CN112432582A

CN112432582A - Internet-based detection device for construction engineering and detection method thereof

Info

Publication number: CN112432582A
Application number: CN202011227828.2A
Authority: CN
Inventors: 周雪源
Original assignee: Individual
Current assignee: Shandong Chengxin Engineering Construction Supervision Co ltd
Priority date: 2020-11-06
Filing date: 2020-11-06
Publication date: 2021-03-02
Anticipated expiration: 2040-11-06
Also published as: CN112432582B

Abstract

The invention discloses a detection device for building engineering based on the Internet and a detection method thereof, wherein the detection device comprises a tool box, an inclination angle measurement area, a flatness detection area, an inclination angle leveling area and a receiving rod, a box cover is connected to the rear wall of the tool box, three groups of partition plates are fixed inside the tool box, the inner space of the tool box is divided into three independent areas through the partition plates, namely an inclination angle measurement area, the flatness detection area and the inclination angle leveling area, wherein the inclination angle measurement area and the inclination angle leveling area are respectively positioned at two sides of the flatness detection area, a support rod is embedded inside the flatness detection area through a groove, the receiving rod is embedded inside the inclination angle leveling area through a clamping groove, a rotating rod penetrates through the support rod, and a wire rope is wound on the surface of the rotating rod. The device can carry out bevel angle measurement, flatness detection and slope flatness detection on the building through the arrangement of a series of components, and the functionality of the device is improved.

Description

Internet-based detection device for construction engineering and detection method thereof

Technical Field

The invention relates to the technical field of engineering detection, in particular to a detection device and a detection method for construction engineering based on the Internet.

Background

With the coming of the internet era and the supporting help of related policies, the internet economic development is more and more mature, some construction engineering projects are inevitably involved in the process of the internet economic development to ensure the transfer effect and the safety of internet communication and logistics storage, so that the detection of the related aspects on the construction engineering projects to ensure the construction quality of buildings and further ensure the stability of the internet economic operation process has great significance.

The existing building engineering detection device has the following defects:

the reference CN109211211A discloses an auxiliary device and an auxiliary method for building detection, and the auxiliary device comprises a base, a lifting mechanism, a rotating mechanism, a pressing mechanism, an installation mechanism and a roller, wherein the lifting mechanism is installed on one side of the top of the base, the rotating mechanism is installed on one side of the lifting mechanism, the pressing mechanism is installed on one side of the rotating mechanism, and the installation mechanism is installed on one side of the pressing mechanism; the periphery of the bottom of the base is provided with the rollers, so that the effect that the inclination angle cannot be measured exists in comparison with the base;

the comparison document CN109238130A discloses a door and window opening vertical detection device for building detection, which comprises a base rod, wherein an embedded groove is arranged in the middle of the front surface of the base rod, the position, close to the front surface of the base rod, of the inner surface of the embedded groove is movably connected with a rotatable mark post through a threaded rod and a trapezoidal bolt, the embedded groove is longer than the length of the rotatable mark post, and the effect that horizontal flatness detection cannot be carried out is achieved compared with the invention;

the reference document CN107741353A discloses a comprehensive hardness measuring instrument for building detection, which structurally comprises a dial gauge, a pad, a machine table, a multi-directional workbench, a support arm, a guide rail, a cross beam, a detection device, a positioning strip, an operation panel and a vacuum pump; the multi-azimuth workbench is composed of a shell, a guide groove, a moving shaft, a workbench, a vacuum suction hole, an operating rod and a vacuum suction pipe, in order to realize that the comprehensive hardness measuring instrument for building detection can detect whether the density of materials is uniformly distributed in a multi-azimuth mode, the multi-azimuth workbench is arranged at the middle position of a machine table and can enable the workbench to displace in a multi-azimuth mode through the moving shaft, the detection device can detect whether the density of the materials is uniformly distributed in a multi-azimuth mode through the cooperation of the multi-azimuth workbench, and measurement errors are reduced.

