CN217210775U - Building surface flatness detection equipment - Google Patents

Abstract

The utility model belongs to the technical field of building surface roughness detects technique and specifically relates to a building surface roughness check out test set is related to, the on-line screen storage device comprises a base, be provided with rolling subassembly and determine module under the base, determine module is including the connecting plate that detects the piece and be connected with the base, the detection piece sets up to a plurality of and slides on the connecting plate, and is adjacent be provided with on the detection piece and connect the rope, it is provided with a plurality of sound pieces to connect on the rope. This application is convenient for improve concrete surface smoothness's detection efficiency.

Description

Building surface flatness detection equipment

Technical Field

The application relates to building surface flatness detection technical field, especially relates to a building surface flatness check out test set.

Background

With the high-speed development of the economy of China, the construction of high-grade roads is in the spotlight. The asphalt concrete pavement has the advantages of low manufacturing cost, comfortable driving, convenient repair, low noise and the like, and is widely applied to the construction of high-grade roads at present. The flatness of the asphalt concrete pavement directly affects the use quality of the pavement and the driving comfort, so the detection of the flatness of the concrete pavement is more important.

The existing detection assembly infers the uneven surface by observing the change of the graduated scale in the detection process, and the detection efficiency is low.

SUMMERY OF THE UTILITY MODEL

In order to improve the detection efficiency to concrete surface smoothness, this application provides a building surface smoothness check out test set.

The application provides a building surface roughness check out test set adopts following technical scheme:

the utility model provides a building surface roughness check out test set, includes the base, be provided with roll subassembly and determine module under the base, determine module is including the connecting plate that detects the piece and be connected with the base, it sets up to a plurality ofly and slides on the connecting plate to detect the piece, and is adjacent be provided with on the detection piece and connect the rope, it is provided with a plurality of sound pieces on the rope to connect.

Through adopting above-mentioned technical scheme, the rolling subassembly drives the base and removes on the concrete surface, the detection area of detecting element can be increased in the setting of a plurality of detecting parts, and then improve the detection efficiency that detects concrete surface roughness, the detecting part can remove on the concrete surface, when the condition of unevenness appears in the concrete surface, the detecting part can reciprocate on the connecting plate, thereby make two adjacent detecting parts be in different heights, and then make a plurality of sound spare on the connecting rope sound, remind staff's concrete surface unevenness, and then improve concrete surface roughness's detection efficiency.

Preferably, the detection part comprises a detection part and a sliding block connected with the connecting plate in a sliding manner, the detection part is fixedly connected with the sliding block, and two ends of the connecting rope are fixedly connected with two adjacent sliding blocks.

Through adopting above-mentioned technical scheme, the detection part removes at the concrete surface, and when the unevenness appeared in the concrete surface, the detection part reciprocated, and then driven the slider and reciprocated, two adjacent slider height nonconformities to make connect the state that the rope is in the slope, and then make to connect the sound spare sound on the rope.

Preferably, the connecting plate is provided with a plurality of sliding grooves matched with the sliding blocks, and the sliding grooves correspond to the sliding blocks.

Through adopting above-mentioned technical scheme, the setting up of spout makes the slider can slide along vertical direction on the connecting plate to further improve the detection efficiency of concrete surface smoothness.

Preferably, the two ends of the sliding block are provided with sliding parts, the sliding parts are connected with the connecting plate in a sliding mode and fixedly connected with the sliding block, sliding grooves matched with the sliding parts are formed in the connecting plate, and the sliding grooves are not communicated in the height direction of the connecting plate.

Through adopting above-mentioned technical scheme, the setting of slider is used for driving the slider and removes along vertical direction in the spout to reduce the slider and appear the deviation at the removal in-process, thereby influence the accuracy that the roughness detected, the sliding tray does not communicate, thereby reduces the condition of slider follow roll-off in the sliding tray.

Preferably, each slider is kept away from one end of connecting rope and all is provided with the marker pen, the marker pen is connected with the slider and can mark at the connecting plate side.

Through adopting above-mentioned technical scheme, the setting of marker pen is convenient for more audio-visual the slip condition of seeing the slider, and the marker pen marks on the connecting plate side to can judge the level and smooth condition on concrete surface according to the lines on the connecting plate.

Preferably, a connecting part is arranged between the marking pen and the sliding block, one end of the connecting part is fixedly connected with the sliding block, and the other end of the connecting part is detachably connected with the marking pen.

Through adopting above-mentioned technical scheme, the setting of connecting portion is convenient for install the marker pen on the slider to make the marker pen slide on the connecting plate along with the removal of slider, thereby more audio-visual observation concrete surface's level and smooth condition, the marker pen can be dismantled with connecting portion and be connected, is convenient for change when the marker pen damages.

Preferably, the marking pen is inserted into the connecting part.

Through adopting above-mentioned technical scheme, the marker pen plug-in is in connecting portion, is convenient for install the marker pen on connecting portion or pull down from connecting portion, is convenient for further change the marker pen.

