CN117405529A - Building structure detection equipment capable of conducting multi-azimuth detection - Google Patents

Abstract

The invention relates to the technical field of building structure detection, and discloses building structure detection equipment capable of conducting multi-azimuth detection. This but building structure check out test set that diversified detects through setting up the cooperation of supporting mechanism and supplementary anti-tilt mechanism, can stabilize the support to this building structure check out test set when using, makes universal gyro wheel break away from ground through promoting check out test set, stability when guaranteeing to detect, detection device position can not produce the removal because of reverse effort when guaranteeing to detect, and supplementary anti-tilt mechanism provides the support of rear side, the detection device takes place the condition of empting when preventing to higher position detection, the security of the use of improvement, and guarantee the accuracy of detection structure.

Description

Building structure detection equipment capable of conducting multi-azimuth detection

Technical Field

The invention relates to the technical field of building structure detection, in particular to a building structure detection device capable of detecting multiple directions.

Background

In building construction, the wall body can adopt concrete placement to construct generally, and the concrete wallboard after the pouring construction is accomplished and the outer facade isotructure of piling up need pass through intensity compressive test, guarantee safe in utilization after the building delivery is used, adopt check out test set to apply a horizontal effort to wallboard and outer facade structure generally for detect anti tilting ability, and current building structure check out test set is difficult to carry out the detection of multiple spot position and position.

However, when the existing building structure detection equipment is used, certain problems exist:

the existing intensity detection equipment for detecting the building structure as disclosed in China patent publication No. CN115931571A comprises a detection seat, wherein a support frame is fixedly arranged in the vertical direction of the detection seat, a positioning plate is fixedly arranged between the top end of the support frame and the detection seat, a power block is slidably arranged between the positioning plate and the inner side of the support frame, a driven shaft is rotatably arranged on the power block, one end of the driven shaft is connected with the output end of a detection motor through a connecting frame mechanism, the detection motor is arranged on the support frame through a motor frame, a lifting mechanism for changing the upper and lower positions of the power block is further arranged on the support frame, and the other end of the driven shaft is connected with the detection block through a pressure output mechanism;

1. the existing building structural strength detection equipment is provided with the universal wheels when in use, although the moving convenience of the detection equipment can be improved, the detection block can generate a backward reaction force after moving to a building wall body quickly during detection, the detection equipment can move backward integrally, even the situation of toppling can occur during detection of a higher point, if people stand at the rear, the situation of personnel injury can be caused, and the reverse movement of the detection equipment can also influence the detection result and detection data, so that the detection accuracy can not be ensured;

2. and current this check out test set drives the reciprocating motion of detecting the piece through gear structure's transmission, causes the striking to the wall body, and the transmission of gear can be less for the impact force that detects the piece and provide, can't satisfy concrete wall's intensity detection and use, and the impact force adjustment structure that this check out test set up, it can only detect the stroke distance of piece and pressure bar outside extending motion, and can not change the impact force of detecting the piece, and adjust the impact stroke that increases the detection piece when the check out test set position is unchangeable, after detecting the piece striking wall body, can necessarily cause the position of check out test set to shift backward, easily produce the potential safety hazard.

Aiming at the problems, innovative design is carried out on the basis of the original building structure detection equipment capable of detecting in multiple directions.

Disclosure of Invention

The invention aims to provide a building structure detection device capable of detecting in multiple directions, so as to solve the problems that the existing detection device cannot reliably fix the position of the detection device during detection and the impact force provided by the whole detection device is small and cannot meet the detection requirement in the prior art.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a but building structure check out test set of diversified detection, includes equipment support plate, universal gyro wheel, slip support column, support roof and detects the box:

the lower end of the equipment supporting plate is fixedly provided with a universal roller, the upper end of the equipment supporting plate is fixedly provided with a sliding supporting column, and the top end of the sliding supporting column is provided with a supporting top plate;

the lower end of the supporting top plate is provided with a detection box body, a building structure detection mechanism is installed in the detection box body, and the lower end of the detection box body is connected with a pressure regulating mechanism;

the lower end of the rear side of the supporting top plate is connected with a height adjusting mechanism, the lower end of the equipment supporting plate is connected with a supporting mechanism, the rear end of the equipment supporting plate is provided with an auxiliary anti-tilting mechanism, and the front end of the auxiliary anti-tilting mechanism is connected with the supporting mechanism.

