CN114942011A - Level monitoring device and monitoring method for engineering surveying and mapping - Google Patents

Abstract

The invention discloses a level monitoring device and a level monitoring method for engineering surveying and mapping, and relates to the technical field of surveying and mapping devices. In the invention: the measuring contact block upside is rotated and is installed the detection base plate, the detection base plate is rotated and is installed horizontal detection mechanism, horizontal detection mechanism includes the horizontal spirit level of the semi-circular vertical spirit level of semicircular and fixed mounting in the semi-circular inboard meso position of vertical spirit level, the positioning mechanism who aligns with horizontal spirit level position is installed in the outside of vertical spirit level, detection base plate fixed mounting has the angle chi that carries out position fit with positioning mechanism, the end installs flagging pouring weight before the detection base plate. The invention realizes the high-efficiency, accurate, convenient and visual detection of the detection inclined plane by using the bubble level meter, is convenient for quickly finishing the quality inspection operation of a plurality of engineering construction projects, and is also convenient for detecting the detection inclined plane with a smaller area structure.

Description

Level monitoring device and monitoring method for engineering surveying and mapping

Technical Field

The invention relates to the technical field of surveying and mapping devices, in particular to a level monitoring device and a level monitoring method for engineering surveying and mapping.

Background

Surveying and mapping are necessary technical means for various construction operations, and after actual construction is finished, the construction precision of some special parts and structures needs secondary detection. And some special parts, structure only have some continuous inclined planes, need detect whether the angle of installation is qualified, if adopt equipment such as complicated theodolite to detect, the testing process is comparatively loaded down with trivial details, and ordinary bubble spirit level can't effectively measure and detect, if directly adopt the angle square to measure, also be convenient for measure and comparatively direct simple and convenient observation, meet some engineering construction projects of a great deal of, detect efficiency also very low.

Disclosure of Invention

The invention aims to solve the technical problem of providing a level monitoring device and a level monitoring method for engineering surveying and mapping, which realize the efficient, accurate, convenient and visual detection of a detection inclined plane by using a bubble level meter and are convenient for quickly finishing the quality inspection operation of a large number of engineering construction projects.

In order to solve the technical problems, the invention is realized by the following technical scheme:

the invention provides a level monitoring device for engineering surveying and mapping, which comprises a measuring contact block, wherein a detection substrate is rotatably arranged on the upper side of the measuring contact block, a level detection mechanism is rotatably arranged on the detection substrate, the level detection mechanism comprises a semicircular longitudinal level gauge and a transverse level gauge fixedly arranged at the middle position of the semicircular inner side of the longitudinal level gauge, a positioning mechanism aligned with the transverse level gauge is arranged on the outer side of the longitudinal level gauge, an angle gauge matched with the positioning mechanism in position is fixedly arranged on the detection substrate, and a drooping weight is arranged at the front side end of the detection substrate. Four corner positions of the bottom side surface of the contact block are measured, contact detection modules are embedded in the four corner positions, LED lamp beads are embedded in the four corner positions of the top side surface of the contact block, and each LED lamp bead is electrically connected with the contact detection module at the position right below the LED lamp bead. The detection substrate is provided with a second installation through groove and a square plate limiting groove located at the upper side position of the second installation through groove, the angle ruler comprises an arc-shaped scale plate, the lower end of the arc-shaped scale plate is fixedly provided with a limiting square plate which is clamped at the position of the square plate limiting groove, and the bottom side surface of the limiting square plate is fixedly connected with a ruler plate installation screw rod which is installed at the position of the second installation through groove. The positioning mechanism comprises a fixed guide plate, a guide groove is formed in the fixed guide plate, the arc-shaped scale strip plate is installed at the position of the guide groove of the fixed guide plate in a matched mode, and the fixed guide plate is provided with a scale pointer located at the opening position on one side of the guide groove.

As a preferred technical scheme of the level monitoring device for engineering surveying and mapping in the invention: the rear side of the measuring contact block is fixedly provided with a handle structure, the measuring contact block is provided with a first mounting through groove, and the front side of the handle structure is provided with a handle mounting screw rod mounted at the position of the first mounting through groove.

As a preferred technical scheme of the level monitoring device for engineering surveying and mapping in the invention: the detection substrate is provided with a containing groove for containing the horizontal detection mechanism, the detection substrate comprises a rotating shaft which is rotatably connected with the horizontal detection mechanism, and an extension line of the rear side of the scale pointer of the fixed guide plate passes through the axis of the rotating shaft. Wherein, the two side ends of the longitudinal gradienter and one side end of the transverse gradienter of the horizontal detection mechanism are connected with the rotating shaft.

