CN220270465U - Wall body straightness check out test set that hangs down - Google Patents

Abstract

The utility model belongs to the technical field of wall perpendicularity detection equipment, in particular to wall perpendicularity detection equipment, which comprises a bottom plate; the detection rod is provided with a detection device; a small motor is arranged on the end face of the bottom of the inner wall of the lifting cavity; the lifting rod is sleeved outside the section of the screw rod through a screw hole; a telescopic rod is arranged on the end face of the inner wall of the accommodating cavity; the bottom of the connecting wire is connected with a plumb bob; a rotating plate is rotatably arranged in the structural groove through a pin shaft; the plumb bob can pass through the through groove to act; an auxiliary device is arranged on the bottom plate; a convex clamping block is clamped in the convex clamping groove; a fixed groove is formed in the eccentric position of the top of the connecting plate; a laser emitter is arranged in the fixing groove; through the combined action of detection device and auxiliary device, realized the detection effect to higher wall body straightness that hangs down, accomplished the detection effect to wall roughness.

Description

Wall body straightness check out test set that hangs down

Technical Field

The utility model relates to the technical field of wall perpendicularity detection equipment, in particular to wall perpendicularity detection equipment.

Background

In the construction process of the building wall, the perpendicularity of the green wall is required to be detected so as to ensure that the wall meets the construction requirement, and a device used for detecting the perpendicularity is wall perpendicularity detection equipment;

the existing wall perpendicularity detection equipment consists of detection rods, a level device, a connecting wire, a plumb bob and other devices, the plumb bob is discharged by utilizing the connecting wire, the detection rods are clung to a wall surface, and then the distance between the detection rods of the plumb bob and the level device are observed to judge whether the wall is perpendicular or not;

however, when the existing wall perpendicularity detection equipment is in action, only detection points with lower heights can be subjected to detection action, so that errors exist in detected results; therefore, a wall perpendicularity detecting apparatus is proposed for the above-mentioned problems.

Disclosure of Invention

In order to overcome the defects of the prior art and solve the existing problems of the wall perpendicularity detection equipment, the utility model provides the wall perpendicularity detection equipment.

The technical scheme adopted for solving the technical problems is as follows: the utility model relates to wall perpendicularity detection equipment, which comprises a bottom plate; the top of the bottom plate is provided with a mounting groove; a detection rod is fixedly connected in the mounting groove; the detection rod is provided with a detection device; the detection device comprises a lifting cavity; a lifting cavity is formed in the rod body of the detection rod; the top of the lifting cavity is communicated with the outside; a small motor is arranged on the end face of the bottom of the inner wall of the lifting cavity; a screw rod is arranged at the top of an output shaft of the small motor; a lifting rod is sleeved in the lifting cavity; the bottom of the lifting rod is provided with a screw hole; the lifting rod is sleeved outside the section of the screw rod through a screw hole;

a storage cavity is formed in one side surface, close to the top, of the lifting rod, and away from the action surface of the detection rod; a telescopic rod is arranged on the end face of the inner wall of the accommodating cavity; the end part of the telescopic rod is fixedly connected with a paying-off box; a connecting wire is arranged in the paying-off box; the bottom of the connecting wire is connected with a plumb bob; a structural groove is formed in the side surface, far away from the acting surface, of the detection rod; a rotating plate is rotatably arranged in the structural groove through a pin shaft; a through groove is formed in the rotating plate in a penetrating manner; scale marks are carved on the outer side surface of the rotating plate; the plumb bob can pass through the through groove to act; the detection effect on the detection point at the higher position is realized.

Preferably, a positioning block is fixedly connected to one side of the top of the lifting rod; the horizontal plane where the end face of the positioning block is positioned and the acting surface of the detection rod are positioned on the same vertical plane; so that the lifting rod can normally function.

Preferably, the two side surfaces of the rotating plate are provided with the level device; a handle is arranged at an eccentric position on one side surface of the detection rod; the operation of the detection device is convenient.

Preferably, the plumb bob is retractable into a payoff box; a rotating handle is rotatably arranged on the outer side surface of the paying-off box; the rotating handle can control the retraction of the connecting wire; so that the plumb bob can work normally.

Preferably, when the small motor is not in action, the horizontal plane of the bottom end face of the positioning block is higher than the horizontal plane of the top end face of the detection rod, and the bottom end face of the lifting rod is not in contact with the top end face of the small motor; ensure that the lifting rod can normally lift.