Preferably, the building structure detection mechanism comprises a transmission rod;

the middle part of the front end of the detection box body is penetrated with a transmission rod, the front end of the transmission rod is fixedly connected with a detection block which is horizontally arranged, the rear ends of two sides of the detection block are fixedly connected with transmission pipes, the inside of each transmission pipe is penetrated with a limit rod, and the limit rods are in sliding connection with the transmission pipes;

the rear end of the limiting rod is fixedly connected with the detection box body, the front end of the limiting rod penetrates through the pressing spring, and the front end of the pressing spring is fixedly connected with the rear end of the driving tube.

By adopting the technical scheme, the position of the detection block is positioned through the transmission rod and the two groups of transmission pipes, the horizontal stable operation of the detection block is ensured, the pressure spring is arranged, and the detection block can be pushed to reset forward and generate impact to the wall body after the transmission pipe moves backwards, so that the detection of the building structural strength is completed.

Preferably, the first motor is fixedly arranged at the rear side of the detection box body, two ends of the first motor are fixedly connected with one-way transmission shafts, two groups of one-way transmission shafts are arranged, the two groups of one-way transmission shafts are oppositely arranged, and the lower-end one-way transmission shaft penetrates into the detection box body;

the upper end of the inside of the detection box body is provided with a driving gear which is fixedly connected with a unidirectional transmission shaft at the lower end, the front bearing at the upper end of the detection box body is connected with a rotating shaft, the upper end of the rotating shaft is fixedly connected with a driven gear, and the lower end of the driven gear is fixedly connected with a turntable;

the rear side of the driven gear is connected with the driving gear in a meshed mode, and the diameter of the driven gear is larger than that of the driving gear.

By adopting the technical scheme, the unidirectional rotation of the driving gear can be driven through the cooperation of the first motor and the unidirectional transmission shaft, the driving gear is driven to rotate when the motor rotates positively, the driving gear drives the driven gear, the rotating shaft and the turntable to synchronously rotate, the diameter of the driving gear is small, and the rotation of the turntable can be improved to provide larger torque.

Preferably, a limit groove is formed in the rotary table, the limit groove is in a circular arc structural design, a positioning rod penetrates through the limit groove, and the positioning rod is in sliding connection with the limit groove;

the detection box is internally provided with a sliding block, the sliding block is fixedly connected with the rear end of the transmission rod, the sliding block and the transmission rod form a T-shaped structural design, a sliding groove is formed in the sliding block, the lower end of the positioning rod extends into the sliding groove, and the sliding groove and the positioning rod form a sliding structure.

By adopting the technical scheme, the positioning rod can have a certain sliding space in the positioning rod through the arrangement of the circular arc limiting groove, and the turntable drives the positioning rod to rotate and simultaneously slides in the sliding groove to drive the sliding block, the transmission rod and the detection block to synchronously move.

Preferably, the pressure adjusting mechanism comprises a movable plate;

the lower end of the detection box body is penetrated by a movable plate, two ends of the movable plate penetrate through the outside of the detection box body, and the movable plate and the detection box body form a sliding structure;

the movable plate is characterized in that spring limiting plates are fixedly connected to two ends of the movable plate, the rear ends of the limiting rods penetrate through the limiting rods, the spring limiting plates and the limiting rods form a sliding structure, the front ends of the spring limiting plates are fixedly connected with the pressing springs, the middle of the detection box body penetrates through a transmission threaded screw rod, the transmission threaded screw rod is connected with the bearing of the detection box body, the rear ends of the transmission threaded screw rod penetrate through the spring limiting plates, and the transmission threaded screw rod is in threaded connection with the spring limiting plates.

By adopting the technical scheme, the movable plate can be driven to move through the rotary transmission threaded rod, the spring limiting plate can compress the pressure spring forwards when the movable plate moves, the pressure applied by the pressure spring to the front end transmission tube can be improved, and therefore the impact force of the detection block when the detection block is reset forwards is improved.

Preferably, the height adjustment mechanism comprises a sliding stabilizing plate;

the two side ends of the detection box body are connected with sliding stabilizing plates through bolts, the sliding supporting columns penetrate through the tail ends of the sliding stabilizing plates, and the sliding stabilizing plates are connected with the sliding supporting columns in a sliding mode;

the device comprises a supporting top plate, a fixing base, a movable sleeve, a reciprocating screw rod, a fixing base, a fixing sleeve and a movable sleeve, wherein the middle part of the rear end of the supporting top plate is fixedly connected with the fixing plate, the lower end of the fixing plate is fixedly connected with the reciprocating screw rod, the upper end of the rear side of the detecting box body is fixedly connected with the fixing base, the movable sleeve is connected with the bearing in the middle of the fixing base, the lower end of the reciprocating screw rod penetrates through the movable sleeve, and the movable sleeve is in threaded connection with the reciprocating screw rod.

