CN115077472B - Intelligent automatic detection device for supervision of construction engineering with convenient operation - Google Patents

Abstract

The invention provides an intelligent automatic detection device for supervision of construction engineering, which is convenient to operate, and relates to the technical field of construction engineering detection, and comprises a positioning and mounting part; the positioning and mounting part is fixedly connected with a lifting driving device; the lifting driving device is connected with a sliding detection device in a sliding manner; the sliding detection device is fixedly connected with two side-tipping detection parts; the two side-tipping detection parts are respectively and rotatably connected with a triggering extrusion piece; the two telescopic attaching devices are fixedly connected with the telescopic attaching devices respectively; the intelligent automation degree is high, the inclination and fracture displacement inside the foundation pit are comprehensively detected, and the detection is more accurate and stable; the problem of current supervision intelligent automatic checkout device can't assist intelligent automated inspection hole interior humiture condition, can't realize the self-adaptation detection of hole wall, lead to subsidence detection location inflexible is solved.

Description

Intelligent automatic detection device for supervision of construction engineering with convenient operation

Technical Field

The invention relates to the technical field of building engineering detection, in particular to an intelligent automatic detection device for building engineering supervision, which is convenient to operate.

Background

The construction supervision refers to supervision performed on construction projects in a construction stage, and mainly aims to ensure that construction safety, quality, investment, construction period and the like meet requirements of construction units.

However, for the intelligent automatic detection device of present building engineering supervision, the humiture condition in the unable supplementary intelligent automated inspection hole, detection data is not comprehensive enough simultaneously, and whole installation is not convenient enough, and the cost is high simultaneously, can't realize the self-adaptation detection of hole wall, and the suitability is poor, does not possess slope and local detection of collapsing simultaneously, can't realize supplementary support simultaneously, and it is not convenient enough to adjust the location, leads to subside detection location inflexible enough, can't realize adjusting the warning value simultaneously.

Disclosure of Invention

In view of the above, the invention provides an intelligent automatic detection device for supervision of construction engineering, which is convenient to operate, is provided with a triggering extrusion part, is matched with a side tilting detection part, can perform real-time tilting and displacement detection on a pit wall, can effectively improve the detection timeliness of the pit wall, can better detect the tilting condition of the pit wall, is more suitable for installation of basic pit supporting equipment as a whole, can realize the fitting detection on the pit wall, and can effectively ensure the detection reliability.

The invention provides an intelligent automatic detection device for supervision of construction engineering, which is convenient to operate, and particularly comprises a positioning and mounting part; the positioning and mounting part is fixedly connected with a lifting driving device; the lifting driving device is connected with a sliding detection device in a sliding manner; the sliding detection device is fixedly connected with two side-tipping detection parts; the two side-tipping detection parts are respectively and rotatably connected with a triggering extrusion piece; the two telescopic attaching devices are fixedly connected with the telescopic attaching devices respectively, and the two triggering extrusion pieces are sleeved inside the two side-tipping detection parts respectively in a sliding manner; the lifting driving device is fixedly connected with a leveling telescoping device; an intelligent temperature and humidity detection part is fixedly connected to the leveling telescoping device; the leveling telescoping device is connected with two sedimentation detection devices in a sliding way; the positioning and mounting part includes: the device comprises a mounting support cylinder frame, a hexagonal sliding shaft, a jacking needle plate and a driving worm, wherein two sides of the mounting support cylinder frame are respectively and slidably connected with the hexagonal sliding shaft; the two hexagonal sliding shafts are respectively in a hexagonal column structure; the two hexagonal sliding shafts are fixedly connected with an ejector pin plate respectively; the driving worm is rotationally connected to the mounting support cylinder frame; the lift driving device includes: the lifting sliding rod frame is fixedly connected to the mounting support cylinder frame; the lifting sliding rod frame is rotationally connected with a lifting threaded rod; the bottom of the lifting threaded rod is provided with a rotating handle.

Optionally, the sedimentation detection device includes: the sedimentation sliding shaft frame is connected to the detection sliding block in a sliding manner; the sedimentation sliding shaft frame is connected with a sedimentation positioning sliding block in a sliding manner, the bottom of the sedimentation positioning sliding block is fixedly connected with a sedimentation supporting disc, and the sedimentation sliding shaft frame is sleeved with two sedimentation springs; the top of the sedimentation sliding shaft frame is in threaded connection with a trigger control threaded rod, and the bottom of the trigger control threaded rod is aligned with the sliding shaft of the pressing plate.

Optionally, the leveling telescoping device includes: the device comprises a fixed sliding mounting cylinder, a leveling positioning shaft, a detection sliding block, a sedimentation detection switch, a trigger pressing plate and a pressing plate sliding shaft, wherein the fixed sliding mounting cylinder is rotationally connected to a lifting sliding rod frame; four raised sliding strips are arranged on the fixed sliding mounting cylinder; the fixed sliding mounting cylinder is sleeved with a leveling positioning shaft, and the end part of the leveling positioning shaft is provided with a spiral drill bit; a detection sliding block is connected to the fixed sliding mounting cylinder in a sliding manner; a sedimentation detection switch is fixedly connected to the bottom of the detection sliding block; the trigger pressing plate is fixedly connected with two pressing plate sliding shafts which are respectively and slidably connected to the detection sliding block; springs are respectively sleeved on the two sliding shafts of the pressing plate; the trigger pressing plate is aligned with the sedimentation detection switch; the settlement detection switch is electrically connected with the alarm buzzer.

