CN219694167U - Wall body straightness detection device that hangs down - Google Patents

Abstract

The utility model relates to a verticality detection device, in particular to a wall verticality detection device which comprises a lifting assembly, a first detection assembly and a second detection assembly, wherein the lifting assembly comprises a supporting tube, a first lifting tube and a second lifting tube, the first lifting tube is slidably inserted into the top end of the supporting tube, the second lifting tube is positioned at the top end of the first lifting tube, the first detection assembly comprises a square tube, a sliding tube and a first laser lamp, the sliding tube is slidably inserted into the square tube, limiting plates are fixed on the outer part and one end of the sliding tube, a buffer spring is arranged between the limiting plates and the square tube, a fixing frame is fixed on the other end of the sliding tube, a movable wheel is rotated in the fixing frame, one side of one limiting plate is fixed with a guide plate, a through hole is formed in the top of the guide plate, and the second detection assembly comprises a fixing tube and a second laser lamp. The utility model can contact each position of the wall body, improves the accuracy of measurement, and is convenient for measuring the verticality of the wall bodies with different heights for detection.

Description

Wall body straightness detection device that hangs down

Technical Field

The utility model relates to a verticality detection device, in particular to a wall verticality detection device, and belongs to the technical field of constructional engineering.

Background

The verticality measurement is to indicate that the measured element on the part keeps a correct 90-degree included angle relative to the reference element. That is, the degree to which the two elements are normally kept orthogonal, the perpendicularity is a positional tolerance, and the perpendicularity tolerance is: the actual direction of the element to be measured is the maximum allowable variation between ideal directions perpendicular to the reference. That is, the design is provided to limit the deviation of the measured actual element from the vertical direction, and the maximum allowable variation range is whether the wall body verticality is acceptable, so that a verticality detection device is required.

The Chinese patent number CN217845176U provides a wall perpendicularity detection device, which comprises a detection device body, wherein the detection device body comprises a wall-attached plate and a horizontal seat, the horizontal seat is rotationally connected with the wall-attached plate, a screw mounting plate is arranged on one surface, close to the horizontal seat, of the wall-attached plate, a screw is arranged on the screw mounting plate, and an adjusting nut is arranged on the screw; the upper surface outside of horizontal seat is provided with first recess, is provided with the spirit level in the first recess, and the upper surface inboard of horizontal seat is provided with the second recess, is provided with the spirit level in the second recess, and the side of horizontal seat is provided with the angle measurement board, and the other end of angle measurement board is connected with the side of pasting the wallboard, is provided with the angle scale on the angle measurement board. The wall perpendicularity detection device adopting the structure is convenient to measure, improves measurement accuracy, is convenient to carry, is convenient to temporarily store, and is simple in structure.

However, although the above-mentioned middle case is convenient to measure, portable, convenient to temporarily deposit, simple structure, but can only contact the protrusion position of wall, lead to measuring inaccuracy easily, be inconvenient for measuring the wall straightness that hangs down of different height simultaneously and detect.

The present utility model has been made in view of this.

Disclosure of Invention

The utility model aims to solve the problems and provide a wall perpendicularity detection device.

The utility model realizes the purpose through the following technical scheme that the wall perpendicularity detection device comprises a lifting assembly, a first detection assembly and a second detection assembly, wherein the lifting assembly comprises a supporting tube, a first lifting tube and a second lifting tube, the first lifting tube is in sliding connection with the inside of the top end of the supporting tube, the first lifting tube is positioned at the top end of the first lifting tube, the first detection assembly comprises a square tube, a sliding tube and a first laser lamp, the sliding tube penetrates through the square tube in a sliding manner, limiting plates are fixed on the outside and one end of the sliding tube, a buffer spring is arranged between the limiting plates and the square tube, a fixing frame is fixed on the other end of the sliding tube, a moving wheel is rotated in the fixing frame, one side of the limiting plates is fixed with a guide plate, a through hole is formed in the top of the guide plate, the second detection assembly comprises a fixed tube and a second laser lamp, one end of the fixed tube is in sliding connection with a sliding rod, and the second laser lamp is embedded and installed on the top of the moving block.

Further, the internally mounted of stay tube has the baffle, motor one is installed to the bottom of baffle, motor one's output is fixed with screw rod one, screw rod one thread runs through in the bottom of lifter one, the bottom of lifter one is opened there is guiding hole one, the top of baffle is fixed with guiding rod one, guiding rod one is pegged graft in guiding hole one's inside in the slip.