As a preferred technical scheme of the level monitoring device for engineering surveying and mapping in the invention: the positioning mechanism is provided with a threaded through groove, the threaded through groove is communicated with the guide groove, and the position of the threaded through groove is provided with a positioning bolt.

As a preferred technical scheme of the level monitoring device for engineering surveying and mapping in the invention: the arc scale strip plate comprises a zero degree base line which is coplanar with the top side surface of the limiting square plate, and the transverse gradienter and the positioning mechanism are positioned at the same radius position of the longitudinal gradienter.

As a preferred technical scheme of the level monitoring device for engineering surveying and mapping in the invention: the front side end of the detection substrate is a lower connecting plate, the bottom side surface of the lower connecting plate is provided with a threaded blind hole, and the upper side of the sagging weight block is provided with a counterweight mounting screw which is screwed at the threaded blind hole.

As a preferred technical scheme of the level monitoring device for engineering surveying and mapping in the invention: the bottom of the contact detection module is provided with a bent elastic sheet, the bent elastic sheet is connected with a conducting strip which is in matched contact with the button cell, the bottom side face of the contact detection module is provided with an elastic bulge matched with the bent elastic sheet, and the button cell, the conducting strip and the LED lamp bead are connected in series in the same electric loop.

The invention provides a monitoring method of a level monitoring device for engineering surveying and mapping, which comprises the following steps:

(1) after the horizontal monitoring device is assembled and installed, the included angle between the horizontal detection mechanism and the detection substrate is correspondingly adjusted according to the standard horizontal angle parameter of the detection inclined plane to be detected, and the relative position between the angle ruler and the positioning mechanism is fixed.

(2) The measuring contact block is arranged at the position of the detection inclined plane through the handle structure, and is pressed to the measuring contact block through the handle structure, and when four LED lamp beads on the top side surface of the measuring contact block are simultaneously lightened, the bottom of the measuring contact block is in stable contact with the detection inclined plane.

(3) The detection base plate is rotated downwards under the action of the drooping weight, the detection base plate is rocked, and after the bottom of the measurement contact block is in stable contact with the detection inclined plane and the detection base plate is not rocked, the vertical level meter and the horizontal level meter of the horizontal detection mechanism are observed, and whether the inclination angle of the current position of the detection inclined plane meets the standard horizontal angle parameter of the detection inclined plane or not is judged.

As a preferred technical scheme of the monitoring method of the level monitoring device in the invention: and setting the standard horizontal angle of the detection inclined plane to be detected as beta, and setting the included angle between the horizontal detection mechanism and the detection substrate as gamma, wherein the gamma is beta.

Compared with the prior art, the invention has the beneficial effects that:

according to the invention, through designing multidimensional matching structures such as the measuring contact block, the detection substrate, the level detection mechanism, the angle ruler and the like, the detection slope can be efficiently, accurately, conveniently and visually detected by using the bubble level gauge, and the quality inspection operation of a great number of engineering construction projects can be conveniently and rapidly completed;

according to the invention, the contact detection module is arranged at the bottom side of the measurement contact block, and the LED lamp beads are arranged at the top of the measurement contact block, so that the contact state between the measurement contact block and the detection inclined plane can be conveniently noticed during detection, and meanwhile, the measurement contact block with a relatively small bottom area is designed, so that the detection operation can be conveniently and accurately completed even if the detection inclined plane with a small area structure is encountered.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the level monitoring device for engineering surveying and mapping according to the present invention.

Fig. 2 is a partially enlarged schematic view of a portion a in fig. 1.

Fig. 3 is a (top view) schematic diagram of the horizontal detection mechanism and the positioning mechanism of the present invention.

Fig. 4 is a schematic view of the angle ruler of the present invention.

FIG. 5 is a schematic diagram of a contact detection module according to the present invention.