Optionally, the sliding detection device includes: the device comprises a detection sliding frame, a trigger protruding strip, a trigger sliding block, an attaching tension spring, a sliding pushing shaft and a movable trigger switch, wherein the detection sliding frame is connected to a lifting sliding rod frame in a sliding manner; the detection sliding frame is in threaded connection with the lifting threaded rod; the detection sliding frame is of a T-shaped structure; two trigger protruding strips are fixedly connected to the detection sliding frame, and a row of protruding arc-shaped blocks are respectively arranged on the two trigger protruding strips; two trigger sliding blocks are connected to the detection sliding frame in a sliding manner, and two laminating tension springs are respectively and fixedly connected to the two trigger sliding blocks; the other ends of the attaching tension springs on the two triggering sliding blocks are respectively connected to two sides of the detection sliding frame; the two trigger sliding blocks are respectively and fixedly connected with a sliding propulsion shaft, and the two sliding propulsion shafts are respectively and slidably connected with the detection sliding frame; the two trigger sliding blocks are fixedly connected with a movable trigger switch respectively; and moving the trigger switch into alignment with the trigger tab; the two movable trigger switches are respectively and electrically connected with the alarm buzzer.

Optionally, the telescopic attaching device includes: the device comprises a fitting fixing strip, a fitting sliding strip, a length positioning shaft and a fitting positioning tension spring, wherein the fitting fixing strip is fixedly connected to the arc sliding shaft; the attaching fixing strip is rotationally connected to the rotary mounting rod; the attaching fixing strip is connected with an attaching sliding strip in a sliding manner, and a row of positioning holes are formed in the attaching sliding strip; the length positioning shaft is connected to the attaching fixing strip in a sliding manner, and is inserted into the positioning hole on the attaching sliding strip; the length positioning shaft is sleeved with a fitting positioning tension spring, and the fitting positioning tension spring is connected between the length positioning shaft and the fitting fixing strip.

Optionally, the positioning mounting portion further includes: the reverse threaded rod and the driving worm gear are rotatably connected to the mounting support cylinder frame; reverse threads are arranged on two sides of the reverse threaded rod; the reverse threaded rod is fixedly connected with a driving worm wheel; two sides of the reverse threaded rod are respectively in threaded connection with two hexagonal sliding shafts; the drive worm wheel is meshed with the drive worm.

Optionally, the trigger extrusion comprises: the arc sliding shaft, the arc protruding block and the stabilizing spring are sleeved on the side tilting detection block in a sliding manner; the arc sliding shaft is attached to the side-tipping detection switch; a row of arc-shaped protruding blocks are arranged on the arc-shaped sliding shaft; two stabilizing springs are sleeved on the arc sliding shaft; the two stabilizing springs are respectively positioned at two sides of the side-tipping detection block.

Optionally, the roll detection portion includes: the device comprises a roll detection block, a rotation mounting rod, a roll detection switch, a sliding shaft and a tension spring, wherein the roll detection block is fixedly connected to a sliding propulsion shaft; a rotary mounting rod is fixedly connected to the side-tipping detection block; the side-tipping detection block is fixedly connected with a side-tipping detection switch through a bracket; the side-tipping detection block is connected with a sliding shaft in a sliding way, and the sliding shaft is sleeved with a tension spring; the generating tension spring is connected between the outer side of the generating sliding shaft and the side-tipping detection block; the end part of the sliding shaft is of an arc-shaped structure; the side-tipping detection switch is electrically connected with the alarm buzzer.

Optionally, the intelligent temperature and humidity detection part includes: the comprehensive sliding shaft bracket is fixedly connected to the fixed sliding mounting cylinder; an electric threaded rod is arranged on the comprehensive sliding shaft frame, and a sliding mounting plate is connected to the electric threaded rod through threads; the two sides of the sliding mounting plate are connected to the comprehensive sliding shaft bracket in a sliding manner; a temperature and humidity sensor is fixedly connected to the sliding mounting plate; the sliding mounting plate is fixedly connected with a controller component, and the controller component is electrically connected with a temperature and humidity sensor.

Optionally, the lifting driving device further includes: and the lifting sliding rod frame is fixedly connected with an alarm buzzer.

Advantageous effects

According to the automatic detection device disclosed by the embodiment of the invention, the intelligent automation degree is high, the manufacturing cost is low, the detection function is more comprehensive, the operation is more stable, the detection can be scheduled more, the comprehensive detection on the inclination and the fracture displacement in the foundation pit can be realized, and the detection is more accurate and stable.

In addition, through setting up lift drive, cooperation location installation department, the whole suitability of improvement that can be effectual, the width and the height of adaptation foundation pit that can be better, the general pass of improvement engineering supervision, the location installation department operation of setting up simultaneously is also very convenient stable, the slip detection device of setting up, can realize independent two-way detection, can carry out stable detection work to the inner wall of foundation ditch, can effectually avoid because of subsidence or peripheral construction result in the foundation ditch inner wall to appear displacement and collapse not in time be found, the detection work of the slip detection device of setting up simultaneously is not influenced by foundation ditch width, the suitability is stronger, the stability of whole detection is stronger, through rotating the drive worm, can drive top pressure faller expansion top pressure foundation ditch inner wall, realize stable support location, improve the supporting effect of foundation ditch simultaneously, it can realize the drive and detect the carriage and go up and down to slide, realize the regulation of height, the detection work to different heights, simultaneously when the inner wall takes place large tracts of displacement, can drive the slip propulsion axle and slide, the removal trigger on the sliding block triggers the protruding switch to push down on the foundation ditch, the lift control of the lift, the alarm is realized, the stability of the whole construction is realized, the alarm is realized, the stability is improved, the stability is realized.