Further, the internally mounted of lifter second has motor second, the output shaft of motor second is fixed with screw rod second, screw rod second screw thread runs through the top of lifter first, the bottom of lifter second is fixed with guide bar second, open at the top of lifter first has guiding hole second, guide bar second slip grafting is in guiding hole second.

Furthermore, a first fixing ring is arranged on one side of the square pipe, and a first fastening bolt is arranged on one side of the first fixing ring in a threaded manner.

Further, the other end of the fixed pipe is fixed with a second fixed ring, and a second fastening bolt is arranged on one side of the second fixed ring in a threaded manner.

Further, the bottom of stay tube is installed and is removed the subassembly, remove the subassembly and include base and mounting panel, first laser lamp is installed on the base, the base is installed in the bottom of stay tube, the universal wheel is installed to the bottom of mounting panel.

Further, the spirit level is installed in the top embedding of base, the mounting panel is installed in the both sides of base, the top screw thread of mounting panel runs through there is the bracing piece.

Further, install power supply unit in the base, power supply unit includes battery and interface that charges, the inside at the base is installed to the battery, the interface embedding that charges is installed in one side of base.

The utility model has the technical effects and advantages that: (1) Through the detection assembly, the movable wheel in the detection assembly I contacts the wall surface, the sliding tube slides in the square tube, and meanwhile, the buffer spring is adopted to enable the movable wheel to always contact the wall surface, so that each position of the wall surface can be contacted, whether the wall surface is smooth or not can be detected by adopting the laser lamp I matched with the guide plate and the through hole, the measurement accuracy is improved, meanwhile, the sliding rod in the detection assembly II slides in the fixed tube, the position of the laser lamp II is convenient to adjust, the laser lamp II is close to the wall surface, and whether the wall surface is vertical or not can be detected by the laser lamp II; (2) Through the lifting assembly, a motor I in the lifting assembly drives a screw rod I to rotate on a lifting pipe I, the screw rod I can be driven by one rotation of the screw rod, a motor II drives a screw rod II to rotate and thread through the top end of the lifting pipe I, and the screw rod II rotates to drive the lifting pipe II to lift, so that a detection assembly I on one side of the lifting pipe I lifts, and the wall perpendicularity of different heights can be conveniently measured to detect; (3) Through the moving assembly and the power supply assembly that set up, universal wheel convenient to use person removes detection device in the adoption moving assembly, the bracing piece screw thread that adopts simultaneously runs through on the mounting panel, and the bracing piece not only can support the base, and the cooperation spirit level can be adjusted simultaneously and is supported whether the base is horizontal, and the battery in the power supply assembly can supply power to wall body straightness detection device.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic diagram of a power supply assembly according to the present utility model;

FIG. 3 is a schematic view of a lifting assembly according to the present utility model;

FIG. 4 is a schematic diagram of a detecting assembly according to the present utility model;

fig. 5 is a schematic structural diagram of a detection component of the present utility model.

In the figure: 100. a lifting assembly; 101. a support tube; 102. a lifting pipe I; 103. a lifting pipe II; 104. a partition plate; 105. a first motor; 106. a first screw; 107. a first guide hole; 108. a first guide rod; 109. a second motor; 110. a second screw; 111. a second guide hole; 112. a second guide rod; 200. detecting a first component; 201. square tube; 202. a sliding tube; 203. a limiting plate; 204. a buffer spring; 205. a fixing frame; 206. a moving wheel; 207. a guide plate; 208. a through hole; 209. a first laser lamp; 210. a first fixed ring; 211. fastening a first bolt; 300. a second detection component; 301. a second fixing ring; 302. fastening a second bolt; 303. a fixed tube; 304. a slide bar; 305. a moving block; 306. a second laser lamp; 400. a moving assembly; 401. a base; 402. a universal wheel; 403. a mounting plate; 404. a support rod; 405. a level gauge; 500. a power supply assembly; 501. a storage battery; 502. and a charging interface.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-5, a wall perpendicularity detecting device includes a lifting assembly 100, a first detecting assembly 200 and a second detecting assembly 300, wherein the first detecting assembly 200 includes a square tube 201, a sliding tube 202 and a first laser lamp 209, the first laser lamp 209 cooperates with a guide plate 207 and a through hole 208 to detect whether a wall surface is flat or not, measurement accuracy is improved, the sliding tube 202 slides through the square tube 201, a limit plate 203 is fixed on the outer portion and one end of the sliding tube 202, a buffer spring 204 is arranged between the limit plate 203 and the square tube 201, the buffer spring 204 is adopted to enable a movable wheel 206 to always contact the wall surface, a fixing frame 205 is fixed on the other end of the sliding tube 202, the movable wheel 206 is rotated in the fixing frame 205, one side of one limit plate 203 is fixed with a guide plate 207, a through hole 208 is formed in the top of the guide plate 207, a fixed ring 210 is mounted on one side of the square tube 201, a fastening bolt 211 is mounted on one side of the fixed ring 210, and the fastening bolt 211 can fix the fixed ring 210 on a specified pipeline;