Disclosure of Invention

The invention aims to provide a detection device for building engineering based on the internet and a detection method thereof, so as to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a detection device for building engineering based on the Internet and a detection method thereof comprise a tool box, a box cover, an inclination angle measurement area, a flatness detection area, an inclination angle leveling area, a support rod and a receiving rod, wherein the rear wall of the tool box is movably connected with the box cover through a hinge, three groups of partition boards are fixed inside the tool box, the surfaces of the partition boards are fixed with binding belts, the inner space of the tool box is divided into three independent areas through the partition boards, the three independent areas are respectively the inclination angle measurement area, the flatness detection area and the inclination angle leveling area, the inclination angle measurement area and the inclination angle leveling area are respectively positioned at two sides of the flatness detection area, a groove is arranged inside the flatness detection area, the support rod is installed inside the flatness detection area through the groove in an embedded mode, a clamping groove is arranged inside the inclination angle leveling area, and the receiving rod is connected inside the inclination angle leveling area through the clamping groove in an embedded mode, the inside of branch runs through to be installed the bull stick, the surface winding of bull stick is installed the silk rope.

Preferably, the inside in angle of inclination measurement district is equipped with the recess, and angle of inclination measurement district's inside is connected with bottom plate and vacuum chuck through the recess gomphosis, and vacuum chuck is located the side top of bottom plate, and vacuum chuck can realize removable assecmbly with the bottom plate through the inside gomphosis mouth of bottom plate, and folding disc and extension spring are installed at the top of bottom plate, and extension spring is located one side of folding disc, and folding disc is similar to a folding fan structure, and its surface is equipped with the calibrated scale, and folding disc's top is connected with and supports the board, supports the bottom surface of board and is connected with extension spring's top.

Preferably, the inside of roughness detection zone is connected with the dead lever through the recess gomphosis, and the dead lever is located the below of branch, installs the reel around the top of dead lever respectively, and the internally mounted of reel has the horizontal pole, and the surface of horizontal pole is connected with the one end winding of silk rope.

Preferably, the inner wall of the supporting rod is provided with a backing plate, the top of the backing plate is provided with a pulley, and one end of the rotating rod, which is positioned outside the supporting rod, is fixed with a nut handle.

Preferably, the inside of bevel leveling district is connected with the bracing piece through the draw-in groove gomphosis, and the inside of bracing piece is run through and is installed infrared laser pen, and the surface of infrared laser pen is equipped with button cell jar.

Preferably, an infrared receiving disc is fixed to the top of the receiving rod, a center position of the infrared receiving disc is set to be a central area disc, a deviation area disc is arranged on the surface of the infrared receiving disc, the deviation area disc and the central area disc are designed to be concentric circles, and a threaded sleeve is welded to the bottom of the receiving rod.

Preferably, the surface of the silk rope is sleeved with a circular ring, the diameter of the circular ring is larger than that of the silk rope, and an A-shaped clamp is clamped on the surface of the silk rope.

Preferably, the front of toolbox is installed handle and gomphosis piece, and the gomphosis piece is located the both sides of handle, and the top surface of gomphosis piece is equipped with the entrance to a cave, and the welding of the inside diapire of gomphosis piece has compression spring, and the top of compression spring extends the inside of gomphosis piece through the entrance to a cave, and compression spring's top is connected with the card slat.

Preferably, the inside mounting of case lid has the sponge rubber pad, and the front of sponge rubber pad is fixed with the illumination lamp plate, and the both sides surface connection of sponge rubber pad has the bandage.

Preferably, the detection device comprises the following working steps:

s1, when the device is used for detecting Internet related building engineering, firstly the box cover is opened, then the illuminating lamp panel inside the box cover is taken out, the sponge rubber pad on the back of the illuminating lamp panel is attached to the forehead of a detector, and the illuminating lamp panel is fixed by the binding band, so that the illuminating requirement in the detection process of the device is met;

s2, taking out the vacuum chuck, embedding the vacuum chuck into the bottom plate, fixing the vacuum chuck on the surface of the building to be detected, after the bottom plate is fixed, stretching the upper surface of the resisting plate to the oblique angle surface of the building to be detected, driving the folding plate to perform corresponding stretching treatment, obtaining the size of the oblique angle of the building through the surface scale of one side of the folding plate close to the resisting plate, then restoring the oblique angle by using a stretching spring, and finishing the oblique angle measuring work of the device;