In addition, through setting up flexible laminating device, can realize adjusting attached length, namely change the detection scope to the foundation ditch inner wall, flexible laminating device is shorter, the precision that detects is higher, can be better be applicable to fixed point detection, the length of flexible laminating device is longer simultaneously, can improve laminating detection scope, detect comprehensively, the staff can freely adjust according to actual demand, simultaneously through setting up triggering extrusion piece, cooperation side-tipping detection portion, can realize the detection of rotation adaptation, can realize when the foundation ditch inner wall is partly collapsed, laminating fixed strip loses the holding power, can take place to rotate, can report to the police again and suggestion this moment, overall structure is ingenious practical, can be effectual improvement can monitor the reliability, overall detection stability is higher simultaneously, the overall structure is simpler stable, the practicality is stronger, when the foundation ditch inner wall takes place the skew or fracture simultaneously, laminating fixed strip can all receive its influence, drive the slip propulsion axle on the detection piece and remove, simultaneously if the foundation ditch inner wall takes place or when partly the time, the pulling at this moment, it pastes in the foundation ditch inner wall always, laminating fixed strip rotates, laminating fixed strip can take place to rotate and suggestion, laminating fixed strip can take place to report to the police to the fact, the alarm control the arc-shaped inner wall has been realized, the arc-shaped empty-shaped inner wall is realized through the effectual improvement alarm, the slope has been realized to take place the arc-shaped alarm and has been used to take place.

In addition, through setting up intelligent temperature and humidity detection portion, can effectually improve whole intelligent degree of automation, can detect the inside humiture of foundation ditch, can be more convenient for carry out data reference when follow-up concrete placement, especially carry out humidity detection and can know more clearly whether humidity conditions such as ponding exist in the foundation ditch inside, improve engineering detection quality, intelligent temperature and humidity detection portion of setting up simultaneously, can realize sliding detection, the detection is more comprehensive, the practicality is stronger, the levelling telescoping device of setting up, the subsidence detection device of cooperation setting can realize the multiple spot and detect, alarm control work is carried out through a subsidence detection switch simultaneously, the mode of multiple spot detection can make subsidence detection data more stable, simultaneously use more nimble, the leveling locating shaft of setting up can realize the leveling support, simultaneously through the epaxial auger bit of leveling locating drill into the foundation ditch, carry out stable support; the settlement detection device that sets up can be more simple and convenient realization to the alarm distance of settlement degree of depth, the practicality is stronger, foundation ditch construction work that is applicable to different demands that can be better, through under electric threaded rod's drive, realize driving the slip mounting panel and slide, drive temperature and humidity sensor and carry out temperature and humidity detection, can slide simultaneously and subside the location slider and detect the sliding block, can realize the secondary and adjust the testing position, the whole use is more nimble, can adjust alarm distance through rotating the trigger control threaded rod, when taking place to subside, subside the supporting disk and receive the extrusion of subside spring on the slip pedestal, realize driving the control screw thread pole roof pressure and press the board slide shaft, realize controlling alarm buzzer buzzing warning, whole can be effectual in the improvement construction to the detection data comprehensiveness of foundation ditch, whole service function is also more nimble, simultaneously, detect the mode degree of automation is high, more intelligent, adopt the leveling telescoping device who rotates the connection simultaneously, folding recovery of being convenient for.

Drawings

In order to more clearly illustrate the technical solution of the embodiments of the present invention, the drawings of the embodiments will be briefly described below.

The drawings described below are only for illustration of some embodiments of the invention and are not intended to limit the invention.

In the drawings:

fig. 1 shows an overall schematic of a detection device according to an embodiment of the invention;

FIG. 2 shows a schematic view of the bottom of a detection device according to an embodiment of the invention;

FIG. 3 is a cross-sectional view showing an internal structure of a detecting device according to an embodiment of the present invention;

FIG. 4 shows a schematic view of a detection device in partial magnification according to an embodiment of the invention;

FIG. 5 shows a schematic view of a positioning mount according to an embodiment of the invention;

fig. 6 shows a schematic view of a lifting drive according to an embodiment of the invention;

Fig. 7 shows a schematic diagram of a slip detection device according to an embodiment of the invention;

Fig. 8 shows a schematic view of a roll detection section according to an embodiment of the present invention;

Fig. 9 shows a cross-sectional view of a roll detection section according to an embodiment of the present invention;

FIG. 10 shows a schematic view of a telescoping fit apparatus according to an embodiment of the present invention;

FIG. 11 shows a schematic view of a trigger extrusion according to an embodiment of the present invention;

FIG. 12 shows a schematic view of a leveling telescoping device according to an embodiment of the present invention;

FIG. 13 shows a schematic diagram of an intelligent temperature and humidity detection section according to an embodiment of the present invention;

FIG. 14 shows a schematic view of a sedimentation detection device according to an embodiment of the present invention;

Fig. 15 shows a side cross-sectional view of a detection slider according to an embodiment of the present invention.

