CN215725821U - Floor thickness gauge for building safety inspection - Google Patents

Abstract

The utility model discloses a floor thickness gauge for building safety detection, relates to a thickness gauge and solves the technical problem of high labor intensity of workers below a floor. It includes handheld receiver and signal transmitter, still includes the remote control dolly, install the bracing piece on the remote control dolly, first position sleeve is installed to the top of bracing piece, electric putter has been pegged graft in the first position sleeve, two symmetrical arrangement's electric putter setting element are installed to the top of first position sleeve, second position sleeve is installed to electric putter's piston end, signal transmitter has been pegged graft in the second position sleeve, the signal transmitter briquetting is installed to the top of second position sleeve, movable mosaic has a plurality of balls on the signal transmitter outlying signal transmitter briquetting. The utility model has reasonable structure, practicality and reliability, reduces the labor intensity of workers and improves the working efficiency.

Description

Floor thickness gauge for building safety inspection

Technical Field

The utility model relates to a thickness gauge, in particular to a floor thickness gauge for building safety detection.

Background

The floor thickness gauge is mainly used for measuring the thickness of concrete structures such as floors, beams, columns and the like. The floor thickness gauge mainly comprises a handheld receiver and a signal transmitter. During measurement, a worker holds the signal emitter below the floor slab in a hand and pushes the signal emitter against the floor slab. Then the staff holds the handheld receiver and focuses with signal transmitter in the top of floor to the realization is to the measurement of floor thickness. Because the floor is higher, consequently the staff in the floor below need support signal transmitter through the ejector pin all the time. Therefore, the labor intensity of workers below the floor is high, the workers can operate for a long time, the arms of the workers are easy to ache, and continuous measurement is not facilitated.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem of the prior art, provides a floor thickness gauge for building safety detection, and solves the problem of high labor intensity of workers below a floor.

The utility model relates to a floor thickness gauge for building safety detection, which comprises a handheld receiver, a signal transmitter and a remote control trolley, wherein at least two cameras are installed on the remote control trolley, a support rod is also installed on the remote control trolley, a first positioning sleeve is installed above the support rod, an electric push rod is inserted in the first positioning sleeve, two electric push rod positioning pieces which are symmetrically arranged are installed above the first positioning sleeve, a second positioning sleeve is installed at the piston end of the electric push rod, the signal transmitter is inserted in the second positioning sleeve, a signal transmitter press block is installed above the second positioning sleeve, a plurality of balls are movably embedded on the signal transmitter press block at the periphery of the signal transmitter, and a proximity switch is installed on the outer side of the signal transmitter press block.

The improved structure is characterized in that an inner sleeve is movably inserted into the supporting rod, a V-shaped elastic sheet is installed in the inner sleeve, a positioning hole is formed above the supporting rod, and a pin of the V-shaped elastic sheet is inserted into the positioning hole.

Furthermore, a plurality of positioning rods which are obliquely arranged are arranged between the supporting rod and the remote control trolley.

Furthermore, one end of the positioning rod is hinged with the supporting rod, and the other end of the positioning rod is hinged with the remote control trolley.

Furthermore, an inserting hole is formed in the first positioning sleeve, a horn mouth is arranged above the inserting hole, and the electric push rod is inserted into the inserting hole; a conical insertion block is arranged below the electric push rod positioning piece and is inserted into the bell mouth.

Furthermore, a bolt is screwed in the electric push rod positioning piece.

Advantageous effects

The utility model has the advantages that: through the support of the remote control trolley, the support rod and the electric push rod on the signal transmitter, the problem that the signal transmitter is manually supported and positioned is solved, the labor intensity of workers is reduced, and the working efficiency is improved. And the displacement of the signal emitter is realized through the action of the remote control trolley, and the operation is simple and convenient. Through electric putter to signal transmitter's elevating action, can effectually avoid signal transmitter and the floor between the interference when removing, do benefit to signal transmitter's removal, it is practical reliable.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic top view of the electric putter mounting structure of the present invention;

FIG. 3 is an enlarged view of the structure at B in FIG. 1;

fig. 4 is an enlarged schematic view of a portion a in fig. 1.

Wherein: the system comprises a signal emitter 1, a remote control trolley 2, a camera 3, a support rod 4, a first positioning sleeve 5, an electric push rod 6, an electric push rod positioning piece 7, a second positioning sleeve 8, a signal emitter pressing block 9, a ball 10, an inner sleeve 11, a pin 12, a positioning rod 13, a conical insertion block 14 and a bolt 15.

Detailed Description

The utility model is further described below with reference to examples, but not to be construed as being limited thereto, and any number of modifications which can be made by anyone within the scope of the claims are also within the scope of the claims.

