CN113340551A - House anti-seismic detection equipment and detection method using detection equipment - Google Patents

Abstract

The utility model relates to a house antidetonation check out test set, including host computer and probe, the probe connection is provided with drive assembly, and drive assembly includes base, first carriage, first driving piece, second carriage and second driving piece, and the base is placed subaerial, and first carriage is vertical to set firmly on the base, first driving piece is installed in first carriage thickness direction one side, and second carriage horizontal installation is on first driving piece, and second carriage thickness direction one side sets firmly on first driving piece, and the second carriage slides along first carriage length direction on first carriage through first driving piece, and the second driving piece sets firmly deviates from first driving piece one side at the second drive, and the probe is installed on the second driving piece, and the second driving piece drives the probe and slides along second carriage length direction on the second carriage. This application has and adopts the drive assembly drive, has reduced the hand and has trembled the influence to the detection, promotes the effect of the detection precision of antidetonation numerical value.

Description

House anti-seismic detection equipment and detection method using detection equipment

Technical Field

The application relates to the field of house quality detection, in particular to house anti-seismic detection equipment and a detection method using the same.

Background

The house quality detection is a process of detecting, evaluating and reporting the house quality by a qualified detection unit, namely detecting and evaluating the house quality by using a certain technical means and method to check and measure the structure quality of the house and implement dynamic monitoring.

The traditional Chinese utility model patent with the publication number of CN208704992U discloses a house earthquake-resistant detector, which comprises a host (1) and a probe (2), wherein the host (1) is provided with a host sleeve (3), the back of the host sleeve (3) is provided with a binding band (4), and one side of the host sleeve (3) close to the binding band (4) is pivoted with a pressing plate (5) for pressing and fixing the binding band (4); one end of the binding band (4) is provided with a sub magic tape (6), the other end of the binding band (4) is provided with a mother magic tape (7) matched with the sub magic tape (6), and the sub magic tape (6) is matched with the mother magic tape (7) to fix the main machine (1) on the arm; when the device is used, the host is fixed on one hand, the probe is held by the other hand, and the numerical value of the wall body is measured and fed back to the display of the host by moving the wall body on the wall surface by holding the probe by the hand.

For the related technologies, the inventor thinks that the existing anti-seismic detector has higher requirements for grasping the probe during detection, and the detection precision of the anti-seismic value is influenced by the deviation generated when the hand is moved.

Disclosure of Invention

In order to improve the detection precision of antidetonation numerical value, this application provides a house antidetonation detection equipment and utilizes this detection device's detection method.

The application provides a house antidetonation check out test set adopts following technical scheme:

the utility model provides a house antidetonation check out test set, includes host computer and probe, the probe connection is provided with drive assembly, drive assembly includes base, first carriage, first driving piece, second carriage and second driving piece, the base is placed subaerial, first carriage is vertical to set firmly on the base, first driving piece is installed in first carriage thickness direction one side, second carriage horizontal installation is on first driving piece, and second carriage thickness direction one side sets firmly on first driving piece, and the second carriage slides along first carriage length direction on first carriage through first driving piece, the second driving piece sets firmly and deviates from first driving piece one side at the second drive, and the probe is installed on the second driving piece, and the second driving piece drives the probe and slides along second carriage length direction on the second carriage.

Through adopting above-mentioned technical scheme, slide in vertical and horizontal through first driving piece cooperation second driving piece drive probe, adopt the drive assembly drive, reduced the hand and trembled the influence to the detection, promote the detection precision of antidetonation numerical value.

Optionally, the probe includes the fixed station, slides platform and detector, the fixed station is installed on the second driving piece, the platform that slides sets up and keeps away from second driving piece one end at the fixed station, and the platform orientation that slides is close to or keeps away from the fixed station orientation and slides, the detector is installed at the platform that slides and is carried away from the center of fixed station one end, be provided with the elastic component between fixed station and the platform that slides, the fixed station is connected respectively at the elastic component both ends and the platform that slides.

Through adopting above-mentioned technical scheme, the platform that slides passes through the elastic component and slides on the fixed station, can make the detector carry out the adjustment of position through the sliding of the platform that slides when the wall body unevenness to reduce the probability that the damage appears in detector striking wall body.

Optionally, a plurality of guide rods are fixedly arranged at one end, facing the fixed table, of the sliding table, and the guide rods are inserted into the fixed table and slide in the fixed table.