Description of reference numerals:

1-measuring a contact block, 101-a first installation through groove, and 102-an LED lamp bead; 2-detecting a substrate, 201-a rotating shaft, 202-a receiving groove, 203-a second installation through groove, 204-a square plate limiting groove, 205-a lower connecting plate and 206-a threaded blind hole; 3-a movable rotating shaft; 4-level detection mechanism, 401-vertical level, 402-vertical level bubble, 403-horizontal level, 404-horizontal level bubble; 5-a positioning mechanism, 501-a fixed guide plate, 502-a guide groove, 503-a threaded through groove, 504-a positioning bolt and 505-a scale pointer; 6-an angle ruler, 601-an arc scale strip plate, 602-a limit square plate, 603-a zero-degree base line and 604-a ruler plate mounting screw rod; 7-downward hanging weight block, 701-weight block mounting screw rod; 8-detecting the inclined plane; 9-contact detection module, 901-bent elastic sheet, 902-conductive sheet, 903-elastic bulge and 904-button cell; 10-handle structure, 1001-handle mounting screw; 11-nut.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, 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.

Example one

Referring to fig. 1, the detection inclined plane 8 of the component to be detected may be divided into a plurality of different areas, each area may be integrally connected or may be independently installed, if integrally connected, only one of the detection inclined planes 8 needs to be detected, and if independently installed, each area needs to be independently detected.

The bottom side surface of the contact block 1 is in contact with the detection inclined plane 8, the contact detection module 9 is installed by embedding four corner positions of the bottom side surface of the contact block 1, the LED lamp beads 102 are installed at four corner positions of the top side surface of the contact block 1, after the contact detection module 9 is pressed, the LED lamp beads 102 right above the contact block will be bright, the current contact detection module 9 position of the contact block 1 is indicated to be in contact with the detection inclined plane 8, the four LED lamp beads 102 are all bright, and the whole bottom side surface of the contact block 1 is indicated to be in contact with the detection inclined plane 8.

The first installation through groove 101 is formed in the measurement contact block 1, the handle installation screw 1001 is arranged on the front side of the handle structure 10, and the handle installation screw 1001 penetrates through the first installation through groove 101 and is reinforced through nuts.

The upper side of the measuring contact block 1 is provided with a movable rotating shaft 3, the detection substrate 2 is arranged at the upper side position of the movable rotating shaft, and one end of the detection substrate 2 is connected with a horizontal detection mechanism 4 through a rotating shaft 201. The detection substrate is provided with a housing groove 202 for housing the level detection mechanism 4. The detection substrate 2 is fixedly provided with an arc-shaped angle ruler 6, and the inclined lower end of the front side of the detection substrate 2 is provided with a drooping weight 7.

The front side position of the horizontal detection mechanism 4 is provided with a positioning mechanism 5, the angle ruler 6 is matched and connected with the positioning mechanism 5, and the positioning mechanism 5 is provided with a scale pointer 505.

Referring to fig. 2, fig. 2 is a partially enlarged schematic view of a portion a in fig. 1, the detection substrate 2 is provided with a second installation through groove 203 and a square plate limiting groove 204 which are integrally communicated, the inclined lower end of the front side of the detection substrate 2 is provided with a lower connecting plate 205, the lower connecting plate 205 is provided with a threaded blind hole 206, the upper side of the sagging weight 7 is provided with a counterweight installation screw 701, and the counterweight installation screw 701 is screwed at the threaded blind hole 206 of the lower connecting plate. The angle ruler 6 comprises an arc-shaped scale strip plate 601 and a ruler plate mounting screw 604, wherein the ruler plate mounting screw 604 penetrates through the second mounting through groove 203 and is reinforced by a nut.

Referring to fig. 3, the level detection mechanism 4 includes a semi-arc-shaped longitudinal level 401 and a transverse level 403 located in the radial direction at the middle position of the longitudinal level 401, and it can be quickly seen whether the longitudinal direction is horizontal by observing the longitudinal horizontal bubble in the longitudinal level 401, and it can be quickly seen whether the transverse direction is horizontal by observing the transverse horizontal bubble in the transverse level 403. The positioning mechanism 5 includes a fixed guide plate 501, a guide groove 502 is formed in the fixed guide plate 501, a scale pointer 505 is provided at an opening on one side of the guide groove 502, a threaded through groove 503 is formed in the fixed guide plate 501, and a positioning bolt 504 is installed at the position of the threaded through groove 503 (referring to fig. 1 and 4, the position of the arc-shaped scale strip plate 601 can be fixed by the positioning bolt 504).

