CN109764834A - A kind of construction engineering quality flatness checking device - Google Patents
A kind of construction engineering quality flatness checking device Download PDFInfo
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- CN109764834A CN109764834A CN201910050674.5A CN201910050674A CN109764834A CN 109764834 A CN109764834 A CN 109764834A CN 201910050674 A CN201910050674 A CN 201910050674A CN 109764834 A CN109764834 A CN 109764834A
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- construction engineering
- checking device
- engineering quality
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Abstract
The invention discloses a kind of construction engineering quality flatness checking devices, including overarm brace and bindiny mechanism;It is additionally provided with the first screw rod below the overarm brace, the first swivel nut is threaded on the first screw rod, the bottom of the first swivel nut is fixedly installed with electric pushrod, and the telescopic end of electric pushrod is fixedly installed with the bindiny mechanism.When the present invention carries out flatness detection, choose the reference position that right side plate present position is detection faces flatness detection, mechanism, which is captured, using infrared ray captures the infrared ray that infrared transmitter structure issues, and the distance between infrared receiver point and detection faces are recorded in real time, since infrared level emits, the distance between receiving point and detection faces are the distance between launch point and detection faces, to realize the detection to detection surface evenness, without worker's manual measurement, record and calculating, labor intensity of workers is not only reduced, and improves the precision of flatness detection.
Description
Technical field
The present invention relates to a kind of detection device, specifically a kind of construction engineering quality flatness checking device.
Background technique
Architectural engineering is a part of construction project, refer to by construction to all kinds of building constructions and its affiliated facility and with
Its matched route, pipeline, equipment installation activity be formed by engineering entity.Including workshop, theater, hotel, shop,
School, hospital and house etc. meet the needs such as people's production, inhabitation, study, public activity.
In building trade, after the completion of metope building, need to carry out the detection of flatness, to determine whether build guality accords with
Standardization, the flatness detecting instrument generally used in production at present, is made of guiding ruler and wedge-shaped feeler gauge.Its application method is will to lean on
Ruler is inserted into wedge-shaped feeler gauge close to metope at gap, and reading is read on wedge-shaped feeler gauge, by read-record on handbook, uses
Get up very inconvenient, precision is also low.
Summary of the invention
The purpose of the present invention is to provide a kind of construction engineering quality flatness checking devices, to solve above-mentioned background technique
The problem of middle proposition.
To achieve the above object, the invention provides the following technical scheme:
A kind of construction engineering quality flatness checking device, including overarm brace and bindiny mechanism;The overarm brace
The left and right sides is symmetrically fixedly installed with left plate and right side plate, and the first screw rod, the first screw rod are additionally provided with below overarm brace
Left and right ends be rotatablely connected respectively with left plate and right side plate, be threaded with the first swivel nut, the first swivel nut on the first screw rod
Upside be slidably connected with overarm brace;The bottom of first swivel nut is fixedly installed with electric pushrod, and electric pushrod stretches
End is fixedly installed with the bindiny mechanism, and bindiny mechanism includes upper connecting rod and lower link;The upside of the upper connecting rod is pushed away with electronic
The telescopic end of bar is fixedly connected, and card slot is offered on the downside of upper connecting rod, and the upper end of the lower link is provided with and card slot phase interworking
The fixture block of conjunction, fixture block are slidably mounted on inside card slot, and fixture block is fixedly connected by spring with card slot, the lower end rotation of lower link
Idler wheel is installed, infrared transmitter structure is fixedly installed on the right side of lower link.
As a further solution of the present invention: the outside of left plate is also fixedly installed with the rotation for driving the rotation of the first screw rod
Motor.
As further scheme of the invention: being provided on the inside of the right side plate and be adapted with infrared transmitter structure
Infrared ray capture mechanism, infrared ray captures the infrared ray that mechanism is used to capture the sending of infrared transmitter structure, and records in real time
The distance between infrared receiver point and detection faces.
As further scheme of the invention: being additionally provided with microprocessor on the inside of right side plate.
As further scheme of the invention: the input terminal of the microprocessor captures mechanism with infrared ray and electrically connects
It connects.
As further scheme of the invention: being provided with mobile mechanism on the outside of the left plate and right side plate.
As further scheme of the invention: the mobile mechanism includes two and is rotatably installed in left plate and the right side respectively
The second screw rod and two swinging mountings being rotatably installed on the outside of left plate and right side plate respectively on side plate.
As the present invention further scheme: the second swivel nut is threaded on second screw rod, on the second swivel nut
It is hinged with connecting rod.
As further scheme of the invention: the other end of the connecting rod and the inside of swinging mounting are hinged.
As further scheme of the invention: the inside of the left plate and right side plate is also fixedly installed with driving electricity
The output end of machine, driving motor is connect by bevel gear set with the second screw drive.
