CN115247997A - Building engineering quality flatness detection device - Google Patents

Abstract

The invention provides a building engineering quality flatness detection device, which belongs to the flatness detection field and comprises a main body frame, a telescopic orifice plate, a telescopic guide pillar, a linear sliding groove, a primary sliding plate and a secondary sliding plate, wherein a threaded rod for driving the telescopic orifice plate to horizontally slide along the outer wall of the main body frame is screwed on the outer wall of the main body frame, one end of the threaded rod is fixedly connected with a hand wheel outside the telescopic orifice plate, a telescopic chute for driving the telescopic guide pillar to horizontally slide along the linear sliding groove is formed in the inner wall of the telescopic orifice plate, one end of the telescopic guide pillar extends to the inside of the main body frame and is screwed on a sliding gear screwed with the outer wall of the primary sliding plate, a rotary slave plate is arranged, the rotary main plate rotates to drive a swing groove plate to swing through a driving groove hole in a rotating mechanism, the swing groove plate drives the rotary slave plate to rotate along a limiting fan groove through a driven groove hole, and the comprehensive detection operation of a contact surface of the building engineering is realized.

Description

Building engineering quality flatness detection device

Technical Field

The invention relates to the field of flatness detection, in particular to a building engineering quality flatness detection device.

Background

The building engineering is an engineering entity formed by the construction of various building constructions and their auxiliary facilities and the installation of lines, pipelines and equipment matched with them, in which the building construction includes top cover, beam column, wall and foundation, and can form internal space, so that it can meet the requirements of production, living, learning and public activities.

However, the problem that the detection operation cannot be performed on the detection surfaces with different sizes when the existing building engineering quality flatness detection device is used results in low application range of the flatness detection device, the problem that the detection operation cannot be performed on the detection surfaces comprehensively when the existing building engineering quality flatness detection device is used results in the fact that the detection result cannot completely represent the actual condition of the detection surface, misjudgment is easy to occur to a detector, the problem that the detection result is not obvious when the existing building engineering quality flatness detection device is used results in errors of an observation structure, and the requirement of people cannot be met, so that the building engineering quality flatness detection device is provided.

Disclosure of Invention

The invention aims to provide a construction engineering quality flatness detection device to solve the problems that detection operations cannot be performed on detection surfaces with different sizes, comprehensive detection operations cannot be performed on the detection surfaces, and detection results are not obvious in the background technology.

The invention is realized in the following way: the utility model provides a building engineering quality plane degree detection device, includes main body frame, flexible orifice plate, flexible guide pillar, sharp spout, one-level slide and second grade slide, main body frame's outer wall has connect soon and has been used for driving flexible orifice plate is along main body frame outer wall horizontal slip's threaded rod, the one end of threaded rod is located the outside fixedly connected with hand wheel of flexible orifice plate, the inner wall of flexible orifice plate is seted up and is used for driving flexible guide pillar is followed the flexible chute of sharp spout horizontal slip, the one end of flexible guide pillar extend to main body frame's inside connect soon with the sliding gear that one-level slide outer wall connects soon, one side meshing of sliding gear has the fixed pinion rack with main body frame inner wall fixed connection, sliding gear keep away from the one end meshing of fixed pinion rack have with second grade slide fixed connection's motion pinion rack.

Preferably, one end of the main body frame, which is far away from the telescopic pore plate, is fixedly connected with a detection mechanism, one side of the detection mechanism is located on the outer wall of the main body frame, which is fixedly connected with a rotary support block, one end of the outer wall of the main body frame, which is far away from the rotary support block, is provided with a rotating mechanism, and the outer wall of the rotating mechanism is provided with a limiting mechanism.

Preferably, flexible guide pillar constitutes sliding structure between through flexible chute and the straight line spout, and the slip length of flexible guide pillar equals with the horizontal width of flexible chute, fixed tooth plate passes through sliding gear and constitutes sliding structure between motion pinion rack and the main body frame, and fixed tooth plate's slip velocity is the twice of slip gear slip velocity, detection mechanism is provided with three groups, and three detection mechanism of group fix respectively at the outer wall of main body frame, the outer wall of one-level slide and the outer wall of second grade slide.