List of reference numerals

1. Positioning the mounting part; 101. installing a supporting cylinder frame; 102. a hexagonal sliding shaft; 103. jacking the needle plate; 104. driving a worm; 105. a reverse threaded rod; 106. a drive worm wheel; 2. a lifting driving device; 201. lifting the sliding rod frame; 202. lifting the threaded rod; 203. an alarm buzzer; 3. a slip detection device; 301. detecting a sliding frame; 302. triggering the protruding strip; 303. triggering the sliding block; 3031. attaching a tension spring; 304. sliding the propulsion shaft; 305. moving the trigger switch; 4. a roll detection unit; 401. a roll detection block; 4011. rotating the mounting rod; 402. a roll detection switch; 403. a sliding shaft occurs; 404. a tension spring occurs; 5. triggering the extrusion; 501. an arc sliding shaft; 502. arc-shaped protruding blocks; 503. a stabilizing spring; 6. a telescopic attaching device; 601. attaching a fixing strip; 602. attaching a sliding bar; 603. a length positioning shaft; 604. attaching and positioning a tension spring; 7. leveling the telescopic device; 701. a fixed sliding mounting cylinder; 702. leveling the positioning shaft; 703. detecting a sliding block; 704. a sedimentation detection switch; 705. triggering a pressing plate; 706. a pressing plate slide shaft; 8. an intelligent temperature and humidity detection part; 801. a comprehensive sliding shaft bracket; 802. an electric threaded rod; 803. a sliding mounting plate; 804. a temperature and humidity sensor; 805. a controller assembly; 9. a sedimentation detection device; 901. a sedimentation sliding shaft bracket; 902. sedimentation positioning sliding blocks; 903. a sedimentation support plate; 904. a settling spring; 905. triggering the control threaded rod.

Detailed Description

In order to make the objects, aspects and advantages of the technical solution of the present invention more clear, the technical solution of the embodiment of the present invention will be clearly and completely described below with reference to the accompanying drawings of the specific embodiment of the present invention. Unless otherwise indicated, terms used herein have the meaning common in the art. Like reference numerals in the drawings denote like parts.

Examples: please refer to fig. 1 to 15:

The invention provides an intelligent automatic detection device for supervision of construction engineering, which is convenient to operate, and comprises a positioning and mounting part 1; the positioning and mounting part 1 is fixedly connected with a lifting driving device 2; the lifting driving device 2 is connected with a sliding detection device 3 in a sliding way; the sliding detection device 3 is fixedly connected with two side-tipping detection parts 4; the two side-tipping detection parts 4 are respectively and rotatably connected with a triggering extrusion piece 5; the two telescopic attaching devices 5 are respectively fixedly connected with a telescopic attaching device 6, and the two triggering extrusion pieces 6 are respectively sleeved in the two side tilting detecting parts 4 in a sliding way; the lifting driving device 2 is fixedly connected with a leveling telescoping device 7; an intelligent temperature and humidity detection part 8 is fixedly connected to the leveling telescoping device 7; two sedimentation detection devices 9 are connected to the leveling telescoping device 7 in a sliding manner; the positioning and mounting part 1 includes: the device comprises a mounting support cylinder frame 101, a hexagonal sliding shaft 102, a jacking needle plate 103 and a driving worm 104, wherein two sides of the mounting support cylinder frame 101 are respectively and slidably connected with the hexagonal sliding shaft 102; the two hexagonal sliding shafts 102 are respectively in a hexagonal column structure; the two hexagonal sliding shafts 102 are fixedly connected with an ejector pin plate 103 respectively; the driving worm 104 is rotatably connected to the mounting support cylinder frame 101; the lift driving device 2 includes: a lifting sliding rod frame 201 and a lifting threaded rod 202, wherein the lifting sliding rod frame 201 is fixedly connected to the mounting support cylinder frame 101; a lifting threaded rod 202 is rotatably connected to the lifting sliding rod frame 201; the bottom of the lifting threaded rod 202 is provided with a rotating handle.

Further, according to an embodiment of the present invention, as shown in fig. 5 to 7, the positioning and mounting part 1 further includes: the reverse threaded rod 105 and the driving worm gear 106 are rotatably connected with the reverse threaded rod 105 on the mounting support cylinder frame 101; reverse threads are arranged on two sides of the reverse threaded rod 105; the reverse threaded rod 105 is fixedly connected with a driving worm wheel 106; two sides of the reverse threaded rod 105 are respectively in threaded connection with two hexagonal sliding shafts 102; the drive worm wheel 106 is meshed with the drive worm 104; the elevation driving apparatus 2 further includes: an alarm buzzer 203, wherein the lifting sliding rod frame 201 is fixedly connected with the alarm buzzer 203; the slip detection device 3 includes: the detection sliding frame 301, the trigger protruding strip 302, the trigger sliding block 303, the attaching tension spring 3031, the sliding pushing shaft 304 and the movement trigger switch 305 are arranged on the lifting sliding rod frame 201 in a sliding manner, wherein the detection sliding frame 301 is connected with the lifting sliding rod frame 201 in a sliding manner; the detection sliding frame 301 is in threaded connection with the lifting threaded rod 202; the detection carriage 301 is of a "T" shaped configuration; two trigger protruding strips 302 are fixedly connected to the detection sliding frame 301, and a row of protruding arc-shaped blocks are respectively arranged on the two trigger protruding strips 302; two trigger sliding blocks 303 are connected to the detection sliding frame 301 in a sliding manner, and two laminating tension springs 3031 are fixedly connected to the two trigger sliding blocks 303 respectively; the other ends of the attaching tension springs 3031 on the two triggering sliding blocks 303 are respectively connected to two sides of the detection sliding frame 301; the two trigger sliding blocks 303 are respectively and fixedly connected with a sliding propulsion shaft 304, and the two sliding propulsion shafts 304 are respectively and slidably connected with the detection sliding frame 301; the two trigger sliding blocks 303 are fixedly connected with a movable trigger switch 305 respectively; and moving the trigger switch 305 into alignment with the trigger tab 302; two removal trigger switch 305 electric connection alarm buzzer 203 respectively, through setting up lift drive 2, cooperation location installation department 1, can effectually improve whole suitability, the width and the height of adaptation foundation pit that can be better, improve the general purpose of engineering supervision, the location installation department 1 operation of setting simultaneously is also very convenient stable, the slip detection device 3 of setting, can realize independent two-way detection, can carry out stable detection work to the inner wall of foundation ditch, can effectually avoid leading to the foundation ditch inner wall to appear displacing and collapse not in time to be found because of subsidence or peripheral construction, the detection work of the slip detection device 3 of setting simultaneously does not receive the foundation ditch width influence, the suitability is stronger, the stability of whole detection is stronger, through rotating drive worm 104, can drive the roof pressure faller 103 and expand roof the foundation ditch inner wall, realize stable support location, simultaneously improve the supporting effect of foundation ditch, the lift 202 can realize the drive detect the sliding frame 301 and go up and down the slip this moment, realize the regulation of height, realize the detection work to different heights, simultaneously when the foundation ditch inner wall takes place large area displacement to lead to displacement, can drive the slip actuator 305 to realize that the automatic alarm control is triggered on the slip block, the realization of the stability of the impact actuator is realized, the vibration alarm is triggered to the arc-shaped, the vibration alarm is triggered on the base is realized to the actuator is stable, the vibration-activated on the base is triggered to the vibration-activated, and the vibration is triggered.

