CN111912904A

CN111912904A - Building engineering decoration part detection structure

Info

Publication number: CN111912904A
Application number: CN202010661166.3A
Authority: CN
Inventors: 谭祖佳; 杨伟; 林志
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-07-10
Filing date: 2020-07-10
Publication date: 2020-11-10
Anticipated expiration: 2040-07-10
Also published as: CN111912904B

Abstract

The invention discloses a detection structure of decorative parts of building engineering, which comprises an electric guide rail base, wherein movable supporting pieces which can be adjusted horizontally are arranged at four corners of the electric guide rail base, a detection mechanism which is fully contacted with floor tiles to automatically detect and use the hollowing accurately is arranged on the electric guide rail base, and a positioning piece which is used for detecting and using the stable position of the device is arranged at the outer side of the electric guide rail base, so that the detection structure of the decorative parts of the building engineering is different from the prior art, and further, in the real-time detection process of decorative floor tiles of the building engineering, the hollowing degree of the floor tiles can be automatically, accurately and efficiently detected, the detection mode of the single-point striking of a traditional manual sound drum hammer is abandoned, the hollowing degree detection and the use of large-area decorative floor tiles are particularly and effectively facilitated, the labor intensity of workers is effectively lightened, and the real-time, and the detection is uninterrupted, and the detection efficiency is ensured.

Description

Building engineering decoration part detection structure

Technical Field

The invention relates to the technical field of detection of building decoration parts, in particular to a detection structure of a building engineering decoration part.

Background

The building decoration is a short term of building decoration engineering, is to protect the main structure of the building, improve the physical performance, use function and beautify the building, adopts the decoration material or ornament to carry out various processing processes to the inner surface and the outer surface of the building and the space, is an indispensable part in the life of people, is an important friend of human taste life and taste life, and the decoration material can be divided into two parts of outdoor material and indoor material.

And as interior decoration material's various decoration ceramic tile, it is in order to guarantee the fitment quality after the building decoration, mostly all need detect it, nevertheless detect to the ceramic tile hollowing mostly still stop in artifical the detection, generally strike one piece of ceramic tile through making a sound the drum hammer during hollowing detection, rely on hollow sound to judge, especially when examining to the dress of relatively great area, it is many to detect the number of times like this, lead to the detection work troublesome, and manual work is big, high in labor strength, both influenced real-time convenient ceramic tile fitment and detected, also caused very big burden for the staff, in addition when local ceramic tile hollowing is not obvious, still easy misjudgement, influence the accurate detection of decorating the ceramic tile, for this reason, we provide a building engineering decoration part and detect the structure.

Disclosure of Invention

The invention aims to provide a detection structure for decorative parts in constructional engineering, which aims to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a detection structure for decorative parts of building engineering comprises an electric guide rail base, wherein movable support pieces which can be adjusted horizontally are arranged at four corners of the electric guide rail base, a detection mechanism which is fully contacted with floor tiles to automatically and accurately detect hollowing is arranged on the electric guide rail base, a positioning piece for detecting a stable position of the device is arranged on the outer side of the electric guide rail base, the detection structure is different from the prior art, and further can automatically, accurately and efficiently detect the hollowing degree of the floor tiles in the real-time detection process of decorative floor tiles of building engineering, and abandons the detection mode of single-point striking of a traditional sound drum hammer, thereby being particularly convenient for detecting the hollowing degree of large-area decorative floor tiles, effectively lightening the labor intensity of workers, leading the real-time detection work to be more humanized, detecting uninterruptedly and ensuring the detection efficiency, simultaneously can also carry out effectual measuring to the roughness of ceramic tile in step, guarantee that the high-efficient accurate detection of fully provided decoration ceramic tile uses.

Preferably, electronic guide rail base top is fixed with the spirit level, remove support piece including fixing the fixed sleeve in electronic guide rail base bottom, the lifting screw that extends to the fixed sleeve outside is installed to fixed sleeve bottom screw thread, the lifting screw bottom mounting has the auto-lock universal wheel, guarantees the holistic horizontality of device to the real-time detection of accurate hollowing degree and straightness uses.

Preferably, the setting element is including fixing the installation sleeve in electronic guide rail base both ends both sides respectively, equal threaded mounting has the tight position screw rod that extends to the installation sleeve outside in the installation sleeve, tight position screw rod end fixing has and is used for making things convenient for tight position screw rod to grip the piece that grips that rotational positioning used in real time to carry out stable location to the device, and then guarantee its stability in the real-time testing process, guarantee stable accurate detection and use.

