CN113356583A

CN113356583A - Infrared positioning structure of embedded sleeve of standard floor slab and construction method thereof

Info

Publication number: CN113356583A
Application number: CN202110643651.2A
Authority: CN
Inventors: 丁嘉; 林博; 刘永刚; 印斐
Original assignee: Zhangjiagang Architectural Design And Research Institute Co ltd
Current assignee: Zhangjiagang Jianye Construction And Installation Engineering Co ltd
Priority date: 2021-06-09
Filing date: 2021-06-09
Publication date: 2021-09-07
Anticipated expiration: 2041-06-09
Also published as: CN113356583B

Abstract

The utility model relates to a building pipeline pre-buried field especially relates to a pre-buried sleeve pipe infrared ray location structure of standard floor and construction method thereof, and it includes sleeve pipe, extension board and the infrared emitter of setting on the extension board, and the extension board sets up in the sleeve pipe, and the intraductal a plurality of supporting seats that are used for supporting the extension board that are equipped with of cover, and the extension board sets up on the supporting seat, is equipped with damper assembly between the lateral wall of supporting seat and the intraductal wall of cover, is equipped with the adjusting part who is used for adjusting the extension board balance on the supporting seat. This application has the effect that promotes infrared emitter's positioning accuracy.

Description

Infrared positioning structure of embedded sleeve of standard floor slab and construction method thereof

Technical Field

The application relates to the field of building pipeline pre-embedding, in particular to an infrared positioning structure of a pre-embedded sleeve of a standard floor slab and a construction method of the infrared positioning structure.

Background

In the building construction process, due to various construction design requirements, sleeves and preformed holes are required to be embedded in the floor slab pouring process frequently. Because the preformed hole is formed by the embedded sleeve, and modification is inconvenient after forming, the embedded precision requirement of the sleeve is higher, and the higher verticality and coaxiality of the sleeve need to be maintained.

When the high-rise building is built, due to the fact that the number of floors is large, almost every floor needs to be provided with the preformed hole, and the preformed holes in the adjacent floors are arranged coaxially. When the construction of upper floor sleeve pipe is carried out, the mode of infrared ray location is usually adopted to carry out, a supporting plate that the level set up is fixed in the sleeve pipe of lower floor promptly, then fix infrared emitter at the center of supporting plate, utilize the higher straightness that hangs down of infrared ray light beam to throw to the template of upper floor, according to the infrared ray photoelectricity on the template, bore and get the locating hole, carry out the location of preformed hole.

When the support plate is positioned, a worker usually holds the support plate and a level or a level meter, the support plate is positioned by measuring the support plate for multiple times by using the level meter, and then the support plate after positioning is fixed on the inner wall of the sleeve. The traditional manual positioning is easy to have infrared positioning errors caused by the deviation of the support plate, so that errors exist in positioning.

Disclosure of Invention

In order to improve the positioning accuracy of the infrared emitter, the application provides a standard floor slab embedded sleeve infrared positioning structure and a construction method thereof.

On the one hand, the application provides a pair of pre-buried sleeve pipe infrared ray location structure of standard floor adopts following technical scheme:

the utility model provides a pre-buried sleeve pipe infrared ray location structure of standard floor, includes sleeve pipe, extension board and sets up the infrared emitter on the extension board, the extension board sets up in the sleeve pipe, the intraductal a plurality of supporting seats that are used for supporting the extension board that are equipped with of cover, the extension board sets up on the supporting seat, be equipped with damper between the lateral wall of supporting seat and the intraductal wall of cover, be equipped with the adjusting part who is used for adjusting the extension board balance on the supporting seat.

Through adopting above-mentioned technical scheme, damping assembly carries out the shock attenuation to the supporting seat, reduces the infrared emitter location incline that the sleeve pipe vibrations lead to, promotes infrared emitter's positioning accuracy. The balance of the support plate in the sleeve is adjusted by the adjusting assembly, the support plate is horizontally arranged, the infrared emitter emits light beams vertically upwards, and the positioning accuracy of the infrared emitter is further improved.

