CN115326014A - Micro-pasting type quality measurement and detection device for constructional engineering - Google Patents

Abstract

The invention discloses a micro-adhesive type quality measurement and detection device for constructional engineering, which comprises a horizontal correction device, a support assembly for detection, a swing detection assembly and a micro-adhesive type light detection assembly, wherein one end of the support assembly for detection is arranged on the upper wall of the horizontal correction device, one end of the swing detection assembly is movably arranged on the support assembly for detection, the swing detection assembly is provided with a plurality of groups, the plurality of groups of swing detection assemblies are uniformly arranged on the support assembly for detection at equal intervals from top to bottom, and the micro-adhesive type light detection assembly is arranged in the swing detection assembly. The invention belongs to the technical field of engineering quality detection, and particularly relates to a quality measurement detection device for micro-adhesive building engineering.

Description

Micro-pasting type quality measurement and detection device for constructional engineering

Technical Field

The invention belongs to the technical field of engineering quality detection, and particularly relates to a quality measurement and detection device for micro-adhesive constructional engineering.

Background

The engineering measurement is to carry out the control on the construction quality in a measurement mode in the construction process of the building, and is the most important point for the building safety; the height detection is frequently required for building measurement, and the electronic equipment measurement for detecting the height of the building measurement surface at present has high measurement precision, but the cost is high, and a detection device with proper price is required for detection within an error allowable range; simultaneously in order to guarantee that the thickness of building outer wall is even, make more firm of building, need measure it after the construction, to the measurement of building outer wall thickness, the precision is relatively poor, produces the error easily, and measuring range is little.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides a quality measurement and detection device for micro-pasting type building engineering, wherein a swing detection assembly during folding realizes the height detection and the perpendicularity detection of a wall body through the mutual matching of a middle regulation and control sliding assembly, a lower clamping and shielding assembly and an upper receiving detection assembly, the middle regulation and control sliding assembly can adjust the detection precision according to the detection requirement, and meanwhile, the scattered swing detection assembly can detect the thickness of the wall body and realize the technical effect of multiple detection.

The technical scheme adopted by the invention is as follows: the invention provides a micro-adhesive quality measurement and detection device for constructional engineering, which comprises a horizontal correction device, a support assembly for detection, a swing detection assembly and a micro-adhesive light detection assembly, wherein one end of the support assembly for detection is arranged on the upper wall of the horizontal correction device, the support assembly for detection can be detached from the horizontal correction device and is convenient to store and store, one end of the swing detection assembly is movably arranged on the support assembly for detection, the support assembly for detection supports and fixes the swing detection assembly, the swing detection assembly can rotate along the support assembly for detection and can be adjusted in position, the swing detection assembly is provided with a plurality of groups, the plurality of groups of swing detection assemblies are uniformly arranged on the support assembly for detection at equal intervals from top to bottom, the micro-adhesive light detection assembly is arranged in the swing detection assembly, the micro-adhesive light detection assembly is used for detecting the height of a wall body, and meanwhile, the detection precision can be adjusted, and the detection of the wall body can be realized; the micro-joint light detection assembly comprises an upper receiving detection assembly, a middle regulating and controlling sliding assembly and a lower clamping and shielding assembly, the upper receiving detection assembly, the middle regulating and controlling sliding assembly and the lower clamping and shielding assembly are sequentially arranged in the swinging detection assembly, and the middle regulating and controlling sliding assembly is arranged between the upper receiving detection assembly and the lower clamping and shielding assembly; the middle regulation and control sliding assembly is used for adjusting detection precision and emitting light beams for detection, the lower clamping and shielding assembly is used for shielding an external light source, measuring errors are reduced, the upper receiving and detecting assembly is used for receiving the light beams emitted by the upper regulation and control sliding assembly in one group to realize verticality detection, the distance between every two groups of micro-laminating light detecting assemblies is the same, and the height of a wall body is checked by rotating the micro-laminating light detecting assemblies.

The upper receiving detection assembly comprises an upper clamping plate and a temporary storage cavity I, the upper clamping plate is arranged on the inner upper wall of the swing detection assembly, the swing detection assembly supports and fixes the upper clamping plate, the temporary storage cavity I is annularly arranged in the upper clamping plate, a first coil is arranged in the temporary storage cavity I, the first coil is electrified to generate a magnetic field, and a laser receiver is arranged in the upper clamping plate and used for receiving light beams emitted by the middle regulating and controlling sliding assembly.