Referring to fig. 4, the angle ruler 6 includes an arc-shaped scale plate 601, a limiting square plate 602, and a ruler plate mounting screw 604, the limiting square plate 602 is located at the lower end of the arc-shaped scale plate 601, the ruler plate mounting screw 604 is located at the lower side of the limiting square plate, and the upper side of the limiting square plate 602 is the zero-degree baseline 603 of the arc-shaped scale plate 601 (referring to fig. 2, the limiting square plate 602 is clamped in the square plate limiting groove 204, and the ruler plate mounting screw 604 passes through the second mounting through groove 203).

Referring to fig. 5, the bottom side of the contact detection module 9 is provided with an elastic protrusion 903, the inner side of the bottom plate of the contact detection module is provided with a bent elastic sheet 901 aligned with the elastic protrusion 903, the bent elastic sheet 901 is connected with a conductive sheet 902, the elastic protrusion 903 is pressed to press the bent elastic sheet 901, the conductive sheet 902 moves upwards, and the conductive sheet 902 contacts with the button cell 904 (referring to fig. 1, the LED lamp bead 102, the conductive sheet 902 and the button cell 904 are in the same electrical circuit, and the upper side of the button cell 904 at the uppermost layer is also connected with a conductive structure and is connected in series in the electrical circuit of the LED lamp bead 102).

Example two

The invention relates to a monitoring method of a level monitoring device for engineering surveying and mapping, which specifically comprises the following steps:

firstly, after the horizontal monitoring device is assembled, the included angle between the horizontal detection mechanism 4 and the detection substrate 2 is correspondingly adjusted according to the standard horizontal angle parameter of the detection inclined plane 8 to be detected (the included angle information between the detection inclined plane 8 to be detected and the horizontal plane is acquired according to the construction drawing), and the relative position between the angle ruler 6 and the positioning mechanism 5 is fixed, wherein the standard horizontal angle of the detection inclined plane 8 to be detected is set as beta, the included angle between the horizontal detection mechanism 4 and the detection substrate 2 is set as gamma, and then gamma is beta.

And secondly, arranging the measuring contact block 1 at the position of the detection inclined plane 8 through the handle structure 10 and applying pressure to the measuring contact block 1 through the handle structure 10, wherein when four LED lamp beads 102 on the top side surface of the measuring contact block 1 are simultaneously bright, the bottom of the measuring contact block 1 is stably contacted with the detection inclined plane 8.

And thirdly, the detection substrate 2 rotates downwards under the action of the drooping weight 7, the detection substrate 2 swings, when the bottom of the measurement contact block 1 is in stable contact with the detection inclined plane 8 and the detection substrate 2 does not swing and shake, the longitudinal level meter 401 and the transverse level meter 403 of the horizontal detection mechanism 4 are observed, and whether the inclination angle of the current position of the detection inclined plane 8 meets the standard horizontal angle parameter of the detection inclined plane 8 or not is judged.

The above description is intended to be illustrative of the preferred embodiment of the present invention and should not be taken as limiting the invention, but rather, the intention is to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention.

Claims (9)

1. The utility model provides a level monitoring device is used in engineering survey and drawing which characterized in that:

the measuring device comprises a measuring contact block (1), wherein a detection substrate (2) is rotatably mounted on the upper side of the measuring contact block (1), a horizontal detection mechanism (4) is rotatably mounted on the detection substrate (2), the horizontal detection mechanism (4) comprises a semicircular longitudinal level meter (401) and a transverse level meter (403) fixedly mounted at the middle position of the semicircular inner side of the longitudinal level meter (401), a positioning mechanism (5) aligned with the transverse level meter (403) is mounted on the outer side of the longitudinal level meter (401), an angle ruler (6) matched with the positioning mechanism (5) in position is fixedly mounted on the detection substrate (2), and a weight droop (7) is mounted at the front side end of the detection substrate (2);

four corner positions of the bottom side surface of the measuring contact block (1) are embedded with contact detection modules (9), four corner positions of the top side surface of the measuring contact block (1) are embedded with LED lamp beads (102), and each LED lamp bead (102) is electrically connected with the contact detection module (9) at the position right below the LED lamp bead;

the detection substrate (2) is provided with a second installation through groove (203) and a square plate limiting groove (204) located at the upper side position of the second installation through groove (203), the angle ruler (6) comprises an arc scale strip plate (601), the lower end of the arc scale strip plate (601) is fixedly provided with a limiting square plate (602) clamped and installed at the position of the square plate limiting groove (204), and the bottom side surface of the limiting square plate (602) is fixedly connected with a ruler plate installation screw (604) installed at the position of the second installation through groove (203);

positioning mechanism (5) are including fixed deflector (501), guide way (502) have been seted up in fixed deflector (501), guide way (502) position department at fixed deflector (501) is installed in the cooperation of arc scale slat (601), fixed deflector (501) are provided with scale pointer (505) that are located guide way (502) one side opening position department.