s3, taking out the supporting rods and the fixing rods, arranging the four supporting rods in the device into a rectangular structure by taking the fixing rods as centers to form a five-point positioning structure, then connecting the four shaft discs at the tops of the fixing rods and pulleys at the tops of the four supporting rods by using a wire rope to form a net structure, releasing the A-shaped clamps on the surfaces of the wire rope, and observing the moving direction of the circular rings to measure the flatness of the surfaces of buildings;

s4, taking out the supporting rod and the receiving rod, connecting the supporting rod and the resisting rod by using a threaded sleeve at the bottom of the receiving rod, fixing the receiving rod on the inclined surface of the building after the receiving rod is fixed, fixing the bottom of the supporting rod on the inclined surface of the building, wherein a certain distance exists between the supporting rod and the inclined surface, and opening the infrared laser pen;

s5, after the building is correspondingly inclined angle detection, horizontal plane flatness detection and inclined surface flatness detection, the device is disassembled one by one, the groove inside the tool box is placed back, the binding bands are disassembled after the clamping groove is formed, the illuminating lamp panel is placed back to the inside of the box cover, the box cover is closed, the annular handle on the surface of the box cover is buckled on the surface of the clamping strip plate, the sealing treatment of the box body is achieved, the device is lifted through the carrying handle, and the portable transfer of the device can be achieved.

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

1. according to the invention, the oblique angle detection area is arranged, when the device is used for carrying out corresponding oblique angle detection work, the vacuum sucker is embedded into the bottom plate, the supporting plate is stretched until the vacuum sucker is attached to the oblique angle surface of a building, the folding plate can be synchronously stretched along with the stretching of the supporting plate in the process, a detector can detect whether the oblique angle construction of the building meets the requirement or not by observing the scales on the surface of the folding plate, and the supporting plate can be reset by using the stretching spring after the detection is finished, so that the storage is convenient.

2. The flatness detection module is formed by arranging the flatness detection area, the support rods and the wire ropes, the support rods and the fixed rods are taken out, the four support rods in the device are arranged into a rectangular structure by taking the fixed rods as the center, a five-point positioning structure is formed, then the four shaft discs at the tops of the fixed rods are connected with pulleys at the tops of the four support rods by the wire ropes, an A-shaped clamp on the surface of the wire ropes is released after a net-shaped structure is formed, when the surface of the device is not horizontal, the circular rings can slide under the action of gravity, and the flatness condition of the surface of a building can be measured by observing the movement direction of the circular rings;

3. the infrared laser pen is arranged on the building, the supporting rod and the receiving rod are taken out when the flatness of the inclined surface of the building is detected, the supporting rod and the receiving rod are connected with the abutting rod through the threaded sleeve at the bottom of the receiving rod, the receiving rod is fixed on the inclined surface of the building after the receiving rod is fixed, the bottom of the supporting rod is fixed on the inclined surface of the building, a certain distance exists between the supporting rod and the abutting rod, the infrared laser pen is opened, the emitting height of the infrared laser pen is equal to the height of the center of the infrared receiving disc, and the horizontal condition of the inclined surface of the building can be detected and judged by observing the area of the infrared laser point falling on the surface of the infrared receiving disc.

Drawings

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

FIG. 2 is a schematic view of a fitting block according to the present invention;

FIG. 3 is a schematic view of a tilt angle measuring section according to the present invention;

FIG. 4 is a partial schematic view of a retaining rod and wire rope according to the present invention;

FIG. 5 is a schematic view of a support bar according to the present invention;

FIG. 6 is a schematic view of a strut structure according to the present invention;

FIG. 7 is a schematic view of a receiving rod according to the present invention;

fig. 8 is a schematic diagram of the working structure of the flatness detection area according to the present invention.

