CN209960134U - Geological radar support of adaptable different slopes - Google Patents
Geological radar support of adaptable different slopes Download PDFInfo
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- CN209960134U CN209960134U CN201920495618.8U CN201920495618U CN209960134U CN 209960134 U CN209960134 U CN 209960134U CN 201920495618 U CN201920495618 U CN 201920495618U CN 209960134 U CN209960134 U CN 209960134U
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Abstract
The utility model relates to the field of exploration equipment, a geological radar support adaptable to different gradients, which comprises a bamboo joint ladder and a mounting component arranged at the uppermost end of the bamboo joint ladder, wherein the mounting component comprises a mounting seat for fixing a geological radar, a first pin-jointed shaft connected on the mounting seat and a bearing seat for penetrating the first pin-jointed shaft, the bearing seat is connected with the uppermost end of the bamboo joint ladder, one end of the pin-jointed shaft is provided with a limiting component for limiting the rotation angle of the first pin-jointed shaft, the limiting component comprises a limiting bracket connected with the bamboo joint ladder and a limiting shaft connected in the limiting bracket, one end of the limiting shaft is provided with a counter bore for penetrating the first pin-jointed shaft, the first pin-jointed shaft is connected with a limiting column, the side wall of the limiting shaft is provided with a limiting groove communicated with the counter bore for penetrating the limiting column, the limiting column can circumferentially rotate a certain angle along the first pin-jointed shaft in the limiting groove, therefore, the geological radar can be better attached to a detection position.
Description
Technical Field
The utility model relates to an exploration equipment field especially relates to a geological radar support of adaptable different slopes.
Background
Geological radar is as the important instrument of exploration, when surveying on some eminences or slopes, need with the help of appurtenance such as some scaffolds, detect the aerial ladder of city wall in utility model patent that application number is CN201820609292.2, install the geological radar on the aerial ladder and can't survey other directions.
SUMMERY OF THE UTILITY MODEL
The utility model discloses install the shortcoming that geological radar can't be adjusted the detection direction on the extension ladder to prior art, provide a geological radar support of adaptable different slopes.
In order to solve the technical problem, the utility model discloses a following technical scheme can solve: the utility model provides a geological radar support of adaptable different slopes, include the bamboo joint ladder and install in the installation component of bamboo joint ladder upper end, the installation component is including the mount pad that is used for fixed geological radar, connect the first bearing frame that pin joint axle on the mount pad and be used for wearing to establish pin joint axle one, the bearing frame is connected with bamboo joint ladder upper end, pin joint axle one end is equipped with the spacing subassembly of a restriction pin joint axle turned angle, spacing subassembly includes the spacing support of being connected with the bamboo joint ladder, connect the spacing axle in spacing support, spacing epaxial one end is equipped with the counter bore that is used for wearing to establish pin joint axle one, pin joint epaxial one is connected with spacing post, set up on the spacing axle lateral wall with the counter bore communicate with each other and be used for wearing to establish the spacing groove of spacing post, spacing post is at spacing inslot along a.
Adopt above-mentioned scheme, after the bamboo joint ladder rises, the geological radar can be directly with slope or eminence butt, a certain angle is rotated to a relative spacing axle of pin joint axle to can make the geological radar also can rotate certain angle, can make better and survey the department of laminating of geological radar, and through the different steerable geological radar turned angle of spacing groove direction and direction.
Preferably, a locating sleeve is arranged in the limiting support, the inner wall of the locating sleeve comprises an inner hole section and a spline sleeve section, the limiting shaft penetrates through the locating sleeve and comprises a first limiting section and a spline shaft section, the first limiting section is located in the inner hole section, the spline shaft section is matched with the spline sleeve section, and the limiting groove is formed in the first limiting section.
By adopting the scheme, the limiting section is located in the inner hole section, the spline sleeve section is matched with the spline shaft section, after the spline sleeve section is separated from the spline shaft section by moving the limiting shaft, the limiting shaft is rotated to change the opening direction of the limiting groove, the spline sleeve section is matched with the spline shaft section again, and the circumferential limiting of the limiting shaft and the positioning sleeve is completed.
As the preferred, hole section diameter is greater than the spline cover section, is equipped with the spring in the hole section, and spacing section one end is equipped with the butt piece that is used for the butt spring.
