CN218765251U - Engineering gradient detection device - Google Patents

Abstract

The utility model belongs to the technical field of the engineering slope detects, an engineering slope detection device is provided, through adopting direct rotation mobile jib locating piece, under the joint of locating pin and locating hole, be convenient for quick vertical location of control mobile jib locating piece and fall and accomodate, set up two sets of dwangs simultaneously and accomodating the inside lift of spout, and connect engineering slope length measurement pole outside the dwang, the gradient regulating part, utilize the swing of gradient regulating part control engineering slope length measurement pole simultaneously, and then when carrying out the quick measurement to the slope, can accomodate engineering slope length measurement pole again, thereby the holistic space of reducing mechanism occupies, and be convenient for accomodate and shift, the convenience when having improved the device and using.

Description

Engineering gradient detection device

Technical Field

The utility model belongs to the technical field of the engineering slope detects, especially, relate to an engineering slope detection device.

Background

The road engineering supervision refers to the cultivation of high-level technical application specialized talents which have the theory and skill necessary for the highway supervision specialty and can be used for the quality, construction, contract management and other works of highways, bridges, tunnel engineering or highways, when road engineering construction is carried out, slope detection is carried out on slope subgrades on two sides of roads at some special positions, the conventional device for measuring the slope of a subgrade slope generally adopts a slope ruler which is a graphical curved ruler used for determining the corresponding ground slope or the inverse process of the ground slope according to the horizontal distance of contour lines on a topographic map, and reasonable protection and safety guarantee can be carried out on the roads by measuring the slope of the urban road subgrade slope.

When the existing road slope gradient detection device is used, because the height of the road bed slope is different, when some slopes with higher height are met, a longer measuring rod is often needed to be used, the slope gradient measurement device is used for standing, storing and transferring the slope gradient measurement device, the operation difficulty is higher, the existing slope gradient measurement device generally adopts the steps of measuring the height and the width of the slope and then obtaining the slope gradient through calculation, when the method is used for measurement, the used measuring cross rod and the used vertical rod are longer, so that the whole structure of the device easily occupies a higher space and is not easy to store and arrange, particularly, when the slopes with different heights are measured, the position of the device needs to be repeatedly transferred, therefore, the complexity during detection is easily increased, the detection time can be greatly increased, and the efficiency is reduced, therefore, in view of the problems, a solvable technical scheme needs to be designed.

SUMMERY OF THE UTILITY MODEL

An object of the embodiment of the utility model is to provide an engineering slope detection device aims at solving above-mentioned problem.

The utility model relates to a realize like this, a engineering slope detection device's structure picture, include: the system comprises a main engineering slope height measuring rod, an engineering slope length measuring rod and a detection base; the engineering slope height measuring main rod is rotatably connected to the detection base, a positioning assembly for quickly positioning the engineering slope height measuring main rod is arranged at the bottom end of the engineering slope height measuring main rod and the detection base, the engineering slope height measuring main rod which swings to a vertical angle can be automatically kept fixed through the positioning assembly, meanwhile, the engineering slope height measuring main rod can be conveniently laid down and stored, a vertical storage chute is formed in one side of the engineering slope height measuring main rod, a group of rotating rods are slidably connected inside the storage chute, a connecting sleeve is rotatably sleeved in the middle of the rotating rods, one end of each rotating rod penetrates through the side wall of the storage chute and is externally connected with a threaded rod, a locking nut for fixing the rotating rod at one position inside the storage chute is connected onto the threaded rod in a threaded manner, a sliding opening for facilitating the lifting of the rotating rod is formed in the outer side wall of the storage chute corresponding to the rotating rod, the outer side of the connecting sleeve is connected with an engineering slope length measuring rod, the engineering slope length measuring rod is arranged to be an electric telescopic rod with the length capable of automatically extending and retracting, the electric telescopic rod can be conveniently used according to slopes with different lengths, the swinging angle of the engineering slope length measuring rod can be adjusted through the rotation of the rotating rod, then the engineering slope length measuring rod can be conveniently stored in the storage sliding groove for storage, one side, facing the side wall of the engineering slope height measuring main rod, of the engineering slope length measuring rod is rotatably connected with an inclination adjusting part, the other end of the inclination adjusting part extends into the storage sliding groove and is connected with the connecting sleeve, the rotating rod is sleeved in the middle of the connecting sleeve, the rotating rod at the end part of the engineering slope length measuring rod is the same as the rotating rod at the end part of the engineering slope length measuring rod in structure, the rotating rod is also connected with a locking nut and a threaded rod which are positioned at the same position and function, namely, the length of the engineering slope length can be adjusted through the rotation of the inclination adjusting part, then adjust engineering slope length measurement pole put the angle, then through the rotation of gradient adjustment spare end connection section of thick bamboo, and the dwang is taking in the inside lift of spout, be convenient for with stable accomodating of engineering slope length measurement pole to taking in the spout, perhaps put the engineering slope length measurement pole to the angle that will use, then through the height of engineering slope height measurement mobile jib measurement slope and the length of engineering slope length measurement pole measurement slope, then calculate the slope of slope, realized promptly when carrying out slope detection to the slope, by can be quick with engineering slope length measurement pole, engineering slope height measurement mobile jib is accomodate and is extended, thereby be convenient for the position of quick conversion detection base, the degree of difficulty when reducing the transfer, improve the speed and the efficiency of detecting.

