CN111829493A - Vertical detection device for constructional engineering - Google Patents

Abstract

The invention relates to the technical field of vertical detection, in particular to a vertical detection device for construction engineering, which comprises a fixing mechanism, a moving mechanism, a vertical moving mechanism, a horizontal moving mechanism and a detection mechanism, wherein the moving mechanism is horizontally arranged below the fixing mechanism, the vertical moving mechanism is vertically arranged on the side wall of the fixing mechanism, the moving mechanism is connected with the vertical moving mechanism, the horizontal moving mechanism is arranged on the vertical moving mechanism, and the detection mechanism is arranged on the horizontal moving mechanism, so that the problems that the detection mode in the prior art is simple and easy to operate, the detected result has certain relevance with the working experience of an operator, the result is inaccurate due to easy generation of errors, sometimes the detection needs to be carried out on different height positions of a building object, the detection mode in the prior art can be realized by using other auxiliary tools, and the application range has certain limitation, the detection efficiency is reduced.

Description

Vertical detection device for constructional engineering

Technical Field

The invention relates to the technical field of vertical detection, in particular to a vertical detection device for constructional engineering.

Background

Along with the continuous acceleration of the development process of urbanization, the number of construction projects in cities is increasing, the construction measurement in the construction projects also arouses the high attention of the majority of construction units, and in the daily construction process, perpendicularity detection is often required to be carried out on buildings, structures and the like, so that the construction safety and the construction quality are ensured.

The existing technology usually adopts the mode of matching the verticality detection ruler or the plumb bob with the plumb line when detecting the verticality of the building object, although the detection mode is simple and easy to operate, the result detected has certain relevance with the working experience of operators, the error is easy to generate, the result is inaccurate, sometimes the different height positions of the building object need to be detected, the existing detection mode needs to be realized only by using other auxiliary tools, the application range has certain limitation, and the detection work efficiency is reduced.

Disclosure of Invention

The invention aims to provide a vertical detection device for constructional engineering, which aims to solve the technical problem in the background technology.

The invention provides a vertical detection device for constructional engineering, which comprises a fixing mechanism, a moving mechanism, a vertical moving mechanism, a horizontal moving mechanism and a detection mechanism, wherein the moving mechanism is horizontally arranged below the fixing mechanism, the vertical moving mechanism is vertically arranged on the side wall of the fixing mechanism, the moving mechanism is connected with the vertical moving mechanism, the horizontal moving mechanism is arranged on the vertical moving mechanism, and the detection mechanism is arranged on the horizontal moving mechanism.

Further, fixed establishment includes horizontal fixed plate, vertical fixation board and two first fixed hollow post, horizontal fixed plate and vertical fixation board are L shape and connect, the last symmetry of vertical fixation board is equipped with two first straight type grooves, two first fixed hollow post symmetry sets up on horizontal fixation board.

Further, moving mechanism is equipped with two sets ofly, and is two sets of moving mechanism symmetry sets up on horizontal fixed plate, every group moving mechanism all includes actuating mechanism and coupling mechanism, actuating mechanism sets up the top at first fixed hollow post, coupling mechanism's one end sets up on actuating mechanism, coupling mechanism's the other end sets up on vertical fixation board.

Further, actuating mechanism includes bottom plate, protective housing, rack, first gear, first motor, first base, tooth piece and circular post, the protective housing sets up the one side at the bottom plate, be equipped with the first style of calligraphy groove of second on the bottom plate, rack, first gear, first motor, first base, tooth piece and circular post all set up in the protective housing, the rack sets up at the first style of calligraphy inslot of second, first gear sets up the top at the rack, first base setting just is located the below of first gear on the bottom plate, first motor sets up on first base, the output and the first gear connection of first motor, the tooth piece sets up in the rack and just is located the below of first base, the tooth piece is connected with circular post top, the bottom of circular post sets up in first fixed hollow post.

Further, coupling mechanism includes connecting plate and limiting plate, the one end setting of connecting plate is on the protective housing, the other end of connecting plate runs through vertical migration mechanism and sets up in first one-character type inslot, the limiting plate sets up on the connecting plate and is located one side of vertical migration mechanism.