Preferably, detection mechanism is including fixing the mounting panel in electronic guide rail base bottom, the mounting panel bottom is fixed with flexible deflection connecting piece, and installs the loading board below through flexible deflection connecting piece, the loading board bottom is fixed with and is used for fully contacting with the ceramic tile and synchronous vibrations's vibrations determine module, install on the loading board and be used for the ceramic tile to strike the sound drum that detects the use and strike the piece, and the loading board outside is fixed with automatic marking mechanism to carry out accurate real-time hollowness and detect, guarantee to decorate the automatic high-efficient detection of ceramic tile and use.

Preferably, the telescopic deflection connecting piece comprises an electric push rod fixed at the bottom of the mounting plate, a first universal ball shaft is fixed at the output end of the electric push rod, the electric push rod is movably connected with the bearing plate through the first universal ball shaft, a plurality of reinforcing pieces with two ends fixed with the mounting plate and the bearing plate respectively are uniformly arranged on the outer side of the electric push rod, each reinforcing piece comprises two deflection telescopic rods fixed on one side of the mounting plate and the bearing plate opposite to each other and a second universal ball shaft used for deflection connection of the two deflection telescopic rods, and stable deflection can be synchronously realized in the real-time pressing process through the telescopic deflection connecting piece, so that the electric push rod can be fully contacted with the floor tiles in parallel, and the real-time detection precision can be.

Preferably, the vibration detection assembly comprises an elastic connecting piece fixed at the bottom of the bearing plate, a synchronous contact vibration plate is installed below the bearing plate through the elastic connecting piece, a vibration sensor is fixed on the synchronous contact vibration plate, pressure detection units used for monitoring whether the synchronous contact vibration plate is in full contact with the floor tiles in parallel are arranged on two sides of the bottom of the bearing plate, and the vibration detection assembly is used for following synchronous vibration of the floor tiles and carrying out accurate real-time detection on the hollow drum degree of the floor tiles through vibration.

Preferably, elastic connection spare includes a plurality of vertical telescopic links and vibrations spring, vertical telescopic link and vibrations spring both ends are equallyd divide and are do not fixed with loading board and synchronous contact vibrations board, guarantee real-time elastic connection and use to synchronous vibrations and the abundant contact of deflection.

Preferably, the pressure detection unit comprises a directional telescopic rod fixed at the bottom of the bearing plate, a pressure sensor is fixed at the bottom end of the directional telescopic rod, a compression spring with two ends respectively contacted with the bearing plate and the pressure sensor is sleeved outside the directional telescopic rod, the pressure sensor penetrates through the synchronous contact vibration plate in a sliding manner, and the real-time contact compression state of the synchronous contact vibration plate can be detected through the pressure detection unit, so that the parallel full contact of the pressure sensor and the floor tile is ensured, and the real-time synchronous compression state of the pressure detection unit can be used for synchronous and efficient detection of the parallelism of the floor tile.

Preferably, the sounding drum knocking piece comprises a sounding drum shaft which is simultaneously in sliding penetrating through the bearing plate and the synchronous contact vibration plate and has rotary limiting capacity, a top plate is fixed to the top end of the sounding drum shaft, a tension spring is sleeved on the outer side of the sounding drum shaft, two ends of the tension spring are fixed to the top plate and the bearing plate respectively, a driving motor is fixed to the bearing plate, the output end of the driving motor is fixed with a cam which is used for periodically pushing the top plate to drive the sounding drum shaft to lift and knock so as to effectively and nondestructively knock the floor tile, and vibration is guaranteed so as to be used for real-time synchronous detection.

Preferably, the bearing plate bottom is fixed with strengthens guide sleeve, the drum axle slides and runs through and strengthens guide sleeve to improve the stability of knocking the in-process in real time, guarantee to stably knock vibrations and detect the use.

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

compared with the prior art, the detection method is capable of automatically, accurately and efficiently detecting the hollowness of the floor tiles in the real-time detection process of the decorative floor tiles in the building engineering, abandons the traditional detection mode of manually using a drum hammer to knock at a single point, is especially convenient for the hollowness detection of large-area decorative floor tiles, effectively reduces the labor intensity of workers, enables the real-time detection work to be more humanized, realizes continuous detection, ensures the detection efficiency, can synchronously and effectively detect the flatness of the floor tiles, and ensures that the efficient and accurate detection of the decorative floor tiles is fully met.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic structural diagram of a detecting mechanism according to the present invention;

FIG. 3 is a schematic view of another embodiment of the present invention;

FIG. 4 is an enlarged view of a portion of FIG. 3 according to the present invention;

FIG. 5 is an enlarged view of the area A of the present invention;

FIG. 6 is an enlarged view of the region B of the present invention;

FIG. 7 is an enlarged view of the region C according to the present invention.