Preferably, the detection mechanism comprises a homing frame, a homing slider, a homing spring, a limiting orifice plate, a working swing plate, a working connecting rod, a working swing groove, a detection plate, an adjusting sliding column, an adjusting sliding groove, a detection slider and a scale plate, wherein the inner wall of the detection mechanism is fixedly connected with the homing frame, the inner wall of the homing frame is slidably connected with the homing slider, the connection part of the homing slider and the homing frame is provided with the homing spring, the side wall of the homing slider is slidably connected with the limiting orifice plate fixedly connected with the inner wall of the detection mechanism, the inner wall of the limiting orifice plate is slidably connected with the working swing plate screwed with the outer wall of the homing slider, the outer wall of the working swing plate is movably connected with the working connecting rod penetrating through the inner wall of the detection mechanism, the connection part of the working connecting rod and the working swing plate is provided with the working swing groove, one end of the working connecting rod far away from the working swing groove extends to the outside of the detection mechanism, the outer wall of the working swing plate is fixedly connected with the adjusting sliding column above the detection slider fixedly connected with the inner wall of the detection mechanism, and the detection mechanism is provided with the detection slider fixedly connected with the detection plate.

Preferably, the bottom of the work swing plate forms a telescopic structure through the homing slider and between the homing spring and the homing frame, the height of the homing frame is equal to the vertical height of the adjusting chute, the work swing plate forms a swing structure through the work connecting rod and the work swing groove and between the work swing plate homing frame, the central axis of the work swing plate coincides with the middle point of the work swing plate, and the detection slider forms a sliding structure through the adjusting sliding column and between the adjusting chute and the scale plate.

Preferably, the rotating mechanism comprises a swing motor, a rotating main board, a swing groove board, a driving groove hole, a rotating slave board, a driven groove hole, a positioning slider and a limiting fan groove, the swing motor is fixedly connected to the outside of the rotating mechanism, the rotating main board is installed at the output end of the swing motor, one end of the rotating main board, which is far away from the swing motor, is movably connected with the swing groove board in rotary connection with the outer wall of the rotating mechanism, the driving groove hole is formed in the connecting part of the swing groove board and the rotating main board, the rotary slave board in rotary connection with the outer wall of the rotating mechanism is movably connected to the outer wall of the swing groove board above the driving groove hole, the driven groove hole is formed in the connecting part of the rotary slave board and the swing groove board, the rotary slave board is fixedly connected with the main body frame, the positioning slider is fixedly connected to the top end of the swing groove board, and the limiting fan groove is formed in the connecting part of the positioning slider and the rotating mechanism.

Preferably, the swing groove plate forms a swing structure with the rotating mechanism through the rotating main plate and the driving groove hole, the swing angle of the swing groove plate is 60 degrees, the rotating slave plate forms a rotating structure with the rotating mechanism through the swing groove plate and the driven groove hole, the rotating angle of the rotating slave plate is 180 degrees, and the sector angle of the limiting sector groove is 60 degrees.

Preferably, the limiting mechanism comprises a pneumatic push rod, a sliding push block, a guide hole plate, a guide groove, a guide connecting plate, a lifting guide pillar, a guide hole, a lifting guide groove, a guide connecting rod and a limiting guide pillar, the outer wall of the limiting mechanism is fixedly connected with the pneumatic push rod, the output end of the pneumatic push rod is provided with the sliding push block which is in sliding connection with the outer wall of the limiting mechanism, the side wall of the sliding push block is movably connected with the guide hole plate, the guide groove is arranged at the connecting part of the guide hole plate and the sliding push block, the guide hole plate is characterized in that one end, far away from the guide groove, of the guide hole plate is fixedly connected with a guide connecting plate which is connected with the outer wall of the limiting mechanism in a rotating mode, one end of the guide connecting plate is movably connected with a lifting guide pillar, a guide hole is formed in the connecting portion of the lifting guide pillar and the guide connecting plate, a lifting guide groove is formed in the connecting portion of the lifting guide pillar and the limiting mechanism, one end of the lifting guide pillar is connected with a guide connecting rod in a rotating mode, and one end, far away from the guide hole, of the guide connecting rod is connected with a limiting guide pillar which penetrates through the inner wall of the limiting fan groove in a rotating mode.

Preferably, the guide hole plate forms a swing structure through the sliding push block, the guide groove and the limiting mechanism, the two groups of lifting guide pillars are arranged, the position distribution of the two groups of lifting guide pillars is in central distribution relative to the midpoint of the guide connecting plate, the lifting guide pillars form a lifting structure through the guide connecting plate, the guide hole and the lifting guide groove, the limiting guide pillars form a sliding structure through the lifting guide pillars, the guide connecting rod and the limiting fan groove, and the central axis of the limiting guide pillars coincides with the swing center of the swing groove plate.