Preferably, the bottom plate is provided with an auxiliary device; the auxiliary device comprises a convex clamping groove; a convex clamping groove is formed in one end plate body of the bottom plate far away from the handle; a convex clamping block is clamped in the convex clamping groove; the end part of the convex clamping block is fixedly connected with a connecting plate; a fixed groove is formed in the eccentric position of the top of the connecting plate; a laser emitter is arranged in the fixing groove; the vertical surface of the end face of the action range of the laser transmitter and the action surface of the detection rod are positioned on the same horizontal plane; the flatness of the wall surface is detected.

The utility model has the advantages that:

1. according to the utility model, through the structural design of the detection device, the small motor in the lifting cavity is opened, the screw rod rotates, the lifting rod moves in opposite directions and reaches a specified height under the cooperation of the screw holes, then, acting force is applied to the rotating plate in the structural groove, so that the lifting rod rotates and vertically contacts with the detection rod, acting force is applied to the paying-off box, the paying-off box is pulled out of the accommodating cavity under the cooperation of the telescopic rod, acting force is applied to the rotating handle, so that the plumb bob drives the connecting wire to move downwards and pass through the through groove, then, the detection rod is tightly attached to a wall to be detected by using the handle, the level gauge is observed, and the position of the connecting wire is judged by using the scale marks, so that the detection effect on the perpendicularity of a higher wall is realized, and the measurement error is reduced.

2. According to the utility model, through the structural design of the auxiliary device, an acting force is applied to the connecting plate, the convex clamping block is pushed into the convex clamping groove, then the laser transmitter is arranged in the fixing groove, after the detection rod is clung to the wall body, the laser transmitter is turned on, the extensibility of light on the wall surface is observed, and the detection effect on the flatness of the wall surface is achieved.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions of the prior art, the drawings which are used in the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the description below are only some embodiments of the utility model, and that other drawings can be obtained from these drawings without inventive faculty for a person skilled in the art.

FIG. 1 is a schematic view of an isometric structure;

FIG. 2 is a schematic view of the structure of the parts and components of the detecting device;

FIG. 3 is a schematic structural view of a test lever;

FIG. 4 is an enlarged schematic view of the structure shown at A in FIG. 1;

FIG. 5 is a schematic structural view of a connection plate;

fig. 6 is a schematic structural view of an isometric view.

In the figure: 1. a bottom plate; 2. a mounting groove; 3. a detection rod; 401. a lifting cavity; 402. a small motor; 403. a screw rod; 404. a lifting rod; 405. a positioning block; 406. a screw hole; 407. a storage chamber; 408. a telescopic rod; 409. paying-off box; 410. a connecting wire; 411. a plumb bob; 412. rotating the handle; 413. a structural groove; 414. a rotating plate; 415. a through groove; 416. scale marks; 417. a level; 418. a handle; 501. a convex clamping groove; 502. a convex clamping block; 503. a connecting plate; 504. a fixing groove; 505. a laser emitter; 6. and (5) grinding the sand pad.

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 to 5, a wall perpendicularity detecting apparatus includes a base plate 1; the top of the bottom plate 1 is provided with a mounting groove 2; a detection rod 3 is fixedly connected in the installation groove 2; the detection rod 3 is provided with a detection device; the detection device comprises a lifting cavity 401; a lifting cavity 401 is formed in the rod body of the detection rod 3; the top of the lifting cavity 401 is communicated with the outside; a small motor 402 is arranged on the end surface of the bottom of the inner wall of the lifting cavity 401; a screw rod 403 is arranged at the top of the output shaft of the small motor 402; a lifting rod 404 is sleeved and arranged in the lifting cavity 401; screw holes 406 are formed in the bottom of the lifting rod 404; the lifting rod 404 is sleeved outside the section of the screw rod 403 through a screw hole 406;