Through adopting above-mentioned technical scheme, the guide bar is used for the slip of the platform that slides of direction, makes the slip of the platform that slides more smooth, can reduce the probability of the platform skew that slides simultaneously.

Optionally, the platform that slides is installed detector one end and is provided with a plurality of mark subassemblies, and a plurality of mark subassemblies evenly set up in detector circumference, and the mark subassembly includes drive electric jar and marker pen, the drive electric jar inlays to be located the platform that slides, the marker pen is installed at drive electric jar orientation platform installation detector one end that slides, and drive electric jar drive marker pen orientation is close to or keeps away from the detector direction and slides.

Through adopting above-mentioned technical scheme, the mark subassembly can detect the wall body shock resistance when relatively poor at the detector, mark the wall body, and convenient follow-up consolidates the repair to the relatively poor region of wall body shock resistance.

Optionally, the sliding table is provided with a plurality of balls, and the balls are uniformly distributed in the circumferential direction of the detector at the periphery of the marking assembly.

Through adopting above-mentioned technical scheme, the friction loss of probe can be reduced in the setting of ball, and when the wall body had the protruding position, thereby the ball can make the platform that slides earlier the butt, reduces the probability that the detector directly strikes the wall body.

Optionally, a guide assembly is arranged between the second driving frame and the base, the guide assembly comprises a guide sleeve and a sliding rod, the guide sleeve is detachably mounted on the base, the guide sleeve is vertically arranged, the sliding rod is detachably mounted at one end, facing the base, of the second driving frame, and the sliding rod is inserted into the guide sleeve and slides along the length direction of the guide sleeve.

Through adopting above-mentioned technical scheme, the setting up of direction subassembly makes the slip of second carriage smoother, reduces the probability of second carriage slope.

Optionally, a mounting frame is fixedly arranged on the base, the mounting frame is mounted on the first driving frame and deviates from the first driving piece, and the host is mounted on the mounting frame.

Through adopting above-mentioned technical scheme, the mounting bracket is used for installing the host computer, makes things convenient for placing of host computer.

Optionally, an installation sleeve is arranged between the installation frame and the host, and the host is detachably installed in the installation sleeve through inserting.

Through adopting above-mentioned technical scheme, can dismantle the host computer that sets up and dismantle the host computer according to actual conditions and use, realize remote control.

Optionally, the base is provided with a plurality of balancing weights.

Through adopting above-mentioned technical scheme, the probability that check out test set emptys can be reduced in setting up of balancing weight.

A detection method using a house earthquake-resistant detection device comprises the following steps:

step 1; the equipment inspection is used for inspecting the sensitivity of the first driving part and the second driving part before use and simultaneously detecting the precision of the detector;

step 2; installing equipment, namely placing a base in an area to be detected to enable a detector to be abutted against a wall;

step 3; detecting, namely controlling the first driving piece and the second driving piece to drive the probe to detect the wall through the host;

step 4; and marking, namely marking by adopting a marking assembly when poor shock resistance of a certain area of the wall is detected.

Through adopting above-mentioned technical scheme, the inspection of equipment has guaranteed the precision of equipment, makes through drive assembly drive probe and detects more accurately, detects the back and carry out subsequent reinforcement or repair that can be accurate that the mark carries on.

In summary, the present application includes at least one of the following beneficial technical effects:

the first driving piece is matched with the second driving piece to drive the probe to slide in the longitudinal direction and the transverse direction, and the driving assembly is adopted for driving, so that the influence of hand shaking on detection is reduced, and the detection precision of an anti-seismic numerical value is improved;

the sliding table slides on the fixed table through the elastic piece, so that the position of the detector can be adjusted through the sliding of the sliding table when the wall is uneven, and the probability of damage caused by the fact that the detector impacts the wall is reduced;

the marking assembly can mark the wall when the detector detects that the wall has poor shock resistance, so that subsequent reinforcement and repair of the area with poor shock resistance are facilitated;

the arrangement of the guide assembly enables the sliding of the second driving frame to be smoother, and the probability of the inclination of the second driving frame is reduced;

the host computer that can dismantle the setting can be used according to actual conditions with the host computer dismantlement down, has realized remote control.

Drawings

Fig. 1 is a schematic view of the overall structure of the present embodiment.

Fig. 2 is a schematic view of another view of the overall structure of the present embodiment.

Fig. 3 is a schematic structural view of the probe site of the present embodiment.

