CN216954419U - Blast hole exploration device - Google Patents
Blast hole exploration device Download PDFInfo
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- CN216954419U CN216954419U CN202122922958.4U CN202122922958U CN216954419U CN 216954419 U CN216954419 U CN 216954419U CN 202122922958 U CN202122922958 U CN 202122922958U CN 216954419 U CN216954419 U CN 216954419U
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Abstract
The utility model discloses a blast hole exploration device, comprising; an annular support plate for supporting a blast hole exploration apparatus; a rotating structure disposed at a side surface of the annular support plate, the rotating structure being provided to rotate a support structure provided on the rotating structure; the supporting structure can rotate and can be adjusted in a telescopic way; a fixed structure disposed on the support structure, the fixed structure for securing a blast hole exploration apparatus; a stationary support structure disposed on the annular support plate; the utility model relates to the field of blast hole exploration, and discloses a measuring structure which is arranged on a fixed supporting structure and used for measuring the blasting depth.
Description
Technical Field
The utility model relates to the field of blast hole exploration, in particular to a blast hole exploration device.
Background
The blast holes are mostly used for mine excavation, tunnel excavation, civil engineering construction, old building demolition, underwater reef removal and the like. The diameter of the blasting hole is determined according to construction requirements and the diameter of the explosive cartridge. The diameter of the blast hole for underground roadway mining and tunnel excavation is about 50 mm mostly. The depth of the blasting hole is less than 4 meters, namely a shallow hole, and the depth of the blasting hole is more than 4 meters, namely a deep hole. The construction method of the blast hole is characterized in that a pneumatic, electric, hydraulic and internal combustion engine driven rock drill and a rock drilling trolley are developed later except that a steel chisel is hammered by a manual hammer in the early stage. The rock crushing mode includes three types, namely a rotary cutting type, an impact type and an impact rotary type. The surface mine and the large civil engineering adopt a self-propelled blast hole drilling machine with high automation degree, the drilling diameter is 80-440 mm, the drilling depth can reach 10-20 m, and a roller bit and a pneumatic down-the-hole hammer are adopted for drilling. The artificial seismic source hole is used for seismic exploration, namely, the sound wave generated by underground artificial blasting and the different wave velocities reflected or refracted to the ground are utilized to assist in identifying the stratum structure and the horizon of an oil-gas reservoir.
Present blast hole exploration is all gone on through the manual work, very trouble, also very consumption time, and work efficiency is not high moreover, needs to consume a large amount of manpower and material resources, consequently in order to solve this problem, it is very necessary to design a blast hole exploration device.
SUMMERY OF THE UTILITY MODEL
Aiming at the defects of the prior art, the utility model provides a blast hole exploration device, which solves the problems that the existing blast hole exploration is carried out manually, is very troublesome, consumes very much time, has low working efficiency and needs to consume a large amount of manpower and material resources.
In order to achieve the purpose, the utility model is realized by the following technical scheme: a blast hole exploration apparatus comprising:
an annular support plate for supporting a blast hole exploration apparatus;
a rotating structure disposed at a side surface of the annular support plate, the rotating structure being provided to rotate a support structure provided on the rotating structure;
the supporting structure can rotate and can be adjusted in a telescopic way;
a fixed structure disposed on the support structure, the fixed structure for securing a blast hole exploration apparatus;
a stationary support structure disposed on the annular support plate;
a measurement structure disposed on a fixed support structure, the measurement structure for measuring a depth of blast;
a lifting structure disposed on a fixed support structure;
a spacing measurement structure disposed on the fixed support structure.
Preferably, the rotation structure includes: three pairs of fixed rings, three rotating round rods and three pairs of fixed buckles;
the three pairs of fixed rings are arranged on the side surface of the annular supporting plate, each rotating round rod is arranged on the corresponding pair of fixed rings, each fixed buckle is arranged on the side surface of the corresponding fixed ring, and each fixed buckle is connected with the corresponding rotating round rod.
Preferably, the support structure comprises: three telescopic rods and three first buckles;
each telescopic rod is arranged on the corresponding rotating round rod, and each first buckle is arranged on the corresponding telescopic rod.
Preferably, the fixing structure includes: three fixed supporting plates and three conical round rods;
each fixed supporting plate is arranged on the corresponding telescopic rod, and each conical round rod is arranged on the lower surface of the corresponding fixed supporting plate.
Preferably, the fixed support structure comprises: the fixing support frame, the annular fixing plate and the fixing plate are arranged on the fixing support frame;
the fixed support frame is arranged on the upper surface of the annular support plate, the annular fixing plate is arranged at the lower end of the side surface of the fixed support frame, the annular fixing plate is connected with the annular support plate through bolts, and the fixing plate is arranged on the lower surface of the fixed support frame.