the detection assembly II 300 comprises a fixed pipe 303 and a laser lamp II 306, one end of the fixed pipe 303 is connected with a sliding rod 304 in a sliding mode, the sliding rod 304 slides in the fixed pipe 303, the position of the laser lamp II 306 is convenient to adjust, a moving block 305 is fixed at one end of the sliding rod 304, the laser lamp II 306 is embedded and installed at the top of the moving block 305, the laser lamp II 306 is close to a wall surface, whether the wall surface is vertical or not can be detected through the laser lamp II 306, a fixed ring II 301 is fixed at the other end of the fixed pipe 303, a fastening bolt II 302 is installed on one side of the fixed ring II 301 in a threaded mode, and the fixed ring II 301 can be fixed to a specified pipeline through the fastening bolt II 302.

As a technical optimization scheme of the utility model, the lifting assembly 100 comprises a supporting tube 101, a lifting tube I102 and a lifting tube II 103, the lifting tube I102 is slidably inserted into the top end of the supporting tube 101, the lifting tube II 103 is positioned at the top end of the lifting tube I102, a partition 104 is arranged in the supporting tube 101, a motor I105 is arranged at the bottom of the partition 104, the motor I105 drives a screw II 106 to rotate on the lifting tube I102 in a threaded manner, the output end of the motor I105 is fixedly provided with a screw I106, the screw I106 can drive the lifting tube I102 in a rotating manner, the screw I106 is threaded to penetrate through the bottom end of the lifting tube I102, the bottom end of the lifting tube I102 is provided with a guide hole I107, the top of the partition 104 is fixedly provided with a guide rod I108, the guide rod I108 is slidably inserted into the guide hole I107, a motor II 109 is arranged in the lifting tube II 103, a motor II 109 drives a screw II 110 to rotate and penetrates through the top end of the lifting tube I102, an output shaft of the motor II 109 is fixedly provided with a screw II 110, the screw II 110 rotates to drive the lifting tube II 103 to lift, and accordingly the detection assembly 200 at one side of the lifting tube I102 is lifted, the lifting tube II is convenient to measure the height and is convenient to detect the height and different from the top end of the lifting tube I102, the guide hole II is fixedly inserted into the guide hole II 111, and the guide rod II is inserted into the guide hole II 111.

As a technical optimization scheme of the utility model, a moving assembly 400 is arranged at the bottom of a supporting tube 101, the moving assembly 400 comprises a base 401 and a mounting plate 403, a first laser lamp 209 is arranged on the base 401, the base 401 is arranged at the bottom of the supporting tube 101, a universal wheel 402 is arranged at the bottom of the mounting plate 403, the universal wheel 402 is convenient for a user to move a detection device, a level meter 405 is embedded and arranged at the top of the base 401, the mounting plate 403 is arranged at two sides of the base 401, supporting rods 404 penetrate through the top threads of the mounting plate 403, and the supporting rods 404 not only can support the base 401, but also can adjust whether the base 401 is supported horizontally by matching with the level meter 405.

As a technical optimization scheme of the utility model, a power supply assembly 500 is arranged in the base 401, the power supply assembly 500 comprises a storage battery 501 and a charging interface 502, the storage battery 501 is arranged in the base 401, the storage battery 501 can supply power to the wall perpendicularity detection device, and the charging interface 502 is embedded and arranged on one side of the base 401.