Further, according to an embodiment of the present invention, as shown in fig. 8 to 11, the roll detection section 4 includes: a roll detection block 401, a rotation mounting lever 4011, a roll detection switch 402, a generation slide shaft 403, and a generation tension spring 404, the roll detection block 401 being fixedly connected to the slide propulsion shaft 304; a rotation mounting rod 4011 is fixedly connected to the roll detection block 401; the roll detection block 401 is fixedly connected with a roll detection switch 402 through a bracket; the side-tipping detection block 401 is connected with a sliding shaft 403 in a sliding way, and the sliding shaft 403 is sleeved with a tension spring 404; the occurrence tension spring 404 is connected between the outside of the occurrence slide shaft 403 and the roll detection block 401; the end part of the sliding shaft 403 is in an arc structure; the roll detection switch 402 is electrically connected with the alarm buzzer 203; the trigger extrusion 5 includes: the arc sliding shaft 501, the arc protruding block 502 and the stabilizing spring 503 are sleeved on the side tilting detection block 401 in a sliding manner; the arc sliding shaft 501 is attached to the roll detection switch 402; a row of arc-shaped protruding blocks 502 are arranged on the arc-shaped sliding shaft 501; two stabilizing springs 503 are sleeved on the arc sliding shaft 501; two stabilizing springs 503 are respectively located on both sides of the roll detection block 401; the telescopic attaching apparatus 6 includes: the laminating fixing strip 601, the laminating sliding strip 602, the length positioning shaft 603 and the laminating positioning tension spring 604, wherein the laminating fixing strip 601 is fixedly connected to the arc-shaped sliding shaft 501; the attaching fixing bar 601 is rotatably connected to the rotation mounting rod 4011; the attaching fixing strip 601 is connected with an attaching sliding strip 602 in a sliding manner, and a row of positioning holes are formed in the attaching sliding strip 602; the attaching fixing strip 601 is connected with a length positioning shaft 603 in a sliding manner, and the length positioning shaft 603 is inserted into a positioning hole on the attaching sliding strip 602; the cover is equipped with laminating location extension spring 604 on the length location axle 603, and laminating location extension spring 604 connects between length location axle 603 and laminating fixed strip 601, through setting up flexible laminating device 6, can realize adjusting attached length, namely change the detection range to the foundation ditch inner wall, flexible laminating device 6 is shorter, the precision of detection is higher, can be better be applicable to fixed point detection, the length of flexible laminating device 6 is longer simultaneously, can improve laminating detection range, improve the detection comprehensiveness, the staff can freely adjust according to actual demand, simultaneously through setting up triggering extrusion piece 5, cooperation detection portion 4 is inclined, can realize the detection of rotation adaptation, can realize when foundation ditch inner wall partial collapse, laminating fixed strip 601 loses the holding power, can take place to rotate, at this moment can report to the police again and point for the suggestion, overall structure is ingenious practical, can be effectual improvement can monitor reliability, overall detection stability is higher simultaneously, the overall structure is simpler and stable, the practicality is stronger, simultaneously when the foundation ditch inner wall takes place the skew or fracture, the fixed strip 601 all can receive its influence, it moves the slip push rod 304 and removes according to actual demand, simultaneously, the slope of the roll extension piece 401 can take place under the arc-shaped inner wall is fixed to realize that the slope detector is inclined slope contact with the arc-shaped inner wall 502, simultaneously, the slope detector is inclined slope contact is fixed in the arc-shaped inner wall 601 is realized, the arc-shaped and the slope contact is realized when the slope of the slope detector is inclined under the slope of the foundation ditch inner wall is 203, and the slope contact is realized, the arc-shaped, the slope contact point is broken, and the slope is down, can take place is inclined down, can be used as follows, and can be easily down, and can be used as follows.