In the figure: 1-an electric guide rail base; 2-moving the support; 3-a detection mechanism; 4-a positioning element; 5-a level meter; 6-fixing the sleeve; 7-lifting screw; 8-self-locking universal wheel; 9-installing a sleeve; 10-tightening the screw rod; 11-a grip; 12-a mounting plate; 13-telescoping yaw linkage; 14-a carrier plate; 15-a shock detection assembly; 16-drum strike; 17-an automatic marking mechanism; 18-an electric push rod; 19-a first universal ball shaft; 20-a reinforcement; 21-deflecting the telescopic rod; 22-a second cardan ball shaft; 23-an elastic connector; 24-synchronized contact vibrator plate; 25-a vibration sensor; 26-a pressure detection unit; 27-longitudinal telescopic rods; 28-a vibrating spring; 29-orienting the telescoping rod; 30-a pressure sensor; 31-a compression spring; 32-drum shaft; 33-a top plate; 34-an extension spring; 35-a drive motor; 36-a cam; 37-reinforcing the guide sleeve.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-7, the present invention provides a technical solution: a detection structure for decorative parts of building engineering comprises an electric guide rail base 1, wherein the electric guide rail base 1 comprises a transverse guide rail and two longitudinal guide rails, the two longitudinal guide rails are horizontally arranged, two ends of the two longitudinal guide rails are fixed through reinforcing plates, the transverse guide rail is fixed on the longitudinal guide rails and longitudinally shifts through the longitudinal guide rails, the transverse guide rails meet the requirement of transverse shifting, the electric guide rail technology is adopted, and further the electric guide rail base 1 is of a detachable assembly structure so as to facilitate the movement and transportation of the electric guide rail base, and redundant description is omitted;

the utility model discloses a detection method, including electronic guide rail base 1, electric guide rail base 1, adjustable horizontally's removal support piece 2 is all installed to the four corners position on the electronic guide rail base 1, and is provided with on the electronic guide rail base 1 and is used for fully contacting with the ceramic tile and detect detection mechanism 3 that uses with automatic accurate hollowing that carries out, the electronic guide rail base 1 outside is provided with and is used for installing setting element 4 that stable position detected and uses to be distinguished from prior art, and then decorate the in-process that the ceramic tile detected at real-time building engineering, can detect the hollowing degree of ceramic tile automatically and accurately efficient, has abandoned the detection mode that traditional manual work used the single-point of sound drum hammer to strike, and especially effective convenient large tracts of land decoration ceramic tile's hollowing degree detects and uses, has effectively alleviateed.

The top of the electric guide rail base 1 is fixedly provided with a level meter 5, the level meter 5 is designed by adopting the structure of the prior art, the movable support piece 2 comprises a fixed sleeve 6 fixed at the bottom of the electric guide rail base 1, the fixed sleeve 6 is of a circular sleeve structure but is not limited, a lifting screw 7 extending to the outer side of the fixed sleeve 6 is installed at the bottom of the fixed sleeve 6 in a threaded manner, the bottom end of the lifting screw 7 is fixedly provided with a self-locking universal wheel 8, the self-locking universal wheels 8 are respectively locked in the real-time use process and are used for ensuring the whole movable use of the electric guide rail base 1 and the device, and the spiral lifting of the lifting screw 7 in the fixed sleeve 6 is realized in the real-time detection use process so as to drive the self-locking universal wheels 8 to independently lift, thereby effectively adjusting the level of the electric guide.

The setting element 4 is including fixing the installation sleeve 9 in 1 both ends both sides of electronic guide rail base respectively, and is same, and installation sleeve 9 is but not limited to circular sleeve structure, equal threaded mounting has the tight position screw rod 10 that extends to the installation sleeve 9 outside in the installation sleeve 9, tight position screw rod 10 end fixing has and is used for making things convenient for tight position screw rod 10 to grip the piece 11 that grips that rotational positioning used in real time, and the piece 11 that grips is the handle but not limited to, and then in the real-time removal use of electronic guide rail base 1, through the rotation of the piece 11 that grips to order about tight position screw rod 10 spiral displacement, thereby drive the piece 11 that grips and remove, and then extrude through the contact of the piece 11 with the wall, in order to carry out real-time convenient and effectual location to electronic guide rail base 1, guarantee stable detection and use.

