CN219978542U - Portable road underground cavity quick exploring device - Google Patents

Abstract

The utility model discloses a portable road underground cavity rapid exploring device which comprises a detecting rod and a stable holding table. The detecting rod is vertically arranged and comprises a rod body, and is formed by sequentially sleeving a first telescopic pipe, a second telescopic pipe and a third telescopic pipe; the detachable looking-up assembly is flexibly connected with the bottom end of the third telescopic tube; the protective cap is arranged at the bottom end of the detachable exploring assembly. The stable gripping station includes: the object placing plate is horizontally placed, and clamping mechanisms are symmetrically arranged on the left side and the right side of the upper surface; the equipment integration table is fixedly connected with one side of the object placing plate, and the bottom end of the equipment integration table is fixedly connected with the top surface of the first telescopic pipe; the handle is vertically and fixedly connected with the other side of the equipment integration table. The utility model solves the problem that the internal key information cannot be acquired because the existing method for looking for the internal condition of the underground cavity of the road collapse is too simple, is convenient for the urban management and maintenance department to quickly and accurately carry out treatment decision, and improves the digital and fine urban management level.

Description

Portable road underground cavity quick exploring device

Technical Field

The utility model relates to the technical field of road detection, in particular to a portable road underground cavity rapid exploring device.

Background

In recent years, along with the rapid development of the urban process, urban road collapse disasters enter a concentrated burst period, and serious collapse accidents which are caused by death injury of multiple people and occur in a large range and high frequency are successively generated, so that important life and property loss and severe social influence are caused. Urban management departments often conduct health census on roads through a geological radar detection method, and rapidly check hidden dangers of road collapse so as to prevent the hidden dangers of road collapse and eliminate the hidden dangers of road collapse as soon as possible.

After the position of the hidden danger of the road subsidence is determined, the hidden danger is generally mastered by drilling and verifying the hidden danger position, so that a decision basis is provided for the treatment of the hidden danger of the road subsidence. The existing looking-up means mainly adopts a simple endoscope consisting of a hard wire and a camera for examination, and the means can directly look over the internal conditions of underground holes, void and the like of roads, but can not further obtain key data information such as the internal dimensions of the holes, the humidity of roadbed soil and the like, thereby being not beneficial to quick and accurate disposal decisions of urban managers on hidden danger of road collapse.

Therefore, a portable device for quickly looking at underground holes of roads is needed to solve the problem that key data information in underground spaces of roads is not easy to obtain.

Disclosure of Invention

Therefore, the utility model provides a portable road underground cavity rapid exploring device, which aims to solve the problem that in the prior art, internal key information cannot be acquired due to the fact that the existing exploring means for the internal condition of the road subsided underground cavity is too simple.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

the utility model relates to a portable road underground cavity rapid exploring device, which comprises: the detection rod is vertically arranged; the stable holding table is fixedly connected with the top end of the detection rod at the bottom end.

Further, the probe rod includes: the rod body is formed by sequentially sleeving a first telescopic pipe, a second telescopic pipe and a third telescopic pipe; the detachable looking-up assembly is flexibly connected with the bottom end of the third telescopic pipe; and the protective cap is arranged at the bottom end of the detachable exploring assembly.

Further, the first telescopic pipe, the second telescopic pipe and the third telescopic pipe are hollow tubular structures capable of stretching unidirectionally, the lengths are consistent, and international standard scales are arranged on the outer walls of the first telescopic pipe, the second telescopic pipe and the third telescopic pipe.

Further, the inside recess that corresponds with can dismantle and visit subassembly bottom outer wall shape that is provided with of protective cap, the protective cap uses elastic material.

Further, the detachable exploring assembly includes three working states: in a first state, the detachable exploring assembly is provided with an exploring module, a camera is arranged in the center of the bottom of the exploring module, illuminating lamps are uniformly arranged around the camera, and a laser range finder is arranged on one side of the bottom of the exploring module; in the second state, the detachable exploring assembly is provided with a humidity detection module, and the bottom end of the humidity detection module is of a cone structure; in a third state, the detachable exploring assembly is provided with a sampling module, and a hook-type sampling spoon is arranged at the bottom of the sampling module.