The invention provides a building engineering quality flatness detection device, which has the following beneficial effects when in use:

1. this building engineering quality flatness detection device, through setting up one-level slide and second grade slide, in main body frame, flexible chute slides and drives flexible guide pillar along sharp spout horizontal slip, flexible guide pillar drives the one-level slide that connects soon with sliding gear slides along main body frame's inner wall, sliding gear slides along main body frame's inner wall with fixed pinion rack meshing drive and motion pinion rack fixed connection's second grade slide simultaneously, through the slip of one-level slide and second grade slide, the realization is to the holistic flexible operation of device, the flatness detection operation of the different detection faces of being convenient for.

2. This building engineering quality plane degree detection device, through setting up the work pendulum board, in detection mechanism, the work connecting rod slides and drives the swing of work pendulum board through the work pendulum groove, the swing of work pendulum board drives the adjustment traveller and slides along the inner wall of adjustment spout, meanwhile, the bottom of work pendulum board slides along the inner wall of spacing orifice plate for the swing of work pendulum board drives and detects the slider and slide along the scale plate outer wall, detect the relative position of slider and scale plate through observing, realize detecting the operation to building engineering quality plane degree.

3. This building engineering quality flatness detection device through setting up rotatory slave plate, in rotary mechanism, rotatory mainboard rotates and drives the swing frid swing through the initiative slotted hole, and the swing frid swing drives rotatory slave plate through driven slotted hole and rotates along spacing fan groove, realizes the comprehensive detection operation to the contact surface on building engineering surface.

4. This building engineering quality flatness detection device, through setting up the lift guide pillar, in stop gear, the slip ejector pad slides and drives the guide hole board swing through the guide slot, and the guide hole board swing drives the even board swing of direction, and the even board swing of direction drives two sets of lift guide pillars along the inner wall relative slip of lift guide slot through two sets of guide holes, realizes the control operation to two sets of lift guide pillar relative slip.

5. This building engineering quality flatness detection device, through setting up spacing guide pillar and location slider, the motion of lift guide pillar drives spacing guide pillar through the guide link and slides along spacing fan inslot wall, slides and laminates mutually with the location slider on swing frid top through spacing guide pillar, realizes swing frid pivoted spacing operation.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts. The above and other objects, features and advantages of the present invention will become more apparent from the accompanying drawings. Like reference numerals refer to like parts throughout the drawings. The drawings are not necessarily to scale, emphasis instead being placed upon illustrating the principles of the invention.

FIG. 1 is a schematic view of an overall first perspective structure of the present invention;

FIG. 2 is a schematic view of an overall second perspective structure of the present invention;

FIG. 3 is a cross-sectional view of the main frame of the present invention;

FIG. 4 is a schematic view of the internal structure of the main frame according to the present invention;

FIG. 5 is a schematic view of the connection structure of the rotating mechanism and the limiting mechanism of the present invention;

FIG. 6 is a schematic view of a rotary mechanism according to the present invention;

FIG. 7 is a schematic view of the limiting mechanism of the present invention;

FIG. 8 is a schematic view of the detecting mechanism of the present invention.

The reference numbers summarize: 1. a main body frame; 2. a telescopic orifice plate; 3. a threaded rod; 4. a hand wheel; 5. a telescopic guide post; 6. a linear chute; 7. a telescopic chute; 8. a first-stage sliding plate; 9. a sliding gear; 10. a fixed toothed plate; 11. a second-stage sliding plate; 12. a moving toothed plate; 13. a detection mechanism; 1301. a homing frame; 1302. a homing slider; 1303. a homing spring; 1304. limiting the pore plate; 1305. a working swing plate; 1306. a working link; 1307. a working swing groove; 1308. detecting a plate; 1309. adjusting the sliding column; 1310. adjusting the sliding chute; 1311. detecting a slide block; 1312. a scale plate; 14. rotating the support block; 15. a rotation mechanism; 1501. a swing motor; 1502. rotating the main board; 1503. a swinging groove plate; 1504. an active slot; 1505. rotating the slave plate; 1506. a driven slot; 1507. positioning the sliding block; 1508. limiting fan grooves; 16. a limiting mechanism; 1601. a pneumatic push rod; 1602. sliding the push block; 1603. a guide orifice plate; 1604. a guide groove; 1605. a guide connecting plate; 1606. a lifting guide post; 1607. a guide hole; 1608. a lifting guide groove; 1609. a guide link; 1610. and limiting the guide post.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all embodiments of the present invention. The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined or explained in subsequent figures.