The utility model provides a pair of engineering slope detection device, through adopting direct rotation mobile jib locating piece, under the joint of locating pin and locating hole, be convenient for quick vertical location of control mobile jib locating piece and fall and accomodate, set up two sets of dwangs simultaneously and accomodating the inside lift of spout, and connect engineering slope length measurement pole outside the dwang, the gradient regulating part, utilize the swing of gradient regulating part control engineering slope length measurement pole simultaneously, and then when carrying out the rapid survey to the slope, can accomodate engineering slope length measurement pole again, thereby reduce the holistic space of device and occupy, and be convenient for accomodate and shift, the convenience when the device uses has been improved.

Drawings

Fig. 1 is a schematic perspective view of an engineering gradient detection device.

Fig. 2 is a schematic front view of a construction gradient detection device.

Fig. 3 is a schematic top view of a construction gradient detection apparatus.

Fig. 4 is an enlarged schematic structural diagram of A1 in fig. 3.

In the drawings: engineering slope height measurement mobile jib 10, engineering slope length measurement pole 11 detects base 12, mobile jib locating piece 13, axis of rotation 15, locating hole 16, elasticity lifter 17, locating pin 18, spring 19, vertical stopper 20, gradient regulating part 21, sliding opening 22, lock nut 25 accomodates spout 26, dwang 27, threaded rod 28.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The following detailed description is provided for the specific embodiments of the present invention.

As shown in fig. 1-4, for the embodiment of the present invention provides a structure diagram of an engineering gradient detection apparatus, including: the system comprises a main engineering slope height measuring rod 10, an engineering slope length measuring rod 11 and a detection base 12; the engineering slope height measuring main rod 10 is rotatably connected to the detection base 12, a positioning component for quickly positioning the engineering slope height measuring main rod 10 is arranged at the bottom end of the engineering slope height measuring main rod 10 and the detection base 12, the engineering slope height measuring main rod 10 which swings to a vertical angle can be automatically kept fixed through the positioning component, meanwhile, the engineering slope height measuring main rod 10 can be conveniently stored in a falling mode, a vertical storage chute 26 is formed in one side of the engineering slope height measuring main rod 10, a group of rotating rods 27 are slidably connected inside the storage chute 26, a connecting sleeve is rotatably sleeved in the middle of each rotating rod 27, one end of each rotating rod 27 penetrates through the side wall of the corresponding storage chute 26 and is externally connected with a threaded rod 28, and a locking nut 25 used for fixing the corresponding rotating rod 27 inside the corresponding storage chute 26 is in threaded connection with the threaded rod 28, the outer side wall of the containing chute 26 corresponding to the rotating rod 27 is provided with a sliding opening 22 convenient for the lifting of the sliding opening, the outer side of the connecting sleeve is connected with an engineering slope length measuring rod 11, the engineering slope length measuring rod 11 is an electric telescopic rod with self-telescopic length and is convenient to use according to slopes of different lengths, the swinging angle of the engineering slope length measuring rod 11 is adjusted through the rotation of the rotating rod 27, then the engineering slope length measuring rod 11 is convenient to contain into the containing chute 26 for storage, one side of the engineering slope length measuring rod 11, facing the side wall of the engineering slope height measuring main rod 10, is rotatably connected with an inclination adjusting part 21, the other end of the inclination adjusting part 21 extends into the containing chute 26 and is connected with the connecting sleeve, the middle part of the connecting sleeve is also sleeved with the rotating rod 27, the rotating rod 27 at the top end of the inclination adjusting part 21 is the same as the rotating rod 27 at the end part of the engineering slope length measuring rod 11, the engineering slope height measuring device is also connected with a locking nut 25 and a threaded rod 28 which are located at the same position and function, namely, the length of the engineering slope length measuring rod 11 is adjusted by rotating the inclination adjusting part 21, then the placing angle of the engineering slope length measuring rod 11 is adjusted, then the end connecting cylinder of the inclination adjusting part 21 is rotated, and the rotating rod 27 is lifted in the containing chute 26, so that the engineering slope length measuring rod 11 is conveniently and stably contained in the containing chute 26, or the engineering slope length measuring rod 11 is placed to a to-be-used angle, then the height of the slope and the length of the engineering slope length measuring rod 11 are measured by the engineering slope height measuring main rod 10, and then the slope gradient of the slope is calculated, namely, when the gradient of the slope is detected, the engineering slope length measuring rod 11 and the engineering slope height measuring main rod 10 can be rapidly contained and extended, so that the position of the detection base 12 can be rapidly converted, the difficulty in the transferring process is reduced, and the detection speed and efficiency are improved.