In the figure: 1. a tool box; 101. a carrying handle; 102. a fitting block; 103. a hole; 104. a compression spring; 105. a lath clamping plate; 2. a box cover; 201. binding bands; 202. a lighting lamp panel; 203. a sponge rubber pad; 3. a tilt angle measurement zone; 301. a vacuum chuck; 302. a base plate; 303. folding the tray; 304. an extension spring; 305. a resisting plate; 4. a flatness detection area; 401. fixing the rod; 402. a reel; 5. leveling the bevel; 501. an infrared laser pen; 502. a button battery jar; 503. a support bar; 6. a separator plate; 7. a strut; 701. a rotating rod; 702. a nut handle; 703. a pulley; 704. a base plate; 8. a silk rope; 801. a circular ring; 802. a-shaped clips; 9. a receiving rod; 901. a central area disk; 902. a deviation area disc; 903. an infrared receiving panel; 904. and (4) a threaded 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.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "front", "rear", "both ends", "one end", "the other end", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" 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 is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "connected," and the like are to be construed broadly, such as "connected," which may be fixedly connected, detachably connected, or integrally connected; 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. 1-8, an embodiment of the present invention: a detection device for building engineering based on Internet and a detection method thereof, comprises a tool box 1, a box cover 2, an inclination angle measurement area 3, a flatness detection area 4, an inclination angle leveling area 5, a support rod 7 and a receiving rod 9, wherein the rear wall of the tool box 1 is movably connected with the box cover 2 through hinges, the tool box 1 and the box cover 2 can form a closed box body to provide protection for installation of related components in the device, three groups of partition plates 6 are fixed in the tool box 1, binding belts are fixed on the surfaces of the partition plates 6 to divide the interior of the tool box 1 into three independent functional subareas, so that the device can be conveniently used in a functional classification manner, the internal space of the tool box 1 is divided into three independent areas through the partition plates 6, namely the inclination angle measurement area 3, the flatness detection area 4 and the inclination angle leveling area 5, wherein the inclination angle measurement area 3 and the inclination angle leveling area 5 are respectively positioned at two sides of the flatness detection area 4, the inclination angle measuring area 3 can assist the device to perform corresponding inclination angle detection, the flatness detection area 4 can assist the device to perform horizontal flatness detection of a building, the inclination angle leveling area 5 can assist the device to perform the flatness detection of an inclined plane of the building, so that the functionality of the device is improved, a groove is arranged inside the flatness detection area 4, a support rod 7 is installed inside the flatness detection area 4 through groove embedding and can be matched with the flatness detection area 4 to form a flatness detection module, the auxiliary device performs five-point positioning to perform horizontal flatness detection work, a clamping groove is arranged inside the inclination angle leveling area 5, a receiving rod 9 is connected inside the inclination angle leveling area 5 through clamping groove embedding and can form an inclination angle leveling module with the inclination angle leveling area 5, the auxiliary device performs the inclination angle leveling work, a rotating rod 701 is installed inside the support rod 7 in a penetrating mode and can provide a fixed installation position for winding of a wire rope 8, the surface of the rotating rod 701 is wound with a wire rope 8, whether the surface of a building is horizontal or not can be judged through the sliding of the surface ring 801, and the auxiliary device realizes corresponding flatness detection work.

The inside of the inclination angle measuring area 3 is provided with a groove, the inside of the inclination angle measuring area 3 is connected with a bottom plate 302 and a vacuum sucker 301 through the groove in an embedded manner, the vacuum sucker 301 is positioned above the side of the bottom plate 302, the vacuum sucker 301 can be detachably assembled with the bottom plate 302 through an embedded opening in the bottom plate 302, the top of the bottom plate 302 is provided with a folding plate 303 and an extension spring 304, the extension spring 304 is positioned on one side of the folding plate 303, the folding plate 303 is similar to a folding fan structure, the surface of the folding plate 303 is provided with a dial scale, the top of the folding plate 303 is connected with a resisting plate 305, the bottom end surface of the resisting plate 305 is connected with the top end of the extension spring 304, when the device is used for carrying out corresponding inclination angle detection work, the vacuum sucker 301 is embedded into the inside of the bottom plate 302, the resisting plate 305 is extended until being attached to an inclined angle surface of, whether the oblique angle construction of detection building whether reach the requirement can be detected to the scale on inspection folding tray 303 surface, and usable extension spring 304 will support board 305 to reset after the detection, conveniently accomodate.

The inside of roughness detection zone 4 is connected with dead lever 401 through the recess gomphosis, dead lever 401 is located the below of branch 7, the reel 402 is installed respectively all around at the top of dead lever 401, the internally mounted of reel 402 has the horizontal pole, the surface of horizontal pole is connected with the one end winding of silk rope 8, when the device carries out the roughness detection, can fix dead lever 401 on the surface of building, twine the one end of silk rope 8 in the horizontal pole that sinks in reel 402 afterwards, form five point location structure with branch 7 all around, but auxiliary device can carry out the roughness detection work of great area once, and then improve device's detection efficiency.