By adopting the technical scheme, the stability of the detection box body during up-and-down motion can be guaranteed through the arrangement of the plurality of groups of sliding stabilizing plates, and the movable sleeve, the fixed seat and the reciprocating screw rod are matched, so that the fixed seat and the detection box body can be driven to synchronously lift when the movable sleeve rotates.

Preferably, the movable sleeve top fixedly connected with first gear, and reciprocating screw runs through first gear middle part, detection box rear side upper end is provided with the second gear, and second gear and upper end one-way transmission shaft fixed connection to the second gear is connected with first gear meshing.

By adopting the technical scheme, through the cooperation of the second gear and the unidirectional transmission shaft, when the first motor reversely rotates, the second gear can be driven to synchronously rotate, and the second gear rotates to synchronously rotate through the movable sleeve driven by the first gear, so that a power source is provided for upgrading the detection box body.

Preferably, the supporting mechanism comprises a supporting and positioning plate;

the lower end of the equipment supporting plate is provided with a supporting and positioning plate, the upper end of the supporting and positioning plate is fixedly connected with a sliding guide rod, and the upper end of the sliding guide rod penetrates through the equipment supporting plate to form a sliding structure;

the front and rear shafts of the supporting and positioning plate are connected with a rotating support plate, the rotating support plate and the supporting and positioning plate form a rotating structure, torsion reset springs are arranged on two sides of the supporting and positioning plate, two ends of each torsion reset spring are fixedly connected with the supporting and positioning plate and the rotating support plate respectively, and the rotating support plate and the supporting and positioning plate form a rotating reset structure through the torsion reset springs;

the two sides of the supporting and positioning plate are fixedly provided with positioning seats, the middle part of each positioning seat is connected with two groups of limiting rolling shafts in a shaft mode, and the limiting rolling shafts are in contact with the outer sides of the rotating supporting plates.

Adopt above-mentioned technical scheme, through the cooperation of supporting the locating plate with rotating the backup pad, can carry out whole support to this check out test set, and then promote universal gyro wheel for the position can not change when this check out test set detects, improves the stability that detects, has guaranteed the removal convenience of this equipment simultaneously, is convenient for change the position and carries out diversified detection. Meanwhile, the limiting roller can push the rotary supporting plate to rotate to finish storage when the supporting and positioning plate ascends.

Preferably, the upper end of the equipment supporting plate is provided with a mounting box, the upper end of the rear side of the mounting box is fixedly connected with the reciprocating screw rod, a second motor is arranged in the middle of the mounting box, two ends of the second motor are fixedly connected with extension rotating rods, two ends of the extension rotating rods penetrate through the outside of the mounting box, and the tail ends of the extension rotating rods are connected with a transmission worm;

the two sides of the equipment supporting plate are penetrated with lifting threaded rods, the lifting threaded rods are connected with the equipment supporting plate through bearings, and the bottom ends of the lifting threaded rods are in threaded connection with the supporting and positioning plates;

the upper end of the lifting threaded rod is fixedly connected with a transmission worm gear, and the transmission worm gear is in meshed connection with the lifting threaded rod.

By adopting the technical scheme, through the cooperation between the second motor, the extension bull stick and the transmission worm, the second motor drives extension bull stick and transmission worm rotatory when rotatory, and the rotation of transmission worm drive transmission worm wheel and lift threaded rod to drive and support the locating plate activity, adjust its height and position.

Preferably, the auxiliary anti-tilting mechanism comprises a transmission plate;

the device comprises a device supporting plate, and is characterized in that a transmission plate is arranged at the rear side of the upper end of the device supporting plate, the front end of the transmission plate is fixedly connected with the upper end of a rear sliding guide rod, an auxiliary supporting anti-tilting plate is fixedly connected with the rear end of the transmission plate, the auxiliary supporting anti-tilting plate is of an L-shaped structural design, a reinforcing connecting rod is fixed on the rear side of the auxiliary supporting anti-tilting plate through bolts, the reinforcing connecting rod is of an inclined design, and the reinforcing connecting rods are distributed in an equidistant array.

By adopting the technical scheme, the auxiliary support anti-tilting plate can synchronously lift along with the support positioning plate through the arrangement of the transmission plate, and when detection is carried out, the auxiliary support anti-tilting plate is in contact with the ground, so that the situation that the detection device caused by reverse acting force is tilted after collision between the detection block and the wall body during detection is prevented, and the use safety is improved.

Compared with the prior art, the invention has the beneficial effects that: the building structure detection equipment capable of detecting in multiple directions;

1. through setting up supporting mechanism and assisting the cooperation of preventing inclining mechanism, can stabilize the support to this building structure check out test set when using, make universal gyro wheel break away from ground through promoting check out test set, guarantee the stability when detecting, detection device position can not produce and remove because of reverse effort when guaranteeing to detect, and assist the support of preventing inclining mechanism and providing the rear side, prevent to the condition that the check out test set takes place to empty when detecting higher position, the security of the use of improvement to guarantee the accuracy of detecting structure.