Further, the vertical moving mechanism comprises a bearing plate, two vertical moving plates, two U-shaped plates, two second gears, a rotating rod, a bevel gear set, a first placing plate, a second motor and a second base, wherein the bearing plate is arranged on the vertical fixing plate, two ends of the bearing plate are connected with the connecting plate, the two vertical moving plates are symmetrically arranged on the bearing plate and movably connected with the bearing plate, the two U-shaped plates are symmetrically arranged on the bearing plate and positioned at the outer side of the vertical moving plates, the two U-shaped plates are fixedly connected with the bearing plate, moving teeth are arranged on the two U-shaped plates, the two second gears are respectively arranged at two ends of the rotating rod and meshed with the moving teeth on the U-shaped plates, the first placing plate is arranged above the rotating rod, one end of the bevel gear set is connected with the rotating rod, and the other end of the bevel gear set is connected with the output end, the second base is arranged above the first placing plate in a vertical state, and the second motor is arranged on the second base.

Further, the horizontal migration mechanism includes that the second places board and two lead screw slip tables, the second is placed and is set up on the board two the top of perpendicular movable plate, two lead screw slip table symmetry sets up on the board is placed to the second, two the working end of lead screw slip table all is connected with detection mechanism.

Further, the detection mechanism comprises a third placing plate, a third fixed hollow column, a spring, two second fixed hollow columns, two moving rods, a detection rod, a detection plate, a detection line and a detection connecting plate, wherein the third placing plate is arranged on the working end of the screw rod sliding table, the third fixed hollow column is arranged on the third placing plate, the two second fixed hollow columns are arranged on the third placing plate and positioned at two sides of the third fixed hollow column, the two moving rods are respectively arranged in the second fixed hollow columns, the spring is arranged in the third fixed hollow column, two ends of the detection rod are respectively connected with the moving rods, the detection connecting plate is arranged on the third placing plate and positioned below the detection rod, the detection line is arranged on the detection connecting plate and corresponds to the working end of the detection rod, the detection plate is arranged on the working end of the two moving rods, the spring is connected with the detection pole, the board is placed with the general third fixed hollow column of placing to the third, the fixed hollow column of second and detection connecting plate.

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

the invention adds a vertical detection device for construction engineering, which comprises a fixed mechanism, a moving mechanism, a vertical moving mechanism, a horizontal moving mechanism and a detection mechanism, wherein the moving mechanism is horizontally arranged below the fixed mechanism, the vertical moving mechanism is vertically arranged on the side wall of the fixed mechanism, the moving mechanism is connected with the vertical moving mechanism, the horizontal moving mechanism is arranged on the vertical moving mechanism, the detection mechanism is arranged on the horizontal moving mechanism, the detection method for the building object is simple and easy to operate, the detected result has certain relevance with the working experience of operators, errors are easily generated to cause inaccurate results, different height positions of the building object need to be detected sometimes, the existing detection method can be achieved only by using other auxiliary tools, the application range has certain limitation, and the detection work efficiency is reduced.

Secondly, two groups of moving mechanisms are added, the two groups of moving mechanisms are symmetrically arranged on the horizontal fixing plate, each group of moving mechanisms comprises a driving mechanism and a connecting mechanism, the driving mechanism is arranged above the first fixed hollow column, one end of the connecting mechanism is arranged on the driving mechanism, the other end of the connecting mechanism is arranged on the vertical fixing plate, the driving mechanism is used for driving the vertical moving mechanism, the horizontal moving mechanism and the detection mechanism to vertically move, and the connecting mechanism is used for connecting the vertical moving mechanism and the vertical fixing plate. The moving mechanism can raise the detection mechanism to a higher position, so that the detection range is increased.

Drawings

In order to more clearly illustrate the embodiments of the present invention 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, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

FIG. 1 is a schematic perspective view of a first angle of the present invention;

FIG. 2 is a perspective view of a second angle of the present invention;

FIG. 3 is a first partial schematic view of the present invention;

FIG. 4 is a second partial schematic view of the present invention;

fig. 5 is a schematic view of a partial structure of the present invention.