The detection mechanism 3 comprises a mounting plate 12 fixed at the bottom of the electric guide rail base 1, the mounting plate 12 is a polygonal hollow plate structure but not limited, a telescopic deflection connecting piece 13 is fixed at the bottom of the mounting plate 12, a bearing plate 14 is installed below the mounting plate 12 through the telescopic deflection connecting piece 13, the bearing plate 14 is a rectangular plate structure but not limited, a vibration detection assembly 15 for fully contacting with floor tiles and synchronously vibrating is fixed at the bottom of the bearing plate 14, a drum knocking piece 16 for floor tile knocking detection is installed on the bearing plate 14, an automatic marking mechanism 17 is fixed at the outer side of the bearing plate 14, the automatic marking mechanism 17 is designed by adopting the prior art structure, and particularly, the automatic marking machine disclosed in patent application No. CN201720836901.3 can be used, wherein the automatic marking principle and the real-time mode are carried in detail, and the automatic marking after the detection of the empty drum floor tiles is realized only by the automatic marking machine, when the hollowing of the floor tiles is detected, the floor tiles are automatically marked again for subsequent treatment, and when the floor tiles are used in real time, the telescopic deflection connecting pieces 13 are stretched to drive the bearing plates 14 to be pressed downwards, and in the process of pressing the bearing plate 14 down, the vibration detection assembly 15 is contacted with the floor tile and continuously deflects and presses down through the telescopic deflection connecting piece 13 until the vibration detection assembly 15 is fully contacted with the floor tile level, at this time, the rattle drum knocking piece 16 knocks the floor tile, when the floor tile is empty, the floor tile vibrates obviously and drives the vibration detection component 15 to vibrate synchronously, so that through the detection of vibration intensity, further detecting whether the floor tile has a hollowing phenomenon, if so, automatically marking the position, if not, the automatic guide rail base moves the mounting plate 12 together with the structures fixed thereon to the position of the next floor tile, and the detection is repeated to effectively facilitate the hollowing detection work of the decorative floor tile.

The telescopic deflecting connecting piece 13 comprises an electric push rod 18 fixed at the bottom of the mounting plate 12, preferably, the model of XTL50, a first universal ball shaft 19 is fixed at the output end of the electric push rod 18, the electric push rod 18 is movably connected with the bearing plate 14 through the first universal ball shaft 19, a plurality of reinforcing pieces 20 with two ends respectively fixed with the mounting plate 12 and the bearing plate 14 are uniformly arranged outside the electric push rod 18, each reinforcing piece 20 comprises two deflecting telescopic rods 21 respectively fixed at one opposite sides of the mounting plate 12 and the bearing plate 14 and a second universal ball shaft 22 used for deflecting and connecting the two deflecting telescopic rods 21, so as to ensure the stability of the mounting and use of the bearing plate 14 and further improve the detection precision, during the real-time use, the electric push rod 18 is used for pushing the bearing plate 14 to press down, and during the continuous pressing down of the bearing plate 14, when the floor tile inclines, the vibration detection assembly 15 fixed below the bearing plate 14, and in the process of continuously pushing the electric push rod 18, the bearing plate 14 continuously deflects through the first universal ball shaft 19 until the vibration detection assembly 15 is in parallel and fully contacted with the floor tile, so as to ensure accurate hollowing detection.

The vibration detection assembly 15 comprises an elastic connector 23 fixed at the bottom of the bearing plate 14, a synchronous contact vibration plate 24 is installed below the bearing plate 14 through the elastic connector 23, similarly, the synchronous contact vibration plate 24 is of a rectangular plate structure but is not limited, pressure detection units 26 for monitoring whether the synchronous contact vibration plate 24 is in parallel and sufficiently contacted with the floor tile for use are arranged at two sides of the bottom of the bearing plate 14, a vibration sensor 25 is fixed on the synchronous contact vibration plate 24, the vibration sensor 25 adopts an inertial type mechanical vibration meter, the vibration meter is contacted with the floor tile and synchronously vibrates to realize vibration detection, the model of SCM-C is preferred, further, the pressure detection units 26 are preferably two but not limited, and can be four or more, so as to detect and ensure that the synchronous contact vibration plate 24 is in parallel and sufficient contact with the floor tile, and further in the real-time use process, the elastic connector 23 is used to ensure the synchronous contact vibrator panel 24 to be in full contact with the floor tile, and during the continuous contact, the pressure detecting unit 26 can determine whether the synchronous contact vibrator panel is in full contact with the floor tile.

