A wall measuring and marking integrated device

By designing an integrated wall measurement and marking device that combines measurement and marking functions, the problems of low efficiency and low accuracy in existing technologies have been solved, enabling efficient and precise wall construction.

CN224353835UActive Publication Date: 2026-06-12QIHE URBAN & RURAL CONSTRUCTION GROUP CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
QIHE URBAN & RURAL CONSTRUCTION GROUP CO LTD
Filing Date
2025-07-30
Publication Date
2026-06-12

AI Technical Summary

Technical Problem

In existing technologies, wall measurement and marking are performed in two separate operations, resulting in low construction efficiency and low accuracy.

Method used

Design an integrated wall measurement and marking device that integrates a measurement component, a drive component, an A-marking component, and a B-marking component. The measurement component performs synchronous measurement of width and height, and the A and B-marking components perform synchronous marking.

Benefits of technology

It enables efficient and accurate synchronous operation of wall measurement and marking, improving construction efficiency and accuracy.

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Abstract

The utility model discloses a wall measurement and marking integrated device belongs to building construction technical field, and its technical key points include main part assembly, measurement component, A marking component, B marking component and drive assembly. The utility model, during construction, need to measure and mark to wall, at this moment can first move main part assembly to the wall side, can control the height adjustment of the scale board through drive assembly, after the scale board moves to the wall upper end end or moves to the specified position, can mark the height position of wall through B marking component, and can through the reading of scale shaft, and then measure the wall height, can then measure the width of wall through measurement component, and after the measurement ends, can mark the width position of wall through A marking component, through the synchronous or before and after of measurement and marking, at this moment can carry out efficient and high -precision construction operation.
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Description

Technical Field

[0001] This utility model belongs to the field of building construction technology, and specifically relates to an integrated device for wall measurement and marking. Background Technology

[0002] Construction refers to the production activities during the implementation phase of a project. It is the process of building various types of structures, or the process of turning the lines on design drawings into physical objects at designated locations. It includes foundation construction, main structure construction, roofing construction, and decoration construction. Construction is a production activity undertaken by people using various building materials and machinery according to specific design blueprints within a certain space and time to build various architectural products. It includes the entire production process from construction preparation and groundbreaking to project completion and acceptance. During construction, to ensure the accuracy and quality of later construction work, it is often necessary to mark lines on walls for measurement, cutting, and other tasks. When marking lines, workers hold a ruler against the wall surface and then use a pencil to draw the lines.

[0003] In existing technologies, the measurement and marking of walls are usually divided into two parts: first, the wall is measured, and then the wall surface is marked according to the measurement results, so that the wall can be cut or partially demolished later. However, the method of measuring first and then marking with marking tools leads to low construction efficiency and low accuracy. To address this, we propose an integrated wall measurement and marking device to solve the above-mentioned problems. Utility Model Content

[0004] The purpose of this invention is to provide an integrated wall measurement and marking device to solve the problems mentioned in the background art.

[0005] To achieve the above objectives, this utility model provides the following technical solution:

[0006] An integrated wall measurement and marking device includes a main component, a measuring component and a driving component, which cooperate with the measuring component to lift the measuring component. A B marking component is provided on the main component, and an A marking component is provided on the measuring component.

[0007] The main component includes a base, an A-moving groove is provided on the base, an A-lead rod is provided in the A-moving groove, and a scale shaft is provided on the base;

[0008] The measuring component includes a scale plate, which is positioned directly above the base. Extenders are provided on both sides of the scale plate. The two extenders are respectively sleeved and threaded to the scale shaft and the surface of the lead screw A. A rack is provided on the scale plate. An indicator is provided on the scale plate, and a telescopic spring is provided between the surface of the indicator and the inner wall of the scale plate. The indicator and the rack are engaged.

[0009] Preferably, the main component further includes a fixing plate, which is disposed on a base, and a protective cover is disposed on the base, with the lead screw A rotating through the surface of the protective cover.

[0010] Preferably, the A marking component includes a slider, the scale plate surface has a B moving groove, the slider is disposed in the B moving groove, the slider is provided with a fixed shaft, the fixed shaft is sleeved with two deflecting members, the fixed shaft is provided with a torsion spring, and the torsion spring is connected to the two deflecting members, and two A clamping members are provided between the two deflecting members.

[0011] Preferably, each of the two deflecting members is provided with an extension member, each of the two A clamping members is provided with a threaded member, a B lead screw is provided between the two extension members, and both of the threaded members are threadedly connected to the B lead screw.