Compared with prior art, the beneficial effects of the present invention are: when the present invention carries out flatness detection, right side plate institute is chosen
Locate the reference position that position is detection faces flatness detection, captures mechanism using infrared ray and capture what infrared transmitter structure issued
Infrared ray, and the distance between infrared receiver point and detection faces are recorded in real time, since infrared level emits, receiving point and inspection
The distance between survey face is the distance between launch point and detection faces, to realize the detection to detection surface evenness, micro- place
Reason device is handled data and is obtained the flatness of detection faces, is not necessarily to worker's manual measurement, record and calculating, is not only reduced
Labor intensity of workers, and improve the precision of flatness detection.
Detailed description of the invention
Fig. 1 is the structural schematic diagram of construction engineering quality flatness checking device.
Fig. 2 is the structural schematic diagram of bindiny mechanism in construction engineering quality flatness checking device.
Fig. 3 is the structural schematic diagram of right side plate in construction engineering quality flatness checking device.
In figure: 1- left plate, 2- overarm brace, the first swivel nut of 3-, the first screw rod of 4-, 5- right side plate, 6- swinging mounting, 7-
Hinged seat, 8- connecting rod, 9- castor, 10- driving motor, 11- bevel gear set, the second screw rod of 12-, the second swivel nut of 13-, 14- electricity
Dynamic push rod, 15- bindiny mechanism, 16- idler wheel, 17- rotating electric machine, 18- upper connecting rod, 19- lower link, 20- spring, 21- infrared ray
Trigger mechanism, 22- infrared ray capture mechanism, 23- microprocessor.
Specific embodiment
The technical solution of the patent is explained in further detail With reference to embodiment.
Embodiment 1
Please refer to Fig. 1-3, a kind of construction engineering quality flatness checking device, including overarm brace 2 and bindiny mechanism 15;
The left and right sides of the overarm brace 2 is symmetrically fixedly installed with left plate 1 and right side plate 5, and the lower section of overarm brace 2 is additionally provided with
First screw rod 4, the left and right ends of the first screw rod 4 are rotatablely connected with left plate 1 and right side plate 5 respectively, and screw thread connects on the first screw rod 4
It is connected to the first swivel nut 3, upside and the overarm brace 2 of the first swivel nut 3 are slidably connected, and the outside of left plate 1 is also fixedly installed with band
The rotating electric machine 17 of dynamic first screw rod 4 rotation, rotating electric machine 17 drive the first screw rod 4 to drive the first swivel nut 3 when rotating clockwise
It slides to the right, rotating electric machine 17 drives the first screw rod 4 to drive the first swivel nut 3 to slide to the left when rotating counterclockwise;
The bottom of first swivel nut 3 is fixedly installed with electric pushrod 14, and the telescopic end of electric pushrod 14 is fixedly installed with
The bindiny mechanism 15, bindiny mechanism 15 include upper connecting rod 18 and lower link 19;The upside of the upper connecting rod 18 and electric pushrod
14 telescopic end is fixedly connected, and the downside of upper connecting rod 18 offers card slot, and the upper end of the lower link 19 is provided with and card slot phase
The fixture block mutually cooperated, fixture block are slidably mounted on inside card slot, and fixture block is fixedly connected by spring 20 with card slot, lower link 19
Lower end is rotatably equipped with idler wheel 16, when carrying out flatness detection, adjusts the length of electric pushrod 14, makes the contact detection of idler wheel 16
Face drives horizontally slipping for the first swivel nut 3 by the rotation of the first screw rod 4, to drive the left and right rolling in detection faces of idler wheel 16
Dynamic, during idler wheel 16 rolls, the concavo-convex portion in detection faces forces lower link 19 to slide up and down;
The right side of the lower link 19 is fixedly installed with infrared transmitter structure 21, and the inside of the right side plate 5 is provided with
Mechanism 22 is captured with the infrared ray that infrared transmitter structure 21 is adapted, infrared ray captures mechanism 22 for capturing infrared ray transmitting
The infrared ray that mechanism 21 issues, and the distance between infrared receiver point and detection faces are recorded in real time, the inside of right side plate 5 is also set
It is equipped with microprocessor 23, the input terminal and infrared ray of microprocessor 23 capture mechanism 22 and be electrically connected, and drop shot 19 is being moved through
Difference in journey according to detection surface evenness slides up and down, and makes infrared transmitter structure 21 that drop shot 19 be followed to slide up and down, and selects
Taking 5 present position of right side plate is the reference position of detection faces flatness detection, captures mechanism 22 using infrared ray and captures infrared ray
The infrared ray that trigger mechanism 21 issues, and the distance between infrared receiver point and detection faces are recorded in real time, due to infrared ray water
Flat transmitting, the distance between receiving point and detection faces are the distance between launch point and detection faces, to realize to detection faces
The detection of flatness, microprocessor 23 handle data and obtain the flatness of detection faces.