Furthermore, according to an embodiment of the present invention, as shown in fig. 12 to 15, the leveling telescoping device 7 includes: the fixed sliding mounting cylinder 701, the leveling positioning shaft 702, the detection sliding block 703, the sedimentation detection switch 704, the trigger pressing plate 705 and the pressing plate sliding shaft 706, and the fixed sliding mounting cylinder 701 is rotatably connected to the lifting sliding rod frame 201; four raised sliding strips are arranged on the fixed sliding mounting cylinder 701; the fixed sliding mounting cylinder 701 is sleeved with a leveling positioning shaft 702, and the end part of the leveling positioning shaft 702 is provided with a spiral drill bit; a detection sliding block 703 is connected to the fixed sliding mounting cylinder 701 in a sliding manner; a sedimentation detection switch 704 is fixedly connected to the bottom of the detection sliding block 703; the trigger pressing plate 705 is fixedly connected with two pressing plate sliding shafts 706, and the two pressing plate sliding shafts 706 are respectively and slidably connected to the detection sliding block 703; springs are respectively sleeved on the two pressing plate sliding shafts 706; triggering the press plate 705 to align with the sedimentation detection switch 704; the sedimentation detection switch 704 is electrically connected with the alarm buzzer 203; the intelligent temperature and humidity detection unit 8 includes: the comprehensive sliding shaft bracket 801, the electric threaded rod 802, the sliding mounting plate 803, the temperature and humidity sensor 804 and the controller assembly 805, wherein the comprehensive sliding shaft bracket 801 is fixedly connected to the fixed sliding mounting cylinder 701; an electric threaded rod 802 is mounted on the comprehensive sliding shaft bracket 801, and a sliding mounting plate 803 is connected to the electric threaded rod 802 in a threaded manner; the two sides of the sliding mounting plate 803 are connected to the overall sliding shaft bracket 801 in a sliding manner; a temperature and humidity sensor 804 is fixedly connected to the sliding mounting plate 803; the sliding mounting plate 803 is fixedly connected with a controller component 805, and the controller component 805 is electrically connected with a temperature and humidity sensor 804; the sedimentation detection device 9 includes: the sedimentation slide shaft bracket 901, the sedimentation positioning slide block 902, the sedimentation support plate 903, the sedimentation spring 904 and the trigger control threaded rod 905, wherein the sedimentation slide shaft bracket 901 is connected to the detection slide block 703 in a sliding manner; a sedimentation positioning slide block 902 is connected on the sedimentation sliding shaft frame 901 in a sliding way, a sedimentation supporting plate 903 is fixedly connected at the bottom of the sedimentation positioning slide block 902, and two sedimentation springs 904 are sleeved on the sedimentation sliding shaft frame 901; the top of the settlement sliding shaft bracket 901 is in threaded connection with a trigger control threaded rod 905, the bottom of the trigger control threaded rod 905 is aligned with a pressing plate sliding shaft 706, the integral intelligent degree of automation can be effectively improved through the arrangement of an intelligent temperature and humidity detection part 8, the temperature and humidity inside a foundation pit can be detected, data reference can be conveniently carried out during subsequent concrete pouring, especially, whether water accumulation and other humidity conditions exist inside the foundation pit can be more clearly known through humidity detection, engineering detection quality is improved, meanwhile, the intelligent temperature and humidity detection part 8 can realize sliding detection, the detection is more comprehensive, the practicability is stronger, the set leveling telescoping device 7 is matched with the settlement detection device 9, multi-point detection can be realized, alarm control work is carried out through the settlement detection switch 704, the settlement detection data is more stable through the multi-point detection mode, meanwhile, the set leveling positioning shaft 702 is more flexible to use, the leveling support can be realized, and meanwhile, the foundation pit is drilled through an auger bit on the leveling positioning shaft 702 to carry out stable support; the settlement detection device 9 that sets up can be simpler and more convenient realization to the alarm distance of settlement degree, the practicality is stronger, foundation ditch construction work that is applicable to different demands that can be better, through under the drive of electronic threaded rod 802, realize driving sliding mounting board 803 and slide, drive temperature and humidity sensor 804 and carry out temperature and humidity detection, can adopt 602F-3500F type temperature and humidity sensor, can slide simultaneously and subside location slider 902, adjust settlement detection position, detect slider 703 through the slip, can realize the secondary and adjust detection position, the whole use is more nimble, can adjust alarm distance through rotating and trigger control threaded rod 905, when the settlement takes place, settlement supporting disk 903 receives the extrusion of subside spring 904 on the settlement sliding shaft 901, realize driving trigger control threaded rod 905 roof pressure push pressure board slide shaft 706, realize controlling alarm buzzer 203 buzzing warning, whole can be effectual in the improvement construction to the detection data comprehensiveness of foundation ditch, whole service function is also more nimble, the mode automation degree of simultaneous detection operation is high, more intelligent.

Specific use and action of the embodiment: according to the invention, firstly, the positioning of the attaching sliding bar 602 can be released by pulling the length positioning shaft 603, the attaching sliding bar 602 can be slidably and telescopically adjusted, meanwhile, when the length positioning shaft 603 is loosened, the length positioning shaft 603 can be pulled to reset by pulling the attaching positioning tension spring 604, the attaching sliding bar 602 is limited, the driving worm 104 is rotated, the driving worm wheel 106 which is in meshed driving arrangement can be driven to rotate, further the reverse threaded rod 105 with reverse threads is driven to rotate, the two hexagonal sliding shafts 102 are driven to slide, the ejector pin plate 103 is driven to expand and push the inner wall of the foundation pit, stable supporting and positioning are realized, the adjusting level of the sliding mounting cylinder 701 is rotated and fixed, and the spiral drill bit on the leveling positioning shaft 702 drills into the foundation pit to perform stable supporting; under the drive of the electric threaded rod 802, the sliding mounting plate 803 is driven to slide, and the temperature and humidity sensor 804 is driven to perform temperature and humidity detection; under the pulling of laminating extension spring 3031, can drive and trigger sliding block 303 and slide, drive laminating fixed strip 601 and paste in the foundation ditch inner wall, when the foundation ditch inner wall takes place the large tracts of land displacement that collapses, when the foundation ditch inner wall takes place to skew or fracture, laminating fixed strip 601 can receive its influence, drive the slip propulsion axle 304 on the detection piece that heels 401 and remove, can drive the slip propulsion axle 304 and slide and drive the removal trigger switch 305 roof pressure to trigger protruding arch piece on the strip 302 at this moment, realize pressing and remove trigger switch 305, control alarm buzzer 203 carries out buzzing alarm work, the foundation ditch inner wall takes place to roll or when partly subside, at this moment under laminating extension spring 3031's pulling, it pastes in the foundation ditch inner wall all the time to drive laminating fixed strip 601, laminating fixed strip 601 can take place to rotate, drive arc sliding axle 501 and rotate simultaneously, the in-process can be through arc protruding piece 502 extrusion propulsion take place sliding axle 403, by taking place sliding axle 403 extrusion detection switch 402, realize controlling alarm work of alarm buzzer 203, slip settlement positioning slider 902 and detection slider 703 can realize adjusting the position, rotate trigger control trigger switch 905, can realize pressing the whole and control alarm device is realized pressing down on the trigger plate 203 when the impact plate is pressed down by the automatic control plate, the impact device is pressed down, the whole and the realization of setting plate is pushed down and is pushed down by the trigger and is pushed down by the impact plate is pushed down by the impact, and is realized.