Description of reference numerals: 0. an elastic member; 1. a host; 2. a probe; 21. a fixed table; 22. a sliding table; 23. a detector; 3. a drive assembly; 31. a base; 32. a first driving frame; 33. a first driving member; 34. a second driving frame; 35. a second driving member; 4. a guide bar; 5. a marking component; 51. driving an electric cylinder; 52. a marking pen; 6. a ball bearing; 7. a guide assembly; 71. a guide sleeve; 72. a slide bar; 8. a mounting frame; 9. installing a sleeve; 10. and a balancing weight.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses, house antidetonation check out test set, refer to fig. 1 and 2, including host computer 1 and probe 2, be provided with the display screen on the host computer 1, all be provided with the battery in host computer 1 and the probe 2, the battery is used for the power supply of host computer 1 and probe 2, is provided with wireless generator in the probe 2, sets up wireless receiver in the host computer 1, and probe 2 detects the wall body and will detect data through wireless generator and carry to wireless receiver on and through the display of host computer 1 and show.

Referring to fig. 1, a probe 2 is connected with a driving assembly 3, the driving assembly 3 includes a base 31 placed on the ground, a first driving frame 32 vertically fixed on the base 31, a first driving member 33 installed on one side of the first driving frame 32 in the thickness direction, a second driving frame 34 horizontally installed on the first driving member 33, and a second driving member 35 fixed on one side of the second driving member away from the first driving member 33, a counterweight 10 is placed on the base 31, the counterweight 10 is detachable, because the probe 2 is installed on the upper end of the driving assembly 3, the upper end of the driving assembly 3 has a heavier weight and is easy to tilt, the probability of tilting the driving assembly 3 can be reduced by placing the counterweight 10 on the base 31, one side of the second driving frame 34 in the thickness direction is fixed on the first driving member 33, the second driving frame 34 slides on the first driving frame 32 along the length direction of the first driving frame 32 through the first driving member 33, the probe 2 is arranged on the second driving piece 35, and the second driving piece 35 drives the probe 2 to slide on the second driving frame 34 along the length direction of the second driving frame 34; slide in vertical and horizontal through first driving piece 33 cooperation second driving piece 35 drive probe 2, adopt the drive of drive assembly 3, reduced the hand and trembled the influence to the detection, promote the detection precision of antidetonation numerical value, no pole electric cylinder is all chooseed for use to first driving piece 33 and second driving piece 35, and no pole electric cylinder is more space-saving than ordinary electric cylinder under the same circumstances of stroke.

Referring to fig. 1 and 3, the probe 2 includes a fixed table 21 mounted on the second driving member 35, a sliding table 22 slidably disposed at one end of the fixed table 21 far from the second driving member 35, and a detector 23 mounted at the center of one end of the sliding table 22 far from the fixed table 21, the sliding table 22 slides toward the direction close to or far from the fixed table 21, an elastic member 0 is disposed between the fixed table 21 and the sliding table 22, two ends of the elastic member 0 are respectively connected to the fixed table 21 and the sliding table 22, the elastic member 0 is a spring, when the wall body fixed by the base 31 is uneven, the slippage of the detector 23 can be influenced, the detector 23 is easy to damage, the detector 23 has an adjusting space due to the arrangement of the slippage table 22, the probability of the damage of the detector 23 is reduced, the detector 23 can be always abutted against the wall body under the elastic action of the compressed elastic piece 0 due to the arrangement of the elastic piece 0, and the detection result of the detector 23 is more accurate; the platform 22 that slides has set firmly four guide bars 4 towards fixed station 21 one end, and four guide bars 4 set up respectively in the platform 22 four corners that slides, and guide bar 4 all inserts and locates in fixed station 21 and slide in fixed station 21, and guide bar 4 is used for the slip of the platform 22 that slides of direction, makes the slip of platform 22 more smooth, can reduce the probability that the platform 22 that slides squinted simultaneously.

Referring to fig. 1 and 3, four groups of marking assemblies 5 are arranged at one end of a sliding table 22, where a detector 23 is installed, and the four groups of marking assemblies 5 are uniformly arranged in the circumferential direction of the detector 23, each marking assembly 5 comprises a driving electric cylinder 51 embedded in the sliding table 22 and a marking pen 52 installed at one end, where the driving electric cylinder 51 faces the sliding table 22 and the detector 23 is installed, the marking pen 52 is driven by the driving electric cylinder 51 to slide towards the direction close to or away from the detector 23, the marking pen 52 is driven by the driving electric cylinder 51 to mark a wall surface, when the detector 23 detects that the wall body has poor seismic capacity, the wall body is marked, and the subsequent reinforcing and repairing of the area with poor seismic capacity is facilitated; slip platform 22 and install detector 23 one end and inlay and be equipped with four balls 6, four balls 6 in the peripheral evenly distributed of mark subassembly 5 in detector 23 circumference, thereby ball 6 can earlier the butt make slip platform 22 slide when the wall has the arch, follow-up detector 23 can reduce when removing to bellied department with bellied striking and friction to reduce the probability that detector 23 damaged.

