阅读说明：本技术 一种建筑布线落地检测系统 (Building wiring falls to ground detecting system ) 是由 不公告发明人 于 2021-09-06 设计创作，主要内容包括：本发明涉及一种建筑布线落地检测系统,包括架设在地面上的横移架,横移架沿着水管的走向设于水管上方,横移架的一端设有第一活动支架,第一活动支架的底部设有固定座,固定座位于水管的拐弯处,固定座相对水管固定,第一活动支架和固定座通过转轴连接,横移架的另一端设有第二活动支架,第二活动支架的底部设有滚轮,滚轮在铺设在地面上的标识板上活动,标识板相对水管固定,标识板上设有沿着滚轮的活动轨迹的刻度标识,横移架上还设有可以横向移动的基座,基座上设有向下伸出的电动缸,电动缸的活动端设有夹爪滑块,夹爪滑块的一侧固定有第一夹爪,夹爪滑块的另一侧设有可活动的第二夹爪。(The invention relates to a floor detection system for building wiring, which comprises a transverse moving frame erected on the ground, wherein the transverse moving frame is arranged above a water pipe along the trend of the water pipe, one end of the transverse moving frame is provided with a first movable support, the bottom of the first movable support is provided with a fixed seat, the fixed seat is positioned at the corner of the water pipe and is fixed relative to the water pipe, the first movable support is connected with the fixed seat through a rotating shaft, the other end of the transverse moving frame is provided with a second movable support, the bottom of the second movable support is provided with a roller, the roller moves on a mark plate laid on the ground, the mark plate is fixed relative to the water pipe, the mark plate is provided with a scale mark along the moving track of the roller, the transverse moving frame is also provided with a base capable of moving transversely, the base is provided with an electric cylinder extending downwards, the movable end of the electric cylinder is provided with a clamping jaw sliding block, one side of the clamping jaw sliding block is fixedly provided with a first clamping jaw, and the other side of the clamping jaw sliding block is provided with a movable second clamping jaw.)

1. The utility model provides a building wiring falls to ground detecting system which characterized in that, is including setting up sideslip frame (1) on ground (8), water pipe (2) top is located along the trend of water pipe (2) in sideslip frame (1).

2. The building wiring floor detection system according to claim 1, wherein a first movable support (3) is arranged at one end of the traverse frame (1), a fixed seat (4) is arranged at the bottom of the first movable support (3), the fixed seat (4) is positioned at a corner of the water pipe (2), the fixed seat (4) is fixed relative to the water pipe (2), the first movable support (3) is connected with the fixed seat (4) through a rotating shaft (5), a second movable support (6) is arranged at the other end of the traverse frame (1), a roller (7) is arranged at the bottom of the second movable support (6), the roller (7) moves on a mark plate (9) laid on the ground (8), the mark plate (9) is fixed relative to the water pipe (2), a scale mark (10) along the moving track of the roller (7) is arranged on the mark plate (9), the transverse moving frame (1) is further provided with a base (11) capable of moving transversely, the base (11) is provided with an electric cylinder (12) extending downwards, a clamping jaw sliding block (13) is arranged at the movable end of the electric cylinder (12), a first clamping jaw (14) is fixed at one side of the clamping jaw sliding block (13), a movable second clamping jaw (15) is arranged at the other side of the clamping jaw sliding block (13), a spring (16) for clamping the first clamping jaw (14) and the second clamping jaw (15) is arranged between the first clamping jaw (14) and the second clamping jaw (15), semicircular clamping grooves (17) are formed in the first clamping jaw (14) and the second clamping jaw (15), and one end of the transverse moving frame (1) is further provided with a motor (18) for driving the base (11) to move transversely; the fixed seat (4) is fixed at a corner of the water pipe (2), the electric cylinder (12) extends downwards to enable the first clamping jaw (14) and the second clamping jaw (15) to clamp the water pipe (2), and the motor (18) drives the base (11) to transversely move so that the first clamping jaw (14) and the second clamping jaw (15) transversely move along the water pipe (2); when the water pipes (2) connected at the corners are not vertical, the first movable bracket (3) rotates around the rotating shaft (5) during the transverse movement of the first clamping jaw (14) and the second clamping jaw (15), and the roller (7) generates circumferential displacement around the rotating shaft (5) and along the scale mark (10); the bottom of the fixed seat (4) is provided with an elastic hoop (19) which is opened in one direction, the elastic hoop (19) is clamped on the water pipe (2) connected to one side of a corner, one end of the first movable support (3) is provided with a movable seat (20), and the movable seat (20) is attached to the fixed seat (4) and is connected with the fixed seat through the rotating shaft (5); the other end of the first movable bracket (3) is provided with a first connecting plate (21), and the first connecting plate (21) is connected to one end of the transverse moving frame (1); the rotary scale is characterized in that a circular arc-shaped sliding groove (22) taking the rotary shaft (5) as an axis is formed in the identification plate (9), the scale marks (10) are arranged along the sliding groove (22), an annular guide bulge (23) is arranged on the surface of the roller (7), and the guide bulge (23) is embedded into the sliding groove (22).