[0012] Preferably, the B marking assembly includes a collar sleeved on the scale shaft, a C lead screw is provided on the collar, and two B clamping members are threaded on the C lead screw, and the two B clamping members are symmetrically arranged.

[0013] Preferably, the drive assembly includes a movable support member disposed in a movable groove A, a lead screw D is disposed on the fixed plate, the movable support member is threaded onto the lead screw D, a gear A is disposed at the end of the lead screw D, a gear B is disposed on the lead screw A, and the gear B meshes with the gear A.

[0014] Preferably, the drive assembly further includes a fixed support member, which is disposed on the scale plate. The movable support member and the fixed support member are hinged together by a hinge shaft. A motor is disposed on the base, and the output end of the motor rotates through the surface of the fixed plate and is connected to the D lead screw.

[0015] Preferably, both gear A and gear B are located inside the protective cover, and the movable support and the fixed support are arranged obliquely symmetrically.

[0016] Compared with the prior art, the beneficial effects of this utility model are:

[0017] When measuring a wall, the width can be read by moving the indicator and observing the scale on the scale plate. When measuring the height of a wall, the height can be determined by moving the scale plate and observing the scale on the scale axis. After measuring the wall, it can be marked using the A and B marking components. The A marking component marks the width of the wall, while the B marking component marks the height, facilitating efficient and high-precision construction in the future. Attached Figure Description

[0018] Figure 1 This is a first perspective structural diagram of the present invention;

[0019] Figure 2 This is a second perspective structural diagram of the present invention;

[0020] Figure 3 This is a third perspective structural diagram of the present invention;

[0021] Figure 4 This is a first partial perspective view of the present invention;

[0022] Figure 5 This is a second partial perspective view of the present invention.

[0023] In the diagram: 1. Main component; 11. Base; 12. Scale shaft; 13. Lead screw A; 14. Fixing plate; 15. Protective cover; 2. Measuring component; 21. Scale plate; 22. Extension component; 23. Indicator component; 24. Telescopic spring; 25. Rack; 3. Marking component A; 31. Slider; 32. Fixing shaft; 33. Torsion spring; 34. Deflecting component; 35. Clamping component A; 36. Lead screw B; 37. Extension component; 38. Threaded component; 4. Marking component B; 41. Collar; 42. Lead screw C; 43. Clamping component B; 5. Drive component; 51. Moving support component; 52. Hinge shaft; 53. Fixed support component; 54. Lead screw D; 55. Motor; 56. Gear A; 57. Gear B. Detailed Implementation

[0024] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0025] Please see Figures 1-5This utility model provides an integrated wall measurement and marking device, including a main component 1, a measuring component 2 on the main component 1, a driving component 5 on the main component 1, and the driving component 5 cooperates with the measuring component 2 to lift the measuring component 2. A B marking component 4 is provided on the main component 1, and an A marking component 3 is provided on the measuring component 2.

[0026] The main component 1 includes a base 11, an A-moving groove is provided on the base 11, an A-lead screw 13 is provided in the A-moving groove, and a scale shaft 12 is provided on the base 11.

[0027] The measuring component 2 includes a scale plate 21, which is located directly above the base 11. Both sides of the scale plate 21 are provided with extension members 22. The two extension members 22 are respectively sleeved and threaded to the surface of the scale shaft 12 and the lead screw 13. A rack 25 is provided on the scale plate 21. An indicator 23 is provided on the scale plate 21. A telescopic spring 24 is provided between the surface of the indicator 23 and the inner wall of the scale plate 21. The indicator 23 and the rack 25 are engaged.

[0028] Specifically, during construction, when measuring and marking the wall, the device can be placed in front of the wall. At this time, the width of the wall can be measured by sliding the indicator 23 and using the scale on the surface of the scale plate 21. After sliding the indicator 23, the position of the indicator 23 needs to be fixed for accurate reading. This can be done by releasing the indicator 23. The indicator 23 will then move downward under the elastic force of the telescopic spring 24 and engage with the rack 25, making it impossible for the indicator 23 to move. At this time, accurate reading can be obtained. When marking the width, the A marking component 3 can be used. Since the A marking component 3 can slide on the scale plate 21, the position of the A marking component 3 can be adjusted according to the measurement results, thus enabling linear marking. In actual use, the height of the scale plate 21 can be adjusted by respectively fitting the two extensions 22 onto the surface of the scale shaft 12 and threading them onto the A lead screw 13.

