CN113639712A - Perpendicularity detection device with multiple measurement modes for building engineering - Google Patents

Abstract

The invention discloses a perpendicularity detection device with multiple measurement modes for construction engineering, which comprises: the lower end of the supporting base is provided with a universal wheel, the lower end of the supporting base is provided with a telescopic rod, and the telescopic rod is symmetrically provided with first sliding blocks; the fixed sleeve is in sliding connection with the first sliding block through a groove formed in the fixed sleeve, and the fixed sleeve is attached to the telescopic rod; and the damping spring is arranged at the lower end of the telescopic lifting rod. This straightness detection device that hangs down for building engineering with multiple measurement methods, rotation through rotating the screw rod to change about the position to telescopic sleeve, thereby be convenient for measure the building of co-altitude, and can take off the connecting plate, thereby can take the connecting plate and measure, measure higher building promptly, make measuring mode more various, and roll the perpendicular line through the winding wheel, avoid the condition of knoing to appear in the perpendicular line.

Description

Perpendicularity detection device with multiple measurement modes for building engineering

Technical Field

The invention relates to the technical field of constructional engineering, in particular to a perpendicularity detection device with multiple measurement modes for constructional engineering.

Background

With the continuous development of the building industry, more and more high-rise buildings appear beside people, but the perpendicularity of the building needs to be detected in the building engineering, so that whether the building is perpendicular to the ground or not is detected, and the stability of the building can be effectively ensured.

The publication number is: CN 212482495U's a straightness detection device that hangs down for building engineering, can adjust the base through adjusting stabilizer blade and bubble spirit level, make the base be in horizontal position, be provided with montant and folding rod, can carry out the straightness that hangs down to adjacent two-sided wall body simultaneously through montant and folding rod and detect, install down movable block and last movable block on montant and the folding rod, install down telescopic link and last telescopic link on lower movable block and the last movable block respectively, through last telescopic link and the lower telescopic link that has the scale, can avoid building rubbish etc. to cause the influence to the measurement, improve the straightness detection efficiency that hangs down such as wall body.

However, there are some problems in the process of using the above-mentioned device, for example, it is only possible to measure buildings with a certain height, it is difficult to take the device down for measuring buildings with a high height, and the measurement is performed by a level meter, and compared with the conventional vertical line measurement, a larger cost is required, and the measurement range is very limited in the measurement effect compared with the conventional vertical line measurement, and the environment requirement for measurement is large, and the device cannot be used outdoors with strong light. To the above problems, innovative design is urgently needed on the basis of the original perpendicularity detection device for construction engineering.

Disclosure of Invention

The invention aims to provide a perpendicularity detection device for building engineering with multiple measurement modes, and the device is used for solving the problems that the device is difficult to take down for measuring a high building and cannot be used outdoors with strong light in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a perpendicularity detection device with multiple measuring modes for construction engineering comprises:

the lower end of the supporting base is provided with a universal wheel, the lower end of the supporting base is provided with a telescopic rod, and the telescopic rod is symmetrically provided with first sliding blocks;

the fixed sleeve is in sliding connection with the first sliding block through a groove formed in the fixed sleeve, and the fixed sleeve is attached to the telescopic rod;

the damping spring is arranged at the lower end of the lifting and contracting rod, and the lifting and contracting rod is arranged in the fixed sleeve;

the limiting rod is arranged at the upper end of the supporting base, the limiting rod is in sliding connection with the movable sliding block through a groove formed in the movable sliding block, and the movable sliding block is arranged on the telescopic sleeve;

the screw rod is rotated and is mutually connected with the telescopic sleeve through a thread structure arranged at the upper end of the screw rod, and the thread structure is arranged in the telescopic sleeve;

the bearing rolling rods are symmetrically arranged at the lower end of the rotating screw rod, and are in sliding connection with the fixed plate, and the fixed plate is arranged on the supporting base;

the first bevel gear is connected with a rotating shaft arranged at the lower end of the rotating screw rod in a meshed mode, the second bevel gear is connected with the output end of a first motor through the rotating shaft in a meshed mode, and the first motor is placed on the fixing plate;

the connecting plate is mutually attached to the telescopic sleeve, a positioning rod penetrates through the telescopic sleeve, and the positioning rod is mutually attached to the connecting plate;

the positioning spring is mutually connected with the positioning rod and the telescopic sleeve;

and the fastening screw is mutually connected with the telescopic sleeve and is mutually connected with the connecting plate through a threaded hole formed in the connecting plate.