Backing plate 704 is installed to the inner wall of branch 7, and pulley 703 is installed at the top of backing plate 704, and the bull stick 701 is located the outside one end of branch 7 and is fixed with nut handle 702, through rotating nut handle 702, can drive bull stick 701 and rotate, and then can tighten the silk rope 8 of location through pulley 703, makes things convenient for the ring 801 on silk rope 8 surface to slide, carries out corresponding roughness detection achievement.

The inside of diagonal survey flat zone 5 is connected with bracing piece 503 through the draw-in groove gomphosis, the inside of bracing piece 503 runs through and installs infrared laser pen 501, infrared laser pen 501's surface is equipped with button cell groove 502, bracing piece 503 can provide the supporting role for infrared laser pen 501's horizontal installation, infrared laser pen 501 can outwards send infrared laser, because the laser is along rectilinear propagation, consequently can cooperate with infrared receiving disc 903, carry out the detection work of building slope roughness, and button cell groove 502 can be used to deposit button cell, provide the power supply for infrared laser pen 501.

An infrared receiving disc 903 is fixed at the top of the receiving rod 9, a central area disc 901 is arranged at the position of the center of the infrared receiving disc 903, a deviation area disc 902 is arranged on the surface of the infrared receiving disc 903, the deviation area disc 902 and the central area disc 901 are designed to be concentric circles, a threaded sleeve 904 is welded at the bottom of the receiving rod 9, the threaded sleeve 904 can assist the receiving rod 9 to be fixedly installed, so that stable installation of the infrared receiving disc 903 is ensured, when the infrared receiving disc 903 receives laser spot radiation of an infrared laser pen 501, a detector judges whether the inclined plane of a building is flat or not by observing whether the laser spot falls in the central area disc 901 or the deviation area disc 902, due to the lifting effect of the supporting rod 503, the emission height of the infrared laser pen 501 is equal to the height of the central area disc in the infrared receiving disc 903, if the inclined plane is flat, the laser spot falls in the central area disc 901, otherwise, the slope is judged to be uneven.

The surface cover of silk rope 8 is equipped with ring 801, and the diameter of ring 801 is greater than the diameter of silk rope 8, and the surface clamp of silk rope 8 holds A word clamp 802, and when the horizontal plane of waiting to detect the building is level inadequately, silk rope 8 can present the tilt state, and after A word clamp 802 on silk rope 8 surface was released, ring 801 lost the block, can slide along the surface slope of silk rope 8 because of the action of gravity to can judge the gradient distribution condition of waiting to detect building surface flatness.

The front surface of the tool box 1 is provided with a handle 101 and an embedding block 102, the embedding block 102 is positioned at two sides of the handle 101, the top surface of the embedding block 102 is provided with a hole 103, the bottom wall of the inside of the embedding block 102 is welded with a compression spring 104, the top of the compression spring 104 extends out of the inside of the embedding block 102 through the hole 103, the top of the compression spring 104 is connected with a clamping strip plate 105, before the detection operation is started, the card strip plate 105 inside the fitting block 102 is compressed downward to drive the compression spring 104 to contract, so that the card strip plate 105 can be separated from the hanging ring on the surface of the box cover 2, thereby facilitating the separation of the tool box 1 and the box cover 2, taking out the relevant components in the tool box 1 for detection, and after the detection of the device is finished, the components inside the device can be separated and then loaded into the tool box 1, the tool box 1 and the box cover 2 are closed, the lifting handle 101 can be lifted, and the portable transfer of the device is realized.

The internally mounted of case lid 2 has sponge rubber pad 203, the front of sponge rubber pad 203 is fixed with illumination lamp plate 202, the both sides surface connection of sponge rubber pad 203 has bandage 201, sponge rubber pad 203 can increase the frictional force between illumination lamp plate 202 and the measurement personnel head skin, bandage 201 can fix the lamp plate at measurement personnel's head, make it conveniently carry out corresponding lamp plate fixed operation, in addition because the requirement has certain light shading nature in the internet building use, when carrying out corresponding detection achievement to it, can provide detection illumination light for measurement personnel with the help of the inside lamp pearl of illumination lamp plate 202, make things convenient for it to carry out clear detection achievement.