Preferably, the middle regulation and control sliding assembly includes a detection slide bar, an annular regulation and control member and a regulation and control sliding member, the annular regulation and control member is arranged in the swing detection assembly and at the lower end of the upper clamping plate, the swing detection assembly supports and fixes the annular regulation and control member, the detection slide bar is arranged on the inner side wall of the annular regulation and control member, the annular regulation and control member supports and fixes the detection slide bar, the regulation and control sliding member is movably arranged on the detection slide bar, the detection slide bar supports the regulation and control sliding member, the annular regulation and control member drives the regulation and control sliding member, a temporary storage cavity II is arranged in the annular regulation and control member, a coil II is arranged in the temporary storage cavity II, a coil II can generate a magnetic field, a coil III is arranged in two end portions of the regulation and control sliding member, the coil III can generate a magnetic field, when the coil III and the coil II on one side generate the difference, the coil III and the coil II on the other side generate the same, the coil II drives the regulation and control sliding member to move to one side attracting each other side along the detection slide bar, the position of the regulation and control sliding member can be changed, a laser emitter is arranged on the bottom wall of the detection slide bar, and the regulation and control sliding member can generate a beam.

Preferably, the lower clamping and shielding assembly comprises a temporary storage piece, an elastic shielding piece and a clamping ring-shaped piece, the temporary storage piece is arranged in the swing detection assembly and is arranged at the lower end of the annular regulating and controlling piece, a coil five is arranged in the temporary storage piece, the five-way electricity of the coil can generate a magnetic field, the upper end of the elastic shielding piece is connected with the bottom wall of the temporary storage piece, the elastic shielding piece is made of flexible elastic light-tight materials, the clamping ring-shaped piece is movably arranged in the swing detection assembly, the clamping ring-shaped piece is connected with the lower end of the elastic shielding piece, and magnetic and adsorptive materials are arranged on the upper wall and the lower wall of the clamping ring-shaped piece; the coil five-way electric energy generates a magnetic field, the clamping ring-shaped piece is convenient to adsorb, the elastic shielding piece is compressed, the clamping ring-shaped piece is adsorbed by the coil five and fixedly arranged in the swing detection assembly, when the coil five is powered off, the elastic shielding piece recovers deformation and pushes the clamping ring-shaped piece out of the swing detection assembly, when a coil I in a next group of swing detection assemblies is powered on, the clamping ring-shaped piece can adsorb the clamping ring-shaped piece, the clamping ring-shaped piece is fixedly arranged in the next group of swing detection assemblies under the adsorption of the coil I, the position of the regulating and controlling sliding piece on the detection sliding rod is changed according to the requirement of building wall precision, after the regulation is well performed, the clamping ring-shaped piece is fixedly arranged in the next group of swing detection assemblies after the regulating and controlling sliding piece is fixed through a coil III and a coil II, the swing detection assemblies are sequentially attached to the wall body under the action of external force, then the laser transmitter in the upper group of swing detection assemblies transmits laser, the laser receiver in the lower group of swing detection assemblies receives the laser, if the wall body is vertical, the laser receiver can receive the light beam of the laser transmitter, if the wall body is inclined, the laser transmitter, and the receiver can not receive the light beam, and the laser beam, thus the laser beam can not be in the inclined state.

Preferably, the swing detection assembly comprises an upper clamping hole, a swing detection piece and a lower flow through hole, one end of the swing detection piece is movably arranged on the support assembly for detection, the friction force between the swing detection piece and the support assembly for detection is large, the swing detection piece can rotate along the support assembly for detection under the action of large external force, when the external force disappears, the swing detection piece and the support assembly for detection are relatively fixed, the upper clamping hole is arranged on the upper wall of the swing detection piece, the upper clamping hole penetrates through the upper wall of the swing detection piece, the upper clamping plate is arranged on the inner bottom wall of the upper clamping hole, the upper clamping hole supports and fixes the upper clamping plate, the lower flow through hole is arranged on the bottom wall of the swing detection piece, the lower flow through hole penetrates through the bottom wall of the swing detection piece, the annular regulation and control piece is arranged on the inner upper wall of the lower flow through hole, the temporary storage piece is arranged in the lower flow through hole, and the laser emitter is movably arranged in the lower flow through hole.