2. Through setting up building structure detection mechanism and detecting building structure's intensity, and the elastic force that detects the structure through the spring is as the power supply, and cooperation pressure adjustment mechanism not only can be adjustable to the impact force that detects, and the instantaneous acceleration that resets that the spring provided can provide sufficient impact force for detecting the structure, guarantees going on smoothly of detection.

Drawings

FIG. 1 is a schematic diagram of a front view of the present invention;

FIG. 2 is a schematic side view of the present invention;

FIG. 3 is a schematic view of an auxiliary anti-tilting mechanism according to the present invention;

FIG. 4 is a schematic view of the structure of the supporting mechanism of the present invention;

FIG. 5 is a schematic view of the positioning seat and the spacing roller structure of the present invention;

FIG. 6 is an exploded view of the detection mechanism of the present invention;

FIG. 7 is a schematic view of the structure of the transmission rod and the sliding block of the present invention;

FIG. 8 is a schematic diagram of a side cross-sectional structure of a detection case of the present invention;

FIG. 9 is a schematic view of a limiting groove and a positioning rod according to the present invention;

FIG. 10 is an exploded view of the height adjustment mechanism of the present invention.

In the figure: 1. an equipment support plate; 2. a universal roller; 3. sliding the support column; 4. a supporting top plate; 5. detecting a box body; 6. a building structure detection mechanism; 601. a transmission rod; 602. a detection block; 603. a transmission tube; 604. a limit rod; 605. a pressing spring; 606. a first motor; 607. a unidirectional transmission shaft; 608. a drive gear; 609. a rotating shaft; 610. a driven gear; 611. a turntable; 612. a limit groove; 613. a positioning rod; 614. a sliding block; 615. a sliding groove; 7. a pressure regulating mechanism; 701. a movable plate; 702. a spring limiting plate; 703. driving a threaded screw rod; 8. a height adjusting mechanism; 801. a sliding stabilizing plate; 802. installing a positioning plate; 803. a reciprocating screw rod; 804. a fixing seat; 805. a movable sleeve; 806. a first gear; 807. a second gear; 9. a support mechanism; 901. supporting a positioning plate; 902. sliding the guide rod; 903. rotating the support plate; 904. torsion reset spring; 905. a positioning seat; 906. limiting rolling shafts; 907. a mounting box; 908. a second motor; 909. extending the rotating rod; 910. a drive worm; 911. lifting the threaded rod; 912. a drive worm wheel; 10. an auxiliary anti-tilting mechanism; 1001. a drive plate; 1002. an auxiliary support anti-tilting plate; 1003. and (5) reinforcing the connecting rod.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-10, the present invention provides a technical solution: the utility model provides a but building structure check out test set of diversified detection, includes equipment backup pad 1, universal gyro wheel 2, slip support column 3, support roof 4 and detection box 5, and equipment backup pad 1 lower extreme fixed mounting has universal gyro wheel 2, and equipment backup pad 1 upper end fixed mounting has slip support column 3, and support roof 4 is installed on slip support column 3 top; the lower end of the supporting top plate 4 is provided with a detection box body 5, a building structure detection mechanism 6 is arranged in the detection box body 5, and the lower end of the inner part of the detection box body 5 is connected with a pressure regulating mechanism 7; the supporting roof 4 rear side lower extreme is connected with high adjustment mechanism 8, equipment backup pad 1 lower extreme is connected with supporting mechanism 9, and equipment backup pad 1 rear end is provided with supplementary anti-tilt mechanism 10, and supplementary anti-tilt mechanism 10 front end is connected with supporting mechanism 9, through the setting of multiunit universal gyro wheel 2 during the use, improve the removal convenience of this check out test set, be convenient for carry out diversified detection, and the setting of sliding support column 3 and supporting roof 4, be convenient for install and spacing to detecting box 5, and then support building structure detection mechanism 6, during building structure intensity detects, the dynamics when the accessible pressure adjustment mechanism 7 is adjusted and is detected, and the position that high adjustment mechanism 8 adjustable detected, and supporting mechanism 9 and supplementary anti-tilt mechanism 10's setting, can guarantee the stability of this check out test set when detecting, prevent to take place the possibility of removal and empting, the security of using is improved.