Elastic connection piece 23 includes a plurality of vertical telescopic links 27 and vibrations spring 28, vertical telescopic link 27 and vibrations spring 28 both ends are equallyd divide and are do not fixed with loading board 14 and synchronous contact vibrations board 24 to through the real-time elastic action of vibrations spring 28, guarantee the elastic contact of synchronous contact vibrations board 24, and through the setting of vertical telescopic link 27, use with the vertical vibrations of guaranteeing its stability, in order to ensure to detect the precision.

The pressure detection unit 26 comprises a directional telescopic rod 29 fixed at the bottom of the bearing plate 14, a pressure sensor 30 is fixed at the bottom end of the directional telescopic rod 29, the pressure sensor 30 realizes real-time pressure detection through an HX711 module, a compression spring 31 with two ends respectively contacted with the bearing plate 14 and the pressure sensor 30 is sleeved outside the directional telescopic rod 29, the pressure sensor 30 slides through the synchronous contact vibration plate 24, the pressure sensor 30 is contacted and extruded with the floor tile in the real-time deflection contact process of the synchronous contact vibration plate 24 and the floor tile, the compression spring 31 is used for providing the elastic displacement capability of the sensor in the tower, when all the pressure sensors 30 detect pressure values, the synchronous contact vibration plate 24 is fully contacted with the floor tile in parallel, and the real-time vibration degree of the floor tile is accurately detected through directional vibration thereof, thereby ensuring the accurate detection and use of the real-time hollowing degree of the floor tile;

further, in the real-time pressing contact pressure measurement process of the pressure detection unit 26, the real-time flatness of the floor tiles can be synchronously detected by detecting whether all the pressure sensors 30 are synchronously pressed, so that whether the floor tiles are inclined or not can be synchronously detected, and the high efficiency of the decorative floor tiles can be ensured.

The drum knocking member 16 comprises a drum shaft 32 which is capable of rotating and limiting and penetrates through the bearing plate 14 and the vibration plate 24 synchronously, a top plate 33 is fixed at the top end of the drum shaft 32, the top plate 33 is of a rectangular plate structure but is not limited, an extension spring 34 is sleeved outside the drum shaft 32, two ends of the extension spring are respectively fixed with the top plate 33 and the bearing plate 14, a driving motor 35, preferably Y80M1-2 type, is fixed on the bearing plate 14, a cam 36 used for periodically pushing the top plate 33 to drive the drum shaft 32 to lift and knock is fixed at the output end of the driving motor 35, and further, in the real-time use process, the driving motor 35 continuously rotates to drive the cam 36 to rotate continuously, and the cam 36 continuously pushes the top plate 33 to the highest position and simultaneously stretches the extension spring 34, then the top plate 33 is separated from the cam 36, and the top plate 33 is pulled to descend by the real-time elasticity of the extension spring 34, the floor tiles are knocked to drive the floor tiles to vibrate, and the floor tiles with different hollowness degrees vibrate in different real-time degrees, so that the vibration sensor 25 is matched to finish the efficient automatic detection of the floor tiles.

The bottom of the bearing plate 14 is fixed with a reinforcing guide sleeve 37, the reinforcing guide sleeve 37 is of a polygonal sleeve structure but is not limited, the drum sounding shaft 32 penetrates through the reinforcing guide sleeve 37 in a sliding mode, and therefore in the real-time use process, the stability of the drum sounding shaft 32 in the real-time use process is effectively improved through the arrangement of the reinforcing guide sleeve 37, and stable knocking and vibrating use is guaranteed.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a building engineering decoration part detects structure, includes electronic guide rail base (1), its characterized in that: the adjustable level removes support piece (2) all installed to four corners position on electric guide rail base (1), and is provided with on electric guide rail base (1) and is used for detecting detection mechanism (3) that use with the automatic accurate hollowing that carries out with the ceramic tile fully contact, electric guide rail base (1) outside is provided with and is used for installing stable position to detect setting element (4) that use.

2. The inspection structure of a decorative part for construction engineering according to claim 1, wherein: electronic guide rail base (1) top is fixed with spirit level (5), remove support piece (2) including fixing fixed sleeve (6) in electronic guide rail base (1) bottom, fixed sleeve (6) bottom screw thread is installed and is extended to lifting screw (7) in the fixed sleeve (6) outside, lifting screw (7) bottom mounting has auto-lock universal wheel (8).