Further, the top of the second telescopic tube and the top of the third telescopic tube are provided with push type buckles, the bottom of the first telescopic tube and the bottom of the second telescopic tube are provided with fixing holes corresponding to the push type buckles, and the first telescopic tube, the second telescopic tube and the third telescopic tube are meshed with the fixing holes to be fixed through the push type buckles.

Further, the stable gripping station includes: the object placing plate is horizontally placed, and clamping mechanisms are symmetrically arranged on the left side and the right side of the upper surface; the device integration table is fixedly connected with one side of the object placing plate, the bottom end of the device integration table is fixedly connected with the top surface of the first telescopic pipe, a device hole is formed in the center of the device integration table, a level bubble is placed in the device hole, and a data connecting line is arranged at the lower end of the device integration table; the handle is fixedly connected with the other side of the equipment integration table and is perpendicular to the side face of the equipment integration table, and the peripheral wall of the handle is provided with a notch along the circumferential direction.

The utility model has the following advantages:

1. the device can change the function of the device rapidly by replacing the detachable exploring component: when the exploring module is used, the underground cavity of the road can be checked, photographed, recorded and the depth can be accurately measured in real time; when the humidity detection module is used, the water content data of the roadbed soil can be collected; when the sampling module is used, samples of all parts of the roadbed can be collected, and component composition analysis is facilitated. The method realizes comprehensive, rapid and fine exploration of the underground holes of the roads, is convenient for comprehensively grasping the internal data of the holes, and ensures that the urban management and maintenance department can rapidly and accurately carry out treatment decisions.

2. The device reserves a data connecting line, can connect the detachable looking-up assembly with intelligent equipment, and is convenient for real-time mastering and analyzing of data and images.

3. The utility model has simple structure and convenient carrying and operation, and can realize quick looking-up and immediate data acquisition.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It will be apparent to those of ordinary skill in the art that the drawings in the following description are exemplary only and that other implementations can be obtained from the extensions of the drawings provided without inventive effort.

The structures, proportions, sizes, etc. shown in the present specification are shown only for the purposes of illustration and description, and are not intended to limit the scope of the utility model, which is defined by the claims, so that any structural modifications, changes in proportions, or adjustments of sizes, which do not affect the efficacy or the achievement of the present utility model, should fall within the ambit of the technical disclosure.

FIG. 1 is an overall block diagram provided by the present utility model;

FIG. 2 is a front view of a rod body according to the present utility model;

FIG. 3 is a front view of a detachable view finding assembly provided by the present utility model;

FIG. 4 is a bottom view of a view module according to the present utility model;

FIG. 5 is a top view of a stable grip table provided by the present utility model;

in the figure: 1. a detection rod; 11. a rod body; 111. a first telescopic tube; 112 a second telescoping tube; 113. a third telescopic tube; 114. a push type buckle; 115. a fixing hole; 12. a detachable view finding assembly; 121. a visit module; 1211. a camera; 1212. a lighting lamp; 1213. a laser range finder; 122. a humidity detection module; 123. a sampling module; 1231. hook-type sampling spoon; 13. a protective cap; 14. international standard scale; 2. a stable grip table; 21. a storage plate; 211. a clamping mechanism; 22. an equipment integration station; 221. a device aperture; 222. a vial; 223. a data link line; 23. a handle.

Detailed Description

Other advantages and advantages of the present utility model will become apparent to those skilled in the art from the following detailed description, which, by way of illustration, is to be read in connection with certain specific embodiments, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

The utility model provides a portable road underground cavity rapid exploring device which comprises a detecting rod 1 and a stable holding table 2. As shown in fig. 1, the detecting rod 1 is vertically placed, and the top end of the detecting rod 1 is fixedly connected with the bottom end of the stable holding table 2.

