting the vertical pole structure, the concave type support column passes through the regulation vertical pole of lower extreme like this to be convenient for install and place on appointed position, when changing the position of support tray upper end geological radar antenna box, place the use because of the automatically regulated dwang in concave type support column, thereby be convenient for change angular position, the angle of automatically regulated dwang is after adjusting, because of the fixed rope of pulling of automatically regulated dwang rear end, thereby be convenient for place and pull, make the automatically regulated dwang more stable when the angle is placed.

In a preferred scheme, the regulation stand pole includes upside end post, upside disc, inboard regulation pole, locking bolt, downside sleeve and equipment disc, the lower extreme of upside disc is provided with the upside end post, the lower extreme of upside end post is provided with inboard regulation pole, inboard regulation pole's lower extreme week side is provided with the downside sleeve, inboard regulation pole and downside telescopic junction is provided with the locking bolt, downside telescopic lower extreme is provided with the equipment disc, the upside disc is connected on concave support column.

Through being provided with and adjusting the vertical pole structure to be convenient for adjust the height position and place the use.

In a preferred scheme, the support tray includes tray panel, equipment screw, installation disc and connection end piece, the lower extreme of tray panel is provided with the connection end piece, the lower extreme of connection end piece is provided with the installation disc, the inside of installation disc is provided with the equipment screw, the installation disc passes through the equipment screw connection on automatically regulated dwang.

Through being provided with support tray structure, be convenient for place like this and use.

In a preferred scheme, automatically regulated dwang includes rotation arm pole, servo motor, rear end recess and rotation round pin axle, the lower extreme inboard of rotation arm pole is provided with the rotation round pin axle, the outer end of rotation round pin axle is provided with servo motor through the shaft coupling, the lower extreme inside of rotation arm pole is provided with the rear end recess, the rotation round pin axle passes through servo motor and connects on concave type support column.

Through being provided with automatically regulated dwang structure to can place the use by automatic change angle.

In a preferred scheme, pull fixed rope includes positioning bolt, cavity loop bar, pulls rope and fixed chassis, the upper end of fixed chassis is provided with pulls the rope, it is provided with the cavity loop bar to pull the upper end week side of rope, it is provided with positioning bolt to pull the junction of rope and cavity loop bar, the cavity loop bar is connected on automatically regulated dwang.

The pulling fixing rope structure is arranged, so that the pulling and using can be conveniently adjusted.

In a preferred scheme, the concave support column is connected with the adjusting upright post rod through a screw, and a sealing rubber pad is arranged at the joint of the concave support column and the adjusting upright post rod.

Through being provided with concave type support column and adjusting the stand pole structure to be convenient for support and place the use.

In a preferred embodiment, the adjusting vertical rod is mounted and fixed on an external geological radar walking vehicle, and the automatic adjusting rotating rod is electrically connected with the external geological radar walking vehicle.

Through being provided with outside geological radar walking vehicle structure to adjust the erection pole and be convenient for install and place, automatically regulated dwang is convenient for control rotation through outside geological radar walking vehicle moreover.

From the above, a geological radar antenna support, including concave type support column and regulation vertical pole, concave type support column installation is fixed on the upper end position of adjusting the vertical pole, the inside of concave type support column is provided with automatically regulated dwang, automatically regulated dwang's rear end is provided with pulls fixed rope, automatically regulated dwang's front end is provided with the support tray, the upper end of support tray is provided with geological radar antenna box, geological radar antenna box's inside is provided with geological radar antenna. The geological radar antenna bracket provided by the utility model has the technical effects of automatically adjusting the placement angle of the integral support, so that the integral support is more convenient in angle adjustment.

Drawings

Fig. 1 is a schematic perspective view of a geological radar antenna stand according to the present utility model.

Fig. 2 is a schematic diagram of an adjustable mast structure of a geological radar antenna stand according to the present utility model.

Fig. 3 is a schematic diagram of a bracket tray structure of a geological radar antenna bracket according to the present utility model.

Fig. 4 is a schematic diagram of an automatically adjusting rotating rod structure of a geological radar antenna stand according to the present utility model.

Fig. 5 is a schematic drawing of a pulling and fixing rope structure of a geological radar antenna stand according to the present utility model.

In the accompanying drawings: 1. concave support columns; 2. automatically adjusting the rotating rod; 21. rotating the arm lever; 22. a servo motor; 23. a rear end groove; 24. rotating the pin shaft; 3. a support tray; 31. a tray panel; 32. assembling a screw; 33. a disk is installed; 34. connecting end blocks; 4. a geological radar antenna box; 5. adjusting the vertical rod; 51. an upper end post; 52. an upper disc; 53. an inner adjusting rod; 54. a locking bolt; 55. a lower sleeve; 56. assembling a disc; 6. pulling the fixing rope; 61. a locking bolt; 62. a hollow loop bar; 63. pulling the rope; 64. and fixing the chassis.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments.