a side surface of the lifting rod 404, which is close to the top and far from the action surface of the detection rod 3, is provided with a storage cavity 407; a telescopic rod 408 is arranged on the end surface of the inner wall of the accommodating cavity 407; the end part of the telescopic rod 408 is fixedly connected with a paying-off box 409; the interior of the pay-off box 409 is provided with a connecting wire 410; a plumb 411 is connected to the bottom of the connecting wire 410; the side surface of the detection rod 3, which is far away from the action surface, is provided with a structural groove 413; a rotating plate 414 is rotatably arranged in the structural groove 413 through a pin shaft; the rotating plate 414 is provided with a through groove 415 in a penetrating way; graduation marks 416 are carved on the outer side surface of the rotating plate 414; plumb 411 may act through slot 415; a positioning block 405 is fixedly connected to one side of the top of the lifting rod 404; the horizontal plane of the end face of the positioning block 405 and the acting surface of the detection rod 3 are positioned on the same vertical plane; two sides of the rotating plate 414 are provided with a level 417; a handle 418 is arranged at an eccentric position on one side surface of the detection rod 3; plumb 411 can be received into pay-off box 409; a rotary handle 412 is rotatably mounted on the outer side surface of the pay-off cassette 409; turning the handle 412 can control the retraction of the connecting wire 410; when the small motor 402 is not in operation, the horizontal plane of the bottom end surface of the positioning block 405 is higher than the horizontal plane of the top end surface of the detection rod 3, and the bottom end surface of the lifting rod 404 is not in contact with the top end surface of the small motor 402; during operation, the verticality of the green wall body needs to be detected in the construction process of the building wall body so as to ensure that the wall body meets the construction requirement, a device used in the detection of the verticality is wall body verticality detection equipment, but when the existing wall body verticality detection equipment is in action, only the detection point with lower height can be subjected to detection action, so that the detected result has errors, the detection device is used, the small motor 402 in the lifting cavity 401 is opened according to the height of the detection point, the screw 403 rotates, the lifting rod 404 moves oppositely and reaches the designated height under the cooperation of the screw hole 406, then an acting force is applied to the rotating plate 414 in the structural groove 413, the lifting rod rotates and vertically contacts with the detection rod 3, an acting force is applied to the pay-off box 409, the pay-off box 409 is pulled out from the storage cavity 407 under the cooperation of the telescopic rod 408, the acting force is applied to the rotating handle 411, the wire hammer drives the connecting wire 410 to move downwards and pass through the through groove 415, then the handle 418 is used for tightly attaching the detection rod 3 to the wall body to be detected, the level gauge 417 is observed, and the error is judged by utilizing the position of the connecting wire 416, and the measurement of the vertical error is reduced.

Referring to fig. 1, 3 and 5, an auxiliary device is mounted on a base plate 1; the auxiliary device comprises a convex clamping groove 501; a convex clamping groove 501 is formed in one end plate body of the bottom plate 1 far away from the handle 418; a convex clamping block 502 is clamped in the convex clamping groove 501; the end part of the convex clamping block 502 is fixedly connected with a connecting plate 503; a fixed groove 504 is formed in the eccentric position of the top of the connecting plate 503; a laser emitter 505 is installed inside the fixing groove 504; the vertical surface of the end face of the action range of the laser transmitter 505 and the action surface of the detection rod 3 are positioned on the same horizontal plane; during operation, when the detection device acts on, because the wall has the rugged phenomenon, in order to improve the accuracy of detection result, the usable auxiliary action cooperates, apply effort to connecting plate 503, push into the inside of protruding type draw-in groove 501 with protruding type fixture block 502, afterwards, install laser emitter 505 in the inside of fixed slot 504, after detecting rod 3 hugs closely the wall body, open laser emitter 505, observe the extensibility of light at the wall, accomplished the detection effect to the wall roughness.

Referring to fig. 6, as another embodiment of the present utility model, a sanding pad 6 is provided on the outer surface of the handle 418; during operation, when the acting force is applied to the handle 418, the phenomenon of hand sliding can not occur, so that the detection device can have a more stable operation state.

Working principle: in the construction process of the building wall, the perpendicularity of the green wall is required to be detected so as to ensure that the wall meets the construction requirement, the device used in the detection of verticality is wall verticality detection equipment, but when the existing wall verticality detection equipment is in action, only can detect the detection point with lower height, so that the error exists in the detected result, the detection device is used for detecting, depending on the height of the point to be detected, the small motor 402 inside the lifting chamber 401 is turned on, the screw 403 is rotated, with the screw holes 406 engaged, the lifting bars 404 move toward each other and reach a designated height, and then, a force is applied to the rotating plate 414 inside the structure groove 413, which is rotated and perpendicular to the detection lever 3, a force is applied to the pay-out cassette 409, with the telescopic rod 408 engaged, the payout cassette 409 is pulled out of the housing cavity 407, applying a force to the rotation handle 412, so that the plumb 411 moves the connection wire 410 downward and through the through slot 415, and then, the detection rod 3 is closely attached to the wall to be detected by the handle 418, the level 417 is observed, and the position of the connecting line 410 is judged by using the scale marks 416, so that the detection effect on the perpendicularity of the higher wall body is realized, the measurement error is reduced, and in addition, when the detection device is in operation, because the uneven wall surface exists, in order to improve the accuracy of the detection result, the assistance may be used to cooperate to apply force to the connection plate 503 to push the male clip 502 into the interior of the male clip groove 501, and then the laser transmitter 505 is mounted inside the fixed groove 504, after the detection rod 3 is clung to the wall, the laser emitter 505 is turned on, the extensibility of the light on the wall is observed, and the detection effect on the flatness of the wall is achieved.