Preferably, the connecting plate is provided with an electric telescopic rod, the electric telescopic rod is connected with the left end of the sliding plate, the connecting plate is U-shaped, and the sliding plate can be conveniently arranged in the connecting plate through the structure.

Preferably, the sliding plate is symmetrically provided with 2 second sliding blocks, the second sliding blocks are in sliding connection with the connecting plate through grooves formed in the upper ends of the second sliding blocks, and the moving range of the sliding plate is limited conveniently through the second sliding blocks through the structure.

Preferably, a second motor is placed at the left end of the sliding plate, the output end of the second motor is connected with the rotating shaft, the rotating shaft and the sliding plate form a rotating mechanism through a bearing installed on the sliding plate, and the rotating shaft is supported without being influenced by the structure.

Preferably, the rotating shaft is provided with a winding wheel, the winding wheel is arranged in an H shape, the outer surface of the winding wheel is smooth, and the winding wheel is driven to rotate through the rotation of the rotating shaft.

Preferably, be fixed with the perpendicular line on the winding wheel, just the even winding of perpendicular line is in on the winding wheel, through above-mentioned structure, be convenient for under the effect of winding wheel, carry out the rolling to the perpendicular line.

Preferably, the laminating has 2 dipperstick on the perpendicular line, just the dipperstick is provided with the rectangular shape platelike structure of PVC of scale for the upper end, through above-mentioned structure, is convenient for realize carrying out the auxiliary measurement through the dipperstick to the straightness that hangs down.

Preferably, the fixed block is installed to the perpendicular line lower extreme, just the fixed block laminates with the balancing weight each other, through above-mentioned structure, is convenient for under the effect of balancing weight, makes the perpendicular line be in vertical state, is convenient for detect the straightness that hangs down.

Preferably, the counterweight block is also provided with a clamping plate, a pulling rod and a return spring;

the clamping plate is mutually attached to the balancing weight, and the clamping plate is mutually attached to a groove formed in the fixed block;

the pulling rod is arranged on the clamping plate and is in sliding connection with the balancing weight;

and the return spring is connected with the balancing weight and the pull rod.

Compared with the prior art, the invention has the beneficial effects that: according to the verticality detection device with multiple measurement modes for the building engineering, the position of the telescopic sleeve is changed up and down through rotation of the rotary screw rod, so that buildings with different heights can be conveniently measured, the connecting plate can be taken down, the connecting plate can be taken and measured, namely, a higher building is measured, the measurement modes are more diversified, and the vertical line is wound through the winding wheel, so that the knotting of the vertical line is avoided;

1. the first bevel gear and the second bevel gear are driven to rotate through the first motor, so that the rotating screw is driven to rotate, the telescopic sleeve starts to move up and down due to the fact that the rotating screw is connected with the telescopic sleeve, so that buildings with different heights in a certain range can be conveniently measured, and the telescopic sleeve is subjected to auxiliary limiting under the action of the limiting rod and the moving slide block;

2. the fastening screw is rotated, and then the positioning rod is pulled, so that the connecting plate can be taken down, a higher building can be measured, the device is more convenient and practical, the application range of the device is wider, and the position of the sliding plate can be changed under the action of the electric telescopic rod, so that the distance between the sliding plate and the wall surface can be conveniently adjusted;

3. drive the winding wheel through the axis of rotation and rotate to through the rotation of winding wheel, realize twining the perpendicular line, avoid at the in-process that uses, the perpendicular line appears the condition of knoing because of loose back intertwine, is convenient for use the perpendicular line next time, and sets up the balancing weight into detachable construction, is convenient for change balancing weight and perpendicular line.