The rear side of the detection box body 5 is fixedly provided with a first motor 606, two ends of the first motor 606 are fixedly connected with unidirectional transmission shafts 607, two groups of unidirectional transmission shafts 607 are arranged, the directions of the two groups of unidirectional transmission shafts 607 are opposite, and the lower unidirectional transmission shaft 607 penetrates into the detection box body 5; the upper end of the inside of the detection box body 5 is provided with a driving gear 608, the driving gear 608 is fixedly connected with a lower unidirectional transmission shaft 607, a front bearing at the upper end of the detection box body 5 is connected with a rotating shaft 609, the upper end of the rotating shaft 609 is fixedly connected with a driven gear 610, and the lower end of the driven gear 610 is fixedly connected with a rotary table 611; the rear side of the driven gear 610 is in meshed connection with the driving gear 608, and the diameter of the driven gear 610 is larger than that of the driving gear 608; a limiting groove 612 is formed in the rotary table 611, the limiting groove 612 is in a circular arc structural design, a positioning rod 613 penetrates through the limiting groove 612, and the positioning rod 613 is in sliding connection with the limiting groove 612; the detection box body 5 is internally provided with a sliding block 614, the sliding block 614 is fixedly connected with the rear end of the transmission rod 601, the sliding block 614 and the transmission rod 601 form a T-shaped structural design, a sliding groove 615 is formed in the sliding block 614, the lower end of the positioning rod 613 extends into the sliding groove 615, and the sliding groove 615 and the positioning rod 613 form a sliding structure; when in use, the unidirectional transmission shaft 607 and the driving gear 608 are driven to rotate in the forward direction through the first motor 606, the driven gear 610, the rotating shaft 609 and the turntable 611 are driven to synchronously rotate through the driving gear 608, in the rotating process of the turntable 611, when the positioning rod 613 contacts with one end of the inner wall of the limiting groove 612 and then rotates, the lower end slides in the sliding groove 615, and then the sliding block 614, the transmission rod 601 and the detection block 602 are driven to synchronously move; the building structure detection mechanism 6 includes a transmission rod 601; the middle part of the front end of the detection box body 5 is penetrated with a transmission rod 601, the front end of the transmission rod 601 is fixedly connected with a detection block 602, the detection block 602 is horizontally arranged, the rear ends of two sides of the detection block 602 are fixedly connected with transmission pipes 603, the transmission pipes 603 are internally penetrated with limiting rods 604, and the limiting rods 604 are in sliding connection with the transmission pipes 603; the rear end of the limiting rod 604 is fixedly connected with the detection box body 5, the front end of the limiting rod 604 penetrates through a pressing spring 605, and the front end of the pressing spring 605 is fixedly connected with the rear end of the transmission tube 603; after the turntable 611 rotates to a certain angle, the positioning rod 613 and the transmission rod 601 are positioned on the same straight line, and at the moment, the pressing spring 605 provides thrust force, so that the transmission pipe 603, the transmission rod 601 and the detection block 602 are reset, and the positioning rod 613 can move towards the other end of the limiting groove 612 without being blocked because the limiting groove 612 is in an arc shape, and the detection block 602 can rapidly move towards a building wall body, so that the strength of the building structure is detected.

The pressure regulating mechanism 7 includes a movable plate 701; the lower end of the detection box body 5 is penetrated by a movable plate 701, two ends of the movable plate 701 penetrate the outside of the detection box body 5, and the movable plate 701 and the detection box body 5 form a sliding structure; the two ends of the movable plate 701 are fixedly connected with a spring limiting plate 702, the rear end of the limiting rod 604 penetrates through the limiting rod 604, the spring limiting plate 702 and the limiting rod 604 form a sliding structure, the front end of the spring limiting plate 702 is fixedly connected with a pressing spring 605, the middle part of the detection box 5 penetrates through a transmission thread lead screw 703, the transmission thread lead screw 703 is connected with a bearing of the detection box 5, the rear end of the transmission thread lead screw 703 penetrates through the spring limiting plate 702, and the transmission thread lead screw 703 is in threaded connection with the spring limiting plate 702; the length of the pressing spring 605 can be conveniently adjusted by arranging the movable plate 701 and the spring limiting plate 702, the movable plate 701 and the spring limiting plate 702 move forwards and compress the pressing spring 605 by rotating the transmission threaded screw 703, the thrust force applied by the pressing spring 605 to the transmission pipe 603 is improved, and the impact force of the detection block 602 when moving to a wall body during detection can be improved.