Furthermore, the terms "first," "second," and the like are used merely to distinguish one description from another, and are not to be construed as indicating or implying relative importance.

An embodiment, please refer to fig. 1 to 8, this embodiment provides a building engineering quality flatness detecting device, including main body frame 1, flexible orifice plate 2, flexible guide pillar 5, linear chute 6, one-level slide 8 and second grade slide 11, the outer wall of main body frame 1 has screwed the threaded rod 3 that is used for driving flexible orifice plate 2 along the horizontal slip of 1 outer wall of main body frame, the outside fixedly connected with hand wheel 4 of threaded rod 3's one end is located flexible orifice plate 2, the inner wall of flexible orifice plate 2 is offered and is used for driving flexible chute 7 of flexible guide pillar 5 along the horizontal slip of linear chute 6, the inside screwed sliding gear 9 that has screwed with 8 outer walls of one-level slide that has extended to main body frame 1 of the one end of flexible guide pillar 5, one side meshing of sliding gear 9 has fixed toothed plate 10 with 1 inner wall fixed connection of main body frame, the one end meshing that sliding gear 9 kept away from fixed toothed plate 10 has the motion toothed plate 12 with second grade slide 11 fixed connection.

Further, one end of the main body frame 1, which is far away from the telescopic orifice plate 2, is fixedly connected with a detection mechanism 13, one side of the detection mechanism 13, which is positioned on the outer wall of the main body frame 1, is fixedly connected with a rotating support block 14, one end of the outer wall of the main body frame 1, which is far away from the rotating support block 14, is provided with a rotating mechanism 15, and the outer wall of the rotating mechanism 15 is provided with a limiting mechanism 16; the detection mechanism 13 is arranged to realize amplification operation of flatness detection, the rotating mechanism 15 is arranged to realize comprehensive detection operation of detection points, and the limiting mechanism 16 is arranged to facilitate positioning operation of detection at different angles.

Further, the telescopic guide pillar 5 forms a sliding structure through the telescopic chute 7 and the linear chute 6, the sliding length of the telescopic guide pillar 5 is equal to the horizontal width of the telescopic chute 7, the fixed toothed plate 10 forms a sliding structure through the sliding gear 9 and the moving toothed plate 12 and the main body frame 1, the sliding speed of the fixed toothed plate 10 is twice of that of the sliding gear 9, three groups of detection mechanisms 13 are arranged, and the three groups of detection mechanisms 13 are respectively fixed on the outer wall of the main body frame 1, the outer wall of the primary sliding plate 8 and the outer wall of the secondary sliding plate 11; being favorable to flexible chute 7 to drive flexible guide pillar 5 along 6 horizontal slip of sharp spout, flexible guide pillar 5 drives the one-level slide 8 that connects soon with sliding gear 9 and slides along main body frame 1's inner wall, and sliding gear 9 slides along main body frame 1's inner wall with fixed pinion rack 10 meshing drive and motion pinion rack 12 fixed connection's second grade slide 11 simultaneously, realizes the control operation to one-level slide 8 and second grade slide 11 extension.

Furthermore, the detection mechanism 13 comprises a reset frame 1301, a reset slider 1302, a reset spring 1303, a limit orifice plate 1304, a work swing plate 1305, a work connecting rod 1306, a work swing groove 1307, a detection plate 1308, an adjustment sliding column 1309, an adjustment sliding groove 1310, a detection slider 1311 and a scale plate 1312, the inner wall of the detection mechanism 13 is fixedly connected with the reset frame 1301, the inner wall of the reset frame 1301 is slidably connected with the reset slider 1302, the connection part of the reset slider 1302 and the reset frame 1301 is provided with the reset spring 1303, the side wall of the reset slider is slidably connected with the limit orifice plate 1304 fixedly connected with the inner wall of the detection mechanism 13, the inner wall of the limit orifice plate 1304 is slidably connected with the work swing plate 1302 rotatably connected with the outer wall of the reset slider 1302, the outer wall of the work swing plate 1305 is movably connected with the work connecting rod 1306 penetrating through the inner wall of the detection mechanism 13, the connection part of the work connecting rod 1306 with the work swing plate 1305 is provided with the work swing groove 1307, the end of the work connecting rod 1306 and the work swing plate 1305, the work connecting rod 1306 is connected with the detection mechanism 1301, the detection mechanism 13, the detection mechanism is connected with the inner wall of the work swing plate 1309 through the inner wall of the detection slider 1309, the detection slider 13113, the inner wall of the detection slider 1305 is connected with the inner wall of the work swing plate 1309, the operation of detecting the quality flatness of the constructional engineering is realized by observing the relative positions of the detection slide block 1311 and the scale plate 1312.