3. The inspection structure of a decorative part for construction engineering according to claim 2, wherein: the utility model discloses a motor-driven guide rail base, including the setting element (4) install the screw rod (10) that tightly, the setting element (9) are including fixing respectively in electric guide rail base (1) both ends both sides, equal threaded mounting has the position screw rod (10) that tightly that extend to the installation sleeve (9) outside in installation sleeve (9), tightly position screw rod (10) end fixing has and is used for conveniently tightly position screw rod (10) to grip in real time the piece (11) that grips that rotational positioning used.

4. The inspection structure of a decorative part for construction engineering according to claim 3, wherein: detection mechanism (3) are including fixing mounting panel (12) in electronic guide rail base (1) bottom, mounting panel (12) bottom is fixed with flexible deflection connecting piece (13), and mounting panel (12) below through flexible deflection connecting piece (13) install loading board (14), loading board (14) bottom is fixed with and is used for fully contacting with the ceramic tile and synchronous vibrations's vibrations detection subassembly (15), install on loading board (14) and be used for the ceramic tile to strike and detect the drum of sounding that uses and strike piece (16), and loading board (14) outside is fixed with automatic marking mechanism (17).

5. The inspection structure of a decorative part for construction engineering according to claim 4, wherein: flexible deflection connecting piece (13) is including fixing electric putter (18) in mounting panel (12) bottom, electric putter (18) output end fixed first universal ball axle (19), and electric putter (18) through first universal ball axle (19) and loading board (14) swing joint, electric putter (18) outside evenly is provided with a plurality of both ends respectively with mounting panel (12) and loading board (14) fixed reinforcement (20), reinforcement (20) include two fix respectively at mounting panel (12) and loading board (14) relative one side deflection telescopic link (21) and be used for two deflection telescopic links (21) to deflect second universal ball axle (22) of connecting.

6. The inspection structure of a decorative part for construction engineering according to claim 5, wherein: the vibration detection assembly (15) comprises an elastic connecting piece (23) fixed to the bottom of the bearing plate (14), a synchronous contact vibration plate (24) is installed below the bearing plate (14) through the elastic connecting piece (23), a vibration sensor (25) is fixed to the synchronous contact vibration plate (24), and pressure detection units (26) used for monitoring whether the synchronous contact vibration plate (24) is in parallel full contact with the floor tiles or not are arranged on two sides of the bottom of the bearing plate (14).

7. The inspection structure of a decorative part for construction engineering according to claim 6, wherein: elastic connection spare (23) include a plurality of vertical telescopic link (27) and vibrations spring (28), vertical telescopic link (27) and vibrations spring (28) both ends are equallyd divide and are do not fixed with loading board (14) and synchronous contact vibrations board (24).

8. The inspection structure of a decorative part for construction engineering according to claim 7, wherein: the pressure detection unit (26) comprises a directional telescopic rod (29) fixed at the bottom of the bearing plate (14), a pressure sensor (30) is fixed at the bottom end of the directional telescopic rod (29), a compression spring (31) with two ends respectively contacted with the bearing plate (14) and the pressure sensor (30) is sleeved on the outer side of the directional telescopic rod (29), and the pressure sensor (30) penetrates through the bearing plate (14) in a sliding mode and is synchronously contacted with the vibration plate (24).

9. The inspection structure of a decorative part for construction engineering according to claim 8, wherein: the drum beating part (16) comprises a drum beating shaft (32) which simultaneously slides to penetrate through a bearing plate (14) and a synchronous contact vibration plate (24) and has rotation limiting capacity, a top plate (33) is fixed at the top end of the drum beating shaft (32), an extension spring (34) is sleeved on the outer side of the drum beating shaft (32), two ends of the extension spring are respectively fixed with the top plate (33) and the bearing plate (14), a driving motor (35) is fixed on the bearing plate (14), and an output end of the driving motor (35) is fixed with a cam (36) which is used for periodically jacking the top plate (33) to drive the drum beating shaft (32) to ascend and descend for beating.

10. The inspection structure of a decorative part for construction engineering according to claim 9, wherein: a reinforcing guide sleeve (37) is fixed at the bottom of the bearing plate (14), and the drum shaft (32) penetrates through the reinforcing guide sleeve (37) in a sliding mode.