The height adjustment mechanism 8 includes a slide stabilizer plate 801; the two side ends of the detection box body 5 are connected with sliding stabilizing plates 801 through bolts, the sliding support columns 3 penetrate through the tail ends of the sliding stabilizing plates 801, and the sliding stabilizing plates 801 are connected with the sliding support columns 3 in a sliding manner; the middle part of the rear end of the supporting top plate 4 is fixedly connected with a mounting positioning plate 802, the lower end of the mounting positioning plate 802 is fixedly connected with a reciprocating screw rod 803, the upper end of the rear side of the detection box body 5 is fixedly connected with a fixed seat 804, the middle part of the fixed seat 804 is connected with a movable sleeve 805 through a bearing, and the lower end of the reciprocating screw rod 803 penetrates through the movable sleeve 805 and the movable sleeve 805 is in threaded connection with the reciprocating screw rod 803; the top end of the movable sleeve 805 is fixedly connected with a first gear 806, the reciprocating screw 803 penetrates through the middle of the first gear 806, the upper end of the rear side of the detection box 5 is provided with a second gear 807, the second gear 807 is fixedly connected with the upper end unidirectional transmission shaft 607, and the second gear 807 is in meshed connection with the first gear 806; through the unidirectional transmission shaft 607 that first motor 606 upper end is connected, can drive the rotation of second gear 807 when first motor 606 counter-rotating, and the rotation of second gear 807 drives first gear 806, movable sleeve 805 and reciprocating screw 803 cooperation completion lift, and drive detection box 5 synchronous motion when making movable sleeve 805 go up and down because of fixing base 804's setting, and then accomplish the regulation to testing position or height.

The supporting mechanism 9 includes a supporting positioning plate 901; the lower end of the equipment supporting plate 1 is provided with a supporting and positioning plate 901, the upper end of the supporting and positioning plate 901 is fixedly connected with a sliding guide rod 902, and the upper end of the sliding guide rod 902 penetrates through the equipment supporting plate 1 to form a sliding structure; the front and back side shafts of the supporting and positioning plate 901 are connected with a rotating support plate 903, the rotating support plate 903 and the supporting and positioning plate 901 form a rotating structure, torsion reset springs 904 are arranged on two sides of the supporting and positioning plate 901, two ends of each torsion reset spring 904 are fixedly connected with the supporting and positioning plate 901 and the rotating support plate 903 respectively, and the rotating support plate 903 and the supporting and positioning plate 901 form a rotating reset structure through the torsion reset springs 904; positioning seats 905 are fixedly arranged on two sides of the supporting positioning plate 901, two groups of limiting rollers 906 are connected with the middle shaft of each positioning seat 905, and the limiting rollers 906 are contacted with the outer sides of the rotating supporting plates 903; the upper end of the equipment supporting plate 1 is provided with a mounting box 907, the upper end of the rear side of the mounting box 907 is fixedly connected with a reciprocating screw 803, a second motor 908 is arranged in the middle of the mounting box 907, two ends of the second motor 908 are fixedly connected with an extension rotating rod 909, two ends of the extension rotating rod 909 penetrate through the outside of the mounting box 907, and the tail end of the extension rotating rod 909 is connected with a transmission worm 910; the two sides of the equipment supporting plate 1 are penetrated with lifting threaded rods 911, the lifting threaded rods 911 are connected with the equipment supporting plate 1 through bearings, and the bottom ends of the lifting threaded rods 911 are in threaded connection with the supporting positioning plates 901; the upper end of the lifting threaded rod 911 is fixedly connected with a transmission worm gear 912, and the transmission worm gear 912 is in meshed connection with the lifting threaded rod 911; the second motor 908 is used as a power source to drive the extension rotating rod 909 and the transmission worm 910 to rotate, the transmission worm 910 rotates to drive the transmission worm wheel 912 and the lifting threaded rod 911 to rotate, and then the lifting of the supporting and positioning plate 901 is regulated, the torsion reset spring 904 drives the rotation supporting plate 903 to rotate in the descending process of the supporting and positioning plate 901, and the torsion reset spring 904 can be in contact with the ground and support the detection equipment in the continuous descending process, so that the equipment is positioned, and the situation that the equipment is displaced due to reverse acting force in the detection process is prevented.

The auxiliary anti-tilting mechanism 10 includes a drive plate 1001; the rear side of the upper end of the equipment supporting plate 1 is provided with a transmission plate 1001, the front end of the transmission plate 1001 is fixedly connected with the upper end of a rear sliding guide rod 902, the rear end of the transmission plate 1001 is fixedly connected with an auxiliary supporting anti-tilting plate 1002, the auxiliary supporting anti-tilting plate 1002 is of an L-shaped structural design, a reinforcing connecting rod 1003 is fixed on the rear side of the auxiliary supporting anti-tilting plate 1002 through bolts, the reinforcing connecting rod 1003 is of an inclined design, and the reinforcing connecting rods 1003 are distributed in an equidistant array; through the setting of drive plate 1001 for support locating plate 901 and slip guide bar 902 drive supplementary support through drive plate 1001 and prevent inclining board 1002 and go up and down in step at the lift in-process, and support this check out test set back with ground contact, prevent this check out test set emergence condition of empting when detecting, the normal clear of assurance and the security of detection.