Specifically, as shown in fig. 1 and 2, the detection rod 1 is composed of a rod body 11, a detachable looking-at assembly 12 and a protective cap 13. The rod body 11 is formed by sequentially sleeving a first telescopic pipe 111, a second telescopic pipe 112 and a third telescopic pipe 113, and international standard scales 14 are arranged outside the rod body, so that the depth of an underground space can be conveniently detected, and the reading is visual and convenient. The first telescopic tube 111, the second telescopic tube 112 and the third telescopic tube 113 are of a hollow tubular structure capable of stretching unidirectionally, the third telescopic tube 113 is sleeved in the second telescopic tube 112 during daily placement, and the second telescopic tube 112 is sleeved in the first telescopic tube 111, so that storage is facilitated, and space required for placement is saved. Wherein, the top of the second telescopic tube 112 and the third telescopic tube 113 is provided with a push type buckle 114, the bottom of the first telescopic tube 111 and the bottom of the second telescopic tube 112 are provided with a fixed hole 115 corresponding to the push type buckle 114, when in operation, the second telescopic tube 112 and the third telescopic tube 113 extend downwards, the push type buckle 114 pops outwards to be meshed with the fixed hole 115 while the push type buckle 114 is aligned with the corresponding fixed hole 115, and then the first telescopic tube 111, the second telescopic tube 112 and the third telescopic tube 113 are fixed, thereby improving the stability of the device when in operation, and avoiding error ranging readings caused by shrinkage of each telescopic tube after the bottom end of the third telescopic tube 113 touches the ground.

Specifically, as shown in fig. 2, 3 and 4, the bottom end of the third telescopic tube 113 is flexibly connected with a detachable exploring assembly 12, and the detachable exploring assembly 12 includes three working states to adapt to different use scenes and requirements according to different requirements on the underground cavity exploration: in the first state, the detachable exploring assembly 12 is provided with the exploring module 121, the camera 1211 is arranged in the center of the bottom of the exploring module 121, the illuminating lamps 1212 are uniformly arranged around the camera 1211, light is provided through the illuminating lamps 1212, favorable working conditions are provided for the camera 1211 to detect the actual condition of the underground space, the camera 1211 shoots and records the actual condition of the underground space, a worker can conveniently make corresponding conclusion according to the feedback result to provide a corresponding maintenance scheme, the laser range finder 1213 is arranged on one side of the bottom of the exploring module 121, the accuracy of depth of the underground space is improved, and the subsequent maintenance work efficiency is improved as much as possible; in the second state, the detachable exploring assembly 12 is provided with the humidity detection module 122, the humidity detection module 122 is utilized to intuitively obtain the water content data of the roadbed soil, so that the formulated maintenance scheme is more directional, the bottom end of the humidity detection module 122 is a cone, the detection module is conveniently integrally explored into the roadbed soil, and the detection result is more accurate; when the third state, can dismantle and visit subassembly 12 installation sampling module 123, sampling module 123 bottom sets up hook-type sampling spoon 1231, through rotating the setting, draws the underground space soil sample to subaerial through hook-type sampling spoon 1231, reduces the sampling cost, avoids the excavation on a large scale, is favorable to later stage road maintenance.

Specifically, as shown in fig. 1 and 2, the bottom end of the rod body 11 is sleeved with a protective cap 13, a groove corresponding to the shape of the outer wall of the bottom end of the detachable exploring assembly 12 is formed in the protective cap 13, the protective cap 13 is made of elastic materials such as rubber and sponge, and when the sliding speed of the bottom end of the rod body 11 is too fast to touch the ground, a damping and protecting effect is provided for the bottom end detachable exploring assembly 12, so that equipment is prevented from being damaged.