2. The level monitoring device for engineering surveying and mapping according to claim 1, characterized in that:

the rear side of the measuring contact block (1) is fixedly provided with a handle structure (10), the measuring contact block (1) is provided with a first mounting through groove (101), and the front side of the handle structure (10) is provided with a handle mounting screw (1001) mounted at the position of the first mounting through groove (101).

3. The level monitoring device for engineering surveying and mapping according to claim 1, characterized in that:

the detection substrate (2) is provided with a containing groove (202) for containing the horizontal detection mechanism (4), the detection substrate (2) comprises a rotating shaft (201) rotatably connected with the horizontal detection mechanism (4), and an extension line of the rear side of a scale pointer (505) of the fixed guide plate (501) passes through the axis line of the rotating shaft (201);

wherein, the two side ends of the longitudinal level (401) and the one side end of the transverse level (403) of the level detection mechanism (4) are connected with the rotating shaft (201).

4. The level monitoring device for engineering surveying and mapping according to claim 1, characterized in that:

the positioning mechanism (5) is provided with a threaded through groove (503), the threaded through groove (503) is communicated with the guide groove (502), and a positioning bolt (504) is installed at the position of the threaded through groove (503).

5. The level monitoring device for engineering surveying and mapping according to claim 1, characterized in that:

the arc-shaped scale strip plate (601) comprises a zero-degree base line (603) which is coplanar with the top side surface of the limiting square plate (602), and the transverse gradienter (403) and the positioning mechanism (5) are positioned at the same radius direction of the longitudinal gradienter (401).

6. The level monitoring device for engineering surveying and mapping according to claim 1, characterized in that:

the front side end of the detection substrate (2) is a lower connecting plate (205), the bottom side surface of the lower connecting plate (205) is provided with a threaded blind hole (206), and the upper side of the lower drooping weight (7) is provided with a counterweight mounting screw (701) which is screwed at the threaded blind hole (206).

7. The level monitoring device for engineering surveying and mapping according to claim 1, characterized in that:

the bottom of the contact detection module (9) is provided with a bent elastic sheet (901), the bent elastic sheet (901) is connected with a conducting sheet (902) which is in matched contact with the button cell (904), the bottom side surface of the contact detection module (9) is provided with an elastic bulge (903) matched with the bent elastic sheet (901) in position, and the button cell (904), the conducting sheet (902) and the LED lamp bead (102) are connected in series in the same electric loop.

8. A monitoring method of a level monitoring device for engineering surveying and mapping, characterized in that a level monitoring device for engineering surveying and mapping as claimed in any one of claims 1 to 6 is used, comprising the steps of:

(1) after the horizontal monitoring device is assembled, the included angle between the horizontal detection mechanism (4) and the detection substrate (2) is correspondingly adjusted according to the standard horizontal angle parameter of the detection inclined plane to be detected, and the relative position between the angle ruler (6) and the positioning mechanism (5) is fixed;

(2) the measuring contact block (1) is arranged at the position of the detection inclined plane (8) through the handle structure (10), pressure is applied to the measuring contact block (1) through the handle structure (10), and when four LED lamp beads (102) on the top side surface of the measuring contact block (1) are simultaneously lightened, the bottom of the measuring contact block (1) is stably contacted with the detection inclined plane (8);

(3) detect base plate (2) and receive flagging pouring weight (7) effect to rotate downwards, detect that base plate (2) take place to sway and rock, the bottom and detection inclined plane (8) stationary contact who contacts piece (1) when measuring, detect base plate (2) and do not rock the back of rocking, vertical spirit level (401), horizontal spirit level (403) of observing horizontal detection mechanism (4), judge whether the inclination that detects inclined plane (8) current position accords with and detects inclined plane (8) standard horizontal angle parameter.

9. The monitoring method of the engineering surveying and mapping level monitoring device according to claim 1, characterized in that:

and setting the standard horizontal angle of the detection inclined plane (8) to be detected as beta, and setting the included angle between the horizontal detection mechanism (4) and the detection substrate (2) as gamma, wherein gamma is beta.

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