Preferably, one side of the connecting plate, which is close to the marking pen, is provided with a drawing board, the drawing board is fixedly connected with the connecting plate, and the drawing board is used for marking by the marking pen.

Through adopting above-mentioned technical scheme, the setting of drawing board is convenient for the marker pen mark concrete's the level and smooth condition to more audio-visual the level and smooth condition of seeing concrete surface improves the degree of accuracy that concrete surface smoothness detected.

Preferably, one end of the detection part is rotatably provided with a rolling ball, and the center of the rolling ball is positioned in the detection part.

Through adopting above-mentioned technical scheme, set up the spin in the detection part, the spin can roll on the concrete surface to reduce detection part and concrete surface direct contact, cause the damage to the concrete surface.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an embodiment of the present application;

FIG. 2 is a schematic structural diagram of a detection assembly according to an embodiment of the present application;

FIG. 3 is a schematic structural diagram of a detecting member according to an embodiment of the present application;

FIG. 4 is a schematic connection diagram of a connection plate and a slider according to an embodiment of the present application.

Description of reference numerals: 1. a pushing assembly; 11. a pushing handle; 12. a base; 2. a rolling component; 21. a rolling member; 22. a connecting rod; 221. an inner rod; 222. an outer tube; 223. a fixing rod; 3. a detection component; 31. a detection member; 311. a detection unit; 312. rolling a ball; 32. a connecting plate; 321. a drawing board; 33. a chute; 34. a slider; 341. a sliding groove; 342. a slider; 343. a marking pen; 344. a connecting portion; 35. connecting ropes; 36. a sound piece.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses building surface flatness detection equipment.

Referring to fig. 1, an architectural surface flatness detection equipment, including promoting subassembly 1, promote subassembly 1 including base 12 and with base 12 fixed connection's pushing hands 11, be provided with under base 12 and drive rolling subassembly 2 that base 12 removed and be used for detecting concrete surface flatness's determine module 3, pushing hands 11 pushes base 12 under rolling subassembly 2's effect and removes at the concrete surface to make determine module 3 detect concrete surface's roughness.

Referring to fig. 1, one side of the pushing handle 11 close to the base 12 is welded to the upper surface of the base 12, the pushing handle 11 is a U-shaped plate with an opening facing the direction of the base 12, and one end of the pushing handle 11 away from the base 12 is inclined towards the ground.

Referring to fig. 1 and 2, the detecting assembly 3 includes a detecting member 31 and a connecting plate 32 connected to the base 12, the cross section of the connecting plate 32 is rectangular, the connecting plate 32 defines a width direction along a moving direction of the base 12, the connecting plate 32 is fixedly connected to the base 12 by bolts, at least two detecting members 31 are provided, the detecting member 31 moves up and down relative to the height direction of the connecting plate 32, the detecting member 31 includes a detecting portion 311 and a slider 34, the cross section of the slider 34 is rectangular, the detecting portion 311 is cylindrical, the diameter of the detecting portion 311 is smaller than the length of the slider 34 along the length direction of the connecting plate 32, the sliders 34 are arranged along the width direction of the connecting plate 32, the detecting portion 311 is used for abutting against the surface of concrete, the connecting plate 32 is provided with a plurality of sliding grooves 33 along the height direction, the sliding grooves 33 are provided and correspond to the detecting members 31 one by one, adjacent sliding grooves 33 are not communicated, the slider 34 is located between the detecting portion 311 and the connecting plate 32 and is matched with the sliding grooves 33, the sliders 34 are welded to one side of the detection portion 311, which is far away from the ground, one side of the sliders 34, which is close to the push handle 11, extends out of the sliding groove 33, a connecting rope 35 is arranged between the adjacent sliders 34, each connecting rope 35 is at the same height, two ends of the connecting rope 35 are welded to the two sliders 34, the connecting rope 35 has elasticity, the connecting rope 35 is a rubber band in the embodiment, at least two sound pieces 36 are arranged on the connecting rope 35, the sound pieces 36 are arranged on the connecting rope 35 in a penetrating manner, and the sound pieces 36 in the embodiment are bells.

Referring to fig. 2 and 3, two sides of each slider 34 along the length direction of the connecting plate 32 are provided with two sliding members 342, the sliding members 342 are welded to the sliders 34, the two groups of sliding members 342 are arranged on two sides of the connecting plate 32 along the width direction, the two groups of sliding members 342 are arranged in two, the two sliding members 342 are symmetrically arranged on two sides of each slider 34, referring to fig. 4, the connecting plate 32 is provided with sliding grooves 341 which are matched with the sliding members 342, the sliding grooves 341 are not communicated along the height direction of the connecting plate 32, and the sliding grooves 341 are communicated with the sliding grooves 33.

Referring to fig. 2, in order to reduce the influence of detection unit 311 on the concrete surface, detection unit 311 is provided with a rolling ball 312 on the side close to the concrete surface, rolling ball 312 is rotatably connected to detection unit 311, and the center of ball 312 is located inside detection unit 311.