Optionally, be equipped with the support ring on the sheathed tube inner wall, shock-absorbing component includes gasbag and connection clamp, it is provided with a plurality ofly to connect the clamp to correspond the supporting seat interval, the gasbag sets up on the support ring, it establishes on the gasbag to connect the clamp cover, it is connected with the lateral wall of supporting seat to connect the clamp outer wall.

Through adopting above-mentioned technical scheme, the gasbag cushions the vibrations of sleeve pipe to the supporting seat conduction, alleviates the sleeve pipe vibrations to the influence of supporting seat, further promotes the intraductal stability of extension board cover sleeve, and then promotes infrared emitter's positioning accuracy.

Optionally, the airbag includes a horizontal portion disposed between the bottom surface of the support base and the top surface of the support ring, and a vertical portion disposed between the side wall of the support base and the inner wall of the sleeve.

Through adopting above-mentioned technical scheme, the gasbag receives the supporting seat, and the vibrations that come from sleeve pipe and support ring cushion, further promote the stability of supporting seat in the sleeve pipe.

Optionally, a connecting ring is arranged on the bottom surface of the supporting seat, and the connecting ring connects the supporting seats.

Through adopting above-mentioned technical scheme, the go-between is with a plurality of supporting seats interconnect, makes things convenient for the quick location of a plurality of supporting seats to connect, promotes location structure's the efficiency that sets up.

Optionally, the adjusting assembly comprises a plurality of adjusting screws and a level meter, the adjusting screws are in threaded connection with the support plate, the bottom end of each adjusting screw is connected with the support seat, the support plate is provided with a containing hole, and the level meter is arranged in the containing hole.

Through adopting above-mentioned technical scheme, rotating adjusting screw can adjust the extension board, makes the extension board tend to the level, and the regulation condition of extension board can audio-visually be known to the spirit level, promotes the regulation efficiency of extension board.

Optionally, the support plate is provided with a mounting hole, a cushion pad is arranged on the inner wall of the mounting hole, and the infrared emitter is arranged in the cushion pad.

Through adopting above-mentioned technical scheme, the blotter cushions the vibrations that the extension board received, reduces the vibrations that infrared emitter received, promotes infrared emitter's stability, further promotes infrared emitter's positioning accuracy.

Optionally, the cushion pad comprises a first splicing barrel and a second splicing barrel which are vertically overlapped, a plurality of shock insulation convex blocks are arranged on the first splicing barrel, and a plurality of shock insulation convex points are arranged on the second splicing barrel.

Through adopting above-mentioned technical scheme, shock insulation bump and shock insulation lug reduce area of contact, reduce the conduction of shock wave, further promote infrared emitter's stability on the extension board, further promote infrared emitter's positioning accuracy.

Optionally, the support plate is provided with a mounting hole, the housing of the infrared emitter is provided with a support shaft, the axis of the support shaft is arranged above the center of the infrared emitter, and the inner wall in the mounting hole is provided with a jack for the rotating shaft to be inserted.

Through adopting above-mentioned technical scheme, the eccentric settings of back shaft makes infrared emitter vertical up all the time, saves partial positioning process, promotes infrared emitter's location efficiency.

Optionally, a counterweight is arranged at the bottom end of the infrared emitter.

Through adopting above-mentioned technical scheme, the balancing weight promotes infrared emitter's weight, makes infrared emitter be difficult for rocking under external factors, promotes infrared emitter's stability.

On the other hand, the application provides a construction method of a pre-buried structure of a standard floor slab, adopts following technical scheme:

a construction method of a standard floor slab embedded sleeve positioning structure is used for constructing the standard floor slab embedded sleeve infrared positioning structure, and comprises the following steps that firstly, a supporting seat and a damping assembly are arranged in a sleeve, the supporting seat is supported by the damping assembly, an adjusting assembly and a supporting plate are arranged on the supporting seat, and an infrared emitter is arranged on the supporting plate;

operating the adjusting assembly to adjust the balance of the support plate until the support plate is kept horizontal, so that the optical fiber of the infrared emitter is vertically emitted upwards;

and step three, taking red light emitted by the infrared emitter as a center, forming a positioning hole on the template of the upper floor slab, and arranging a sleeve on the template.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the supporting seat is damped by the damping assembly, so that the positioning deflection of the infrared emitter caused by the vibration of the sleeve is reduced, the positioning precision of the infrared emitter is improved, the balance of the supporting plate in the sleeve is adjusted by the adjusting assembly, and the positioning precision of the infrared emitter is further improved;

2. set up the vibrations that the blotter received the extension board and cushion, promote infrared emitter's stability, further promote infrared emitter's positioning accuracy.