In the description of the present utility model, it should be understood that the terms "upper," "lower," "front," "rear," "left," "right," "top," "bottom," "inner," "outer," and the like indicate or are based on the orientation or positional relationship shown in the drawings, merely to facilitate description of the present utility model and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

Referring to fig. 1 to 5, a geological radar antenna support, including concave type support column 1 and regulation vertical pole 5, concave type support column 1 installs and fixes on the upper end position of regulation vertical pole 5, the inside of concave type support column 1 is provided with automatically regulated dwang 2, automatically regulated dwang 2's rear end is provided with pulls fixed rope 6, automatically regulated dwang 2's front end is provided with support tray 3, support tray 3's upper end is provided with geological radar antenna box 4, geological radar antenna box 4's inside is provided with geological radar antenna, when using, concave type support column 1 is through the regulation vertical pole 5 of lower extreme, thereby be convenient for install and place on appointed position, when changing support tray 3 upper end geological radar antenna box's position, because of automatically regulated dwang 2 in concave type support column 1, thereby be convenient for change the angular position and place the use, automatically regulated dwang 2's angle is after the regulation, because of automatically regulated dwang 2's rear end pulls fixed rope 6, thereby be convenient for place and pull, make automatically regulated dwang 2 more stable when the angle is placed.

Referring to fig. 1 and 2, in a preferred embodiment, the adjusting column bar 5 includes an upper end post 51, an upper disc 52, an inner adjusting lever 53, a locking bolt 54, a lower sleeve 55, and an assembling disc 56, the lower end of the upper disc 52 is provided with the upper end post 51, the lower end of the upper end post 51 is provided with the inner adjusting lever 53, the lower end circumference of the inner adjusting lever 53 is provided with the lower sleeve 55, the connection of the inner adjusting lever 53 and the lower sleeve 55 is provided with the locking bolt 54, the lower end of the lower sleeve 55 is provided with the assembling disc 56, the upper disc 52 is connected to the concave supporting column 1, the lower sleeve 55 of the adjusting column bar 5 passes through the assembling disc 56 of the lower end, so that the inner adjusting lever 53 is convenient to adjust the position in the lower sleeve 55 when a person releases the locking bolt 54, so that the inner adjusting lever 53 effectively changes the positions of the upper end post 51 and the upper disc 52, and the upper disc 52 is connected to the concave supporting column 1, so that the height position of the concave supporting column 1 is effectively changed for use.

Referring to fig. 1 and 3, in a preferred embodiment, the bracket tray 3 includes a tray panel 31, an assembly screw 32, a mounting disc 33 and a connection end block 34, the lower end of the tray panel 31 is provided with the connection end block 34, the lower end of the connection end block 34 is provided with the mounting disc 33, the inside of the mounting disc 33 is provided with the assembly screw 32, the mounting disc 33 is connected to the automatically adjusting rotating rod 2 through the assembly screw 32, the mounting disc 33 of the bracket tray 3 is connected to the automatically adjusting rotating rod 2 through the assembly screw 32, so that the mounting disc 33 is convenient to install and place, the mounting disc 33 is convenient to stably support the tray panel 31 due to the connection end block 34 of the upper end, so that the tray panel 31 is convenient to stably support the geological radar antenna box 4 for placement and use.

Referring to fig. 1 and 4, in a preferred embodiment, the automatically adjusting rotating lever 2 includes a rotating arm lever 21, a servo motor 22, a rear end groove 23 and a rotating pin 24, the rotating pin 24 is provided at the inner side of the lower end of the rotating arm lever 21, the servo motor 22 is provided at the outer end of the rotating pin 24 through a coupling, the rear end groove 23 is provided at the inner side of the lower end of the rotating arm lever 21, the rotating pin 24 is connected to the concave supporting column 1 through the servo motor 22, the rotating pin 24 of the automatically adjusting rotating lever 2 is connected to the concave supporting column 1 through the servo motor 22, so that the rotating pin 24 is effectively driven to rotate when the conveying shaft of the servo motor 22 rotates, and then the rotating pin 24 is effectively driven to grip the rotating arm lever 21, so that the rotating arm lever 21 effectively changes the position of the front end bracket tray 3, so that the position angle of the geological radar antenna box 4 is effectively changed for use.

Referring to fig. 1 and 5, in a preferred embodiment, the pulling fixing rope 6 includes a positioning bolt 61, a hollow loop bar 62, a pulling rope 63 and a fixing base plate 64, the pulling rope 63 is provided at the upper end of the fixing base plate 64, the hollow loop bar 62 is provided at the upper end circumference of the pulling rope 63, the positioning bolt 61 is provided at the connection of the pulling rope 63 and the hollow loop bar 62, the hollow loop bar 62 is connected to the automatically adjusting rotating rod 2, the hollow loop bar 62 of the pulling fixing rope 6 is connected to the automatically adjusting rotating rod 2 in a sleeved mode, so that the hollow loop bar 62 is stably placed, the pulling rope 63 is conveniently fixed at a designated position by a fixing base plate 64 at the lower end, and then the pulling rope 63 is conveniently pulled by a screw, so that the hollow loop bar 62 can be effectively pulled to place the automatically adjusting rotating rod 2, and when a person releases the positioning bolt 61, the pulling rope 63 is conveniently adjusted in the hollow loop bar 62, so that the overall pulling tightness is conveniently adjusted, and the stable placement is facilitated.