By adopting the scheme, after the spline sleeve section and the spline shaft section are separated by moving the limiting shaft, the spring is in a compressed state, and after the limiting shaft is rotated to change the opening direction of the limiting groove, the limiting shaft after moving is driven to reset under the action of the spring and the abutting piece.
Preferably, the spline shaft section is far away from spacing section one side and is equipped with the hand and revolves the section.
By adopting the scheme, the manual rotating section is convenient for workers to rotate the limiting shaft.
Preferably, the lowest end of the bamboo joint ladder is rotatably connected with a supporting seat, the lowest end of the bamboo joint ladder is connected with a first pivoting piece, the supporting seat is connected with a second pivoting piece matched with the first pivoting piece, the first pivoting piece and the second pivoting piece are pivoted through a second pivoting shaft, and one end face, far away from the second pivoting piece, of the supporting seat is connected with a universal wheel.
By adopting the scheme, the universal wheels are convenient for the movement of the bamboo joint ladder.
Preferably, an indication mark for indicating the position of the limiting groove is arranged on one side, away from the spline shaft section, of the hand screwing section.
By adopting the scheme, the indication mark can be used for indicating the position of the limit groove, so that the adjustment is convenient.
The utility model discloses owing to adopted above technical scheme, have apparent technological effect: after the bamboo joint ladder rises, geological radar can be directly with slope or eminence butt, spacing section one is located the downthehole portion, spline cover section and the cooperation of spline shaft section, remove spacing axle and order about spline cover section and spline shaft section separation back, the spring is compression state, thereby rotate the direction back of seting up that spacing axle changed the spacing groove, rotate spacing axle and order about the spacing groove and set up the direction change, thereby order about a pivoted axle pivoted angle difference, under the effect of spring and butt piece, order about spacing axle after the removal and reset, geological radar can rotate certain angle, can make that geological radar is better laminate with the detection department, and through the different steerable geological radar turned angle of spacing groove direction and direction.
Drawings
FIG. 1 is a schematic structural diagram of a geological radar support capable of adapting to different slopes according to one embodiment;
FIG. 2 is an exploded view of a partially assembled geological radar mount that can accommodate different grades according to one embodiment;
FIG. 3 is an enlarged view of a portion of FIG. 2;
FIG. 4 is a schematic view of a spacing shaft according to an embodiment;
FIG. 5 is a schematic structural diagram of a geological radar support capable of adapting to different slopes according to the second embodiment;
fig. 6 is a schematic diagram of indicating the location of the logo according to the third embodiment.
The names of the parts indicated by the numerical references in the above figures are as follows:
1. a geological radar; 2. a bamboo joint ladder; 3. a mounting seat; 4. a first pivot shaft; 5. a bearing seat; 6. ladder sides; 7. a light axis seat; 9. a limiting bracket; 10. a positioning sleeve; 11. a limiting shaft; 12. a first clamping part; 13. a second clamping part; 14. a connecting portion; 15. a first clamping part; 16. a second clamping part; 17. an inner bore section; 18. a spline housing section; 19. a first limiting section; 20. a splined shaft section; 21. a hand-rotating section; 22. a counter bore; 23. a limiting groove; 24. a limiting column; 25. abutting the sheet; 26. a supporting seat; 27. a first pivoting member; 28. a second pivoting member; 29. a second pivot shaft; 30. a universal wheel; 31. an indication mark; 32. a spring.
Detailed Description
The present invention will be described in further detail with reference to the accompanying drawings and examples.