3. The building wiring floor detection system according to claim 2, characterized in that a second connecting plate (24) is provided on top of the second movable bracket (6), the second connecting plate (24) being connected to the other end of the traversing frame (1).

4. The building wiring floor detection system according to claim 2, wherein a sliding rail (25) is further arranged on the traverse frame (1), a sliding block (26) is arranged on the sliding rail (25), the base (11) is arranged on the sliding block (26), a belt (27) located above the sliding rail (25) is further arranged on the traverse frame (1), the base (11) is connected to the belt (27), and the motor (18) is in transmission connection with the belt (27).

Technical Field

The invention relates to a building detection system, in particular to a floor detection system for building wiring.

Background

The water and electricity wiring of indoor buildings needs to be grounded, firstly, a wire slot is formed in the ground, and then, a water pipe wire is embedded underground. If the construction is completed, it is difficult to confirm the pre-buried position. Therefore, when the water and electricity are embedded, the water and electricity should be laid strictly according to the principle of horizontal and vertical. Taking laying water pipes as an example, the lines need to be horizontal and vertical, and the distance between cold water pipes and hot water pipes is not less than 15 cm. If the principle of horizontal and vertical is not strictly followed when the water pipe is laid, the water pipe is easy to explode when the hole is drilled in the later period.

Disclosure of Invention

In view of the above, the present invention provides a floor detection system for building wiring to solve the above problems.

In order to solve the technical problems, the technical scheme of the invention is as follows:

a floor detection system for building wiring comprises a transverse moving frame erected on the ground, wherein the transverse moving frame is arranged above a water pipe along the trend of the water pipe, a first movable support is arranged at one end of the transverse moving frame, a fixed seat is arranged at the bottom of the first movable support, the fixed seat is positioned at the corner of the water pipe, the fixed seat is fixed relative to the water pipe, the first movable support is connected with the fixed seat through a rotating shaft, a second movable support is arranged at the other end of the transverse moving frame, a roller is arranged at the bottom of the second movable support, the roller moves on a marking plate laid on the ground, the marking plate is fixed relative to the water pipe, a scale mark along the moving track of the roller is arranged on the marking plate, a base capable of moving transversely is further arranged on the transverse moving frame, an electric cylinder extending downwards is arranged on the base, and a clamping jaw sliding block is arranged at the moving end of the electric cylinder, a first clamping jaw is fixed on one side of the clamping jaw sliding block, a movable second clamping jaw is arranged on the other side of the clamping jaw sliding block, springs for clamping the first clamping jaw and the second clamping jaw are arranged between the first clamping jaw and the second clamping jaw, semicircular clamping grooves are formed in the first clamping jaw and the second clamping jaw, and a motor for driving the base to move transversely is further arranged at one end of the transverse moving frame; the fixing seat is fixed at a corner of a water pipe, the electric cylinder extends downwards to enable the first clamping jaw and the second clamping jaw to clamp the water pipe, and the motor drives the base to move transversely to enable the first clamping jaw and the second clamping jaw to move transversely along the water pipe; when the water pipes connected at the corners are not vertical, the first movable bracket rotates around the rotating shaft in the process of transversely moving the first clamping jaw and the second clamping jaw, and the roller generates circumferential displacement around the rotating shaft and along the scale marks.