Finally, it should be noted that the present invention is generally described in terms of a/a pair of components, such as the location of each component and the mating relationship therebetween, however, those skilled in the art will appreciate that such location, mating relationship, etc. are equally applicable to other components/other pairs of components.

The foregoing is merely exemplary embodiments of the present invention and is not intended to limit the scope of the invention, which is defined by the appended claims.

Claims (7)

1. The intelligent automatic detection device for supervision of the construction engineering is convenient to operate and is characterized by comprising a positioning and mounting part (1); the positioning installation part (1) is fixedly connected with a lifting driving device (2); the lifting driving device (2) is connected with a sliding detection device (3) in a sliding manner; two side-tipping detection parts (4) are fixedly connected to the sliding detection device (3); the two side-tipping detection parts (4) are respectively and rotatably connected with a triggering extrusion piece (5); the two triggering extrusion pieces (5) are respectively and fixedly connected with a telescopic attaching device (6), and the two triggering extrusion pieces (5) are respectively and slidably sleeved in the two side-tipping detection parts (4); the lifting driving device (2) is fixedly connected with a leveling telescoping device (7); an intelligent temperature and humidity detection part (8) is fixedly connected to the leveling telescoping device (7); two sedimentation detection devices (9) are connected to the leveling telescoping device (7) in a sliding manner; the positioning and mounting part (1) comprises: the device comprises a mounting support cylinder frame (101), a hexagonal sliding shaft (102), a jacking needle plate (103) and a driving worm (104), wherein the two sides of the mounting support cylinder frame (101) are respectively and slidably connected with the hexagonal sliding shaft (102); the two hexagonal sliding shafts (102) are respectively of a hexagonal column structure; the two hexagonal sliding shafts (102) are respectively fixedly connected with an ejector pin plate (103); the driving worm (104) is rotatably connected to the mounting support cylinder frame (101); the lift drive device (2) comprises: the lifting sliding rod frame (201) and the lifting threaded rod (202), wherein the lifting sliding rod frame (201) is fixedly connected to the mounting support cylinder frame (101); the lifting sliding rod frame (201) is rotatably connected with a lifting threaded rod (202); a rotary handle is arranged at the bottom of the lifting threaded rod (202);

The slip detection device (3) comprises: the device comprises a detection sliding frame (301), a trigger protruding strip (302), a trigger sliding block (303), an attaching tension spring (3031), a sliding propulsion shaft (304) and a movable trigger switch (305), wherein the detection sliding frame (301) is connected to a lifting sliding rod frame (201) in a sliding manner; the detection sliding frame (301) is in threaded connection with the lifting threaded rod (202); the detection sliding frame (301) is of a T-shaped structure; two trigger protruding strips (302) are fixedly connected to the detection sliding frame (301), and a row of protruding arc-shaped blocks are respectively arranged on the two trigger protruding strips (302); two trigger sliding blocks (303) are connected to the detection sliding frame (301) in a sliding manner, and two laminating tension springs (3031) are respectively and fixedly connected to the two trigger sliding blocks (303); the other ends of the attaching tension springs (3031) on the two triggering sliding blocks (303) are respectively connected to two sides of the detection sliding frame (301); the two trigger sliding blocks (303) are respectively and fixedly connected with a sliding propulsion shaft (304), and the two sliding propulsion shafts (304) are respectively and slidably connected to the detection sliding frame (301); the two trigger sliding blocks (303) are fixedly connected with a movable trigger switch (305) respectively; and moving the trigger switch (305) into alignment with the trigger tab (302); the two movable trigger switches (305) are respectively and electrically connected with the alarm buzzer (203);

The roll detection unit (4) is provided with: the device comprises a roll detection block (401), a rotation mounting rod (4011), a roll detection switch (402), a sliding shaft (403) and a tension spring (404), wherein the roll detection block (401) is fixedly connected to a sliding propulsion shaft (304); a rotary mounting rod (4011) is fixedly connected to the side-tipping detection block (401); the roll detection block (401) is fixedly connected with a roll detection switch (402) through a bracket; the side-tipping detection block (401) is connected with a sliding shaft (403) in a sliding way, and the sliding shaft (403) is sleeved with a tension spring (404); the generating tension spring (404) is connected between the outer side of the generating sliding shaft (403) and the side-rolling detection block (401); the end part of the sliding shaft (403) is of an arc-shaped structure; the side-tipping detection switch (402) is electrically connected with the alarm buzzer (203);

The trigger extrusion (5) comprises: the device comprises an arc sliding shaft (501), an arc protruding block (502) and a stabilizing spring (503), wherein the arc sliding shaft (501) is sleeved on the side tilting detection block (401) in a sliding manner; the arc sliding shaft (501) is attached to the side-tipping detection switch (402); a row of arc-shaped protruding blocks (502) are arranged on the arc-shaped sliding shaft (501); two stabilizing springs (503) are sleeved on the arc sliding shaft (501); two of the stabilizing springs (503) are located on both sides of the roll detection block (401), respectively.