The detection device comprises the following working steps:

s1, when the device is used for detecting Internet related building engineering, firstly the box cover 2 is opened, then the lighting lamp panel 202 inside the box cover 2 is taken out, the sponge rubber pad 203 on the back side of the lighting lamp panel is attached to the forehead of a detector, and the lighting lamp panel 202 is fixed by the binding band 201, so that the lighting requirement in the detection process of the device is met;

s2, taking out the vacuum chuck 301, embedding the vacuum chuck 301 into the bottom plate 302, fixing the vacuum chuck 301 on the surface of a building to be detected, after the bottom plate 302 is fixed, stretching the upper surface of the resisting plate 305 to the oblique angle surface of the building to be detected, driving the folding plate 303 to perform corresponding stretching treatment, obtaining the size of the oblique angle of the building through the surface scale of one side, close to the resisting plate 305, of the folding plate 303, then restoring the oblique angle by using the stretching spring 304, and finishing the oblique angle measuring work of the device;

s3, taking out the supporting rods 7 and the fixing rod 401, arranging four supporting rods 7 in the device into a rectangular structure by taking the fixing rod 401 as a center to form a five-point positioning structure, then connecting four shaft discs 402 at the top of the fixing rod 401 with pulleys 703 at the top of the four supporting rods 7 by using a silk rope 8 to form a net structure, releasing an A-shaped clamp 802 on the surface of the silk rope 8, and observing the moving direction of a circular ring 801 to measure the leveling condition of the surface of a building;

s4, taking out the supporting rod 503 and the receiving rod 9, connecting the supporting rod 503 and the resisting rod by using a threaded sleeve 904 at the bottom of the receiving rod 9, fixing the receiving rod 9 on the inclined surface of the building after the receiving rod 9 is fixed, fixing the bottom of the supporting rod 503 on the inclined surface of the building with a certain distance, and then opening the infrared laser pen 501, wherein the emission height of the infrared laser pen 501 is equal to the height of the center position of the infrared receiving disc 903, and the horizontal condition of the inclined surface of the building can be detected and judged by observing the area of the infrared laser point on the surface of the infrared receiving disc 903;

s5, after carrying out corresponding angle of inclination to the building and detecting, the level flatness detects and the roughness of inclined surface detects, dismantle the device one by one, place back the inside recess of toolbox 1, back in the draw-in groove, untie bandage 201, place illumination lamp plate 202 back the inside back of case lid 2, close case lid 2, utilize the annular handle lock on case lid 2 surface on the surface of card strip board 105, realize the sealing process back of box, mention this device through carrying handle 101, can realize the portable transfer of device.