As an implementable way: the bottom of fixing base is equipped with one-way open elasticity clamp, elasticity clamp card is on connecting the water pipe of turning one side, a tip of first movable support is equipped with the sliding seat, the sliding seat with the fixing base is laminated mutually and is passed through the pivot is connected.

As an implementable way: the other end of the first movable support is provided with a first connecting plate, and the first connecting plate is connected to one end of the transverse moving frame.

As an implementable way: the rotary shaft is arranged on the rotary shaft, the scale mark is arranged on the scale mark, the rotary shaft is arranged on the scale mark, the surface of the rotary shaft is provided with an annular guide protrusion, and the guide protrusion is embedded into the rotary shaft.

As an implementable way: and a second connecting plate is arranged at the top of the second movable support and connected to the other end of the transverse moving frame.

As an implementable way: the automatic belt conveyor is characterized in that a sliding rail is further arranged on the transverse moving frame, a sliding block is arranged on the sliding rail, the base is arranged on the sliding block, a belt located above the sliding rail is further arranged on the transverse moving frame, the base is connected to the belt, and the motor is in transmission connection with the belt.

As an implementable way: first clamping jaw orientation one side of second clamping jaw is equipped with first installation piece, the second clamping jaw orientation one side of first clamping jaw is equipped with second installation piece, first installation piece with the second installation piece is relative, spring coupling be in first installation piece with on the second installation piece, first clamping jaw with the second clamping jaw all is under wide narrow shape.

The technical effects of the invention are mainly reflected in the following aspects:

the building wiring floor detection system is installed at the corner of the water pipe to determine whether the arrangement of the water pipe is horizontal and vertical. Specifically, the water pipes on two sides of the corner are substantially vertical, and the water pipe on one side is used as a fixed carrier, namely, the fixed seat is fixed at the corner of the water pipe. The first movable support on the fixed seat is connected with the fixed seat through a rotating shaft. When detecting, electronic jar stretches out downwards and makes first clamping jaw and second clamping jaw centre gripping on the water pipe, then under motor drive, the base sideslip is so that first clamping jaw and second clamping jaw sideslip along the water pipe. If the water pipe is laid without strictly following the horizontal and vertical direction, the first movable bracket rotates around the rotating shaft during the horizontal movement of the first clamping jaw and the second clamping jaw, and the roller generates circumferential displacement around the rotating shaft and along the scale marks. Whether the laying of the water pipe reaches the standard can be determined by reading on the scale marks.

Drawings

FIG. 1: the invention provides a first overall view of a building wiring floor detection system;

FIG. 2: the invention provides a second overall view of the building wiring floor detection system;

FIG. 3: the invention provides a first partial view of a building wiring floor detection system; (ii) a

FIG. 4: the invention provides a second partial view of the building wiring floor detection system; (ii) a

FIG. 5: the invention provides a third partial view of the building wiring floor detection system.

In the figure: 1. a transverse moving frame; 2. a water pipe; 3. a first movable support; 4. a fixed seat; 5. a rotating shaft; 6. a second movable support; 7. a roller; 8. a ground surface; 9. a marking plate; 10. scale marks; 11. a base; 12. an electric cylinder; 13. a jaw slide; 14. a first jaw; 15. a second jaw; 16. a spring; 17. a clamping groove; 18. a motor; 19. an elastic clamp; 20. a movable seat; 21. a first connecting plate; 22. a chute; 23. a guide projection; 24. a second connecting plate; 25. a slide rail; 26. a slider; 27. a belt; 28. a first mounting piece; 29. a second mounting piece.

Detailed Description

The following detailed description of the embodiments of the present invention is provided in order to make the technical solution of the present invention easier to understand and understand.