Preferably, the measurement structure comprises: the device comprises a measurement controller, a telescopic infrared range finder, a first fixing frame and a display;
the measurement controller is arranged on the upper surface of the fixing plate, the telescopic infrared distance meter is arranged on the lower surface of the measurement controller, the telescopic infrared distance meter penetrates through the fixing plate, the first fixing frame is arranged on the side surface of the fixing support frame, and the display is arranged on the first fixing frame.
Preferably, the lifting structure includes: the second fixing frame, the electric control lifting telescopic rod, the first fixing plate and the fixing part;
the second fixing frame is arranged on the lower surface of the fixing plate, the electric control lifting telescopic rod is arranged on the second fixing frame, the telescopic end of the electric control lifting telescopic rod faces downwards, the fixing plate is arranged on the electric control lifting telescopic rod, and the fixing part is arranged on the telescopic end of the electric control lifting telescopic rod.
Preferably, the fixing portion includes: a clamping plate and a pair of clamping bolts;
the clamping plates are arranged on the lower surface of the telescopic end of the electric control lifting telescopic rod, and the pair of clamping bolts are arranged on the corresponding clamping plates.
Preferably, the pitch measurement structure includes: a distance measuring scale;
the distance measuring scale is arranged on the clamping plate.
Preferably, the fixed support frame is provided with a storage battery, the storage battery is provided with a first protective shell, and the fixed support frame is provided with a controller.
Advantageous effects
The utility model provides a blast hole exploration device. The method has the following beneficial effects: this blast hole exploration device can be better explore the blast hole, and is very convenient, and it is troublesome to have reduced unnecessary, has reduced the consumption of manpower, has reduced the consumption of material resources, has saved the time, has increased work efficiency, and the structure is simple relatively, convenient to use.
Drawings
FIG. 1 is a schematic diagram of a blast hole exploration apparatus according to the present invention.
Fig. 2 is a front view structural diagram of a blast hole exploration apparatus according to the present invention.
FIG. 3 is a front view of a blast hole exploration apparatus of the present invention.
FIG. 4 is a top view of a blast hole exploration apparatus of the present invention.
FIG. 5 is a top view of a blast hole exploration apparatus of the present invention.
In the figure: 1-a ring-shaped support plate; 2-a rotating structure; 3-a support structure; 4-a fixed structure; 5-fixing the support structure; 6-measuring the structure; 7-a lifting structure; 8-pitch measurement structure; 9-a storage battery; 10-a first protective shell; 11-a controller; 201-a fixed ring; 202-rotating the round bar; 203-fixing a buckle; 301-a telescopic rod; 302-a first snap; 401 — a stationary support plate; 402-a conical round bar; 501-fixing a support frame; 502-annular fixed plate; 503-a fixing plate; 601-a measurement controller; 602-a telescopic infrared rangefinder; 603-a first mount; 604-a display; 701-a second fixing frame; 702-an electrically controlled lifting telescoping rod; 703-a first fixing plate; 704-a clamping plate; 705-clamping bolt; 801-pitch measurement scale.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
Referring to fig. 1-5, the present invention provides a technical solution: a blast hole exploration apparatus comprising: the annular supporting plate 1 is used for supporting the blast hole exploration device; the rotating structure 2 is arranged on the side surface of the annular supporting plate 1, and the rotating structure 2 is arranged on a supporting structure 3 on the rotating structure 2 for rotating; the supporting structure 3 can rotate and can be adjusted in a telescopic way; the fixed structure 4 is arranged on the supporting structure 3, and the fixed structure 4 is used for fixing the blast hole exploration device; a fixed support structure 5, the fixed support structure 5 being disposed on the annular support plate 1; a measuring structure 6, the measuring structure 6 being arranged on the fixed support structure 5, and the measuring structure 6 being used for measuring the depth of blasting; the lifting structure 7 is arranged on the fixed supporting structure 5; a distance measuring structure 8, the distance measuring structure 8 being arranged on the stationary support structure 5.
The rotating structure 2 includes: three pairs of fixed rings 201, three rotating round rods 202 and three pairs of fixed buckles 203; three pairs of fixing rings 201 are arranged on the side surface of the annular support plate 1, each rotating round rod 202 is arranged on the corresponding pair of fixing rings 201, each fixing buckle 203 is arranged on the side surface of the corresponding fixing ring 201, and each fixing buckle 203 is connected with the corresponding rotating round rod 202.