Referring to fig. 3 and 4, in order to further enhance the detection accuracy of the detection assembly 3, a marking pen 343 is disposed on one side of each slider 34 away from the connecting rope 35, a connecting portion 344 is disposed between the marking pen 343 and the slider 34, the connecting portion 344 is U-shaped, one end of the connecting portion 344 is welded to the slider 34, the other end of the connecting portion 344 is plugged into the marking pen 343, a drawing board 321 with the same length as the connecting board 32 is disposed on one side of the connecting board 32 close to the marking pen 343, the drawing board 321 is welded to the connecting board 32, and the marking pen 343 is abutted to the drawing board 321.

During the detection, the bottom of the detection portion 311 is abutted to the concrete surface, the sliding member 342 can move up and down in the sliding groove 341, and when the concrete surface is uneven, the sliding blocks 34 move up and down along the detection portion 311, so that the height difference between the two adjacent sliding blocks 34 occurs, and the sound piece 36 on the connecting rope 35 makes a sound.

Referring to fig. 1, the rolling assembly 2 includes a plurality of rolling members 21, the rolling members 21 of this embodiment are universal wheels with brakes, and the number of the rolling members 21 of this embodiment is four, and the rolling members are distributed at four corners of the base 12 and connected to the base 12.

Referring to fig. 1, in order to adjust the height of the base 12, a connecting rod 22 is disposed between the base 12 and each rolling member 21, two ends of the connecting rod 22 are connected to the base 12 and the rolling members 21, the connecting rod 22 includes an inner rod 221 and an outer tube 222, the inner rod 221 is inserted into the outer tube 222 and slidably connected to the outer tube 222, the inner rod 221 and the outer tube 222 are connected by bolts, one end of the inner rod 221 is welded to the rolling members 21, and one end of the outer tube 222 is welded to the base 12. In order to facilitate the base 12 to be in a horizontal state in the lifting process, fixing rods 223 are arranged between the adjacent inner rods 221, two ends of each fixing rod 223 are welded with the two adjacent inner rods 221, and the height of each fixing rod 223 is completely the same.

The implementation principle of the building surface flatness detection equipment in the embodiment of the application is as follows: the pushing handle 11 pushes the base 12 to move along the concrete surface to be detected under the action of the rolling assembly 2, the detection part 311 moves on the concrete surface, when the concrete surface is uneven, the sliding block 34 moves up and down, so that the sound piece 36 on the connecting rope 35 makes a sound, and meanwhile, the marking pen 343 draws up and down marking lines on the drawing board 321, so that the condition that the concrete surface is uneven is detected.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (9)

1. The utility model provides a building surface roughness check out test set which characterized in that: including base (12), be provided with under base (12) and roll subassembly (2) and determine module (3), determine module (3) including detect piece (31) and connecting plate (32) be connected with base (12), detect piece (31) set up to a plurality of and slide on connecting plate (32), and be adjacent be provided with on detecting piece (31) and connect rope (35), be provided with a plurality of sound spare (36) on connecting rope (35).

2. An architectural surface flatness detection apparatus according to claim 1, wherein: the detection piece (31) comprises a detection part (311) and a sliding block (34) which is connected with the connecting plate (32) in a sliding mode, the detection part (311) is fixedly connected with the sliding block (34), and two ends of the connecting rope (35) are fixedly connected with the two adjacent sliding blocks (34).

3. An architectural surface flatness detection apparatus according to claim 2, wherein: a plurality of sliding grooves (33) matched with the sliding blocks (34) are formed in the connecting plate (32), and the sliding grooves (33) correspond to the sliding blocks (34) mutually.

4. An architectural surface flatness detection apparatus according to claim 3, wherein: sliding parts (342) are arranged at two ends of the sliding block (34), the sliding parts (342) are connected with the connecting plate (32) in a sliding mode and fixedly connected with the sliding block (34), sliding grooves (341) matched with the sliding parts (342) are formed in the connecting plate (32), and the sliding grooves (341) are not communicated in the height direction of the connecting plate (32).

5. The building surface flatness detecting apparatus according to claim 2, wherein: each slider (34) is far away from one end of the connecting rope (35) and is provided with a marking pen (343), and the marking pen (343) is connected with the slider (34) and can mark on the side face of the connecting plate (32).

6. An architectural surface flatness detection apparatus according to claim 5, wherein: a connecting part (344) is arranged between the marking pen (343) and the sliding block (34), one end of the connecting part (344) is fixedly connected with the sliding block (34), and the other end of the connecting part is detachably connected with the marking pen (343).

7. An architectural surface flatness detection apparatus according to claim 6, wherein: the marking pen (343) is inserted into the connecting part (344).

8. An architectural surface flatness detection apparatus according to claim 7, wherein: a drawing board (321) is arranged on one side, close to the marking pen (343), of the connecting board (32), the drawing board (321) is fixedly connected with the connecting board (32), and the drawing board (321) is used for marking by the marking pen (343).

9. An architectural surface flatness detection apparatus according to claim 2, wherein: one end of the detection part (311) is rotatably provided with a rolling ball (312), and the center of the rolling ball (312) is positioned in the detection part (311).

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