Embodiment 2
Please refer to Fig. 1-3, a kind of construction engineering quality flatness checking device, including overarm brace 2 and bindiny mechanism 15;
The left and right sides of the overarm brace 2 is symmetrically fixedly installed with left plate 1 and right side plate 5, and the lower section of overarm brace 2 is additionally provided with
First screw rod 4, the left and right ends of the first screw rod 4 are rotatablely connected with left plate 1 and right side plate 5 respectively, and screw thread connects on the first screw rod 4
It is connected to the first swivel nut 3, upside and the overarm brace 2 of the first swivel nut 3 are slidably connected, and the outside of left plate 1 is also fixedly installed with band
The rotating electric machine 17 of dynamic first screw rod 4 rotation, rotating electric machine 17 drive the first screw rod 4 to drive the first swivel nut 3 when rotating clockwise
It slides to the right, rotating electric machine 17 drives the first screw rod 4 to drive the first swivel nut 3 to slide to the left when rotating counterclockwise;
The bottom of first swivel nut 3 is fixedly installed with electric pushrod 14, and the telescopic end of electric pushrod 14 is fixedly installed with
The bindiny mechanism 15, bindiny mechanism 15 include upper connecting rod 18 and lower link 19;The upside of the upper connecting rod 18 and electric pushrod
14 telescopic end is fixedly connected, and the downside of upper connecting rod 18 offers card slot, and the upper end of the lower link 19 is provided with and card slot phase
The fixture block mutually cooperated, fixture block are slidably mounted on inside card slot, and fixture block is fixedly connected by spring 20 with card slot, lower link 19
Lower end is rotatably equipped with idler wheel 16, when carrying out flatness detection, adjusts the length of electric pushrod 14, makes the contact detection of idler wheel 16
Face drives horizontally slipping for the first swivel nut 3 by the rotation of the first screw rod 4, to drive the left and right rolling in detection faces of idler wheel 16
Dynamic, during idler wheel 16 rolls, the concavo-convex portion in detection faces forces lower link 19 to slide up and down;
The right side of the lower link 19 is fixedly installed with infrared transmitter structure 21, and the inside of the right side plate 5 is provided with
Mechanism 22 is captured with the infrared ray that infrared transmitter structure 21 is adapted, infrared ray captures mechanism 22 for capturing infrared ray transmitting
The infrared ray that mechanism 21 issues, and the distance between infrared receiver point and detection faces are recorded in real time, the inside of right side plate 5 is also set
It is equipped with microprocessor 23, the input terminal and infrared ray of microprocessor 23 capture mechanism 22 and be electrically connected, and drop shot 19 is being moved through
Difference in journey according to detection surface evenness slides up and down, and makes infrared transmitter structure 21 that drop shot 19 be followed to slide up and down, and selects
Taking 5 present position of right side plate is the reference position of detection faces flatness detection, captures mechanism 22 using infrared ray and captures infrared ray
The infrared ray that trigger mechanism 21 issues, and the distance between infrared receiver point and detection faces are recorded in real time, due to infrared ray water
Flat transmitting, the distance between receiving point and detection faces are the distance between launch point and detection faces, to realize to detection faces
The detection of flatness, microprocessor 23 handle data and obtain the flatness of detection faces.
The present embodiment difference from example 1 is that, the outside of the left plate 1 and right side plate 5 is provided with shifting
Motivation structure, mobile mechanism include two the second screw rods 12 being rotatably installed on left plate 1 and right side plate 5 respectively and two difference
It is rotatably installed in the swinging mounting 6 in 5 outside of left plate 1 and right side plate, is threaded with the second swivel nut 13 on the second screw rod 12, the
Connecting rod 8 is hinged on two swivel nuts 13, the inside of the other end and swinging mounting 6 of connecting rod 8 is hinged, when the second screw rod 12 rotates
The second swivel nut 13 is driven to move up and down, to drive swinging mounting 6 is inside and outside to swing by connecting rod 8;The bottom of the swinging mounting 6
End is rotatably equipped with castor 9, and when swinging mounting 6 is inwardly swung, castor 9 and ground face contact are swung to facilitate the movement of device
When bracket 6 is swung out, castor 9 leaves ground, so that device be made to be placed on the ground;The left plate 1 and right side plate 5 it is interior
Side is also fixedly installed with driving motor 10, and the output end of driving motor 10 is connected by bevel gear set 11 and the transmission of the second screw rod 12
It connects.