Further, the bottom end of the working swing plate 1305 forms a telescopic structure with the homing frame 1301 through the homing slider 1302 and the homing spring 1303, the height of the homing frame 1301 is equal to the vertical height of the adjusting sliding chute 1310, the working swing plate 1305 forms a swing structure with the working swing plate 1305 through the working connecting rod 1306 and the working swing groove 1307, and the central axis of the working swing plate 1305 is coincident with the middle point of the working swing plate 1305; the detection sliding block 1311 forms a sliding structure between the adjustment sliding column 1309 and the adjustment sliding groove 1310 and the scale plate 1312, which is beneficial for the sliding of the working connecting rod 1306 through the working swinging groove 1307 to drive the working swinging plate 1305 to swing, the swinging of the working swinging plate 1305 drives the adjustment sliding column 1309 to slide along the inner wall of the adjustment sliding groove 1310, so that the swinging control operation of the working swinging plate 1305 is realized, the swinging of the working swinging plate 1305 is beneficial for driving the detection sliding block 1311 to slide along the outer wall of the scale plate 1312 through the limiting hole plate 1304, and the amplification operation of the detection result is realized.

Further, the rotating mechanism 15 includes a swinging motor 1501, a rotating main plate 1502, a swinging groove plate 1503, a driving slot 1504, a rotating slave plate 1505, a driven slot 1506, a positioning slider 1507 and a limiting fan slot 1508, the swinging motor 1501 is fixedly connected to the outside of the rotating mechanism 15, the rotating main plate 1502 is installed at the output end of the swinging motor 1501, the swinging groove plate 1503 screwed with the outer wall of the rotating mechanism 15 is movably connected to one end of the rotating main plate 1502, which is far away from the swinging motor 1501, the driving slot 1504 is arranged at the connecting part of the swinging groove plate 1503 and the rotating main plate 1502, the rotating slave plate 1505 screwed with the outer wall of the rotating mechanism 15 is movably connected to the outer wall of the swinging groove plate 1503 above the driving slot 1504, a driven slot 1506 is arranged at the connecting part of the rotating slave plate 1505 and the swinging groove plate 1503, the rotating slave plate 1505 is fixedly connected with the main body frame 1, the top end of the swinging groove plate 1503 is fixedly connected with the positioning slider 1507, and the connecting part of the positioning slider 1507 and the rotating mechanism 15 is provided with the limiting fan slot 1508; by arranging the rotating mechanism 15, the rotating main board 1502 rotates to drive the swinging grooved plate 1503 to swing through the driving slotted hole 1504, the swinging grooved plate 1503 swings to drive the rotating slave board 1505 to rotate along the limiting fan groove 1508 through the driven slotted hole 1506, and therefore comprehensive detection operation of the contact surface of the construction engineering surface is achieved.

Further, the swinging slotted plate 1503 forms a swinging structure through the rotating main plate 1502, the driving slotted hole 1504 and the rotating mechanism 15, the swinging angle of the swinging slotted plate 1503 is 60 degrees, the rotating slave plate 1505 forms a rotating structure through the swinging slotted plate 1503, the driven slotted hole 1506 and the rotating mechanism 15, the rotating angle of the rotating slave plate 1505 is 180 degrees, and the sector angle of the limiting sector slot 1508 is 60 degrees; the rotation of the main rotating plate 1502 is facilitated to drive the swinging groove plate 1503 to swing through the driving slot 1504, the swinging groove plate 1503 swings to drive the rotating slave plate 1505 to rotate along the limit fan groove 1508 through the driven slot 1506, and the control operation of the rotation of the slave rotating plate 1505 is realized.