Wherein, the swing detects the piece and is fan-shaped structure setting, the swing detects the piece and is equipped with a plurality of groups, a plurality of groups the swing detects the piece from last to evenly locating down equidistant for the measuring supporting component on, the component number of the swing of laminating wall body detection piece has represented the height of wall body.

Preferably, the support assembly for detection comprises a support rod for detection, an upper fastening through hole and a lower fastening piece, the upper fastening through hole is formed in the upper end of the support rod for detection, a fastening groove is formed in the upper fastening through hole, the lower fastening piece is arranged on the bottom wall of the support rod for detection, a projection is arranged on the lower fastening piece, the lower fastening piece is arranged in a matching manner with the upper fastening through hole, the fastening groove is arranged in a matching manner with the projection, a controller is arranged in the support rod for detection, the support rod for detection at the lowest end is arranged on the horizontal correction device through the lower fastening piece, if the measured wall height is high, another group of support assemblies for detection are taken, the lower fastening pieces on the group of support assemblies for detection are fixed in the upper fastening through hole in the support rod for detection on the horizontal correction device, the two groups of support rods are connected and fixed through the fastening groove and the projection, a sliding groove is formed in the support rod for detection, and the swing detection piece is movably fastened and arranged in the sliding groove.

Preferably, go up be equipped with coil four in the lock through-hole, four circular telegrams of coil can produce magnetic field, and lower buckling piece adopts the material setting that magnetism can adsorb, and after one set of lower buckling piece injects into another set of last lock through-hole, the coil four-way electricity adsorbs fixedly under inserting buckling piece.

Wherein, horizontal orthotic devices includes hydraulic stem, spirit level and base for the leveling, on the diapire of base was located to the hydraulic stem for the leveling, on the base was located to the spirit level, when the ground unevenness, the levelness of hydraulic stem adjustment base for the leveling was judged through the spirit level, bracing piece activity is located on the base for the detection.

Furthermore, the upper wall of the base is provided with a fixing groove, a magnetic part is arranged in the fixing groove, the lower buckling part is arranged in the fixing groove, and the magnetic part fixes the lower buckling part.

The invention with the structure has the following beneficial effects: this scheme provides a paste formula quality measurement detection device for building engineering a little beneficial effect as follows:

(1) The swing detection assembly during folding realizes the detection of the height and the verticality of the wall body through the mutual matching of the middle regulation sliding assembly, the lower clamping shielding assembly and the upper receiving detection assembly.

(2) Swing detection subassembly after scattering can detect the thickness of wall body, realizes the technological effect of multiple detection.

(3) The second coil and the third coil can drive the regulating and controlling sliding part to move along the detection sliding rod, so that the position of the regulating and controlling sliding part on the detection sliding rod is changed, the transmitting position of the laser transmitter is adjusted, the measuring precision is high when the regulating and controlling part is close to the annular regulating and controlling part, the measuring precision is slightly low when the regulating and controlling part is far away from the annular regulating and controlling part, and the measurement with different precisions is realized.

(4) Be equipped with the adsorbable material of magnetism on block loop forming element upper wall and the lower wall, be convenient for coil five and coil one adsorb respectively, realize drawing in or tensile purpose in the elasticity shielding part.

(5) The elastic shielding piece is made of flexible elastic light-tight materials and used for shielding an external light source and reducing measurement errors.

(6) The leveling hydraulic rod, the level gauge and the base are arranged, when the ground is uneven, the leveling hydraulic rod adjusts the levelness of the base, and the levelness is judged through the level gauge, so that the measuring accuracy is guaranteed.