The working principle is as follows: when the device is used for detecting Internet related building engineering, firstly, the box cover 2 is opened, then the illuminating lamp panel 202 in the box cover 2 is taken out, the sponge rubber pad 203 on the back surface of the illuminating lamp panel 202 is attached to the forehead of a detector, the illuminating lamp panel 202 is fixed by the binding band 201, so that the illuminating requirement in the detection process of the device is met, the vacuum sucker 301 is taken out and embedded into the bottom plate 302, then the vacuum sucker 301 is fixed on the surface of a building to be detected, after the fixing of the bottom plate 302 is completed, the upper surface of the abutting plate 305 is stretched to the oblique angle surface of the building to be detected, so that the folding plate 303 is driven to carry out corresponding stretching treatment, the size of the oblique angle of the building can be obtained through the surface scale on one side of the folding plate 303 close to the abutting plate 305, then the stretching spring 304 is used for restoring the building, the work of measuring the oblique angle of the device is finished, arranging four supporting rods 7 in the device into a rectangular structure by taking a fixed rod 401 as a center to form a five-point positioning structure, then connecting four shaft discs 402 at the top of the fixed rod 401 with pulleys 703 at the top of the four supporting rods 7 by using a wire rope 8 to form a net structure, releasing an A-shaped clamp 802 on the surface of the wire rope 8, measuring the flatness of the surface of a building by observing the moving direction of a circular ring 801, then taking out a supporting rod 503 and a receiving rod 9, connecting the supporting rod 503 and the receiving rod 9 with a resisting rod by using a threaded sleeve 904 at the bottom of the receiving rod 9, fixing the receiving rod 9 on the inclined surface of the building, then fixing the bottom of the supporting rod 503 on the inclined surface of the building with a certain distance, then opening an infrared laser pen 501, wherein the emitting height of the infrared laser pen 501 is equal to the central position height of the infrared receiving disc 903, through observing the region that infrared laser point falls on infrared receiving disk 903 surface, the horizontal situation of the inclined surface of building is judged to the detectable, carry out corresponding angle of inclination to the building and detect, the level flatness detects and the roughness on inclined surface detects the back, dismantle the device one by one, place back the inside recess of toolbox 1, back in the draw-in groove, disassemble bandage 201, place back 2 inside backs of case lid with illumination lamp plate 202, close case lid 2, utilize the annular handle lock on 2 surfaces of case lid at the surface of card strip board 105, realize the sealing treatment back of box, mention this device through carrying handle 101, can realize the portable transfer of device.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. The utility model provides a detection device for building engineering and detection method based on internet, includes toolbox (1), case lid (2), angle of inclination measuring zone (3), roughness detection zone (4), angle of inclination planimetric zone (5), branch (7) and receiving rod (9), its characterized in that: the rear wall of the tool box (1) is movably connected with a box cover (2) through a hinge, three groups of partition plates (6) are fixed inside the tool box (1), binding belts are fixed on the surfaces of the partition plates (6), the inner space of the tool box (1) is divided into three independent areas through the partition plates (6), namely an inclination angle measuring area (3), a flatness detecting area (4) and an inclination angle measuring area (5), wherein the inclination angle measuring area (3) and the inclination angle measuring area (5) are respectively positioned on two sides of the flatness detecting area (4), a groove is arranged inside the flatness detecting area (4), a supporting rod (7) is installed inside the flatness detecting area (4) through groove embedding, a clamping groove is arranged inside the inclination angle measuring area (5), a receiving rod (9) is connected inside the inclination angle measuring area (5) through embedding, the inside of branch (7) is run through and is installed bull stick (701), the surface winding of bull stick (701) is installed silk rope (8).

2. The internet-based detection device and method for construction engineering according to claim 1, wherein: the inside of angle of inclination measuring zone (3) is equipped with the recess, the inside of angle of inclination measuring zone (3) is connected with bottom plate (302) and vacuum chuck (301) through the recess gomphosis, vacuum chuck (301) are located the side top of bottom plate (302), vacuum chuck (301) can realize removable assecmbly with bottom plate (302) through the inside gomphosis mouth of bottom plate (302), folding tray (303) and extension spring (304) are installed to the top of bottom plate (302), extension spring (304) are located one side of folding tray (303), folding tray (303) are similar to the folding fan structure, its surface is equipped with the calibrated scale, the top of folding tray (303) is connected with and supports board (305), the bottom surface that supports board (305) is connected with the top of extension spring (304).

3. The internet-based detection device and method for construction engineering according to claim 1, wherein: the inside of roughness detection zone (4) is connected with dead lever (401) through recess gomphosis, and dead lever (401) are located the below of branch (7), installs reel (402) around the top of dead lever (401) respectively, and the internally mounted of reel (402) has the horizontal pole, and the surface of horizontal pole is connected with the one end winding of silk rope (8).

4. The internet-based detection device and method for construction engineering according to claim 1, wherein: a backing plate (704) is installed on the inner wall of the supporting rod (7), a pulley (703) is installed at the top of the backing plate (704), and a nut handle (702) is fixed at one end, located outside the supporting rod (7), of the rotating rod (701).

5. The internet-based detection device and method for construction engineering according to claim 1, wherein: the interior of the bevel leveling area (5) is connected with a supporting rod (503) in an embedded mode through a clamping groove, an infrared laser pen (501) penetrates through the interior of the supporting rod (503), and a button battery groove (502) is formed in the surface of the infrared laser pen (501).