Further, the limiting mechanism 16 comprises a pneumatic push rod 1601, a sliding push block 1602, a guide orifice plate 1603, a guide slot 1604, a guide connecting plate 1605, a lifting guide post 1606, a guide hole 1607, a lifting guide slot 1608, a guide connecting rod 1609 and a limiting guide post 1610, the pneumatic push rod 1601 is fixedly connected to the outer wall of the limiting mechanism 16, the sliding push block 1602 which is connected with the outer wall of the limiting mechanism 16 in a sliding manner is installed at the output end of the pneumatic push rod 1601, the guide orifice plate 1603 is movably connected to the side wall of the sliding push block 1602, the guide slot 1604 is formed in the connecting part of the guide orifice plate 1603 and the sliding push block 1602, one end of the guide hole plate 1603, which is far away from the guide groove 1604, is fixedly connected with a guide connecting plate 1605 which is screwed with the outer wall of the limiting mechanism 16, one end of the guide connecting plate 1605 is movably connected with a lifting guide pillar 1606, a guide hole 1607 is formed in the connecting part of the lifting guide pillar 1606 and the guide connecting plate 1605, a lifting guide groove 1608 is formed in the connecting part of the lifting guide pillar 1606 and the limiting mechanism 16, one end of the lifting guide pillar 1606 is screwed with a guide connecting rod 1609, and one end of the guide connecting rod 1609, which is far away from the guide hole 1607, is screwed with a limiting guide pillar 1610 which penetrates through the inner wall of the limiting fan groove 1508; through setting up stop gear 16, slip ejector pad 1602 slides and drives guide hole board 1603 swing through guide slot 1604, guide hole board 1603 swing drives the swing of direction even board 1605, the swing of direction even board 1605 drives two sets of lifting guide post 1606 along the inner wall relative slip of lift guide slot 1608 through two sets of direction guide holes 1607, so that lifting guide post 1606 moves and drives spacing guide post 1610 through guide link 1609 and slide along spacing fan groove 1508 inner wall, slide and laminate mutually with the location slider 1507 on swing frid 1503 top through spacing guide post 1610, realize swinging frid 1503 pivoted spacing operation.

Furthermore, a swing structure is formed between the guide hole plate 1603 and the limiting mechanism 16 through the sliding push block 1602 and the guide groove 1604, two groups of lifting guide posts 1606 are arranged, the position distribution of the two groups of lifting guide posts 1606 is in central distribution relative to the middle point of the guide connecting plate 1605, the lifting guide posts 1606 form a lifting structure between the guide connecting plate 1605 and the guide holes 1607 and the lifting guide groove 1608, the limiting guide posts 1610 form a sliding structure between the lifting guide posts 1606 and the guide connecting rod 1609 and the limiting fan groove 1508, and the central axis of the limiting guide posts 1610 coincides with the swing center of the swing groove plate 1503; the sliding push block 1602 is favorable to sliding to drive the guide hole plate 1603 to swing through the guide groove 1604, the guide hole plate 1603 swings to drive the guide connecting plate 1605 to swing, the guide connecting plate 1605 swings to drive the two sets of lifting guide pillars 1606 to slide relatively along the inner wall of the lifting guide groove 1608 through the two sets of guide holes 1607, so that the lifting guide pillars 1606 move to drive the limiting guide pillars 1610 to slide along the inner wall of the limiting fan groove 1508 through the guide connecting rods 1609, and the control operation of the telescopic movement of the limiting guide pillars 1610 is realized.

As shown in fig. 1, this kind of building engineering quality flatness detecting device, when using, at first, to the whole flexible operation that carries on of device, in main body frame 1, the operator rotates hand wheel 4 and drives flexible orifice plate 2 through threaded rod 3 and slide along main body frame 1's outer wall, so that flexible chute 7 drives flexible guide pillar 5 along the 6 horizontal slip of straight line spout, flexible guide pillar 5 drives the one-level slide 8 that connects soon with sliding gear 9 and slides along main body frame 1's inner wall, sliding gear 9 slides along main body frame 1's inner wall with fixed pinion rack 10 meshing drive and second grade slide 11 of motion pinion rack 12 fixed connection, through the slip of one-level slide 8 and second grade slide 11, realize the whole flexible operation to the device.

Then, flatness detection operation is performed, the rotating support block 14 is attached to the surface of the construction project, in the detection mechanism 13, the detection plate 1308 moves to drive the working connecting rod 1306 to slide along the inside of the detection mechanism 13, the working connecting rod 1306 slides to drive the working swing plate 1305 to swing through the working swing groove 1307, the working swing plate 1305 swings to drive the adjusting sliding column 1309 to slide along the inner wall of the adjusting sliding groove 1310, meanwhile, the bottom end of the working swing plate 1305 slides along the inner wall of the limiting hole plate 1304, the working swing plate 1305 swings to drive the detection sliding block 1311 to slide along the outer wall of the scale plate 1312, and the flatness detection operation of the quality of the construction project is realized by observing the relative position of the detection sliding block 1311 and the scale plate 1312.