Drawings

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

Fig. 2 is a schematic view showing the internal structure of the sleeve.

Fig. 3 is an exploded view showing the structure of the cushion pad.

Fig. 4 is a schematic diagram showing the structure of an infrared emitter.

Description of reference numerals: 1. a sleeve; 2. a support plate; 3. a supporting seat; 4. a shock absorbing assembly; 41. an air bag; 411. a horizontal portion; 412. a vertical portion; 42. connecting a clamp; 5. an adjustment assembly; 51. adjusting the screw rod; 52. a level gauge; 6. an infrared emitter; 7. a support ring; 8. a connecting ring; 9. a cushion pad; 91. a first splicing sleeve; 92. a second splicing barrel; 93. shock insulation convex blocks; 94. shock insulation convex points; 10. mounting holes; 11. an accommodation hole; 12. a support shaft; 13. a balancing weight; 14. and (4) inserting the jack.

Detailed Description

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

Example 1

The embodiment discloses a pre-buried sleeve infrared positioning structure of a standard floor. Referring to fig. 1, the infrared positioning structure of the pre-buried sleeve of the standard floor comprises a sleeve 1, a support plate 2 and an infrared emitter 6 arranged on the support plate 2, wherein the support plate 2 is arranged in the sleeve 1.

Referring to fig. 2, a support ring 7 is fixed on the inner wall of the casing 1, the support ring 7 is disposed at the middle lower portion of the casing 1, and the damping member 4 is disposed on the support ring 7. The shock absorption assembly 4 comprises an air bag 41 and a connection clamp 42, the air bag 41 is arranged on the support ring 7, the connection clamp 42 is sleeved on the air bag 41, the connection clamp 42 is arranged in a plurality at intervals along the circumferential direction of the air bag 41, the outer wall of each connection clamp 42 is fixedly provided with a support seat 3, the bottom surface of each support seat 3 is provided with a connection ring 8, and the connection rings 8 are used for connecting a plurality of support seats 3. Through setting up go-between 8, can fix a plurality of supporting seats 3 with connecting clamp 42 location fast, also conveniently carry out being connected of a plurality of connecting clamps 42 and gasbag 41 simultaneously.

Referring to fig. 2, the airbag 41 includes a horizontal portion 411 and a vertical portion 412, the horizontal portion 411 being disposed on the support ring 7, and the vertical portion 412 being disposed between the side wall of the support base 3 and the inner wall of the sleeve 1. The support ring 7 supports the air bag 41, the air bag 41 supports the support seat 3 and the connector clamp 42, and meanwhile, the air bag 41 can absorb vibration conducted by the sleeve 1 and the support ring 7, so that the influence of the vibration on the support seat 3 is reduced, and the stability of the support seat 3 is improved.

Referring to fig. 2, the supporting seat 3 is provided with an adjusting assembly 5 for adjusting the balance of the supporting plate 2, the adjusting assembly 5 includes a plurality of adjusting screws 51 and a level gauge 52, the plurality of adjusting screws 51 are connected to four corners of the supporting plate 2 in a threaded manner, the bottom end of each adjusting screw 51 is connected to the supporting seat 3, each adjusting screw 51 can rotate on the supporting seat 3, the supporting plate 2 is provided with a containing hole 11, and the level gauge 52 is arranged in the containing hole 11. The adjusting screw 51 is rotated to adjust the positions of four corners of the support plate 2, and the support plate 2 tends to be horizontal according to the visual adjustment condition of the level gauge 52, so that light rays emitted by the infrared emitter 6 on the support plate 2 are in a vertical state.

Referring to fig. 2, a mounting hole 10 is formed in the support plate 2, a cushion pad 9 is arranged on the inner wall of the mounting hole 10, and the infrared emitter 6 is arranged in the cushion pad 9. The buffer pad 9 buffers the vibration from the sleeve 1, reduces the influence of the vibration on the infrared emitter 6, and improves the positioning accuracy of the infrared emitter 6.