[0029] In this embodiment, the main component 1 also includes a fixing plate 14, which is disposed on the base 11. A protective cover 15 is disposed on the base 11, and the lead screw 13 rotates through the surface of the protective cover 15.

[0030] Specifically, in order to ensure that the subsequent drive component 5 can be set stably during use, a fixing plate 14 and a protective cover 15 are provided on the base 11.

[0031] In this embodiment, the A marking component 3 includes a slider 31. A B moving groove is formed on the surface of the scale plate 21. The slider 31 is disposed in the B moving groove. A fixed shaft 32 is provided on the slider 31. Two deflecting members 34 are sleeved on the fixed shaft 32. A torsion spring 33 is provided on the fixed shaft 32 and is connected to the two deflecting members 34. Two A clamping members 35 are provided between the two deflecting members 34. An extension member 37 is provided on each of the two deflecting members 34. A threaded member 38 is provided on each of the two A clamping members 35. A B screw 36 is provided between the two extension members 37. Both threaded members 38 are threadedly connected to the B screw 36.

[0032] Specifically, in use, the chalk or marker can be clamped by the two A clamps 35. By rotating the B screw 36, the position of the two A clamps 35 can be adjusted to clamp the chalk or marker. Then, the deflector 34 can be manually rotated to deflect the chalk or marker so that its tip can contact the wall for marking. After marking is completed, the elastic force of the torsion spring 33 can cause the A clamps 35 to deflect in the opposite direction and return to their original position.

[0033] In this embodiment, the B marking component 4 includes a collar 41, which is sleeved on the scale shaft 12. A C lead screw 42 is provided on the collar 41, and two B clamping members 43 are threaded on the C lead screw 42, and the two B clamping members 43 are symmetrically arranged.

[0034] Specifically, when adjusting the height of the wall, since rotating the A screw 13 can drive the scale plate 21 to adjust the height, a collar 41 can be fitted on the scale shaft 12. At this time, by rotating the C screw 42, the positions of the two B clamping parts 43 can be adjusted, thereby clamping the chalk or marker. When the tip of the chalk or marker is in contact with the wall, by moving the collar 41 up and down, linear markings can be made on the wall.

[0035] In this embodiment, the drive assembly 5 includes a movable support member 51, which is disposed in the A movable groove. A D lead screw 54 is disposed on the fixed plate 14. The movable support member 51 is threaded onto the D lead screw 54. An A gear 56 is disposed at the end of the D lead screw 54. A gear 57 is disposed on the A lead screw 13, and the B gear 57 and the A gear 56 mesh. The drive assembly 5 also includes a fixed support member 53, which is disposed on the scale plate 21. The movable support member 51 and the fixed support member 53 are hinged by a hinge shaft 52. A motor 55 is disposed on the base 11, and the output end of the motor 55 rotates through the surface of the fixed plate 14 and is connected to the D lead screw 54.

[0036] Specifically, when adjusting the height of the scale plate 21, in order to enable synchronous height adjustment at both ends of the scale plate 21, a B gear 57 can be installed on the A lead screw 13, and an A gear 56 can be installed on the D lead screw 54, with the A gear 56 and B gear 57 meshing. Rotating the D lead screw 54 will cause the A lead screw 13 to rotate synchronously. A movable support member 51 can be threaded onto the D lead screw 54, and the movable support member 51 is slidably disposed within the A movable groove. A fixed support member 53 is fixedly installed at the lower end of the scale plate 21, and the movable support member 51 and the fixed support member 53 are hinged together by a hinge shaft 52. Rotating the D lead screw 54 will move the movable support member 51, which in turn will push the fixed support member 53 upward via the hinge shaft 52. This allows the two ends of the scale plate 21 to rise and fall synchronously. In use, the output end of the motor 55 can be connected to the D lead screw 54 to control the rotation of the D lead screw 54.

[0037] In this embodiment, gear A 56 and gear B 57 are both located inside the protective cover 15, and the movable support member 51 and the fixed support member 53 are arranged obliquely symmetrically.

[0038] Specifically, during use, in order to prevent dust in the construction environment from getting stuck between gear A 56 and gear B 57 and thus affecting the transmission, the two are placed inside the protective cover 15. The protective cover 15 can be used for dust prevention. In order to enable the movement of the movable support 51, the scale plate 21 can be pushed to adjust the height. Therefore, the movable support 51 and the fixed support 53 are arranged obliquely symmetrically.