In the embodiment of the present invention, the side wall of the engineering slope height measuring main rod 10 and the engineering slope length measuring rod 11 are both marked with scale marks for accurately measuring the height and length of the slopes on both sides;

the inclination adjusting part 21 comprises two groups of screws and a group of screw barrel, the two groups of screws are respectively in two ends of the screw barrel in a threaded manner, the other ends of the screws, far away from the screw barrel, are rotatably connected onto the inclination adjusting part 21 and the rotating rod 27, namely the lengths of the screws at two ends are adjusted by rotating the screw barrel, and then the placing angle of the engineering slope length measuring rod 11 is synchronously adjusted.

In an example of the present invention, the positioning assembly includes a main rod positioning block 13 installed on an engineering slope height measuring main rod 10 disposed at the top of the detection base 12, the upper bottom end of the engineering slope height measuring main rod 10 is rotatably connected to the detection base 12 through a rotating shaft 15, the main rod positioning block 13 is set to be a transversely inverted L-shaped structure, a positioning hole 16 is formed at the bottom of one side of the main rod positioning block 13, an elastic lifting block 17 is elastically disposed inside the detection base 12 corresponding to the lower end of the positioning hole 16, a positioning pin 18 is installed under the positioning hole 16 corresponding to the top of the elastic lifting block 17, the positioning pin 18 is clamped with the positioning hole 16, a plurality of springs 19 fixed at the top inside the detection base 12 are elastically connected to the bottom of the elastic lifting block 17, when the springs 19 are in a freely telescopic state, the positioning pin 18 at the top of the springs is at a height inserted into the positioning hole 16, that when the engineering slope height measuring main rod 10 is swung to a vertical angle, the positioning hole 16 is clamped with the positioning pin 18, so as to keep the engineering slope height measuring main rod 10 at the vertical angle, when the engineering slope height measuring main rod 10 needs to be inverted, the engineering slope height measuring main rod is swung to be shifted, the engineering slope height measuring rod 10 is moved away from the inclined lifting block 17, and the inclined height measuring main rod is moved away from the inclined lifting block 17, so that the inclined height measuring block can be moved quickly and the inclined height measuring rod can be moved quickly;

one side that the engineering slope height measurement mobile jib 10 is kept away from to elasticity lifter 17 has vertical stopper 20, and vertical stopper 20 is used for restricting the horizontal rocking of elasticity lifter 17, because the opposite side of elasticity lifter 17 contacts with the mobile jib locating piece 13 that swings to its one side, consequently utilizes mobile jib locating piece 13 and vertical stopper 20 alright maintain the horizontal stability of elasticity lifter 17, and then provides stably for the joint of locating pin 18 and locating hole 16.