Drawings

FIG. 1 is a front view of a quality measurement and inspection device for micro-attached construction engineering according to the present invention;

FIG. 2 is a schematic structural diagram of a swing detecting assembly of the quality measurement detecting device for micro-attached construction engineering according to the present invention;

FIG. 3 is a layout diagram of a micro-joint light detecting assembly of the quality measuring and detecting device for micro-joint construction engineering according to the present invention;

fig. 4 is a schematic structural view of a micro-joint light detection assembly of the quality measurement detection device for micro-joint construction engineering provided by the invention;

FIG. 5 is a top view of a snap ring of the quality measurement and inspection device for micro-stick construction engineering according to the present invention;

FIG. 6 is a schematic diagram of a micro-adhesive construction engineering quality measurement and detection device according to the present invention after connection of an elastic covering member;

fig. 7 is a partial enlarged view of fig. 6 at a;

FIG. 8 is a top view of a swing detecting assembly of the quality measurement detecting device for micro-stick construction engineering according to the present invention;

FIG. 9 is a top view of a middle adjusting sliding assembly of the quality measurement and inspection device for micro-stick construction engineering according to the present invention;

FIG. 10 is a perspective view of an upper fastening through hole of a quality measurement and inspection device for micro-stick construction engineering according to the present invention;

FIG. 11 is a diagram of the working state of the device for measuring the wall thickness in the micro-adhesion type construction engineering;

fig. 12 is a perspective view of an upper receiving inspection assembly of a quality measurement inspection apparatus for micro-stick construction work according to the present invention.

The device comprises a horizontal correction device 1, a supporting component for detection 2, a swinging detection component 3, a swinging detection component 4, a micro-joint light detection component 5, an upper receiving detection component 6, a middle regulating and controlling sliding component 7, a lower clamping and shielding component 8, an upper clamping plate 9, a temporary storage cavity I, a coil 11, a laser receiver 12, a detection sliding rod 13, a ring-shaped regulating and controlling component 14, a regulating and controlling sliding component 15, a temporary storage cavity II, a coil 16, a coil II, a coil III, a coil 18, a laser transmitter 19, a temporary storage component 20, an elastic shielding component 21, a clamping and ring-shaped component 22, a coil V, a coil 23, an upper clamping hole 24, a swinging detection component 25, a downstream through hole 26, a supporting rod for detection 27, an upper clamping through hole 28, a lower clamping component 29, a clamping groove 30, a lug, a 31, a coil IV, a leveling hydraulic rod 32, a leveling hydraulic rod 33, a level meter 34, a base 35, a fixing groove, 37 and a sliding groove.

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying 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 obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus should not be construed as limiting the present invention.