Drawings

FIG. 1 is a schematic sectional view of a telescopic sleeve according to the present invention;

FIG. 2 is a schematic top sectional view of the connecting plate of the present invention;

FIG. 3 is a schematic top sectional view of the telescopic sleeve of the present invention;

FIG. 4 is a schematic top sectional view of a first bevel gear according to the present invention;

FIG. 5 is a schematic front sectional view of a first bevel gear according to the present invention;

FIG. 6 is a schematic top view of a cross-sectional structure of a measuring ruler of the present invention;

FIG. 7 is a schematic cross-sectional view of a counterweight block according to the present invention;

FIG. 8 is an enlarged view of the structure at A in FIG. 1 according to the present invention.

In the figure: 1. a support base; 2. a universal wheel; 3. lifting and shrinking the rod; 4. a first slider; 5. fixing the sleeve; 6. a damping spring; 7. a limiting rod; 8. moving the slide block; 9. a telescopic sleeve; 10. rotating the screw; 11. carrying the rolling rod; 12. a fixing plate; 13. a first bevel gear; 14. a second bevel gear; 15. a first motor; 16. a connecting plate; 17. positioning a rod; 18. a positioning spring; 19. fastening screws; 20. an electric telescopic rod; 21. a second slider; 22. a sliding plate; 23. a second motor; 24. a rotating shaft; 25. a winding wheel; 26. a vertical line; 27. measuring a scale; 28. a fixed block; 29. a balancing weight; 2901. a clamping plate; 2902. pulling a rod; 2903. and a return spring.

Detailed Description

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 only a part of the embodiments of the present invention, and not all of the embodiments. 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.

Referring to fig. 1-8, the present invention provides a technical solution: a perpendicularity detection device with multiple measuring modes for construction engineering comprises:

the lower end of the supporting base 1 is provided with a universal wheel 2, the lower end of the supporting base 1 is provided with a telescopic rod 3, and the telescopic rod 3 is symmetrically provided with first sliding blocks 4;

the fixed sleeve 5 is in sliding connection with the first sliding block 4 through a groove formed in the fixed sleeve, and the fixed sleeve 5 is attached to the telescopic rod 3;

the damping spring 6 is arranged at the lower end of the telescopic rod 3, and the telescopic rod 3 is arranged in the fixed sleeve 5;

the limiting rod 7 is arranged at the upper end of the supporting base 1, the limiting rod 7 is in sliding connection with the movable sliding block 8 through a groove formed in the movable sliding block 8, and the movable sliding block 8 is arranged on the telescopic sleeve 9;

the screw rod 10 is rotated and is mutually connected with the telescopic sleeve 9 through a thread structure arranged at the upper end of the screw rod, and the thread structure is arranged in the telescopic sleeve 9;

the bearing rolling rods 11 are symmetrically arranged at the lower end of the rotating screw rod 10, the bearing rolling rods 11 and the fixing plate 12 form sliding connection, and the fixing plate 12 is arranged on the supporting base 1;

a first bevel gear 13 interconnected with a rotating shaft installed at the lower end of the rotating screw 10, and the first bevel gear 13 engaged with a second bevel gear 14, and the second bevel gear 14 interconnected with the output end of a first motor 15 through the rotating shaft, the first motor 15 being placed on the fixing plate 12;

the connecting plate 16 is mutually attached to the telescopic sleeve 9, a positioning rod 17 penetrates through the telescopic sleeve 9, and the positioning rod 17 is mutually attached to the connecting plate 16;

a positioning spring 18 connected to the positioning rod 17, and the positioning spring 18 connected to the telescopic sleeve 9;

the fastening screw 19 is connected with the telescopic sleeve 9, and the fastening screw 19 is connected with the connecting plate 16 through a threaded hole formed in the connecting plate 16;

in this example, an electric telescopic rod 20 is mounted on the connecting plate 16, the electric telescopic rod 20 is connected with the left end of the sliding plate 22, and the connecting plate 16 is arranged in a U shape; the sliding plate 22 is symmetrically provided with 2 second sliding blocks 21, and the second sliding blocks 21 are in sliding connection with the connecting plate 16 through grooves formed in the upper ends of the second sliding blocks 21;