In the description of the present specification, the descriptions of the terms "one embodiment," "example," "specific example," and the like, mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present utility model. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing has shown and described the basic principles, principal features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present utility model, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which is defined in the appended claims.

Claims (6)

1. A wall perpendicularity detection device comprises a bottom plate (1); the top of the bottom plate (1) is provided with a mounting groove (2); a detection rod (3) is fixedly connected in the mounting groove (2); a detection device is arranged on the detection rod (3); the method is characterized in that: the detection device comprises a lifting cavity (401); a lifting cavity (401) is formed in the rod body of the detection rod (3); the top of the lifting cavity (401) is communicated with the outside; a small motor (402) is arranged on the end surface of the bottom of the inner wall of the lifting cavity (401); a screw rod (403) is arranged at the top of an output shaft of the small motor (402); a lifting rod (404) is sleeved in the lifting cavity (401); screw holes (406) are formed in the bottoms of the lifting rods (404); the lifting rod (404) is sleeved outside the section of the screw rod (403) through a screw hole (406);

a storage cavity (407) is formed in one side surface of the lifting rod (404) which is close to the top and far away from the acting surface of the detection rod (3); a telescopic rod (408) is arranged on the end surface of the inner wall of the accommodating cavity (407); an paying-off box (409) is fixedly connected to the end part of the telescopic rod (408); a connecting wire (410) is arranged in the paying-off box (409); a plumb bob (411) is connected to the bottom of the connecting wire (410); a structural groove (413) is formed in the side surface, far away from the acting surface, of the detection rod (3); a rotating plate (414) is rotatably arranged in the structural groove (413) through a pin shaft; a through groove (415) is formed in the rotating plate (414) in a penetrating manner; scale marks (416) are carved on the outer side surface of the rotating plate (414); the plumb (411) can act through a through slot (415).

2. The wall perpendicularity detection apparatus according to claim 1, wherein: a positioning block (405) is fixedly connected to one side of the top of the lifting rod (404); the horizontal plane of the end face of the positioning block (405) and the acting surface of the detection rod (3) are positioned on the same vertical plane.

3. The wall perpendicularity detection apparatus according to claim 2, wherein: two sides of the rotating plate (414) are provided with a level (417); a handle (418) is arranged at an eccentric position on one side surface of the detection rod (3).

4. A wall perpendicularity detection apparatus according to claim 3, wherein: the plumb (411) can be retracted into a pay-off box (409); a rotating handle (412) is rotatably arranged on the outer side surface of the paying-off box (409); the rotating handle (412) can control the retraction of the connecting wire (410).

5. The wall perpendicularity detection apparatus according to claim 4, wherein: when the small motor (402) is not in action, the horizontal plane of the bottom end face of the positioning block (405) is higher than the horizontal plane of the top end face of the detection rod (3), and the bottom end face of the lifting rod (404) is not in contact with the top end face of the small motor (402).

6. The wall perpendicularity detection apparatus according to claim 4, wherein: an auxiliary device is arranged on the bottom plate (1); the auxiliary device comprises a convex clamping groove (501); a convex clamping groove (501) is formed in one end plate body of the bottom plate (1) far away from the handle (418); a convex clamping block (502) is clamped in the convex clamping groove (501); the end part of the convex clamping block (502) is fixedly connected with a connecting plate (503); a fixed groove (504) is formed in the top eccentric position of the connecting plate (503); a laser emitter (505) is arranged in the fixing groove (504); the vertical surface of the end face of the action range of the laser transmitter (505) and the action surface of the detection rod (3) are positioned on the same horizontal plane.