[0039] The working principle and usage process of this utility model are as follows: During construction, when it is necessary to measure and mark the wall, the main component 1 can be moved to the side of the wall. The height of the scale plate 21 can be adjusted by the drive component 5. After the scale plate 21 is moved to the upper end of the wall or to the designated position, the height position of the wall can be marked by the B marking component 4. The height of the wall can be measured by reading the scale axis 12. Then the width of the wall can be measured by the measuring component 2. After the measurement is completed, the width position of the wall can be marked by the A marking component 3. By performing the measurement and marking simultaneously or sequentially, efficient and high-precision construction work can be carried out.

[0040] The electronic components and modules used in this utility model can all be parts that are commonly used in the market and can achieve the specific functions in this case. The specific models and sizes can be selected and adjusted according to actual needs.

[0041] The foregoing has shown and described the basic principles, main features, and advantages of this utility model. Those skilled in the art should understand that this utility model is not limited to the above embodiments. The embodiments and descriptions in the specification are merely illustrative of the principles of this utility model. Various changes and modifications can be made to this utility model without departing from its spirit and scope, and all such changes and modifications fall within the scope of the claimed utility model. The scope of protection of this utility model is defined by the appended claims and their equivalents.

Claims

1. An integrated wall measurement and marking device, characterized in that: It includes a main body component (1), a measuring component (2) is provided on the main body component (1), a driving component (5) is provided on the main body component (1), and the driving component (5) cooperates with the measuring component (2) to lift the measuring component (2). A B marking component (4) is provided on the main body component (1), and an A marking component (3) is provided on the measuring component (2). The main component (1) includes a base (11), an A-moving groove is provided on the base (11), an A-lead rod (13) is provided in the A-moving groove, and a scale shaft (12) is provided on the base (11). The measuring component (2) includes a scale plate (21) which is located directly above the base (11). Both sides of the scale plate (21) are provided with extension members (22). The two extension members (22) are respectively sleeved and threaded to the scale shaft (12) and the A lead screw (13). A rack (25) is provided on the scale plate (21). An indicator (23) is provided on the scale plate (21). A telescopic spring (24) is provided between the surface of the indicator (23) and the inner wall of the scale plate (21). The indicator (23) and the rack (25) are engaged.

2. The integrated wall measurement and marking device according to claim 1, characterized in that: The main component (1) also includes a fixing plate (14), which is disposed on the base (11). A protective cover (15) is disposed on the base (11), and the lead screw (13) rotates through the surface of the protective cover (15).

3. The integrated wall measurement and marking device according to claim 1, characterized in that: The A marking component (3) includes a slider (31), and a B moving groove is provided on the surface of the scale plate (21). The slider (31) is disposed in the B moving groove. A fixed shaft (32) is provided on the slider (31). Two deflecting members (34) are sleeved on the fixed shaft (32). A torsion spring (33) is provided on the fixed shaft (32), and the torsion spring (33) is connected to the two deflecting members (34). Two A clamping members (35) are provided between the two deflecting members (34).

4. The integrated wall measurement and marking device according to claim 3, characterized in that: Both of the deflecting members (34) are provided with extension members (37), both of the A clamping members (35) are provided with threaded members (38), and a B screw (36) is provided between the two extension members (37). Both of the threaded members (38) are threadedly connected to the B screw (36).

5. The integrated wall measurement and marking device according to claim 1, characterized in that: The B marking component (4) includes a collar (41) sleeved on the scale shaft (12). A C screw (42) is provided on the collar (41). Two B clamping parts (43) are threaded on the C screw (42) and the two B clamping parts (43) are symmetrically arranged.

6. The integrated wall measurement and marking device according to claim 2, characterized in that: The drive assembly (5) includes a movable support member (51), which is disposed in a movable groove A. A lead screw (54) is disposed on the fixed plate (14). The movable support member (51) is threaded onto the lead screw (54). A gear (56) is disposed at the end of the lead screw (54). A gear (57) is disposed on the lead screw (13), and the gear (57) and the gear (56) mesh.

7. The integrated wall measurement and marking device according to claim 6, characterized in that: The drive assembly (5) also includes a fixed support member (53), which is disposed on the scale plate (21). The movable support member (51) and the fixed support member (53) are hinged together by a hinge shaft (52). A motor (55) is disposed on the base (11), and the output end of the motor (55) rotates through the surface of the fixed plate (14) and is connected to the D lead screw (54).

8. The integrated wall measurement and marking device according to claim 7, characterized in that: The A gear (56) and B gear (57) are both located inside the protective cover (15), and the movable support member (51) and the fixed support member (53) are arranged obliquely symmetrically.