In one embodiment, as shown in fig. 1-3.

The floor detection system for building wiring provided by the embodiment comprises a transverse moving frame 1 erected on the ground 8, wherein the transverse moving frame 1 is arranged above a water pipe 2 along the trend of the water pipe 2, one end of the transverse moving frame 1 is provided with a first movable support 3, the bottom of the first movable support 3 is provided with a fixed seat 4, the fixed seat 4 is positioned at the turning part of the water pipe 2, the fixed seat 4 is fixed relative to the water pipe 2, the first movable support 3 and the fixed seat 4 are connected through a rotating shaft 5, the other end of the transverse moving frame 1 is provided with a second movable support 6, the bottom of the second movable support 6 is provided with a roller 7, the roller 7 moves on a marking plate 9 laid on the ground 8, the marking plate 9 is fixed relative to the water pipe 2, the marking plate 9 is provided with a scale mark 10 along the moving track of the roller 7, the transverse moving frame 1 is also provided with a base 11 capable of transversely moving, the base 11 is provided with an electric cylinder 12 extending downwards, a clamping jaw sliding block 13 is arranged at the movable end of the electric cylinder 12, a first clamping jaw 14 is fixed at one side of the clamping jaw sliding block 13, a movable second clamping jaw 15 is arranged at the other side of the clamping jaw sliding block 13, a spring 16 for clamping the first clamping jaw 14 and the second clamping jaw 15 is arranged between the first clamping jaw 14 and the second clamping jaw 15, semicircular clamping grooves 17 are formed in the first clamping jaw 14 and the second clamping jaw 15, and a motor 18 for driving the base 11 to move transversely is further arranged at one end of the transverse moving frame 1; the fixing seat 4 is fixed at a corner of the water pipe 2, the electric cylinder 12 extends downwards to enable the first clamping jaw 14 and the second clamping jaw 15 to clamp the water pipe 2, and the motor 18 drives the base 11 to move transversely to enable the first clamping jaw 14 and the second clamping jaw 15 to move transversely along the water pipe 2; when the water pipes 2 connected at the corner are not vertical, the first movable bracket 3 rotates around the rotating shaft 5 during the transverse movement of the first clamping jaw 14 and the second clamping jaw 15, and the roller 7 generates circumferential displacement around the rotating shaft 5 and along the scale mark 10.

In the present embodiment, the building wiring floor detection system is installed at a corner of the water pipe 2 to determine whether the arrangement of the water pipe 2 is horizontal and vertical. Specifically, the water pipes 2 on both sides of the corner are substantially vertical, and the water pipe 2 on one side is used as a fixed carrier, i.e., the fixed seat 4 is fixed at the corner of the water pipe 2. The first movable support 3 on the fixed seat 4 is connected with the fixed seat 4 through a rotating shaft 5. Upon detection, the electric cylinder 12 is extended downward to clamp the first jaw 14 and the second jaw 15 on the water pipe 2, and then the base 11 is moved laterally to move the first jaw 14 and the second jaw 15 laterally along the water pipe 2 by the motor 18. If the laying of the water pipe 2 does not follow exactly a horizontal vertical movement, during the lateral movement of the first jaw 14 and the second jaw 15, the first mobile carriage 3 rotates about the axis of rotation 5, the roller 7 is displaced circumferentially about the axis of rotation 5 and along the graduated markings 10. It can now be determined whether the laying of the water pipe 2 is up to standard by reading on the scale markings 10.

In one embodiment, as shown in FIG. 4.

This embodiment provides a building wiring falls to ground detecting system, its fixing base 4's bottom is equipped with one-way open elasticity clamp 19, and elasticity clamp 19 card is connected on the water pipe 2 of turning one side, and a tip of first movable support 3 is equipped with sliding seat 20, and sliding seat 20 and fixing base 4 laminate mutually and connect through pivot 5.