Reference numerals: a fixed mechanism 1, a horizontal fixed plate 101, a vertical fixed plate 102, a first fixed hollow column 103, a first I-shaped groove 1021, a moving mechanism 2, a driving mechanism 202, a bottom plate 2021, a protective box 2022, a rack 2023, a first gear 2024, a first motor 2025, a first base 2026, a tooth block 2027, a round column 2028, a second I-shaped groove 20211, a connecting mechanism 201, a connecting plate 2011, a limiting plate 2012, a vertical moving mechanism 3, a bearing plate 301 and a vertical moving plate 302, the detection device comprises a U-shaped plate 303, a second gear 304, a rotating rod 305, a bevel gear set 306, a first placing plate 307, a second motor 308, a second base 309, a moving tooth 310, a horizontal moving mechanism 4, a second placing plate 401, a screw rod sliding table 402, a detection mechanism 5, a third placing plate 501, a third fixed hollow column 502, a spring 503, a second fixed hollow column 504, a moving rod 505, a detection rod 506, a detection plate 507, a detection line 508 and a detection connecting plate 509.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further 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 components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention.

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.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1 to 5, an embodiment of the present invention provides a vertical detection device for construction engineering, including a fixing mechanism 1, a moving mechanism 2, a vertical moving mechanism 3, a horizontal moving mechanism 4, and a detection mechanism 5, where the moving mechanism 2 is horizontally disposed below the fixing mechanism 1, the vertical moving mechanism 3 is vertically disposed on a sidewall of the fixing mechanism 1, the moving mechanism 2 is connected to the vertical moving mechanism 3, the horizontal moving mechanism 4 is disposed on the vertical moving mechanism 3, the detection mechanism 5 is disposed on the horizontal moving mechanism 4, the fixing mechanism 1 is used to place the moving mechanism 2 and the vertical moving mechanism 3, the moving mechanism 2 is used to drive the vertical moving mechanism 3, the horizontal moving mechanism 4, and the detection mechanism 5 to vertically move, the vertical moving mechanism 3 is used to drive the horizontal moving mechanism 4 and the detection mechanism 5 to vertically move, horizontal migration mechanism 4 is used for driving detection mechanism 5 and carries out horizontal migration, detection mechanism 5 is used for detecting building wall.

The fixing mechanism 1 comprises a horizontal fixing plate 101, a vertical fixing plate 102 and two first fixing hollow columns 103, wherein the horizontal fixing plate 101 is connected with the vertical fixing plate 102 in an L shape, two first straight grooves 1021 are symmetrically arranged on the vertical fixing plate 102, the two first fixing hollow columns 103 are symmetrically arranged on the horizontal fixing plate 101, and the two first fixing hollow columns 103 are used for fixing the bottom end of the moving mechanism 2.

The moving mechanism 2 is provided with two groups, two groups of moving mechanisms 2 are symmetrically arranged on the horizontal fixing plate 101, each group of moving mechanisms 2 comprises a driving mechanism 202 and a connecting mechanism 201, the driving mechanism 202 is arranged above the first fixed hollow column 103, one end of the connecting mechanism 201 is arranged on the driving mechanism 202, the other end of the connecting mechanism 201 is arranged on the vertical fixing plate 102, the driving mechanism 202 is used for driving the vertical moving mechanism 3, the horizontal moving mechanism 4 and the detection mechanism 5 to vertically move, and the connecting mechanism 201 is used for connecting the vertical moving mechanism 3 and the vertical fixing plate 102.

The driving mechanism 202 includes a bottom plate 2021, a protective box 2022, a rack 2023, a first gear 2024, a first motor 2025, a first base 2026, a gear block 2027 and a round column 2028, the protective box 2022 is disposed on one side of the bottom plate 2021, the bottom plate 2021 is provided with a second first groove 20211, the rack 2023, the first gear 2024, the first motor 2025, the first base 2026, the gear block 2027 and the round column 2028 are disposed in the protective box 2022, the rack 2023 is disposed in the second groove 20211, the first gear 2024 is disposed above the rack 2023, the first base 2026 is disposed on the bottom plate 2021 and is located below the first gear 2024, the first motor 2025 is disposed on the first base 2026, an output end of the first motor 2025 is connected to the first gear 2024, the gear block 2027 is disposed in the bottom plate 2023 and is connected to a top end of the gear block 2027, the bottom end of the circular column 2028 is disposed in the first fixed hollow column 103, the bottom plate 2021 is used for placing the rack 2023, the protection box 2022 is used for dust and dust prevention and can prevent the first motor 2025 and the first gear 2024 from being affected by the outside during operation, the first motor 2025 is used for driving the first gear 2024, the first gear 2024 is used for driving the rack 2023, the rack 2023 is used for driving the gear block 2027, and the gear block 2027 can drive the circular column 2028 to vertically move in the first fixed hollow column 103.