Then, the contact surface of the rotating support block 14 and the surface of the architectural engineering is detected comprehensively, in the rotating mechanism 15, the swing motor 1501 works to drive the rotating main plate 1502 to rotate, the rotating main plate 1502 rotates to drive the swing slotted plate 1503 to swing through the driving slotted hole 1504, the swing slotted plate 1503 swings to drive the rotating slave plate 1505 to rotate along the limiting slotted fan 1508 through the driven slotted hole 1506, and the operation of detecting the contact surface of the architectural engineering is realized.

Next, limit operation is performed on different rotating angles of the main body frame 1, in the limit mechanism 16, the pneumatic push rod 1601 works while the main body frame 1 rotates to drive the sliding push block 1602 to slide along the outer wall of the limit mechanism 16, so that the sliding push block 1602 slides to drive the guide orifice plate 1603 to swing through the guide slot 1604, the guide orifice plate 1603 swings to drive the guide link plate 1605 to swing, the guide link plate 1605 swings to drive the two sets of lifting guide posts 1606 to slide relatively along the inner wall of the lifting guide slot 1608 through the two sets of guide holes 1607, so that the lifting guide posts 1606 move to drive the limit guide posts 1610 to slide along the inner wall of the limit fan groove 1508 through the guide links 1609, the limit operation on the rotation of the swing groove plate 1503 is realized by the sliding of the limit guide posts 1610 to be attached to the positioning slider 1507 at the top end of the swing groove plate 1503.

Finally, after the flatness detection is finished, the detection plate 1308 is reset, in the reset frame 1301, the reset spring 1303 works to drive the reset slider 1302 to slide along the reset frame 1301, so that the reset slider 1302 slides to drive the working swing plate 1305 to slide along the reset frame 1301, and the reset operation of the detection plate 1308 is realized.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (9)

1. The utility model provides a building engineering quality flatness detection device, includes main body frame, flexible orifice plate, flexible guide pillar, sharp spout, one-level slide and second grade slide, its characterized in that: the utility model discloses a telescopic hole plate, including main body frame, telescopic hole plate, linear chute, sliding gear, fixed toothed plate, telescopic guide post, telescopic hole plate's outer wall connect soon and be used for driving telescopic hole plate follows main body frame outer wall horizontal slip's threaded rod, the one end of threaded rod is located telescopic hole plate's outside fixedly connected with hand wheel, telescopic hole plate's inner wall is seted up and is used for driving telescopic guide post follows linear chute horizontal slip's flexible chute, telescopic guide post's one end extend to main body frame the inside connect soon with the sliding gear that one-level slide outer wall connects soon, one side meshing of sliding gear has the fixed toothed plate with main body frame inner wall fixed connection, sliding gear keep away from the one end meshing of fixed toothed plate have with second grade slide fixed connection's motion toothed plate.

2. The construction engineering quality flatness detection apparatus according to claim 1, wherein: the one end fixedly connected with detection mechanism that telescopic hole board was kept away from to main body frame, and one side of detection mechanism is located main body frame's outer wall fixedly connected with rotation piece, the one end that main body frame's outer wall was kept away from rotation piece is provided with rotary mechanism, and rotary mechanism's outer wall is provided with stop gear.

3. The construction engineering quality flatness detecting apparatus according to claim 2, wherein: the utility model discloses a detection mechanism, including telescopic guide post, fixed tooth plate, detection mechanism, telescopic chute, fixed toothed plate, detection mechanism, and flexible guide post constitutes sliding structure between through telescopic chute and the straight line spout, and telescopic guide post's slip length equals with telescopic chute's horizontal width, fixed toothed plate passes through sliding gear and constitutes sliding structure between motion toothed plate and the main body frame, and fixed toothed plate's slip speed is the twice of slip gear slip speed, detection mechanism is provided with three groups, and three detection mechanism of group fix respectively at the outer wall of main body frame, the outer wall of one-level slide and the outer wall of second grade slide.