Referring to fig. 1 and 2, a guide assembly 7 is arranged between the second driving frame 34 and the base 31, the guide assembly 7 includes a guide sleeve 71 detachably mounted on the base 31 and a sliding rod 72 detachably mounted on one end of the second driving frame 34 facing the base 31, the guide sleeve 71 is vertically arranged, the sliding rod 72 is inserted into the guide sleeve 71 and slides along the length direction of the guide sleeve 71, two groups of guide assemblies 7 are respectively arranged at the length direction of the second driving frame 34, and the second driving frame 34 is longer and is easy to topple during sliding, and the arrangement of the guide assembly 7 can reduce the sliding probability of the second driving frame 34; the base 31 is provided with a slot guide sleeve 71 which is detachably arranged in the slot, the second driving frame 34 is fixedly provided with a sleeve, the sliding rod 72 is inserted into the sleeve in a detachable way, a bolt is inserted into the sleeve and penetrates through the sleeve and the sliding rod 72, the sliding rod 72 is fixed in the sleeve, the size of the sleeve and the size of the slot are equal, and after the guide sleeve 71 and the sliding rod 72 are detached, the sleeve is sleeved in the slot when the sliding second driving frame 34 slides towards the base 31 and is attached to the base 31; the guide sleeve 71 and the sliding rod 72 which are detachably arranged can limit the second driving frame 34 by removing and lowering the second driving frame 34 close to the base 31, so that the probe 2 can detect a wall close to the ground.

Referring to fig. 1 and 2, the base 31 is fixedly provided with a mounting bracket 8, the mounting bracket 8 is mounted on the first driving bracket 32 and deviates from the first driving member 33, and the main unit 1 is mounted on the mounting bracket 8; an installation sleeve 9 is arranged between the installation frame 8 and the host 1, the host 1 is detachably installed in the installation sleeve 9 through insertion, and the host 1 which is detachably arranged can be used by detaching the host 1 according to actual conditions, so that remote control is realized; the first driving member 33, the second driving member 35 and the driving electric cylinder 51 are all controlled by the main machine 1 in a wireless mode.

A detection method using a house earthquake-resistant detection device comprises the following steps:

step 1; the equipment inspection is carried out, the sensitivity of the first driving part 33 and the sensitivity of the second driving part 35 are inspected before the equipment inspection is used, meanwhile, the precision of the detector 23 is detected, the sensitivity of the first driving part 33 and the sensitivity of the second driving part 35 are inspected by trying to drive the first driving part 33 and the second driving part 35, the precision of the detector 23 is compared according to the sample condition and detection data by detecting a concrete block sample with a crack inside, and the precision of the detector 23 is ensured;

step 2; installing equipment, namely placing a base 31 in an area to be detected to enable a detector 23 to be abutted against a wall, and then placing a balancing weight 10 on the base 31 to enable the base 31 to be fixed;

step 3; detecting, namely controlling the first driving piece 33 and the second driving piece 35 to drive the probe 2 to detect the wall through the host 1;

step 4; and marking, when the poor shock resistance of a certain area of the wall is detected, marking is carried out by adopting the marking assembly 5, the marking is carried out by adopting the driving electric cylinder 51 to drive the marking pen 52 to mark points on the wall, when the detection equipment is removed, the separated marking points are connected, the four marking points form two mutually crossed straight lines, and the point where the straight lines are crossed is the central point of detection.