While 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 may be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides a but building structure check out test set of diversified detection, includes equipment support board (1), universal gyro wheel (2), slip support column (3), support roof (4) and detects box (5), its characterized in that:

the lower end of the equipment supporting plate (1) is fixedly provided with a universal roller (2), the upper end of the equipment supporting plate (1) is fixedly provided with a sliding supporting column (3), and the top end of the sliding supporting column (3) is provided with a supporting top plate (4);

the lower end of the supporting top plate (4) is provided with a detection box body (5), a building structure detection mechanism (6) is arranged in the detection box body (5), and the lower end of the inner part of the detection box body (5) is connected with a pressure regulating mechanism (7);

the support roof (4) rear side lower extreme is connected with high adjustment mechanism (8), equipment backup pad (1) lower extreme is connected with supporting mechanism (9), and equipment backup pad (1) rear end is provided with supplementary anti-tilt mechanism (10) to supplementary anti-tilt mechanism (10) front end is connected with supporting mechanism (9).

2. A multi-azimuth detectable building structure detection apparatus according to claim 1, wherein: the building structure detection mechanism (6) comprises a transmission rod (601);

the middle part of the front end of the detection box body (5) is penetrated with a transmission rod (601), the front end of the transmission rod (601) is fixedly connected with a detection block (602), the detection block (602) is horizontally arranged, the rear ends of two sides of the detection block (602) are fixedly connected with transmission pipes (603), the transmission pipes (603) are internally penetrated with limit rods (604), and the limit rods (604) are in sliding connection with the transmission pipes (603);

the rear end of the limiting rod (604) is fixedly connected with the detection box body (5), the front end of the limiting rod (604) is penetrated by a pressing spring (605), and the front end of the pressing spring (605) is fixedly connected with the rear end of the transmission pipe (603).

3. A multi-azimuth detectable building structure detection apparatus according to claim 2, wherein: the detection box body (5) is characterized in that a first motor (606) is fixedly arranged at the rear side of the detection box body (5), two ends of the first motor (606) are fixedly connected with unidirectional transmission shafts (607), two groups of unidirectional transmission shafts (607) are arranged, the directions of the two groups of unidirectional transmission shafts (607) are opposite, and the lower unidirectional transmission shaft (607) penetrates into the detection box body (5);

the upper end inside the detection box body (5) is provided with a driving gear (608), the driving gear (608) is fixedly connected with a lower unidirectional transmission shaft (607), a front bearing at the upper end of the detection box body (5) is connected with a rotating shaft (609), the upper end of the rotating shaft (609) is fixedly connected with a driven gear (610), and the lower end of the driven gear (610) is fixedly connected with a rotary table (611);

the rear side of the driven gear (610) is in meshed connection with the driving gear (608), and the diameter of the driven gear (610) is larger than that of the driving gear (608).

4. A multi-azimuth detectable building structure detection apparatus according to claim 3, wherein: a limiting groove (612) is formed in the rotary table (611), the limiting groove (612) is in an arc-shaped structural design, a positioning rod (613) penetrates through the limiting groove (612), and the positioning rod (613) is in sliding connection with the limiting groove (612);

the detection box body (5) is internally provided with a sliding block (614), the sliding block (614) is fixedly connected with the rear end of the transmission rod (601), the sliding block (614) and the transmission rod (601) form a T-shaped structural design, a sliding groove (615) is formed in the sliding block (614), the lower end of the positioning rod (613) extends to the inside of the sliding groove (615), and the sliding groove (615) and the positioning rod (613) form a sliding structure.

5. A multi-azimuth detectable building structure detection apparatus according to claim 1, wherein: the pressure regulating mechanism (7) comprises a movable plate (701);

the lower end of the detection box body (5) is penetrated by a movable plate (701), two ends of the movable plate (701) penetrate through the outside of the detection box body (5), and the movable plate (701) and the detection box body (5) form a sliding structure;

the movable plate (701) is fixedly connected with a spring limiting plate (702) at two ends, the rear end of the limiting rod (604) penetrates through the limiting rod (604), the spring limiting plate (702) and the limiting rod (604) form a sliding structure, the front end of the spring limiting plate (702) is fixedly connected with a pressing spring (605), the middle part of the detection box body (5) is penetrated with a transmission threaded screw rod (703), the transmission threaded screw rod (703) is connected with the detection box body (5) through a bearing, the rear end of the transmission threaded screw rod (703) is penetrated through the spring limiting plate (702), and the transmission threaded screw rod (703) is in threaded connection with the spring limiting plate (702).