The first embodiment is as follows:
referring to fig. 1, 2 and 3, a geological radar support adaptable to different slopes is used for fixing a geological radar 1, and comprises a bamboo joint ladder 2 for fixing the geological radar 1 and a mounting assembly installed at the uppermost end of the bamboo joint ladder 2 and used for fixing the geological radar 1, wherein the mounting assembly comprises a mounting seat 3 for fixing the geological radar 1, a first pivot shaft 4 connected to the mounting seat 3 and a bearing seat 5 used for penetrating the first pivot shaft 4 and connected with the bamboo joint ladder 2, the bamboo joint ladder 2 comprises ladder sides 6 with two telescopic sides, the bearing seat 5 is connected to the end surfaces of the ladder sides 6 at the uppermost layer through screw threads, the mounting seat 3 is connected with two optical shaft seats 7 oppositely arranged for clamping the first pivot shaft 4 through screw threads, the first pivot shaft 4 is arranged in the optical shaft seats 7, a limiting assembly is fixed on the ladder side 6 at one side and comprises a limiting support 9, A locating sleeve 10 connected on a limiting bracket 9 and a limiting shaft 11 which is arranged in the locating sleeve 10 in a penetrating way and used for limiting the rotation angle of a first pivot shaft 4, wherein the limiting bracket 9 comprises a first clamping part 12 which is in an open ring shape and is sleeved on a ladder edge 6, a second clamping part 13 which is in an open ring shape and is used for sleeved on the locating sleeve 10, a connecting part 14 used for connecting the first clamping part 12 and the second clamping part 13, a first clamping part 15 which is positioned at the two sides of the opening of the first clamping part 12 and a second clamping part 16 which is positioned at the two sides of the opening of the second clamping part 13, one of the first clamping parts 15 is provided with a through hole, the other clamping part is provided with a threaded hole, the two clamping parts 16 and the first clamping part 15 have the same structure, the central axes of the first clamping part 12 and the second clamping part 13 are vertical, the first clamping part 12 is sleeved on the ladder edge 6 at one, the first clamping part 15 drives the first clamping part 12 to clamp the ladder edge 6, a screw passes through a through hole of the second clamping part 16 and then is in threaded connection with a threaded hole, the second clamping part 16 drives the second clamping part 13 to clamp the positioning sleeve 10, the inner wall of the positioning sleeve 10 comprises an inner hole section 17 and a spline sleeve section 18 with the inner diameter smaller than the inner hole section 17, with reference to fig. 4, the outer side surface of the limiting shaft 11 sequentially comprises a first limiting section 19 in an optical axis shape, a spline shaft section 20 in a spline shaft shape and matched with the spline sleeve section 18 and a hand-rotating section 21 with the diameter larger than the spline shaft section 20, one end of the limiting shaft 11 is provided with a counter bore 22 for penetrating and pivoting the first shaft 4, the limiting shaft 11 is provided with a limiting groove 23 on one end surface of the first limiting section 19, the limiting groove 23 penetrates through the outer side surface of the limiting shaft 11 and the counter bore 22, the limiting shaft 11 is arranged in the positioning sleeve 10, the limiting section of the limiting shaft, the first pivoting shaft 4 is in threaded connection with a limiting column 24, the first pivoting shaft 4 penetrates through a counter bore 22 of the limiting shaft 11 and then is located in a limiting groove 23 of the limiting shaft 11, the limiting groove 23 is of a certain width, the first pivoting shaft 4 can be axially arranged, the first pivoting shaft 4 is sleeved with an annular abutting piece 25, the annular abutting piece 25 is in threaded connection with one end face of the limiting shaft 11 through screws, the annular abutting piece 25 is located in the inner hole section 17 and is in clearance fit with the inner hole section 17, a spring 32 penetrates through the inner hole section 17, the spring 32 is sleeved on the first limiting section 19, a stepped face formed by the diameter difference of the inner hole section 17 and the spline sleeve section 18 is abutted to one end face of the spring 32, and the other end face of the spring 32 is abutted to the abutting piece 25. The length of the locating sleeve 10 in the axial direction is greater than the length of the first limiting section 19 plus the spline shaft section 20, the hand screwing section 21 is abutted to one end face of the spline shaft section 20 of the locating sleeve 10, the hand screwing section 21 is pulled to drive the spline shaft section 20 to move out of the spline sleeve section 18, the spring 32 is compressed, the limiting column 24 moves in the limiting groove 23, the hand screwing section 21 is rotated, the limiting shaft 11 is driven to rotate to achieve the effect of adjusting the position of the limiting groove 23, and the hand screwing section 21 is loosened to drive the spline shaft section 20 to be re-meshed with the spline sleeve section 18 under the effect of the spring 32.