The implementation principle of the embodiment of the application is as follows: the base 31 is placed beside a wall, the detector 23 abuts against the wall, the balancing weight 10 is placed on the base 31, the host 1 is used for controlling the first driving piece 33 and the second driving piece 35 to drive the probe 2 to slide on the wall, when a crack is detected in the wall, the host 1 is used for controlling the marking assembly 5 to mark the wall, and the wall is subsequently reinforced or repaired.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. The utility model provides a house antidetonation check out test set, includes host computer (1) and probe (2), its characterized in that: the probe (2) is provided with a driving assembly (3) in a connecting manner, the driving assembly (3) comprises a base (31), a first driving frame (32), a first driving piece (33), a second driving frame (34) and a second driving piece (35), the base (31) is placed on the ground, the first driving frame (32) is vertically and fixedly arranged on the base (31), the first driving piece (33) is arranged on one side of the thickness direction of the first driving frame (32), the second driving frame (34) is horizontally arranged on the first driving piece (33), one side of the thickness direction of the second driving frame (34) is fixedly arranged on the first driving piece (33), the second driving frame (34) slides on the first driving frame (32) along the length direction of the first driving frame (32) through the first driving piece (33), and the second driving piece (35) is fixedly arranged on one side of the second driving piece deviating from the first driving piece (33), the probe (2) is arranged on the second driving piece (35), and the second driving piece (35) drives the probe (2) to slide on the second driving frame (34) along the length direction of the second driving frame (34).

2. The equipment for earthquake-proof detection of houses according to claim 1, characterized in that: probe (2) include fixed station (21), slide platform (22) and detector (23), install on second driving piece (35) fixed station (21), slide platform (22) and slide and set up and keep away from second driving piece (35) one end in fixed station (21), slide platform (22) orientation is close to or keeps away from fixed station (21) direction and slides, detector (23) are installed and are deviating from the center of fixed station (21) one end at slide platform (22), be provided with elastic component (0) between fixed station (21) and slide platform (22), fixed station (21) and slide platform (22) are connected respectively at elastic component (0) both ends.

3. The equipment for earthquake-proof detection of houses according to claim 2, wherein: the sliding table (22) is fixedly provided with a plurality of guide rods (4) towards one end of the fixed table (21), and the guide rods (4) are inserted into the fixed table (21) and slide in the fixed table (21).

4. The equipment for earthquake-proof detection of houses according to claim 3, wherein: the utility model discloses a displacement instrument, including slip platform (22), slip platform (22) and install detector (23) one end and be provided with a plurality of mark subassembly (5), a plurality of mark subassembly (5) evenly set up in detector (23) circumference, and mark subassembly (5) are including drive electricity jar (51) and marker pen (52), drive electricity jar (51) are inlayed and are located in slip platform (22), marker pen (52) are installed and are being close to or keep away from detector (23) direction and slide at drive electricity jar (51) towards slip platform (22) installation detector (23) one end, drive electricity jar (51) drive marker pen (52) orientation.

5. The equipment for earthquake-proof detection of houses according to claim 4, wherein: the sliding table (22) is provided with a plurality of balls (6) which are embedded at one end of the detector (23), and the balls (6) are uniformly distributed in the circumferential direction of the detector (23) at the periphery of the marking assembly (5).

6. The equipment for earthquake-proof detection of houses according to claim 1, characterized in that: be provided with between second drive frame (34) and base (31) direction subassembly (7), direction subassembly (7) include uide bushing (71) and slide bar (72), uide bushing (71) demountable installation is on base (31), and uide bushing (71) is vertical to be set up, slide bar (72) demountable installation is in second drive frame (34) towards base (31) one end, and slide bar (72) are inserted and are located and slide along uide bushing (71) length direction in uide bushing (71).

7. The equipment for earthquake-proof detection of houses according to claim 1, characterized in that: the utility model discloses a driving device, including base (31), mounting bracket (8) have set firmly on base (31), mounting bracket (8) are installed and are deviated from first driving piece (33) in first drive frame (32), host computer (1) is installed on mounting bracket (8).

8. The equipment for earthquake-proof detection of houses according to claim 7, wherein: be provided with between mounting bracket (8) and host computer (1) installation cover (9), host computer (1) is through inserting establish demountable installation in installation cover (9).

9. The equipment for earthquake-proof detection of houses according to claim 1, characterized in that: the base (31) is provided with a plurality of balancing weights (10).

10. A detection method using a house earthquake-resistant detection device comprises the following steps:

step 1; an equipment check for checking the sensitivity of the first driving member (33) and the second driving member (35) before use, and simultaneously detecting the accuracy of the detector (23);

step 2; the device is installed, the base (31) is placed in an area to be detected, and the detector (23) is abutted to the wall body;

step 3; detecting, namely controlling a first driving piece (33) and a second driving piece (35) to drive a probe (2) to detect a wall body through a host (1);

step 4; and marking by using a marking component (5) when poor shock resistance of a certain area of the wall is detected.

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