The connecting mechanism 201 comprises a connecting plate 2011 and a limiting plate 2012, one end of the connecting plate 2011 is arranged on the protective box 2022, the other end of the connecting plate 2011 penetrates through the vertical movement mechanism 3 and is arranged in the first straight-line-shaped groove 1021, the limiting plate 2012 is arranged on the connecting plate 2011 and is located on one side of the vertical movement mechanism 3, the connecting plate 2011 is used for connecting the protective box 2022 and the vertical movement mechanism 3 and can move in the first straight-line-shaped groove 1021, and the limiting plate 2012 is used for limiting the vertical movement mechanism 3.

The vertical moving mechanism 3 comprises a bearing plate 301, two vertical moving plates 302, two U-shaped plates 303, two second gears 304, a rotating rod 305, a bevel gear set 306, a first placing plate 307, a second motor 308 and a second base 309, wherein the bearing plate 301 is arranged on a vertical fixing plate 102, two ends of the bearing plate 301 are connected with a connecting plate 2011, the two vertical moving plates 302 are symmetrically arranged on the bearing plate 301 and movably connected with the bearing plate 301, the two U-shaped plates 303 are symmetrically arranged on the bearing plate 301 and positioned at the outer side of the vertical moving plates 302, the two U-shaped plates 303 are fixedly connected with the bearing plate 301, moving teeth 310 are arranged on the two U-shaped plates 303, the two second gears 304 are respectively arranged at two ends of the rotating rod 305 and meshed with the moving teeth 310 on the U-shaped plates 303, the first placing plate 307 is arranged above the rotating rod 305, and one end of the bevel gear set 306 is connected with the rotating rod 305, the other end of the bevel gear set 306 is connected with the output end of a second motor 308, the second base 309 is vertically disposed above the first placement plate 307, the second motor 308 is disposed on the second base 309, the bevel gear set 306 can drive the rotating rod 305 to rotate by the driving of the second motor 308, and when the rotating rod 305 rotates, the two vertical moving plates 302 can be driven to move by the movement of the gears at the two ends on the moving teeth 310, so that the vertical moving plates 302 drive the horizontal moving mechanism 4 to vertically move.

Horizontal migration mechanism 4 includes that the second places board 401 and two lead screw slip tables 402, the second is placed and is set up on the board 401 two the top of perpendicular movable plate 302, two lead screw slip tables 402 symmetry sets up on board 401 is placed to the second, two the work end of lead screw slip table 402 all is connected with detection mechanism 5, the second is placed board 401 and is used for placing lead screw slip table 402, lead screw slip table 402 is used for driving detection mechanism 5 and carries out horizontal migration.

The detection mechanism 5 comprises a third placing plate 501, a third fixed hollow column 502, a spring 503, two second fixed hollow columns 504, two moving rods 505, a detection rod 506, a detection plate 507, a detection line 508 and a detection connecting plate 509, wherein the third placing plate 501 is arranged at the working end of the screw rod sliding table 402, the third fixed hollow column 502 is arranged on the third placing plate 501, the two second fixed hollow columns 504 are arranged on the third placing plate 501 and positioned at two sides of the third fixed hollow column 502, the two moving rods 505 are respectively arranged in the second fixed hollow columns 504, the spring 503 is arranged in the third fixed hollow column 502, two ends of the detection rod 506 are respectively connected with the moving rods 505, the detection connecting plate 509 is arranged on the third placing plate 501 and positioned below the detection rod 506, the detection line 508 is arranged on the detection connecting plate 509 and corresponds to the working end of the detection rod 506, the detection plates 507 are arranged at the working ends of the two moving rods 505, the springs 503 are connected with the detection rods 506, the third placing plate 501 is used for placing a third fixed hollow column 502, a second fixed hollow column 504 and a detection connecting plate 509 in a universal mode, the third fixed hollow column 502 is used for placing the springs 503, the second fixed hollow column 504 is used for placing the moving rods 505, the moving rods 505 are used for matching the detection plates 507 to detect a building wall, the detection rods 506 are used for matching the moving rods 505 to detect, when detection is conducted, if errors exist in the vertical direction of the building wall, the moving rods 505 can drive the detection rods 506 to move when moving, and the specific values of the deviations are generated between the bottom ends of the detection rods 506 and the detection lines 508.