Referring to fig. 1, in a preferred embodiment, the female support column 1 and the adjusting vertical rod 5 are connected by a screw, and a sealing rubber pad is provided at the connection of the female support column 1 and the adjusting vertical rod 5, thereby facilitating installation and fixation, and being more tightly and firmly fixed.

Referring to fig. 1, in a preferred embodiment, the adjusting vertical pole 5 is mounted and fixed on an external geological radar traveling vehicle, and the automatic adjusting rotating pole 2 is electrically connected with the external geological radar traveling vehicle, thereby facilitating mounting, placement and use, and control and use.

Working principle: when using, concave support column 1 is through the regulation vertical pole 5 of lower extreme to be convenient for install and place on appointed position, when changing the position of support tray 3 upper end geological radar antenna box 4, place the use because of automatically regulated dwang 2 in concave support column 1 to be convenient for change angle position, automatically regulated dwang 2's angle is in the back of adjusting, and fixed rope 6 is pulled because of automatically regulated dwang 2 rear end, thereby is convenient for place and pull, makes automatically regulated dwang 2 more stable when the angle is placed.

The above description is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto. The substitutions may be partial structures, devices, or method steps, or may be a complete solution. The technical proposal and the utility model concept are equivalent to or changed in accordance with the utility model, and the utility model is covered in the protection scope of the utility model.

Claims (7)

1. The utility model provides a geological radar antenna support, includes concave type support column (1) and adjusts vertical pole (5), its characterized in that, concave type support column (1) installation is fixed on the upper end position of adjusting vertical pole (5), the inside of concave type support column (1) is provided with automatically regulated dwang (2), the rear end of automatically regulated dwang (2) is provided with pulls fixed rope (6), the front end of automatically regulated dwang (2) is provided with support tray (3), the upper end of support tray (3) is provided with geological radar antenna box (4), the inside of geological radar antenna box (4) is provided with geological radar antenna.

2. A geological radar antenna stand according to claim 1, characterized in that the adjusting vertical rod (5) comprises an upper end post (51), an upper disc (52), an inner adjusting rod (53), a locking bolt (54), a lower sleeve (55) and an assembling disc (56), the lower end of the upper disc (52) is provided with the upper end post (51), the lower end of the upper end post (51) is provided with the inner adjusting rod (53), the lower end circumference side of the inner adjusting rod (53) is provided with the lower sleeve (55), the joint of the inner adjusting rod (53) and the lower sleeve (55) is provided with the locking bolt (54), the lower end of the lower sleeve (55) is provided with the assembling disc (56), and the upper disc (52) is connected on the concave supporting column (1).

3. A geological radar antenna support according to claim 1, characterized in that the support tray (3) comprises a tray panel (31), assembly screws (32), a mounting disc (33) and a connecting end block (34), the lower end of the tray panel (31) is provided with the connecting end block (34), the lower end of the connecting end block (34) is provided with the mounting disc (33), the inside of the mounting disc (33) is provided with the assembly screws (32), and the mounting disc (33) is connected to the automatic adjusting rotating rod (2) through the assembly screws (32).

4. A geological radar antenna stand according to claim 1, characterized in that the automatically adjusting rotating rod (2) comprises a rotating arm (21), a servo motor (22), a rear end groove (23) and a rotating pin shaft (24), the rotating pin shaft (24) is arranged on the inner side of the lower end of the rotating arm (21), the servo motor (22) is arranged at the outer end of the rotating pin shaft (24) through a coupling, the rear end groove (23) is arranged in the lower end of the rotating arm (21), and the rotating pin shaft (24) is connected to the concave supporting column (1) through the servo motor (22).

5. The geological radar antenna bracket according to claim 1, wherein the pulling fixing rope (6) comprises a positioning bolt (61), a hollow loop bar (62), a pulling rope (63) and a fixing base plate (64), the pulling rope (63) is arranged at the upper end of the fixing base plate (64), the hollow loop bar (62) is arranged on the periphery of the upper end of the pulling rope (63), the positioning bolt (61) is arranged at the joint of the pulling rope (63) and the hollow loop bar (62), and the hollow loop bar (62) is connected to the automatic adjusting rotating rod (2).

6. A geological radar antenna stand according to claim 1, characterized in that the concave support column (1) and the adjusting vertical rod (5) are connected by a screw, and the joint of the concave support column (1) and the adjusting vertical rod (5) is provided with a sealing rubber pad.

7. A geological radar antenna cradle according to claim 1, characterized in that said adjusting mast (5) is mounted and fixed on an external geological radar walking vehicle, said automatically adjusting swivel (2) being electrically connected to the external geological radar walking vehicle.