Example two:
referring to fig. 5, the difference between the first embodiment and the second embodiment is that a supporting seat 26 is added in the first embodiment, the supporting seat is located at the lowest end of the bamboo joint ladder 2, a first pivot member 27 is respectively connected to the lower end surfaces of the two lowermost ladder sides 6 of the bamboo joint ladder 2 through screws and threads, a second pivot member 28 matched with the first pivot member 27 is connected to the supporting seat 26 through screws and threads, the first pivot shaft 4 is pivoted with the second pivot shaft 29 through the second pivot shaft 29, and four universal wheels 30 are connected to the end surface of the supporting seat 26 away from the second pivot member 28 through screws and threads.
Example three:
referring to fig. 6, the difference between the present embodiment and the first embodiment is that in the present embodiment, an indication mark 31 for indicating the position of the limiting groove 23 is disposed on the side of the hand-turning section 21 away from the spline shaft section 20.
Claims (6)
1. The utility model provides a geological radar support of adaptable different slopes, a serial communication port, including bamboo joint ladder (2) and install in the installation component of bamboo joint ladder (2) top, the installation component is including mount pad (3) that are used for fixed geological radar (1), connect pivot axle (4) on mount pad (3) and be used for wearing to establish bearing frame (5) of pivot axle (4), bearing frame (5) are connected with bamboo joint ladder (2) top, pivot axle (4) one end is equipped with spacing subassembly of restriction pivot axle (4) turned angle, spacing subassembly includes spacing support (9) of being connected with bamboo joint ladder (2), connect spacing axle (11) in spacing support (9), one end is equipped with counter bore (22) that are used for wearing to establish pivot axle (4) on spacing axle (11), be connected with spacing post (24) on pivot axle (4), set up on spacing axle (11) the lateral wall and communicate with counter bore (22) and be used for wearing to establish spacing groove of spacing post (24) (23) And the limiting column (24) rotates along the circumferential direction of the first pivoting shaft (4) in the limiting groove (23).
2. The geological radar support adaptable to different slopes is characterized in that a locating sleeve (10) is arranged in the limiting support (9), the inner wall of the locating sleeve (10) comprises an inner hole section (17) and a spline sleeve section (18), a limiting shaft (11) penetrates through the locating sleeve (10) and comprises a first limiting section (19) located in the inner hole section (17) and a spline shaft section (20) matched with the spline sleeve section (18), and a limiting groove (23) is formed in the first limiting section (19).
3. The geological radar support adaptable to different slopes according to claim 2, characterized in that the diameter of the inner hole section (17) is larger than that of the spline sleeve section (18), a spring (32) is arranged in the inner hole section (17), and one end of the first limiting section (19) is provided with an abutting piece (25) for abutting against the spring (32).
4. The geological radar support adaptable to different slopes according to claim 2, characterized in that a hand-turning section (21) is arranged on one side of the spline shaft section (20) away from the limiting section I (19).
5. The geological radar support adaptable to different slopes is characterized in that a supporting seat (26) is rotatably connected to the lowermost end of the bamboo joint ladder (2), a first pivoting piece (27) is connected to the lowermost end of the bamboo joint ladder (2), a second pivoting piece (28) matched with the first pivoting piece (27) is connected to the supporting seat (26), the first pivoting piece (27) and the second pivoting piece (28) are pivoted through a second pivoting shaft (29), and a universal wheel (30) is connected to one end face, away from the second pivoting piece (28), of the supporting seat (26).
6. The geological radar support adaptable to different slopes according to claim 4, wherein an indication mark (31) for indicating the position of the limiting groove (23) is arranged on one side of the hand-screwing section (21) far away from the spline shaft section (20).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201920495618.8U CN209960134U (en) | 2019-04-12 | 2019-04-12 | Geological radar support of adaptable different slopes |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201920495618.8U CN209960134U (en) | 2019-04-12 | 2019-04-12 | Geological radar support of adaptable different slopes |
Publications (1)
Publication Number | Publication Date |
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CN209960134U true CN209960134U (en) | 2020-01-17 |
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CN201920495618.8U Active CN209960134U (en) | 2019-04-12 | 2019-04-12 | Geological radar support of adaptable different slopes |
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CN (1) | CN209960134U (en) |
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2019
- 2019-04-12 CN CN201920495618.8U patent/CN209960134U/en active Active
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