Specifically, as shown in fig. 1 and 5, the stable holding table 2 includes: the object placing plate 21 is horizontally placed, and clamping mechanisms 211 are symmetrically arranged on the left side and the right side of the upper surface; the equipment integration platform 22 is fixedly connected with one side of the object placing plate 21, a data connecting wire 223 is arranged at the lower end of the equipment integration platform 22, the data connecting wire 223 is fixed on the equipment integration platform 22, one end of the data connecting wire penetrates through the hollow inside of the rod body 11 to be connected with the detachable detection assembly, the other end of the data connecting wire is connected with the intelligent equipment fixed on the object placing plate 21 through the clamping mechanism 211, the detection result of the equipment is subjected to data processing, required data can be intuitively obtained on a working site, the working efficiency is improved, and the corresponding conclusion and maintenance scheme of the current situation of an underground space can be conveniently and immediately obtained. The center of the equipment integration table 22 is provided with an equipment hole 221, the leveling bubble 222 is horizontally arranged in the equipment hole 221, and leveling work is carried out on the whole set by the leveling bubble 222 before working, so that the depth reading of the underground space is more accurate; the handle 23 is fixedly connected with the other side of the equipment integration table 22 and is perpendicular to the side face of the equipment integration table 22, the circumferential wall of the handle 23 is provided with a notch along the circumferential direction, so that the device is convenient to carry and convenient to carry, and meanwhile, the friction resistance between the handle 23 and a holding person is increased, and accidental sliding is avoided.

The application process of the embodiment of the utility model is as follows:

1. when the portable road underground cavity rapid exploring device is used, firstly, the detecting rod 1 is vertically placed, the top is fixedly connected with the bottom of the stable holding table 22, then the level bubble 222 is horizontally placed in the equipment hole 221, then the intelligent equipment is fixed on the object placing plate 21 through the clamping mechanism 211 and is connected with one end of the data connecting wire 223, and the detachable exploring assembly 12 is connected with the other end of the data connecting wire 223 penetrating through the hollow inside of the rod body 11. When the detachable inspection assembly 12 is connected with the data connection line 223, the first telescopic tube 111, the second telescopic tube 112 and the third telescopic tube 113 are required to be sequentially and outwards slid and stretched out, the push type buckle 114 is aligned with the corresponding fixing hole 115, the push type buckle 114 automatically rebounds to be meshed with the fixing hole 115 to fix the relative positions of the first telescopic tube 111, the second telescopic tube 112 and the third telescopic tube, wherein the first telescopic tube 111, the second telescopic tube 112 and the third telescopic tube are hollow tubes with the length of 1 meter, and the international standard scale 14 is carved on the outer wall of the first telescopic tube 111, the second telescopic tube 112 and the third telescopic tube.

2. When the actual situation of the underground space needs to be analyzed, the detachable exploring assembly 12 selects the exploring module 121, is fixedly connected with the bottom end of the third telescopic tube 113, is in data connection with the intelligent equipment through the data connecting wire 223, turns on the illuminating lamp 1212, slowly penetrates through the road crack to stretch into the underground space, levels the device through the level bubble 222 device, holds the handle 23 fixing device, shoots the actual situation of the underground space through the camera 1211, measures the distance through the laser range finder 1213, and returns the data to the screen of the intelligent equipment for analysis.

When the moisture content of the underground space needs to be analyzed, the detachable exploring assembly 12 selects the humidity detection module 122, is fixedly connected with the bottom end of the third telescopic tube 113, is in data connection with the intelligent equipment through the data connecting line 223, and the handle 23 is held to enable the device to slowly penetrate through the road crack and extend into the underground space until the conical bottom end of the humidity detection module 122 is obviously perceived to be immersed into the roadbed soil, and the moisture content data of the roadbed soil is returned to the screen of the intelligent equipment for analysis.

When the underground space components are required to be carefully analyzed, the detachable exploring assembly 12 selects the sampling module 123 to be fixedly connected with the bottom end of the third telescopic tube 113, the handle 23 is held to enable the device to slowly penetrate through a road crack to extend into the underground space, the international standard scale 14 on the detecting rod 1 is observed, the device is hovered to the required sampling depth, the device is rotated, the sampling soil is guaranteed to be reserved in the hook-shaped sampling spoon 1231, and the device is slowly pulled out to complete the sampling work.