The working principle is as follows: the horizontal fixing plate 101 is fixed on the ground, the two sets of first motors 2025 drive the driving gears and the racks 2023 to operate, the racks 2023 drive the gear blocks 2027 to operate, the gear blocks 2027 drive the circular columns 2028 to move vertically and upwardly in the first fixed hollow columns 103, and simultaneously drive the vertical moving mechanism 3, the horizontal moving mechanism 4 and the detection mechanism 5 to move vertically, the second motors 308 in the vertical moving mechanism 3 can drive the bevel gear sets 306 to operate, the bevel gear sets 306 can drive the rotating rods 305 and the two second gears 304 on the rotating rods 305 to rotate, the two second gears 304 can drive the moving teeth 310 to move and simultaneously drive the vertical moving plate 302 to move, the vertical moving plate 302 can drive the second placing plate 401 to move when moving, the second placing plate 401 can drive the screw rod sliding table 402 to move synchronously, and the screw rod sliding table 402 can drive the third placing plate 501 to move horizontally, the detection mechanism 5 can be adjusted in position and moved through the steps, the position to be detected is adjusted through the steps before detection, the detection plate 507 in the detection mechanism 5 is attached to the building wall, the detection plate 507 is moved on the building wall through driving of the vertical moving mechanism 3 and the horizontal moving mechanism 4, the position of the detection rod 506 corresponding to the detection line 508 is noticed in the moving process, when the building wall is inconsistent in verticality, the detection plate 507 moves, the moving rod 505 and the detection rod 506 move, meanwhile, the position of the detection rod 506 shifts, and the specific moving value of the detection rod 506 can be determined through the detection line 508. Above adopt the straightness detection chi of hanging down or plumb bob and plumb line complex mode usually when detecting building object straightness that hangs down with solving current technique, though this kind of detection mode is simple easy to operate, the result that detects out has certain relevance with operating personnel's work experience, it is inaccurate to produce the error easily and cause the result, need detect building object different altitude positions sometimes, it can realize to need to use other appurtenance to adopt current detection mode, application scope has certain limitation, the work efficiency who has reduced the detection is the purpose.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, those skilled in the art will appreciate that; the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims (8)

1. The utility model provides a vertical detection device of building engineering, its characterized in that, includes fixed establishment (1), moving mechanism (2), vertical movement mechanism (3), horizontal migration mechanism (4) and detection mechanism (5), moving mechanism (2) level sets up the below on fixed establishment (1), vertical movement mechanism (3) set up perpendicularly on the lateral wall of fixed establishment (1), moving mechanism (2) are connected with vertical movement mechanism (3), horizontal migration mechanism (4) set up on vertical movement mechanism (3), detection mechanism (5) set up on horizontal migration mechanism (4).

2. The building engineering vertical detection device according to claim 1, wherein the fixing mechanism (1) comprises a horizontal fixing plate (101), a vertical fixing plate (102) and two first fixing hollow columns (103), the horizontal fixing plate (101) and the vertical fixing plate (102) are connected in an L shape, two first straight grooves (1021) are symmetrically arranged on the vertical fixing plate (102), and the two first fixing hollow columns (103) are symmetrically arranged on the horizontal fixing plate (101).

3. The building engineering vertical detection device according to claim 2, characterized in that the moving mechanisms (2) are provided in two sets, the two sets of moving mechanisms (2) are symmetrically arranged on the horizontal fixing plate (101), each set of moving mechanisms (2) comprises a driving mechanism (202) and a connecting mechanism (201), the driving mechanism (202) is arranged above the first fixed hollow column (103), one end of the connecting mechanism (201) is arranged on the driving mechanism (202), and the other end of the connecting mechanism (201) is arranged on the vertical fixing plate (102).