4. The construction engineering quality flatness detection apparatus according to claim 3, wherein: the detection mechanism comprises a homing frame, a homing slider, a homing spring, a limiting orifice plate, a working swing plate, a working connecting rod, a working swing groove, a detection plate, an adjusting sliding column, an adjusting sliding groove, a detection slider and a scale plate, wherein the inner wall of the detection mechanism is fixedly connected with the homing frame, the inner wall of the homing frame is slidably connected with the homing slider, the homing spring is arranged at the connecting part of the homing slider and the homing frame, the limiting orifice plate fixedly connected with the inner wall of the detection mechanism is slidably connected with the side wall of the homing slider, the inner wall of the limiting orifice plate is slidably connected with the working swing plate screwed with the outer wall of the homing slider, the working connecting rod penetrating through the inner wall of the detection mechanism is movably connected with the outer wall of the working swing plate, the working swing groove is formed at the connecting part of the working connecting rod and the working swing plate, one end, far away from the working swing groove, of the working connecting rod extends to the detection plate fixedly connected with the outside of the detection mechanism, the outer wall of the working swing plate is fixedly connected with the adjusting sliding column, the sliding groove is fixedly connected with the slider, and the detection mechanism is provided with the detection chute fixedly connected with the inner wall of the detection slider.

5. The construction engineering quality flatness detecting apparatus according to claim 4, wherein: the bottom of the work swing plate forms a telescopic structure through the homing sliding block, the homing spring and the homing frame, the height of the homing frame is equal to the vertical height of the adjusting sliding groove, the work swing plate forms a swing structure through the work connecting rod, the work swing groove and the work swing plate homing frame, the central axis of the work swing plate coincides with the central point of the work swing plate, and the detection sliding block forms a sliding structure through the adjusting sliding column, the adjusting sliding groove and the scale plate.

6. The construction engineering quality flatness detecting apparatus according to claim 2, wherein: the rotary mechanism comprises a swing motor, a rotary main board, a swing groove plate, a driving groove hole, a rotary slave board, a driven groove hole, a positioning slider and a limiting fan groove, the swing motor is fixedly connected to the outside of the rotary mechanism, the rotary main board is installed at the output end of the swing motor, one end of the rotary main board, away from the swing motor, is movably connected with the swing groove plate in rotary connection with the outer wall of the rotary mechanism, the driving groove hole is formed in the connecting position of the swing groove plate and the rotary main board, the rotary slave board in rotary connection with the outer wall of the rotary mechanism is movably connected with the upper portion of the driving groove hole in the outer wall of the swing groove plate, the driven groove hole is formed in the connecting position of the rotary slave board and the swing groove plate, the rotary slave board is fixedly connected with the main frame, the positioning slider is fixedly connected with the top end of the swing groove plate, and the limiting fan groove is formed in the connecting position of the positioning slider and the rotary mechanism.

7. The construction engineering quality flatness detection apparatus according to claim 6, wherein: the swing groove plate forms a swing structure through the space between the rotating main plate and the driving groove hole and the rotating mechanism, the swing angle of the swing groove plate is 60 degrees, the rotating slave plate forms a rotating structure through the space between the swing groove plate and the driven groove hole and the rotating mechanism, the rotating angle of the rotating slave plate is 180 degrees, and the sector angle of the limiting sector groove is 60 degrees.

8. The construction engineering quality flatness detecting apparatus according to claim 2, wherein: the limiting mechanism comprises a pneumatic push rod, a sliding push block, a guide hole plate, a guide groove, a guide connecting plate, a lifting guide pillar, a guide hole, a lifting guide groove, a guide connecting rod and a limiting guide pillar, the outer wall of the limiting mechanism is fixedly connected with the pneumatic push rod, the output end of the pneumatic push rod is provided with the sliding push block which is in sliding connection with the outer wall of the limiting mechanism, the side wall of the sliding push block is movably connected with the guide hole plate, the guide groove is formed in the connecting part of the guide hole plate and the sliding push block, one end, far away from the guide groove, of the guide hole plate is fixedly connected with the guide connecting plate which is in screwed connection with the outer wall of the limiting mechanism, one end of the guide connecting plate is movably connected with the lifting guide pillar, the guide hole is formed in the connecting part of the lifting guide pillar and the limiting mechanism, the lifting guide groove is formed in the connecting part of the lifting guide pillar and one end, far away from the guide hole, of the guide connecting rod is screwed with the limiting guide pillar which penetrates through the inner wall of the limiting fan groove.

9. The construction engineering quality flatness detecting apparatus according to claim 8, wherein: the guide hole plate forms a swing structure through the sliding push block, the guide groove and the limiting mechanism, the two groups of lifting guide columns are arranged, the position distribution of the two groups of lifting guide columns is in central distribution relative to the middle point of the guide connecting plate, the lifting guide columns form a lifting structure through the guide connecting plate, the guide hole and the lifting guide groove, the limiting guide columns form a sliding structure through the lifting guide columns, the guide connecting rods and the limiting fan grooves, and the central axes of the limiting guide columns coincide with the swing center of the swing groove plate.

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