2. The intelligent automated inspection device for supervision of construction engineering with convenient operation according to claim 1, wherein: the positioning and mounting part (1) further comprises: the reverse threaded rod (105) and the driving worm wheel (106) are rotatably connected to the mounting support cylinder frame (101); reverse threads are arranged on two sides of the reverse threaded rod (105); a driving worm wheel (106) is fixedly connected to the reverse threaded rod (105); two sides of the reverse threaded rod (105) are respectively in threaded connection with two hexagonal sliding shafts (102); the drive worm wheel (106) is meshed with the drive worm (104).

3. The intelligent automated inspection device for supervision of construction engineering with convenient operation according to claim 1, wherein: the lifting drive device (2) further comprises: and the alarm buzzer (203) is fixedly connected to the lifting sliding rod frame (201).

4. The intelligent automated inspection device for supervision of construction engineering with convenient operation according to claim 1, wherein: the telescopic attaching device (6) comprises: the device comprises a bonding fixing strip (601), a bonding sliding strip (602), a length positioning shaft (603) and a bonding positioning tension spring (604), wherein the bonding fixing strip (601) is fixedly connected to the arc sliding shaft (501); the attaching fixing strip (601) is rotationally connected to the rotary mounting rod (4011); the attaching fixing strip (601) is connected with an attaching sliding strip (602) in a sliding manner, and a row of positioning holes are formed in the attaching sliding strip (602); the attaching fixing strip (601) is connected with a length positioning shaft (603) in a sliding manner, and the length positioning shaft (603) is inserted into a positioning hole on the attaching sliding strip (602); the length positioning shaft (603) is sleeved with a fitting positioning tension spring (604), and the fitting positioning tension spring (604) is connected between the length positioning shaft (603) and the fitting fixing strip (601).

5. The intelligent automated inspection device for supervision of construction engineering with convenient operation according to claim 3, wherein: the leveling telescoping device (7) comprises: the device comprises a fixed sliding mounting cylinder (701), a leveling positioning shaft (702), a detection sliding block (703), a sedimentation detection switch (704), a trigger pressing plate (705) and a pressing plate sliding shaft (706), wherein the fixed sliding mounting cylinder (701) is rotationally connected to a lifting sliding rod frame (201); four raised sliding strips are arranged on the fixed sliding mounting cylinder (701); a leveling positioning shaft (702) is sleeved on the fixed sliding mounting cylinder (701), and a spiral drill bit is arranged at the end part of the leveling positioning shaft (702); a detection sliding block (703) is connected on the fixed sliding mounting cylinder (701) in a sliding manner; a sedimentation detection switch (704) is fixedly connected to the bottom of the detection sliding block (703); two pressing plate sliding shafts (706) are fixedly connected to the triggering pressing plate (705), and the two pressing plate sliding shafts (706) are respectively and slidably connected to the detection sliding block (703); springs are respectively sleeved on the two pressing plate sliding shafts (706); the trigger pressing plate (705) is aligned with a sedimentation detection switch (704); the settlement detection switch (704) is electrically connected with the alarm buzzer (203).

6. The intelligent automated inspection device for supervision of constructional engineering with convenient operation according to claim 5, wherein: the intelligent temperature and humidity detection part (8) comprises: the full-face sliding shaft bracket (801), an electric threaded rod (802), a sliding mounting plate (803), a temperature and humidity sensor (804) and a controller assembly (805), wherein the full-face sliding shaft bracket (801) is fixedly connected to a fixed sliding mounting cylinder (701); an electric threaded rod (802) is mounted on the comprehensive sliding shaft bracket (801), and a sliding mounting plate (803) is connected to the electric threaded rod (802) in a threaded manner; both sides of the sliding mounting plate (803) are connected to the full-face sliding shaft bracket (801) in a sliding manner; a temperature and humidity sensor (804) is fixedly connected to the sliding mounting plate (803); the sliding mounting plate (803) is fixedly connected with a controller assembly (805), and the controller assembly (805) is electrically connected with the temperature and humidity sensor (804).

7. The intelligent automated inspection device for supervision of constructional engineering with convenient operation according to claim 5, wherein: the sedimentation detection device (9) comprises: the sedimentation device comprises a sedimentation sliding shaft bracket (901), a sedimentation positioning sliding block (902), a sedimentation supporting disc (903), a sedimentation spring (904) and a trigger control threaded rod (905), wherein the sedimentation sliding shaft bracket (901) is connected to a detection sliding block (703) in a sliding manner; a sedimentation positioning sliding block (902) is connected to the sedimentation sliding shaft frame (901) in a sliding manner, a sedimentation supporting disc (903) is fixedly connected to the bottom of the sedimentation positioning sliding block (902), and two sedimentation springs (904) are sleeved on the sedimentation sliding shaft frame (901); the top of the sedimentation sliding shaft bracket (901) is in threaded connection with a trigger control threaded rod (905), and the bottom of the trigger control threaded rod (905) is aligned with the sliding shaft (706) of the pressing plate.