As shown in fig. 1, 3, 4, 5, 6, 7, 8, 9 and 12, the invention provides a micro-adhesive construction engineering quality measurement and detection device, which comprises a horizontal correction device 1, a support component 2 for detection, a swing detection component 3 and a micro-adhesive light detection component 4, wherein one end of the support component 2 for detection is arranged on the upper wall of the horizontal correction device 1, the support component 2 for detection can be detached from the horizontal correction device 1 for storage and storage, one end of the swing detection component 3 is movably arranged on the support component 2 for detection, the support component 2 for detection supports and fixes the swing detection component 3, the swing detection component 3 can rotate along the support component 2 for detection and adjust the position, the swing detection component 3 is provided with a plurality of groups, the groups of swing detection components 3 are uniformly arranged on the support component 2 for detection at equal intervals from top to bottom, the micro-adhesive light detection component 4 is arranged in the swing detection component 3, and the micro-adhesive light detection component 4 is used for detecting the height and perpendicularity of a wall body, and can adjust the detection precision; the micro-joint light detection component 4 comprises an upper receiving detection component 5, a middle regulating and controlling sliding component 6 and a lower clamping and shielding component 7, the upper receiving detection component 5, the middle regulating and controlling sliding component 6 and the lower clamping and shielding component 7 are sequentially arranged in the swing detection component 3, and the middle regulating and controlling sliding component 6 is arranged between the upper receiving detection component 5 and the lower clamping and shielding component 7; the middle regulating and controlling sliding component 6 is used for regulating detection precision and emitting light beams for detection, the lower clamping and shielding component 7 is used for shielding an external light source, so that measurement errors are reduced, the upper receiving and detecting component 5 is used for receiving the light beams emitted by the middle regulating and controlling sliding component 6 in the previous group, and the height and verticality detection is realized; the upper receiving detection assembly 5 comprises an upper clamping plate 8 and a temporary storage cavity I9, the upper clamping plate 8 is arranged on the inner upper wall of the swing detection assembly 3, the swing detection assembly 3 supports and fixes the upper clamping plate 8, the temporary storage cavity I9 is annularly arranged in the upper clamping plate 8, a coil I10 is arranged in the temporary storage cavity I9, the coil I10 is electrified to generate a magnetic field, and a laser receiver 11 is arranged in the upper clamping plate 8 and used for receiving light beams emitted by the middle regulating and controlling sliding assembly 6; the middle regulation and control sliding assembly 6 comprises a detection slide bar 12, an annular regulation and control piece 13 and a regulation and control sliding piece 14, the annular regulation and control piece 13 is arranged in the swing detection assembly 3 and is arranged at the lower end of the upper clamping plate 8, the swing detection assembly 3 supports and fixes the annular regulation and control piece 13, the detection slide bar 12 is arranged on the inner side wall of the annular regulation and control piece 13, the annular regulation and control piece 13 supports and fixes the detection slide bar 12, the regulation and control sliding piece 14 is movably arranged on the detection slide bar 12, the detection slide bar 12 supports the regulation and control sliding piece 14, the annular regulation and control piece 13 drives the regulation and control sliding piece 14, a temporary storage cavity II 15 is arranged in the annular regulation and control piece 13, a coil II 16 is arranged in the temporary storage cavity II 15, the coil II 16 is electrified to generate a magnetic field, a coil III 17 is arranged in two end parts of the regulation and control sliding piece 14, the coil III 17 is electrified to generate the magnetic field, when the coil III 17 and the coil II 16 on one side are different, the coil III 17 and the coil II 16 on the other side generate the same, the coil II 16 drives the regulation and control sliding piece 14 to move to one side of the mutually attracted side along the detection slide bar 12, the bottom wall of the regulation and control sliding piece 14 is provided with a laser emitter 18; the lower clamping shielding component 7 comprises a temporary storage component 19, an elastic shielding component 20 and a clamping ring component 21, the temporary storage component 19 is arranged in the swing detection component 3 and is arranged at the lower end of the annular adjusting component 13, a coil five 22 is arranged in the temporary storage component 19, the coil five 22 can generate a magnetic field when being electrified, the upper end of the elastic shielding component 20 is connected with the bottom wall of the temporary storage component 19, the elastic shielding component 20 is made of a flexible elastic light-tight material, the clamping ring component 21 is movably arranged in the swing detection component 3, the clamping ring component 21 is connected with the lower end of the elastic shielding component 20, and magnetic and adsorptive materials are arranged on the upper wall and the lower wall of the clamping ring component 21; the coil five 22 is electrified to generate a magnetic field, so that the clamping ring-shaped piece 21 is conveniently adsorbed, the elastic shielding piece 20 is compressed, the clamping ring-shaped piece 21 is fixedly arranged in the swing detection assembly 3 under the adsorption of the coil five 22, after the power of the coil five 22 is cut off, the elastic shielding piece 20 recovers deformation and pushes the clamping ring-shaped piece 21 out of the swing detection assembly 3, when the coil one 10 in the next group of swing detection assemblies 3 is electrified, the clamping ring-shaped piece 21 can be adsorbed, the clamping ring-shaped piece 21 is fixedly arranged in the next group of swing detection assemblies 3 under the adsorption of the coil one 10, the position of the regulating and controlling sliding piece 14 on the detection slide rod 12 is changed according to the requirement of building wall precision, after the regulating and controlling sliding piece 14 is fixed through the coil three 17 and the coil two 16, the clamping ring-shaped piece 21 is fixed in the next group of swing detection assemblies 3, under the action of external force, the swing detection assemblies 3 are sequentially attached to the wall, then the laser emitter 18 in the upper group of swing detection assemblies 3 emits laser, the laser receiver 11 in the lower group of swing detection assemblies 3 receives the laser, if the wall is in the inclined state, the laser emitter 18 can not receive the laser beam, if the laser beam, the laser emitter 18 is in the inclined state, the inclined wall, the inclined laser emitter 18, the wall can not receive the inclined laser beam, and the laser beam, the laser emitter 18 can not receive the inclined laser beam.