In this embodiment, the fixing seat 4 needs to use the water pipe 2 on one side as a fixing carrier, that is, the fixing seat 4 is fixed at the corner of the water pipe 2. When the fixed seat 4 is fixed at the corner of the water pipe 2, the rotating shaft 5 is positioned right above the corner. For example, one side of the water pipe 2 at two sides of the corner is used as a longitudinal water pipe 2, and the other side is used as a transverse water pipe 2. By clamping the elastic clamp 19 on the longitudinal water pipe 2, the cross sliding frame 1 can be arranged right above the transverse water pipe 2 along the trend of the transverse water pipe 2. Therefore, the spring clip 19 is not provided directly below the rotary shaft 5, but is provided in a slightly outward position.

In one embodiment, as shown in FIG. 2.

In the floor detection system for building wiring provided by the present embodiment, the other end of the first movable bracket 3 is provided with the first connecting plate 21, and the first connecting plate 21 is connected to one end of the transverse moving frame 1. The top of the second movable support 6 is provided with a second connecting plate 24, and the second connecting plate 24 is connected with the other end of the transverse moving frame 1.

In the present embodiment, the traverse frame 1 is fixed by the first link plate 21 provided on the first movable bracket 3 and the second link plate 24 provided on the second movable bracket 6. The location of the specific connection is near, but not completely at, both ends of the traversing frame 1. As the space left by the ends houses the motor 18 and associated drive components.

In one embodiment, as shown in FIG. 5.

In the building wiring floor detection system provided by the embodiment, the identification plate 9 is provided with the arc-shaped sliding groove 22 taking the rotating shaft 5 as the axis, the scale mark 10 is arranged along the sliding groove 22, the surface of the roller 7 is provided with the annular guide protrusion 23, and the guide protrusion 23 is embedded into the sliding groove 22.

In the embodiment, the circular arc-shaped sliding groove 22 is arranged on the identification plate 9, so that the identification plate 9 and the roller 7 are in track connection, friction can be reduced, sliding is easier, and the movable track can be determined due to the arranged track. Furthermore, the graduation marks 10 are arranged along the sliding groove 22, and the data thereof can be immediately displayed when the roller 7 moves relative to the marking plate 9. This also makes it possible to quickly determine whether the laying of the water pipes 2 meets the standards of horizontal and vertical.

In one embodiment, as shown in FIG. 1.

In the floor detection system for building wiring provided by the embodiment, the transverse moving frame 1 is further provided with a slide rail 25, the slide rail 25 is provided with a slide block 26, the base 11 is arranged on the slide block 26, the transverse moving frame 1 is further provided with a belt 27 positioned above the slide rail 25, the base 11 is connected to the belt 27, and the motor 18 is in transmission connection with the belt 27.

In this embodiment, a drive device is actually provided. The motor 18 arranged at the end of the transverse moving frame 1 drives the belt 27 to transmit, so that the sliding block 26 can transversely move along the sliding rail 25. This traversing process occurs after the first jaw 14 and the second jaw 15 are clamped on the water pipe 2, and the second movable bracket 6 can be moved during the driving of the first jaw 14 and the second jaw 15 to traverse, depending on whether the water pipe 2 is arranged horizontally or vertically.

In one embodiment, as shown in FIG. 3.

In the floor-type building wiring detection system provided by the embodiment, the first mounting piece 28 is arranged on one side of the first clamping jaw 14 facing the second clamping jaw 15, the second mounting piece 29 is arranged on one side of the second clamping jaw 15 facing the first clamping jaw 14, the first mounting piece 28 is opposite to the second mounting piece 29, the spring 16 is connected to the first mounting piece 28 and the second mounting piece 29, and the first clamping jaw 14 and the second clamping jaw 15 are both wide in top and narrow in bottom.

In this embodiment, the first jaw 14 and the second jaw 15 having a wide upper portion and a narrow lower portion are provided to further facilitate the clamping of the first jaw 14 and the second jaw 15 on the water pipe 2.

The above are only typical examples of the present invention, and besides, the present invention may have other embodiments, and all the technical solutions formed by equivalent substitutions or equivalent changes are within the scope of the present invention as claimed.