The support structure 3 includes: three telescopic rods 301 and three first buckles 302; each telescopic rod 301 is disposed on the corresponding rotating round rod 202, and each first buckle 302 is disposed on the corresponding telescopic rod 301.
The fixing structure 4 includes: three fixed support plates 401 and three tapered rods 402; each fixed support plate 401 is disposed on the corresponding telescopic rod 301, and each tapered round rod 402 is disposed on the lower surface of the corresponding fixed support plate 401.
The fixed support structure 5 comprises: a fixed support 501, an annular fixed plate 502 and a fixed plate 503; the fixed support 501 is arranged on the upper surface of the annular support plate 1, the annular fixing plate 502 is arranged at the lower end of the side surface of the fixed support 501, the annular fixing plate 502 is connected with the annular support plate 1 through bolts, and the fixing plate 503 is arranged on the lower surface of the fixed support 501.
The measurement structure 6 includes: a measurement controller 601, a telescopic infrared distance meter 602, a first fixing frame 603 and a display 604; the measurement controller 601 is disposed on the upper surface of the fixing plate 503, the retractable infrared distance meter 602 is disposed on the lower surface of the measurement controller 601, the retractable infrared distance meter 602 penetrates through the fixing plate 503, the first fixing frame 603 is disposed on the side surface of the fixing support 501, and the display 604 is disposed on the first fixing frame 603.
The lifting structure 7 comprises: a second fixing frame 701, an electric control lifting telescopic rod 702, a first fixing plate 703 and a fixing part; the second fixing frame 701 is disposed on the lower surface of the fixing plate 503, the electrically controlled lifting and retracting rod 702 is disposed on the second fixing frame 701 with the retractable end of the electrically controlled lifting and retracting rod 702 facing downward, the first fixing plate 703 is disposed on the electrically controlled lifting and retracting rod 702, and the fixing portion is disposed on the retractable end of the electrically controlled lifting and retracting rod 702.
The fixed part includes: a clamping plate 704 and a pair of clamping bolts 705; a clamping plate 704 is disposed on the lower surface of the telescopic end of the electrically controlled lifting/lowering pole 702, and a pair of clamping bolts 705 are disposed on the corresponding clamping plate 704.
The pitch measurement structure 8 includes: a pitch measurement scale 801; a pitch measurement scale 801 is disposed on the clamping plate 704.
The fixed support 501 is provided with a storage battery 9, the storage battery 9 is provided with a first protection shell 10, and the fixed support 501 is provided with a controller 11.
The embodiment is as follows: the annular supporting plate 1 is used for supporting a blast hole exploration device, a rotating structure 2 on the side surface of the annular supporting plate 1 is used for rotating a supporting structure 3, the supporting structure 3 can rotate and is adjusted in a telescopic mode, a fixing structure 4 on the supporting structure 3 is used for fixing the blast hole exploration device, a fixing supporting structure 5 on the annular supporting plate 1 is used for fixing and supporting, a measuring structure 6 on the fixing supporting structure 5 is used for measuring the blasting depth, a lifting structure 7 on the fixing supporting structure 5 is used for lifting, an interval measuring structure 8 on the fixing supporting structure 5 is used for measuring the width of a blast hole, firstly, the device is fixed at the blast hole through the fixing supporting plate 401 and a conical round rod 402, then a fixing buckle 203 is opened, the angle is adjusted through the fixing ring 201 and the rotating round rod 202, then the fixing buckle 203 on the fixing ring 201 is locked, and a first buckle 302 on the telescopic rod 301 is opened, then the length of the telescopic rod 301 is adjusted, then the first buckle 302 on the telescopic rod 301 is locked, the storage battery 9 on the fixed support frame 501 provides power, the first protective shell 10 on the storage battery 9 is used for protection, the controller 11 on the fixed support frame 501 is used for control, then the telescopic infrared distance meter 602 on the measurement controller 601 is started to detect the depth of the blast hole and then displayed on the display 604, then the distance measurement scale 801 is put down through the electric control lifting telescopic rod 702, and the width of the blast hole is measured, which is very convenient.
It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation. The use of the phrase "comprising one of the elements does not exclude the presence of other like elements in the process, method, article, or apparatus that comprises the element.
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.