Referring to fig. 2 and 3, the cushion pad 9 includes a first splicing tube 91 and a second splicing tube 92 stacked up and down, a plurality of shock insulation convex blocks 93 are arranged on one surface of the first splicing tube 91 facing the infrared emitter 6, and a plurality of shock insulation convex points 94 are arranged on one surface of the second splicing tube 92 facing the first splicing tube 91. The shock insulation bump 93 reduces the conduction area when shock waves are conducted to the infrared emitter 6, and reduces the influence of the shock on the infrared emitter. The shock insulation bumps 94 reduce the conduction area of shock waves when the shock waves are conducted to the first splicing cylinder 91, and further reduce the influence of the shock waves on the infrared emitter.

The implementation principle of the embedded sleeve infrared positioning structure of the standard floor slab in the embodiment of the application is as follows: a support ring 7 is fixed in a sleeve 1 of a lower floor, an air bag 41 is arranged on the support ring 7, and a support seat 3 is arranged on the air bag 41. A support plate 2 is arranged in the sleeve 1 and is connected with a supporting seat 3 through an adjusting screw 51. The cushion pad 9 and the infrared emitter 6 are arranged in the mounting hole 10 on the support plate 2. The adjusting screw 51 is screwed, the level gauge 52 on the support plate 2 is observed, the support plate 2 is adjusted to be horizontal, the infrared emitter 6 is in a vertical state at the moment, the infrared light beam vertically irradiates upwards, and the positioning precision of the infrared emitter 6 is improved.

The embodiment of the application also discloses a construction method of the standard floor pre-buried sleeve positioning structure, which is used for constructing the standard floor pre-buried sleeve infrared positioning structure.

Step one, completing the laying of the upper floor slab template, fixing the support ring 7 on the inner wall of the sleeve 1 of the lower floor slab, sleeving the connection clamp 42 on the air bag 41, inflating the air bag 41 to keep the air in the air bag 41 full, arranging the air bag 41 on the support ring 7, and supporting the support seat 3 by the air bag 41. The support plate 2 is arranged on the support seat 3 through the adjusting screw 51.

And step two, rotating the adjusting screw 51 to adjust the balance of the paper board, and performing targeted adjustment on the support plate 2 through the observation level instrument 52 to finally enable the support plate 2 to be horizontal, so that light beams emitted by the infrared emitter 6 are emitted vertically upwards.

And step three, searching a cursor of the laser emitted by the infrared emitter 6 on the bottom surface of the template of the upper floor slab, and drilling a positioning hole by taking the cursor as the center of a circle. On the template of upper floor, set up sleeve pipe 1 with the locating hole as the center.

Example 2

Referring to fig. 4, embodiment 2 differs from embodiment 1 in that: a supporting shaft 12 is fixed on the shell of the infrared emitter 6, the axis of the supporting shaft 12 is horizontally arranged, and the axis of the supporting shaft 12 is arranged above the gravity center of the infrared emitter 6. The bottom end of the infrared emitter 6 is fixed with a balancing weight 13, and a gap is formed between the balancing weight 13 and the inner bottom surface of the mounting hole 10. The inner wall of the mounting hole 10 is provided with a jack 14 for inserting the rotating shaft.

Referring to fig. 4, the environment of the construction site is complicated, and the sleeve 1 is easily vibrated by external factors, thereby causing the infrared ray emitter 6 to swing. By the eccentric arrangement of the support shaft 12 and the arrangement of the weight 13, the infrared emitter 6 is not easily affected by external factors. Because the center of gravity is below the axis of the supporting shaft 12, even if the infrared emitter 6 generates vibration, the infrared emitter can automatically reset to be in a vertical state after the vibration is finished, and the counterweight block 13 can accelerate the resetting efficiency of the infrared emitter 6.