3. After the work is completed, the push button 114 is pushed, so that the push button 114 is separated from the fixing hole 115, the third telescopic tube 113 is slidably contracted into the second telescopic tube 112, the second telescopic tube 112 is slidably contracted into the first telescopic tube 111, and the protective cap 13 is mounted at the bottom of the rod body 11 to complete the storage of the device.

While the utility model has been described in detail in the foregoing general description and specific examples, it will be apparent to those skilled in the art that modifications and improvements can be made thereto. Accordingly, such modifications or improvements may be made without departing from the spirit of the utility model and are intended to be within the scope of the utility model as claimed.

Claims (7)

1. The utility model provides a portable road underground cavity looks into device fast which characterized in that includes:

the detection rod (1), the said detection rod (1) is placed vertically;

the stable holding table (2), the bottom of the stable holding table (2) is fixedly connected with the top of the detecting rod (1).

2. The portable roadway surface cavity rapid exploration device of claim 1, wherein: the detection lever (1) comprises:

the rod body (11) is formed by sequentially sleeving a first telescopic pipe (111), a second telescopic pipe (112) and a third telescopic pipe (113);

the detachable looking-up assembly (12) is flexibly connected with the bottom end of the third telescopic tube (113);

and the protective cap (13) is arranged at the bottom end of the detachable exploring assembly (12).

3. The portable road underground cavity rapid exploring device according to claim 2, wherein the first telescopic pipe (111), the second telescopic pipe (112) and the third telescopic pipe (113) are hollow tubular structures capable of being stretched unidirectionally, the lengths are consistent, and international standard scales (14) are arranged on the outer walls of the first telescopic pipe, the second telescopic pipe and the third telescopic pipe.

4. The portable roadway surface cavity rapid exploration device of claim 2, wherein: the protective cap (13) is internally provided with a groove corresponding to the shape of the outer wall of the bottom end of the detachable exploring assembly (12), and the protective cap (13) is made of elastic materials.

5. The portable roadway surface void rapid exploration apparatus of claim 2, wherein said detachable exploration assembly (12) comprises three operating states:

in a first state, the detachable exploring assembly (12) is provided with an exploring module (121), a camera (1211) is arranged in the center of the bottom of the exploring module (121), an illuminating lamp (1212) is uniformly arranged around the camera (1211), and a laser range finder (1213) is arranged on one side of the bottom of the exploring module (121);

in a second state, the detachable exploring assembly (12) is provided with a humidity detection module (122), and the bottom end of the humidity detection module (122) is of a cone structure;

in a third state, the detachable exploring assembly (12) is provided with a sampling module (123), and a hook-shaped sampling spoon (1231) is arranged at the bottom of the sampling module (123).

6. The portable road underground cavity quick-looking device according to claim 2, wherein the top parts of the second telescopic pipe (112) and the third telescopic pipe (113) are provided with push type buckles (114), the bottoms of the first telescopic pipe (111) and the second telescopic pipe (112) are provided with fixing holes (115) corresponding to the push type buckles (114), and the first telescopic pipe (111), the second telescopic pipe (112) and the third telescopic pipe (113) are meshed and fixed with the fixing holes (115) through the push type buckles (114).

7. The portable road underground void quick-looking device according to claim 2, characterized in that said stable holding station (2) comprises:

the object placing plate (21) is horizontally placed, and clamping mechanisms (211) are symmetrically arranged on the left side and the right side of the upper surface;

the device integration table (22) is fixedly connected with one side of the object placing plate (21), the bottom end of the device integration table (22) is fixedly connected with the top surface of the first telescopic tube (111), a device hole (221) is formed in the center of the device integration table (22), a level bubble (222) is horizontally arranged in the device hole (221), and a data connecting wire (223) is arranged at the lower end of the device integration table (22);

the handle (23) is fixedly connected with the other side of the equipment integration table (22) and is perpendicular to the side face of the equipment integration table (22), and a notch along the circumferential direction is formed in the peripheral wall of the handle (23).