the first motor 15 is connected with an external power supply, the second bevel gear 14 starts to rotate because the output end of the first motor 15 is connected with the second bevel gear 14 through a rotating shaft, the first bevel gear 13 starts to rotate because the second bevel gear 14 is meshed with the first bevel gear 13, the rotating screw 10 starts to rotate because the first bevel gear 13 is connected with the rotating screw 10 through a rotating shaft, the telescopic sleeve 9 moves up and down under the action of the limiting rod 7 and the moving slider 8 because the upper end of the rotating screw 10 is provided with a thread structure and the inner surface of the telescopic sleeve 9 is provided with a thread structure, the connecting plate 16 starts to move up and down as the upper end of the telescopic sleeve 9 is provided with the connecting plate 16 through the fastening screw 19, and when the connecting plate 16 needs to be detached for use, the fastening screw 19 is rotated to enable the fastening screw 19 to move towards the direction far away from the connecting plate 16 until the fastening screw 19 is not connected with the threaded hole formed in the connecting plate 16 any longer, then the positioning rod 17 is pulled upwards to enable the positioning rod 17 to move towards the direction far away from the connecting plate 16, at the moment, the positioning spring 18 mounted on the positioning rod 17 begins to be stretched and deformed, the positioning rod 17 is not attached to the groove formed in the connecting plate 16 any longer, at the moment, the connecting plate 16 can be taken down for direct use, and even when the building is tall, the connecting plate 16 is taken down and is directly placed at the edge of the building for use;

a second motor 23 is arranged at the left end of the sliding plate 22, the output end of the second motor 23 is connected with a rotating shaft 24, and the rotating shaft 24 and the sliding plate 22 form a rotating mechanism through a bearing arranged on the sliding plate 22; a winding wheel 25 is mounted on the rotating shaft 24, the winding wheel 25 is arranged in an H shape, and the outer surface of the winding wheel 25 is smooth; the winding wheel 25 is fixed with a vertical line 26, and the vertical line 26 is uniformly wound on the winding wheel 25; 2 measuring scales 27 are attached to the vertical line 26, and the measuring scales 27 are of PVC long-strip-shaped plate-shaped structures with scales at the upper ends; the lower end of the vertical line 26 is provided with a fixed block 28, and the fixed block 28 is mutually attached to a balancing weight 29; the counterweight 29 is further provided with a clamping plate 2901, a pulling rod 2902 and a return spring 2903; the clamping plate 2901 is mutually attached to the counterweight 29, and the clamping plate 2901 is mutually attached to a groove formed in the fixed block 28; a pulling rod 2902 mounted on the engaging plate 2901, wherein the pulling rod 2902 is connected with the weight 29 in a sliding manner; a return spring 2903 connected to the weight block 29, and the return spring 2903 connected to the pulling rod 2902;

when the vertical wire 26 needs to be wound, the second motor 23 is turned on, because the output end of the second motor 23 is connected with the rotating shaft 24, the rotating shaft 24 starts to rotate, because the winding wheel 25 is installed on the rotating shaft 24, the winding wheel 25 starts to rotate, because the vertical wire 26 is fixed on the winding wheel 25, the winding and winding of the vertical wire 26 are realized along with the rotation of the winding wheel 25, at this time, the vertical wire 26 drives the counterweight block 29 to move upwards, when the counterweight block 29 needs to be detached and replaced, the pulling rod 2902 in fig. 7 is pulled, the pulling rod 2902 moves in a direction far away from the counterweight block 29, because the pulling rod 2902 is installed with the return spring 2903, the return spring 2903 starts to be compressed and deformed, and because the engaging plate 2901 is installed on the pulling rod 2902, the engaging plate 2901 also starts to move in a direction far away from the counterweight block 29, until the engaging plate 2901 is no longer attached to the groove formed on the fixing block 28, the counter weight 29 can be pulled downward, and the counter weight 29 can be removed and replaced.