When the present invention carries out flatness detection, the reference bit that right side plate present position is detection faces flatness detection is chosen
Set, using infrared ray capture mechanism capture infrared transmitter structure issue infrared ray, and in real time record infrared receiver point with
The distance between detection faces, since infrared level emits, the distance between receiving point and detection faces are launch point and detection
The distance between face, to realize the detection to detection surface evenness, microprocessor handles data and obtains detection faces
Flatness, be not necessarily to worker's manual measurement, record and calculating, not only reduce labor intensity of workers, and improve flatness inspection
The precision of survey.
The preferred embodiment of the patent is described in detail above, but this patent is not limited to above-mentioned embodiment party
Formula within the knowledge of one of ordinary skill in the art can also be under the premise of not departing from this patent objective
It makes a variety of changes.
Claims (10)
1. a kind of construction engineering quality flatness checking device, including overarm brace (2) and bindiny mechanism (15);The crossbeam branch
The left and right sides of frame (2) is symmetrically fixedly installed with left plate (1) and right side plate (5), which is characterized in that
Be additionally provided with below overarm brace (2) the first screw rod (4), the left and right ends of the first screw rod (4) respectively with left plate (1)
It is rotatablely connected with right side plate (5), is threaded with the first swivel nut (3) on the first screw rod (4), the upside of the first swivel nut (3) and cross
Boom support (2) is slidably connected;
The bottom of first swivel nut (3) is fixedly installed with electric pushrod (14), and the telescopic end of electric pushrod (14) is fixedly mounted
Have the bindiny mechanism (15), bindiny mechanism (15) includes upper connecting rod (18) and lower link (19);The upper connecting rod (18) it is upper
Side is fixedly connected with the telescopic end of electric pushrod (14), and card slot is offered on the downside of upper connecting rod (18), the lower link (19)
Upper end is provided with to be slidably mounted on inside card slot with the mutually matched fixture block of card slot, fixture block, and fixture block passes through spring (20) and card
Slot is fixedly connected, and the lower end of lower link (19) is rotatably equipped with idler wheel (16), is fixedly installed on the right side of lower link (19) infrared
Line trigger mechanism (21).
2. construction engineering quality flatness checking device according to claim 1, which is characterized in that outside left plate (1)
Side is also fixedly installed with the rotating electric machine (17) for driving the first screw rod (4) rotation.
3. construction engineering quality flatness checking device according to claim 1, which is characterized in that the right side plate (5)
Inside be provided with infrared transmitter structure (21) be adapted infrared ray capture mechanism (22), infrared ray capture mechanism (22)
For capturing the infrared ray of infrared transmitter structure (21) sending, and record in real time between infrared receiver point and detection faces away from
From.
4. construction engineering quality flatness checking device according to claim 3, which is characterized in that right side plate (5) it is interior
Side is additionally provided with microprocessor (23).
5. construction engineering quality flatness checking device according to claim 4, which is characterized in that the microprocessor
(23) input terminal and infrared ray captures mechanism (22) and is electrically connected.
6. construction engineering quality flatness checking device according to claim 1, which is characterized in that the left plate (1)
Mobile mechanism is provided with on the outside of right side plate (5).
7. construction engineering quality flatness checking device according to claim 6, which is characterized in that mobile mechanism's packet
It includes the second screw rod (12) that two are rotatably installed in respectively on left plate (1) and right side plate (5) and two is rotatably installed in respectively
Swinging mounting (6) on the outside of left plate (1) and right side plate (5).
8. construction engineering quality flatness checking device according to claim 7, which is characterized in that second screw rod
(12) it is threaded on the second swivel nut (13), connecting rod (8) is hinged on the second swivel nut (13).
9. construction engineering quality flatness checking device according to claim 8, which is characterized in that the connecting rod (8)
The other end and swinging mounting (6) inside it is hinged.
10. construction engineering quality flatness checking device according to claim 9, which is characterized in that the left plate (1)
It is also fixedly installed with driving motor (10) with the inside of right side plate (5), the output end of driving motor (10) passes through bevel gear set
(11) it is sequentially connected with the second screw rod (12).
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CN201910050674.5A CN109764834B (en) | 2019-01-20 | 2019-01-20 | Building engineering quality flatness detection device |
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CN201910050674.5A CN109764834B (en) | 2019-01-20 | 2019-01-20 | Building engineering quality flatness detection device |
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
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CN110779474A (en) * | 2019-10-16 | 2020-02-11 | 徐州市铜山区嘉量计量检测创新中心 | Workpiece abrasion detection multipoint control positioning closed type light beam detection equipment |
CN110953974A (en) * | 2019-12-31 | 2020-04-03 | 山东同其智能科技有限公司 | Building wall flatness detection device |
CN113048922A (en) * | 2021-03-25 | 2021-06-29 | 武汉铭煦信息科技有限公司 | Intelligent detection system and detection method for motor transmission shaft |
CN113503803A (en) * | 2021-08-25 | 2021-10-15 | 浙江晟业工程咨询有限公司 | Building engineering quality flatness detection device |
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