As shown in fig. 1, the horizontal straightening device 1 includes a leveling hydraulic rod 32, a level gauge 33 and a base 34, the leveling hydraulic rod 32 is disposed on the bottom wall of the base 34, the level gauge 33 is disposed on the base 34, when the ground is uneven, the leveling hydraulic rod 32 adjusts the levelness of the base 34, the level gauge 33 judges the levelness, and the detection support rod 26 is movably disposed on the base 34; the upper wall of the base 34 is provided with a fixing groove 35, a magnetic part is arranged in the fixing groove 35, the lower fastener 28 is arranged in the fixing groove 35, and the magnetic part fixes the lower fastener 28.

As shown in fig. 1, 2, 3, 4, 8, 10 and 11, the swing detection assembly 3 includes an upper clamping hole 23, a swing detection member 24 and a lower flow through hole 25, one end of the swing detection member 24 is movably disposed on the detection support assembly 2, the friction between the swing detection member 24 and the detection support assembly 2 is large, the swing detection member 24 can rotate along the detection support assembly 2 under the action of a large external force, when the external force disappears, the swing detection member 24 and the detection support assembly 2 are relatively fixed, the upper clamping hole 23 is disposed on the upper wall of the swing detection member 24, the upper clamping hole 23 penetrates through the upper wall of the swing detection member 24, the upper clamping plate 8 is disposed on the inner bottom wall of the upper clamping hole 23, the upper clamping hole 23 supports and fixes the upper clamping plate 8, the lower flow through hole 25 is disposed on the bottom wall of the swing detection member 24, the lower flow through hole 25 penetrates through the bottom wall of the swing detection member 24, the annular adjustment member 13 is disposed on the inner upper wall of the through hole 25, the temporary storage member 19 is disposed in the lower flow through hole 25, and the movable through hole 25 is disposed in the laser emitter 18; swing detection piece 24 is the fan-shaped structure setting, and swing detection piece 24 is equipped with a plurality of groups, and a plurality of groups swing detection piece 24 is from last evenly to locating down on the supporting component 2 for the detection at equidistant.

As shown in fig. 1 and fig. 2, the support assembly 2 for detection includes a support rod 26 for detection, an upper fastening through hole 27 and a lower fastening member 28, the upper fastening through hole 27 is disposed at the upper end of the support rod 26 for detection, a fastening groove 29 is disposed on the upper fastening through hole 27, the lower fastening member 28 is disposed on the bottom wall of the support rod 26 for detection, a projection 30 is disposed on the lower fastening member 28, the lower fastening member 28 is disposed in matching with the upper fastening through hole 27, the fastening groove 29 is disposed in matching with the projection 30, the support rod 26 for detection at the lowest end is disposed on the horizontal correction device 1 through the lower fastening member 28, if the measured wall height is high, another group of support assemblies 2 for detection is taken, the lower fastening member 28 on the group of support assemblies 2 for detection is inserted into the upper fastening through hole 27 in the support rod 26 for detection fixed on the horizontal correction device 1, the two groups are connected and fixed through the fastening groove 29 and the projection 30, the support rod 26 for detection is provided with a sliding groove 37, and the swing detection member 24 is movably fastened in the sliding groove 37; go up and be equipped with coil four 31 in the lock through-hole 27, the circular telegram of coil four 31 can produce the magnetic field, and lower buckling piece 28 adopts the material setting that magnetism can adsorb, and after a set of lower buckling piece 28 injects back in another a set of last lock through-hole 27, the circular telegram of coil four 31 adsorbs fixedly lower buckling piece 28 of inserting.

When in specific use:

when the height and the perpendicularity of the wall body need to be detected:

transporting the device to a place needing to be detected, if the ground is uneven, the leveling hydraulic rod 32 adjusts the levelness of the base 34, judging by the level gauge 33, taking a group of support rods 26 for detection to be arranged on the level correction device 1 through the lower fastening pieces 28, if the measured wall height is high, taking another group of support components 2 for detection to be arranged, inserting the lower fastening pieces 28 on the group of support components 2 for detection into the upper fastening through holes 27 in the support rods 26 for detection to be fixed on the level correction device 1, connecting and fixing the two groups through the fastening grooves 29 and the bumps 30, energizing the coil four 31 to generate a magnetic field, arranging the lower fastening pieces 28 made of a material capable of being magnetically adsorbed, energizing the coil four 31 to adsorb and fix the inserted lower fastening pieces 28, initially, energizing the coil five 22 to generate a magnetic field to facilitate adsorption of the fastening ring component 21, compressing the elastic fastening ring component 20 under the adsorption of the coil five 22, fixing the fastening ring component 21 in the swing detection component 3, when the coil five 22 is deenergized, the elastic fastening ring component 20 restores the deformation, pushing the fastening ring component 21 out of the fastening ring component 3, adjusting and controlling the swing of the coil 3, adjusting component 16, when the fastening ring component 16 is moved along the lower fastening ring component 16, detecting the swing of the building, detecting the coil 17, and the swing of the sliding rod 16, detecting the building, and detecting the sliding rod 16, and detecting the building, and controlling the sliding rod 16 are capable of the building, the position of the regulating and controlling sliding part 14 on the detection slide rod 12 can be changed, the position of the laser emitter 18 is adjusted, the closer the distance from the laser emitter 18 to the inner side wall of the annular regulating and controlling part 13 is, the higher the measurement precision is, (the laser emitter 18 can generate a light beam, when the laser emitter 18 is closer to the annular regulating and controlling part 13, the more obvious the influence on the laser beam is when the annular regulating and controlling part 13 is not in a vertical state once deformation occurs), the farther the distance from the laser emitter 18 to the inner side wall of the annular regulating and controlling part 13 is, the lower the measurement precision is, (when the laser emitter 18 is arranged in the middle of the annular regulating and controlling part 13, the larger the deformation amount required by the annular regulating and controlling part 13 can influence the laser beam), after the adjustment is completed, after the regulating and controlling sliding part 14 is fixed through the coil III 17 and the coil II 16, the clamping annular part 21 is fixed in the swing detection component 3 of the next group, under the action of external force, the swing detection assemblies 3 are sequentially attached to the wall body, then the laser emitters 18 in the upper swing detection assembly 3 emit laser, the laser receivers 11 in the lower swing detection assembly 3 receive the laser, if the wall body is vertical, the laser receivers 11 can receive light beams of the laser emitters 18, if the wall body inclines, the elastic shielding parts 20 are not arranged in a vertical state due to the fact that the swing detection assemblies 3 are attached to the wall body, the inclination occurs, but the light beams of the laser emitters 18 are thrown into a vertical emission state, the elastic shielding parts 20 shield the light beams of the laser emitters 18, the laser receivers 11 cannot receive the light beams, and therefore whether the wall body inclines or not is judged, the number of the swing detection assemblies 3 attached to the wall body represents the height of the wall body.

When the wall thickness needs to be detected:

according to the thickness of wall body, scatter the swing detection piece 24 of mid portion, will detect and detect with bracing piece 26 card at swing detection piece 24 department after scattering, the swing detection piece 24 card of all the other limit portions is in the both sides of wall body, swing detection piece 24 after will scattering injects in proper order between the swing detection piece 24 of wall body and limit portion as required, until inserting, the interval between every swing detection piece 24 is fixed, can judge the thickness of wall body, promote to detect with bracing piece 26 along the wall body motion, be convenient for judge whether the thickness of wall body is even.

The specific working process of the invention is described above, and the steps are repeated when the device is used next time.

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.

The present invention and its embodiments have been described above, and the description is not intended to be limiting, and the drawings are only one embodiment of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should appreciate that they can readily use the disclosed conception and specific embodiments as a basis for designing or modifying other structures for carrying out the same purposes of the present invention without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. The utility model provides a paste formula quality measurement detection device for building engineering a little which characterized in that: the device comprises a horizontal correction device, a supporting component for detection, a swinging detection component and a micro-laminating light detection component, wherein one end of the supporting component for detection is arranged on the upper wall of the horizontal correction device, one end of the swinging detection component is movably arranged on the supporting component for detection, the swinging detection component is provided with a plurality of groups, the plurality of groups of swinging detection components are uniformly arranged on the supporting component for detection at equal intervals from top to bottom, and the micro-laminating light detection component is arranged in the swinging detection component; the micro-joint light detection assembly comprises an upper receiving detection assembly, a middle regulating sliding assembly and a lower clamping shielding assembly, wherein the upper receiving detection assembly, the middle regulating sliding assembly and the lower clamping shielding assembly are sequentially arranged in the swing detection assembly, and the middle regulating sliding assembly is arranged between the upper receiving detection assembly and the lower clamping shielding assembly.