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

1. The utility model provides a pre-buried sleeve pipe infrared ray location structure of standard floor slab, includes sleeve pipe (1), extension board (2) and sets up infrared emitter (6) on extension board (2), extension board (2) set up in sleeve pipe (1), its characterized in that: the supporting sleeve is characterized in that a plurality of supporting seats (3) used for supporting the supporting plate (2) are arranged in the sleeve (1), the supporting plate (2) is arranged on the supporting seats (3), a damping component (4) is arranged between the side wall of the supporting seats (3) and the inner wall of the sleeve (1), and an adjusting component (5) used for adjusting the balance of the supporting plate (2) is arranged on the supporting seats (3).

2. The infrared positioning structure for the pre-embedded sleeves of the standard floor slabs according to claim 1, is characterized in that: be equipped with support ring (7) on the inner wall of sleeve pipe (1), damper assembly (4) are including gasbag (41) and connection clamp (42), connection clamp (42) correspond supporting seat (3) interval and are provided with a plurality ofly, gasbag (41) set up on support ring (7), it establishes on gasbag (41) to connect clamp (42) cover, it is connected with the lateral wall of supporting seat (3) to connect clamp (42) outer wall.

3. The infrared positioning structure of the embedded sleeves of the standard floor slab of claim 2, which is characterized in that: the air bag (41) comprises a horizontal part (411) and a vertical part (412), the horizontal part (411) is arranged between the bottom surface of the supporting seat (3) and the top surface of the supporting ring (7), and the vertical part (412) is arranged between the side wall of the supporting seat (3) and the inner wall of the sleeve (1).

4. The infrared positioning structure of the embedded sleeves of the standard floor slabs as claimed in claim 3, wherein: the bottom surface of the supporting seat (3) is provided with a connecting ring (8), and the connecting ring (8) connects the supporting seats (3).

5. The infrared positioning structure for the pre-embedded sleeves of the standard floor slabs according to claim 1, is characterized in that: adjusting part (5) include many adjusting screw (51) and spirit level (52), many adjusting screw (51) and extension board (2) threaded connection, adjusting screw (51)'s bottom and supporting seat (3) are connected, accommodation hole (11) have been seted up on extension board (2), spirit level (52) set up in accommodation hole (11).

6. The infrared positioning structure for the pre-embedded sleeves of the standard floor slabs according to claim 1, is characterized in that: the support plate (2) is provided with a mounting hole (10), the inner wall of the mounting hole (10) is provided with a cushion pad (9), and the infrared emitter (6) is arranged in the cushion pad (9).

7. The infrared positioning structure for the pre-embedded sleeves of the standard floor slabs as claimed in claim 6, wherein: the shock pad (9) comprises a first splicing barrel (91) and a second splicing barrel (92) which are vertically overlapped, a plurality of shock insulation convex blocks (93) are arranged on the first splicing barrel (91), and a plurality of shock insulation convex points (94) are arranged on the second splicing barrel (92).

8. The infrared positioning structure for the pre-embedded sleeves of the standard floor slabs according to claim 1, is characterized in that: the infrared ray emitter is characterized in that the supporting plate (2) is provided with a mounting hole (10), a supporting shaft (12) is arranged on a shell of the infrared ray emitter (6), the axis of the supporting shaft (12) is arranged above the center of the infrared ray emitter (6), and a jack (14) for inserting the rotating shaft is formed in the inner wall of the mounting hole (10).

9. The infrared positioning structure for pre-embedded sleeves of standard floor slabs according to claim 8, characterized in that: and a balancing weight (13) is arranged at the bottom end of the infrared emitter (6).

10. A construction method of a standard floor slab embedded sleeve positioning structure is characterized by comprising the following steps: the infrared positioning structure is used for constructing the embedded sleeve of the standard floor slab as claimed in any one of the claims 1 to 9, and comprises a first step of arranging a supporting seat (3) and a damping component (4) in a sleeve (1), utilizing the damping component (4) to support the supporting seat (3), arranging an adjusting component (5) and a supporting plate (2) on the supporting seat (3), and arranging an infrared emitter (6) on the supporting plate (2);

step two, operating the adjusting assembly (5) to adjust the balance of the support plate (2) until the support plate (2) is kept horizontal, so that the optical fiber of the infrared emitter (6) is vertically emitted upwards;

and step three, taking red light emitted by the infrared emitter as a center, forming a positioning hole on the template of the upper floor slab, and arranging a sleeve (1) on the template.