The utility model provides an engineering slope detection device in the above-mentioned embodiment, during the use, to detect base 12 arranges the slope bottom of slope of waiting to detect in, then the inclination regulating part 21 of rotating rolls out engineering slope length measuring stick 11 from accomodating spout 26 inside, then rotate it to with engineering slope height measuring mobile jib 10 vertical angle, then promote dwang 27 with engineering slope length measuring stick 11 remove to accomodating the inside suitable height of spout 26, then wholly with engineering slope height measuring mobile jib 10 swing to vertical angle, fix a position engineering slope height measuring mobile jib 10 through locating pin 18 and locating hole 16 this moment, height at height adjustment engineering slope length measuring stick 11 according to the slope, then start engineering slope length measuring stick 11 and adjust its length, make its tip and the contact of top of slope, then measure the height and the length on slope, and then calculate the slope, when detecting and accomplishing the back or shifting, through directly putting engineering slope height measuring mobile jib 10 down, then the inclination regulating part 21, engineering slope length measuring stick 11 etc. are accomodate to accomodating spout 26 in with engineering slope length measuring stick 11, then shift.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not intended to limit the present invention, and any modifications, equivalents, improvements, etc. made within the spirit and principles of the present invention should be included within the scope of the present invention.

Claims (5)

1. The utility model provides an engineering slope detection device which characterized in that, an engineering slope detection device includes: the device comprises a main engineering slope height measuring rod (10), an engineering slope length measuring rod (11) and a detection base (12); the engineering slope height measuring main rod (10) is rotatably connected to the detection base (12), a positioning assembly used for quickly positioning the engineering slope height measuring main rod (10) is arranged on the bottom end of the engineering slope height measuring main rod (10) and the detection base (12), a vertical storage chute (26) is formed in one side of the engineering slope height measuring main rod (10), a group of rotating rods (27) is slidably connected to the inside of the storage chute (26), a connecting sleeve is rotatably sleeved on the middle of the rotating rods (27), one end of each rotating rod (27) penetrates through the side wall of the storage chute (26) to be outwardly connected with a threaded rod (28), a locking nut (25) used for fixing the rotating rod (27) at one inside position of the storage chute (26) is connected to the threaded rod (28) in a threaded manner, a sliding opening (22) convenient for lifting of the rotating rod (27) is formed in the outer side wall of the storage chute (26) corresponding to the rotating rod (27), the engineering slope length measuring rod (11) is connected to the outer side of the connecting sleeve, the engineering slope length measuring rod (11) is set to be an electric telescopic rod, the engineering slope measuring rod (11) is connected to one side of the connecting sleeve (10) facing the engineering slope height measuring main rod, the other side wall of the engineering slope height measuring main rod (21), and the engineering slope height measuring main rod (21) is also connected to the storage chute (27), and the storage chute (27) and the slope adjusting assembly (27) extends to be connected to the storage chute (27), the rotating rod (27) at the top end of the inclination adjusting part (21) has the same structure as the rotating rod (27) at the end part of the engineering slope length measuring rod (11), and is also connected with a locking nut (25) and a threaded rod (28) which are positioned at the same position and function.

2. The engineering slope detection device according to claim 1, wherein scale marks are printed on the side wall of the engineering slope height measuring main rod (10) and the engineering slope length measuring rod (11).

3. The engineering grade detection device according to claim 2, wherein the grade adjusting member (21) comprises two sets of screws and a set of screw barrel, the two sets of screws are respectively threaded at two ends of the screw barrel, and the other end of the screw, which is far away from the screw barrel, is rotatably connected to the grade adjusting member (21) and the rotating rod (27).

4. The engineering slope detection device according to claim 3, wherein the positioning assembly comprises a main rod positioning block (13) mounted on an engineering slope height measuring main rod (10) arranged at the top of the detection base (12), the upper bottom end of the engineering slope height measuring main rod (10) is rotatably connected to the detection base (12) through a rotating shaft (15), the main rod positioning block (13) is arranged in a transversely inverted L-shaped structure, one side bottom of the main rod positioning block (13) is provided with a positioning hole (16), an elastic lifting block (17) is elastically arranged in the detection base (12) corresponding to the lower side of the positioning hole (16), a positioning pin (18) is mounted under the positioning hole (16) corresponding to the top of the elastic lifting block (17), the positioning pin (18) is clamped with the positioning hole (16), the bottom of the elastic lifting block (17) is elastically connected with a plurality of springs (19) with bottom ends fixed at the top in the detection base (12), and the positioning hole (16) and the positioning pin (18) are correspondingly clamped.

5. The engineering gradient detection device according to claim 4, characterized in that a vertical limiting block (20) is fixedly installed on one side of the elastic lifting block (17) far away from the engineering slope height measurement main rod (10).

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