2. The quality measurement and detection device for the micro-pasting type constructional engineering as claimed in claim 1, wherein: the upper receiving detection assembly comprises an upper clamping plate and a temporary storage cavity I, the upper clamping plate is arranged on the inner upper wall of the swing detection assembly, the temporary storage cavity I is annularly arranged in the upper clamping plate, a coil I is arranged in the temporary storage cavity I, and a laser receiver is arranged in the upper clamping plate.

3. The quality measurement and detection device for the micro-pasting type constructional engineering as claimed in claim 2, wherein: well regulation and control slip subassembly is including detecting the slide bar, annular regulation and control spare and regulation and control slider, the annular regulation and control spare is located in the swing determine module and is located the snap-fastener lower extreme, it locates on the annular regulation and control spare inside wall to detect the slide bar, the activity of regulation and control slider is located on detecting the slide bar, be equipped with the chamber of keeping in two in the annular regulation and control spare, be equipped with coil two in the chamber of keeping in two, be equipped with coil three in the regulation and control slider both ends, the regulation and control slider diapire is equipped with laser emitter.

4. The quality measurement and detection device for the micro-pasting type constructional engineering as claimed in claim 3, wherein: the lower clamping and shielding assembly comprises a temporary storage piece, an elastic shielding piece and a clamping ring piece, the temporary storage piece is arranged in the swing detection assembly and is arranged at the lower end of the annular regulating and controlling piece, a coil V is arranged in the temporary storage piece, the upper end of the elastic shielding piece is connected with the bottom wall of the temporary storage piece, the clamping ring piece is movably arranged in the swing detection assembly, and the clamping ring piece is connected with the lower end of the elastic shielding piece.

5. The quality measurement and detection device for micro-contact type constructional engineering as claimed in claim 4, wherein: the swing detection assembly comprises an upper clamping hole, a swing detection piece and a lower flow through hole, one end of the swing detection piece is movably arranged on the supporting assembly for detection, the upper clamping hole is arranged on the upper wall of the swing detection piece, the upper clamping hole penetrates through the upper wall of the swing detection piece, the upper clamping plate is arranged on the inner bottom wall of the upper clamping hole, the lower flow through hole is arranged on the bottom wall of the swing detection piece, the lower flow through hole penetrates through the bottom wall of the swing detection piece, the annular regulation and control piece is arranged on the inner upper wall of the lower flow through hole, the temporary storage piece is arranged in the lower flow through hole, and the laser emitter is movably arranged in the lower flow through hole.

6. The quality measurement and detection device for micro-contact type constructional engineering as claimed in claim 5, wherein: the swing detects the piece and is fan-shaped structure setting, the swing detects the piece and is equipped with a plurality of groups, a plurality of groups the swing detects the piece from last evenly to locating down on the supporting component for the detection with equidistant.

7. The quality measurement and detection device for micro-contact type constructional engineering as claimed in claim 6, wherein: the supporting assembly for detection comprises a supporting rod for detection, an upper buckling through hole and a lower buckling piece, the upper buckling through hole is formed in the upper end of the supporting rod for detection, a buckling groove is formed in the upper buckling through hole, the lower buckling piece is arranged on the bottom wall of the supporting rod for detection, a convex block is arranged on the lower buckling piece, the lower buckling piece is matched with the upper buckling through hole, the buckling groove is matched with the convex block, a sliding groove is formed in the supporting rod for detection, and the swing detection piece is movably clamped and arranged in the sliding groove.

8. The quality measurement and detection device for the micro-pasting type constructional engineering as claimed in claim 7, wherein: and a coil IV is arranged in the upper buckling through hole.

9. The quality measurement and detection device for micro-contact type constructional engineering as claimed in claim 8, wherein: the horizontal correction device comprises a hydraulic rod for leveling, a level meter and a base, the hydraulic rod for leveling is arranged on the bottom wall of the base, the level meter is arranged on the base, and a support rod for detection is movably arranged on the base.

10. The quality measurement and detection device for the micro-pasting type constructional engineering as claimed in claim 9, wherein: the upper wall of the base is provided with a fixing groove, a magnetic part is arranged in the fixing groove, and the lower buckling part is arranged in the fixing groove.

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