When the wall perpendicularity detection device is used, the base 401 of the wall perpendicularity detection device is moved to a designated position through the universal wheel 402, the support rod 404 is penetrated through the mounting plate 403, the support rod 404 is used for supporting the base 401, the level gauge 405 is matched for adjusting whether the base 401 is supported horizontally, the movable wheel 206 is contacted with a wall surface, the motor I105 is started, the motor I105 drives the screw I106 to rotate on the lifting tube I102, the screw I106 rotates to drive the lifting tube I102, the motor II 109 drives the screw II 110 to rotate to penetrate through the top end of the lifting tube I102, the screw II 110 rotates to drive the lifting tube II 103 to lift, the detection component I200 at one side of the lifting tube I102 is convenient for measuring wall perpendicularity of different heights to detect, the movable wheel 206 is always contacted with the wall surface by adopting the buffer spring 204, because the movable wheel 206 contacts the wall surface, each position of the wall body can be contacted, the sliding tube 202 slides in the square tube 201, whether the wall surface is smooth or not can be detected by adopting the first laser lamp 209 matched with the guide plate 207 and the through holes 208, when the first laser lamp 209 respectively passes through the two through holes 208 at the same time, the wall surface is vertical, when only one through hole 208 passes through laser, if the left through hole 208 passes through lamplight, the position of the wall surface is concave, and if the right through hole 208 passes through lamplight, the position of the wall surface is convex, so that the measurement accuracy is improved, the second detection component 300 can also be adopted, and the sliding rod 304 slides in the fixed tube 303, so that the position of the second laser lamp 306 is convenient to adjust, the second laser lamp 306 is close to the wall surface, and whether the wall surface is vertical can be detected by the second laser lamp 306.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present utility model may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims (8)

1. The utility model provides a wall body straightness detection device that hangs down, includes lifting unit (100), detection subassembly one (200) and detection subassembly two (300), its characterized in that: the lifting assembly (100) comprises a supporting tube (101), a lifting tube I (102) and a lifting tube II (103), the lifting tube I (102) is connected inside the top end of the supporting tube (101) in a sliding mode, the lifting tube II (103) is located at the top end of the lifting tube I (102), the detection assembly I (200) comprises a square tube (201), a sliding tube (202) and a laser lamp I (209), the sliding tube (202) is connected in the square tube (201) in a sliding mode, limiting plates (203) are fixed on the outer portion and one end of the sliding tube (202), a buffer spring (204) is arranged between the limiting plates (203) and the square tube (201), a fixing frame (205) is fixed on the other end of the sliding tube (202), a movable wheel (206) is arranged in the inner portion of the fixing frame (205) in a rotating mode, a guide plate (207) is fixed on one side of the limiting plates (203), a through hole (208) is formed in the top of the guide plate (207), the detection assembly II (300) comprises a fixing tube (303) and a laser lamp II (306), one end (304) of the sliding rod (305) is connected with one end of the fixing rod (305), the second laser lamp (306) is embedded and installed on the top of the moving block (305).

2. The wall perpendicularity detection device according to claim 1, wherein: the inside internally mounted of stay tube (101) has baffle (104), motor (105) are installed to the bottom of baffle (104), the output of motor (105) is fixed with screw rod (106) one, screw rod (106) screw thread runs through in the bottom of riser one (102), open in the bottom of riser one (102) has guiding hole one (107), the top of baffle (104) is fixed with guiding rod one (108), guiding rod one (108) slip grafting is in the inside of guiding hole one (107).

3. The wall perpendicularity detection device according to claim 1, wherein: the inside mounting of lifter second (103) has motor second (109), the output shaft of motor second (109) is fixed with screw rod second (110), screw rod second (110) screw thread runs through the top of lifter first (102), the bottom of lifter second (103) is fixed with guide bar second (112), open at the top of lifter first (102) has guide hole second (111), guide bar second (112) slip grafting is in guide hole second (111).

4. The wall perpendicularity detection device according to claim 1, wherein: one side of the square pipe (201) is provided with a first fixing ring (210), and one side of the first fixing ring (210) is provided with a first fastening bolt (211) in a threaded manner.

5. The wall perpendicularity detection device according to claim 1, wherein: the other end of the fixed pipe (303) is fixed with a second fixed ring (301), and a second fastening bolt (302) is arranged on one side of the second fixed ring (301) in a threaded manner.

6. The wall perpendicularity detection device according to claim 1, wherein: the bottom of stay tube (101) is installed and is removed subassembly (400), remove subassembly (400) include base (401) and mounting panel (403), laser lamp one (209) are installed on base (401), base (401) are installed in the bottom of stay tube (101), universal wheel (402) are installed to the bottom of mounting panel (403).

7. The wall perpendicularity detection apparatus according to claim 6, wherein: the top embedding of base (401) is installed level (405), mounting panel (403) are installed in the both sides of base (401), the top screw thread of mounting panel (403) is run through and is had bracing piece (404).

8. The wall perpendicularity detection apparatus according to claim 6, wherein: install power supply module (500) in base (401), power supply module (500) include battery (501) and charging interface (502), the inside at base (401) is installed in battery (501), charging interface (502) embedding is installed in one side of base (401).