6. The internet-based detection device and method for construction engineering according to claim 1, wherein: the top of the receiving rod (9) is fixed with an infrared receiving disc (903), the circle center of the infrared receiving disc (903) is provided with a central area disc (901), the surface of the infrared receiving disc (903) is provided with a deviation area disc (902), the deviation area disc (902) and the central area disc (901) are designed to be concentric circles, and the bottom of the receiving rod (9) is welded with a threaded sleeve (904).

7. The internet-based detection device and method for construction engineering according to claim 1, wherein: the surface of the silk rope (8) is sleeved with a circular ring (801), the diameter of the circular ring (801) is larger than that of the silk rope (8), and an A-shaped clamp (802) is clamped on the surface of the silk rope (8).

8. The internet-based detection device and method for construction engineering according to claim 1, wherein: the front surface of the tool box (1) is provided with a carrying handle (101) and an embedding block (102), the embedding block (102) is located on two sides of the carrying handle (101), a hole (103) is formed in the top surface of the embedding block (102), a compression spring (104) is welded to the bottom wall of the inside of the embedding block (102), the top of the compression spring (104) extends out of the inside of the embedding block (102) through the hole (103), and the top of the compression spring (104) is connected with a clamping strip plate (105).

9. The internet-based detection device and method for construction engineering according to claim 1, wherein: the utility model discloses a lighting lamp box, including case lid (2), the internally mounted of case lid (2) has sponge rubber pad (203), and the front of sponge rubber pad (203) is fixed with illumination lamp plate (202), and the both sides surface connection of sponge rubber pad (203) has bandage (201).

10. The internet-based detection device and method for construction engineering according to claim 1, wherein: the detection device comprises the following working steps:

s1, when the device is used for detecting Internet related building engineering, firstly the box cover (2) is opened, then the lighting lamp panel (202) inside the box cover (2) is taken out, the sponge rubber pad (203) on the back side of the lighting lamp panel is attached to the forehead of a detector, and the lighting lamp panel (202) is fixed by the binding band (201), so that the lighting requirement in the detection process of the device is met;

s2, taking out the vacuum sucker (301), embedding the vacuum sucker (301) into the bottom plate (302), fixing the vacuum sucker (301) on the surface of a building to be detected, after the bottom plate (302) is fixed, stretching the upper surface of the abutting plate (305) to the oblique angle surface of the building to be detected, driving the folding plate (303) to carry out corresponding stretching treatment, obtaining the size of the oblique angle of the building through the surface scale of the folding plate (303) close to one side of the abutting plate (305), then restoring the building by using the stretching spring (304), and finishing the work of measuring the oblique angle of the device;

s3, taking out the supporting rods (7) and the fixing rods (401), arranging the four supporting rods (7) in the device into a rectangular structure by taking the fixing rods (401) as centers to form a five-point positioning structure, then connecting the four shaft discs (402) at the tops of the fixing rods (401) and the pulleys (703) at the tops of the four supporting rods (7) by using a silk rope (8), after a net-shaped structure is formed, releasing the A-shaped clamps (802) on the surfaces of the silk rope (8), and measuring the flatness of the surfaces of buildings by observing the movement direction of the circular rings (801);

s4, taking out the supporting rod (503) and the receiving rod (9), connecting the supporting rod and the resisting rod by using a threaded sleeve (904) at the bottom of the receiving rod (9), fixing the receiving rod (9) on the inclined surface of a building after the receiving rod (9) is fixed, fixing the bottom of the supporting rod (503) on the inclined surface of the building with a certain distance, and then opening the infrared laser pen (501), wherein the emission height of the infrared laser pen (501) is equal to the height of the center position of the infrared receiving disc (903), and the horizontal condition of the inclined surface of the building can be detected and judged by observing the area of the infrared laser point on the surface of the infrared receiving disc (903) because the infrared laser pen (501) is located at the same height as the center position of the infrared receiving disc (903);

s5, carrying out corresponding angle of inclination to the building and detecting, the level flatness detects and the roughness on inclined surface detects the back, dismantle the device one by one, place back toolbox (1) inside recess, back in the draw-in groove, remove bandage (201), place illumination lamp plate (202) back inside case lid (2), close case lid (2), utilize the annular handle lock on case lid (2) surface on the surface in the surface of card batten (105), realize the sealing treatment back of box, mention this device through carrying handle (101), can realize the portable transfer of device.