4. The building engineering vertical detection device according to claim 3, wherein the driving mechanism (202) comprises a bottom plate (2021), a protective box (2022), a rack (2023), a first gear (2024), a first motor (2025), a first base (2026), a gear block (2027) and a circular column (2028), the protective box (2022) is disposed at one side of the bottom plate (2021), a second first I-shaped groove (20211) is disposed on the bottom plate (2021), the rack (2023), the first gear (2024), the first motor (2025), the first base (2026), the gear block (2027) and the circular column (2028) are disposed in the protective box (2022), the rack (2023) is disposed in the second I-shaped groove (20211), the first gear (2024) is disposed above the rack (2023), the first base (2026) is disposed on the bottom plate (2021) and is located below the first gear (2024), the first motor (2025) is arranged on the first base (2026), the output end of the first motor (2025) is connected with the first gear (2024), the tooth block (2027) is arranged in the rack (2023) and is positioned below the first base (2026), the tooth block (2027) is connected with the top end of the round column (2028), and the bottom end of the round column (2028) is arranged in the first fixed hollow column (103).

5. The building engineering vertical detection device according to claim 4, wherein the connection mechanism (201) comprises a connection plate (2011) and a limit plate (2012), one end of the connection plate (2011) is arranged on the protection box (2022), the other end of the connection plate (2011) is arranged in the first straight-line groove (1021) through the vertical movement mechanism (3), and the limit plate (2012) is arranged on the connection plate (2011) and is located on one side of the vertical movement mechanism (3).

6. The building engineering vertical detection device according to claim 5, wherein the vertical movement mechanism (3) comprises a bearing plate (301), two vertical movement plates (302), two U-shaped plates (303), two second gears (304), a rotating rod (305), a bevel gear set (306), a first placing plate (307), a second motor (308) and a second base (309), the bearing plate (301) is arranged on the vertical fixing plate (102), two ends of the bearing plate (301) are connected with a connecting plate (2011), the two vertical movement plates (302) are symmetrically arranged on the bearing plate (301) and movably connected with the bearing plate (301), the two U-shaped plates (303) are symmetrically arranged on the bearing plate (301) and positioned at the outer sides of the vertical movement plates (302), the two U-shaped plates (303) are fixedly connected with the bearing plate (301), all be equipped with on two U shaped plate (303) and move tooth (310), two second gear (304) set up respectively at the both ends of rotary rod (305) and with the meshing of the removal tooth (310) on U shaped plate (303), first place board (307) and set up the top at rotary rod (305), the one end and the rotary rod (305) of bevel gear group (306) are connected, the other end and the output of second motor (308) of bevel gear group (306) are connected, second base (309) are the vertical state and set up the first top of placing board (307), second motor (308) set up on second base (309).

7. The vertical detection device for building engineering according to claim 6, wherein the horizontal movement mechanism (4) comprises a second placing plate (401) and two lead screw sliding tables (402), the second placing plate (401) is arranged above the two vertical movement plates (302), the two lead screw sliding tables (402) are symmetrically arranged on the second placing plate (401), and the working ends of the two lead screw sliding tables (402) are connected with the detection mechanism (5).

8. The building engineering vertical detection device according to claim 7, wherein the detection mechanism (5) comprises a third placing plate (501), a third fixed hollow column (502), a spring (503), two second fixed hollow columns (504), two moving rods (505), a detection rod (506), a detection plate (507), a detection line (508) and a detection connection plate (509), the third placing plate (501) is arranged on the working end of the screw rod sliding table (402), the third fixed hollow column (502) is arranged on the third placing plate (501), the two second fixed hollow columns (504) are arranged on the third placing plate (501) and located on two sides of the third fixed hollow column (502), the two moving rods (505) are respectively arranged in the second fixed hollow columns (504), the spring (503) is arranged in the third fixed hollow column (502), the two ends of the detection rod (506) are respectively connected with the moving rods (505), the detection connecting plate (509) is arranged on the third placing plate (501) and located below the detection rod (506), the detection line (508) is arranged on the detection connecting plate (509) and corresponds to the working end of the detection rod (506), the detection plate (507) is arranged on the working ends of the two moving rods (505), the spring (503) is connected with the detection rod (506), the third placing plate (501) is used for placing the third fixed hollow column (502), the second fixed hollow column (504) and the detection connecting plate (509) in a universal mode.

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