Claims (10)
1. A blast hole exploration apparatus, comprising:
an annular support plate (1), the annular support plate (1) being for supporting a blast hole exploration apparatus;
a rotating structure (2), wherein the rotating structure (2) is arranged on the side surface of the annular supporting plate (1), and the rotating structure (2) is arranged on a supporting structure (3) on the rotating structure (2) for rotating;
the supporting structure (3) can rotate and can be adjusted in a telescopic way;
a fixed structure (4), the fixed structure (4) being disposed on the support structure (3), and the fixed structure (4) being for fixing a blast hole exploration apparatus;
a fixed support structure (5), said fixed support structure (5) being disposed on the annular support plate (1);
a measuring structure (6), the measuring structure (6) being disposed on a fixed support structure (5), and the measuring structure (6) being for measuring a depth of burst;
a lifting structure (7), said lifting structure (7) being disposed on a fixed support structure (5);
a distance measurement structure (8), the distance measurement structure (8) being arranged on the stationary support structure (5).
2. A blasthole exploration device according to claim 1, characterized in that said rotary structure (2) comprises: three pairs of fixed circular rings (201), three rotating circular rods (202) and three pairs of fixed buckles (203);
three pairs of the fixed circular rings (201) are arranged on the side surface of the annular support plate (1), each rotating circular rod (202) is arranged on the corresponding pair of the fixed circular rings (201), each fixed buckle (203) is arranged on the side surface of the corresponding fixed circular ring (201), and each fixed buckle (203) is connected with the corresponding rotating circular rod (202).
3. A blasthole exploration device according to claim 2, characterized in that said supporting structure (3) comprises: three telescopic rods (301) and three first buckles (302);
each telescopic rod (301) is arranged on the corresponding rotary round rod (202), and each first buckle (302) is arranged on the corresponding telescopic rod (301).
4. A blasthole exploration device according to claim 3, characterized in that said fixed structure (4) comprises: three fixed support plates (401) and three conical round rods (402);
each fixed supporting plate (401) is arranged on the corresponding telescopic rod (301), and each conical round rod (402) is arranged on the lower surface of the corresponding fixed supporting plate (401).
5. A blasthole exploration device according to claim 1, characterized in that said fixed supporting structure (5) comprises: a fixed support frame (501), an annular fixed plate (502) and a fixed plate (503);
the fixed support frame (501) is arranged on the upper surface of the annular support plate (1), the annular fixing plate (502) is arranged at the lower end of the side surface of the fixed support frame (501), the annular fixing plate (502) is connected with the annular support plate (1) through bolts, and the fixing plate (503) is arranged on the lower surface of the fixed support frame (501).
6. A blasthole exploration device according to claim 5, characterized in that said measurement structure (6) comprises: the device comprises a measurement controller (601), a telescopic infrared range finder (602), a first fixing frame (603) and a display (604);
the measurement controller (601) is arranged on the upper surface of the fixing plate (503), the telescopic infrared distance meter (602) is arranged on the lower surface of the measurement controller (601), the telescopic infrared distance meter (602) penetrates through the fixing plate (503), the first fixing frame (603) is arranged on the side surface of the fixing support frame (501), and the display (604) is arranged on the first fixing frame (603).
7. A blasthole exploration device according to claim 5, characterized in that said lifting structure (7) comprises: the second fixing frame (701), the electric control lifting telescopic rod (702), the first fixing plate (703) and the fixing part;
the second fixing frame (701) is arranged on the lower surface of the fixing plate (503), the electric control lifting telescopic rod (702) is arranged on the second fixing frame (701), the telescopic end of the electric control lifting telescopic rod (702) faces downwards, the first fixing plate (703) is arranged on the electric control lifting telescopic rod (702), and the fixing part is arranged on the telescopic end of the electric control lifting telescopic rod (702).
8. A blasthole exploration apparatus as claimed in claim 7, wherein said fixed portion comprises: a clamping plate (704) and a pair of clamping bolts (705);
the clamping plate (704) is arranged on the lower surface of the telescopic end of the electric control lifting telescopic rod (702), and a pair of clamping bolts (705) is arranged on the corresponding clamping plate (704).
9. A blasthole exploration device according to claim 8, characterized in that said spacing measurement structure (8) comprises: a pitch measurement scale (801);
the distance measurement scale (801) is arranged on a clamping plate (704).
10. A blasthole exploration apparatus as in claim 5, characterized in that said fixed support (501) is provided with a battery (9), said battery (9) is provided with a first protective casing (10), said fixed support (501) is provided with a controller (11).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202122922958.4U CN216954419U (en) | 2021-11-25 | 2021-11-25 | Blast hole exploration device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202122922958.4U CN216954419U (en) | 2021-11-25 | 2021-11-25 | Blast hole exploration device |
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CN216954419U true CN216954419U (en) | 2022-07-12 |
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CN202122922958.4U Active CN216954419U (en) | 2021-11-25 | 2021-11-25 | Blast hole exploration device |
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2021
- 2021-11-25 CN CN202122922958.4U patent/CN216954419U/en active Active
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