The working principle is as follows: when the device needs to be used, the device is moved to a proper position, then the first motor 15 starts to work, the rotating screw 10 is driven to rotate under the action of the second bevel gear 14 and the first bevel gear 13, the position of the telescopic sleeve 9 is changed up and down along with the rotation of the rotating screw 10, namely, the position of the connecting plate 16 connected with the telescopic sleeve 9 is changed up and down, then the second motor 23 starts to work, the second motor 23 drives the winding wheel 25 to rotate under the action of the rotating shaft 24, the winding wheel 25 starts to pay off the vertical line 26 along with the rotation of the winding wheel 25, at the moment, the vertical line 26 moves downwards under the action of the balancing weight 29, then the measuring scale 27 is moved, 2 measuring scales 27 are moved to different heights, at the moment, under the action of the measuring scale 27 and the vertical line 26, the verticality detection device for the building engineering is used for detecting the verticality of the building, and the detection device is the working principle of the verticality detection device with multiple measuring modes.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. The utility model provides a straightness detection device that hangs down for building engineering with multiple measurement mode which characterized in that includes:

the lower end of the supporting base is provided with a universal wheel, the lower end of the supporting base is provided with a telescopic rod, and the telescopic rod is symmetrically provided with first sliding blocks;

the fixed sleeve is in sliding connection with the first sliding block through a groove formed in the fixed sleeve, and the fixed sleeve is attached to the telescopic rod;

the damping spring is arranged at the lower end of the lifting and contracting rod, and the lifting and contracting rod is arranged in the fixed sleeve;

the limiting rod is arranged at the upper end of the supporting base, the limiting rod is in sliding connection with the movable sliding block through a groove formed in the movable sliding block, and the movable sliding block is arranged on the telescopic sleeve;

the screw rod is rotated and is mutually connected with the telescopic sleeve through a thread structure arranged at the upper end of the screw rod, and the thread structure is arranged in the telescopic sleeve;

the bearing rolling rods are symmetrically arranged at the lower end of the rotating screw rod, and are in sliding connection with the fixed plate, and the fixed plate is arranged on the supporting base;

the first bevel gear is connected with a rotating shaft arranged at the lower end of the rotating screw rod in a meshed mode, the second bevel gear is connected with the output end of a first motor through the rotating shaft in a meshed mode, and the first motor is placed on the fixing plate;

the connecting plate is mutually attached to the telescopic sleeve, a positioning rod penetrates through the telescopic sleeve, and the positioning rod is mutually attached to the connecting plate;

the positioning spring is mutually connected with the positioning rod and the telescopic sleeve;

and the fastening screw is mutually connected with the telescopic sleeve and is mutually connected with the connecting plate through a threaded hole formed in the connecting plate.

2. The verticality detection device for construction engineering with multiple measurement modes according to claim 1, wherein: the connecting plate is provided with an electric telescopic rod, the electric telescopic rod is connected with the left end of the sliding plate, and the connecting plate is U-shaped.

3. The verticality detection device for construction engineering with multiple measurement modes according to claim 2, wherein: the sliding plate is symmetrically provided with 2 second sliding blocks, and the second sliding blocks are in sliding connection with the connecting plate through grooves formed in the upper ends of the second sliding blocks.

4. The verticality detection device for construction engineering with multiple measurement modes according to claim 2, wherein: the left end of the sliding plate is provided with a second motor, the output end of the second motor is connected with a rotating shaft, and the rotating shaft and the sliding plate form a rotating mechanism through a bearing arranged on the sliding plate.

5. The verticality detection device for construction engineering with multiple measurement modes according to claim 4, wherein: the winding wheel is installed on the rotating shaft, the winding wheel is set to be H-shaped, and the outer surface of the winding wheel is set to be smooth.

6. The verticality detection device for construction engineering with multiple measurement modes according to claim 5, wherein: the winding wheel is fixed with a vertical line, and the vertical line is uniformly wound on the winding wheel.

7. The verticality detection device for construction engineering with multiple measurement modes according to claim 6, wherein: the laminating has 2 dipperstick on the perpendicular line, just the dipperstick is provided with the rectangular shape platelike structure of PVC of scale for the upper end.

8. The verticality detection device for construction engineering with multiple measurement modes according to claim 6, wherein: the fixed block is installed to perpendicular line lower extreme, just the fixed block laminates with the balancing weight each other.

9. The verticality detection device for construction engineering with multiple measurement modes according to claim 8, wherein: the counterweight block is also provided with a clamping plate, a pulling rod and a return spring;

the clamping plate is mutually attached to the balancing weight, and the clamping plate is mutually attached to a groove formed in the fixed block;

the pulling rod is arranged on the clamping plate and is in sliding connection with the balancing weight;

and the return spring is connected with the balancing weight and the pull rod.

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