6. A multi-azimuth detectable building structure detection apparatus according to claim 1, wherein: the height adjusting mechanism (8) comprises a sliding stabilizing plate (801);

the two side ends of the detection box body (5) are connected with sliding stabilizing plates (801) through bolts, the sliding supporting columns (3) penetrate through the tail ends of the sliding stabilizing plates (801), and the sliding stabilizing plates (801) are connected with the sliding supporting columns (3) in a sliding mode;

the device is characterized in that an installation locating plate (802) is fixedly connected to the middle of the rear end of the supporting top plate (4), a reciprocating screw rod (803) is fixedly connected to the lower end of the installation locating plate (802), a fixing seat (804) is fixedly connected to the upper end of the rear side of the detection box body (5), a movable sleeve (805) is connected to the middle of the fixing seat (804) through a bearing, the lower end of the reciprocating screw rod (803) penetrates through the movable sleeve (805), and the movable sleeve (805) is in threaded connection with the reciprocating screw rod (803).

7. The multi-azimuth detectable building structure detection apparatus of claim 6, wherein: the movable sleeve (805) is fixedly connected with a first gear (806), the reciprocating screw rod (803) penetrates through the middle of the first gear (806), the upper end of the rear side of the detection box body (5) is provided with a second gear (807), the second gear (807) is fixedly connected with the upper end one-way transmission shaft (607), and the second gear (807) is meshed and connected with the first gear (806).

8. A multi-azimuth detectable building structure detection apparatus according to claim 1, wherein: the supporting mechanism (9) comprises a supporting and positioning plate (901);

the lower end of the equipment supporting plate (1) is provided with a supporting and positioning plate (901), the upper end of the supporting and positioning plate (901) is connected with a sliding guide rod (902), and the upper end of the sliding guide rod (902) penetrates through the equipment supporting plate (1) to form a sliding structure;

the front and rear shafts of the support positioning plate (901) are connected with a rotation support plate (903), the rotation support plate (903) and the support positioning plate (901) form a rotation structure, torsion reset springs (904) are arranged on two sides of the support positioning plate (901), two ends of each torsion reset spring (904) are fixedly connected with the support positioning plate (901) and the rotation support plate (903) respectively, and the rotation support plate (903) and the support positioning plate (901) form a rotation reset structure through the torsion reset springs (904);

the two sides of the supporting and positioning plate (901) are fixedly provided with positioning seats (905), the middle part of each positioning seat (905) is connected with two groups of limiting rollers (906) in a shaft mode, and the limiting rollers (906) are in contact with the outer sides of the rotating supporting plates (903).

9. The multi-azimuth detectable building structure detection apparatus of claim 8, wherein: the upper end of the equipment supporting plate (1) is provided with a mounting box (907), the upper end of the rear side of the mounting box (907) is fixedly connected with a reciprocating screw rod (803), a second motor (908) is arranged in the middle of the mounting box (907), two ends of the second motor (908) are fixedly connected with an extension rotating rod (909), two ends of the extension rotating rod (909) penetrate through the outside of the mounting box (907), and the tail end of the extension rotating rod (909) is connected with a transmission worm (910);

lifting threaded rods (911) penetrate through two sides of the equipment supporting plate (1), the lifting threaded rods (911) are connected with bearings of the equipment supporting plate (1), and the bottom ends of the lifting threaded rods (911) are in threaded connection with the supporting and positioning plates (901);

the upper end of the lifting threaded rod (911) is fixedly connected with a transmission worm wheel (912), and the transmission worm wheel (912) is meshed with the lifting threaded rod (911).

10. A multi-azimuth detectable building structure detection apparatus according to claim 1, wherein: the auxiliary anti-tilting mechanism (10) comprises a transmission plate (1001);

the device comprises a device supporting plate (1), wherein a transmission plate (1001) is arranged at the rear side of the upper end of the device supporting plate (1), the front end of the transmission plate (1001) is fixedly connected with the upper end of a rear sliding guide rod (902), the rear end of the transmission plate (1001) is fixedly connected with an auxiliary supporting anti-tilting plate (1002), the auxiliary supporting anti-tilting plate (1002) is of an L-shaped structural design, a reinforcing connecting rod (1003) is fixedly arranged on the rear side of the auxiliary supporting anti-tilting plate (1002) through bolts, the reinforcing connecting rod (1003) is of an inclined design, and the reinforcing connecting rods (1003) are distributed in an equidistant array.