Referring to fig. 1-4, the floor thickness gauge for building safety detection of the present invention includes a hand-held receiver, a signal transmitter 1 and a remote control car 2. The remote control trolley 2 is provided with two cameras 3, and the two cameras 3 are respectively positioned at two ends of the remote control trolley 2 and used for monitoring the field environment so as to ensure that the remote control trolley 2 walks along a correct route. The remote control trolley 2 is also provided with a support rod 4, a first positioning sleeve 5 is arranged above the support rod 4, and an electric push rod 6 is inserted in the first positioning sleeve 5 and used for lifting or lowering the height of the thickness gauge so as to enable the thickness gauge to be in contact with or separated from a floor slab. Two electric push rod positioning pieces 7 which are symmetrically arranged are installed above the first positioning sleeve 5 to fix the electric push rod 6, so that the problem that the electric push rod 6 shakes when the remote control trolley 2 moves is avoided. A second locating sleeve 8 is installed at the piston end of the electric push rod 6, and a signal emitter 1 is inserted into the second locating sleeve 8. And a signal emitter pressing block 9 is arranged above the second positioning sleeve 8 so as to fix the signal emitter 1. A plurality of balls 10 are movably embedded on a signal emitter pressing block 9 on the periphery of the signal emitter 1, so that the signal emitter 1 can move when the signal emitter 1 is contacted with a floor slab. The proximity switch is installed in the outside of signal transmitter briquetting 9, can effectually prevent the phenomenon of signal transmitter 1 displacement transition.

Preferably, the second positioning sleeve 8 is connected with the electric push rod 6 through a telescopic column, and a spring is sleeved on the outer side of the telescopic column. Through the effect of flexible post and spring, realize elastic connection between messenger's second position sleeve 8 and the electric putter 6, can effectual reduction floor to signal transmitter 1's impact.

An inner sleeve 11 is movably inserted in the supporting rod 4, a V-shaped elastic sheet is installed in the inner sleeve 11, a positioning hole is formed above the supporting rod 4, and a pin 12 of the V-shaped elastic sheet is inserted in the positioning hole. The provision of the inner sleeve 11 facilitates adjustment of the height of the signal emitter 1. When the signal emitter 1 needs to be lifted, the inner sleeve 11 is pulled up, and the pin 12 of the V-shaped elastic sheet is inserted into the positioning hole, so that the inner sleeve 11 is positioned. But when the signal emitter 1 needs to be lowered, the pin 12 is only needed to be pressed down, and then the inner sleeve 11 is inserted into the supporting rod 4, so that the operation is simple and convenient.

Three obliquely arranged positioning rods 13 are arranged between the support rod 4 and the remote control trolley 2 to further position the support rod 4.

Preferably, one end of the positioning rod 13 is hinged to the supporting rod 4, and the other end of the positioning rod 13 is hinged to the remote control trolley 2, so that the positioning rod 13 can be conveniently disassembled and stored.

An inserting hole is formed in the first positioning sleeve 5, a horn mouth is arranged above the inserting hole, and the electric push rod 6 is inserted in the inserting hole and penetrates through the electric push rod positioning piece 7. A conical insertion block 14 is arranged below the electric push rod positioning piece 7, and the conical insertion block 14 is inserted in the bell mouth. The conical insertion block 14 is inserted into the horn mouth, so that the electric push rod 6 can be effectively positioned, and the electric push rod positioning device is practical and reliable.

Preferably, the electric push rod positioning piece 7 is screwed with a bolt 15, and the bolt 15 is in contact with the end face of the first positioning sleeve 5. When electric putter 6 was dismantled to needs, rotating bolt 15, through the anti-apical action of first position sleeve 5 to bolt 15, made toper inserted block 14 shift out from the horn mouth to loosen the locking to electric putter 6, easy operation is convenient, has improved the practicality of calibrator greatly.

The working principle of the utility model is as follows: after all the components of the thickness gauge are installed, whether the inner sleeve 11 needs to be pulled up is determined according to the height of a floor on site. When the inner sleeve 11 needs to be pulled up, the inner sleeve 11 is directly pulled up, and the pin 12 is clamped in the positioning hole. The signal emitter 1 is moved to a set position through the remote control trolley 2, and then the electric push rod 6 is started, so that the signal emitter 1 is lifted and is in contact with the floor. The survey crew can realize the measurement to floor thickness at last floor, the handheld receiver of operation.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that those skilled in the art can make various changes and modifications without departing from the structure of the utility model, which will not affect the effect of the utility model and the practicability of the patent.

Claims (6)

1. The floor thickness gauge for building safety detection comprises a handheld receiver and a signal transmitter (1), and is characterized by further comprising a remote control trolley (2), wherein at least two cameras (3) are installed on the remote control trolley (2), a support rod (4) is further installed on the remote control trolley (2), a first positioning sleeve (5) is installed above the support rod (4), an electric push rod (6) is inserted in the first positioning sleeve (5), two electric push rod positioning pieces (7) which are symmetrically arranged are installed above the first positioning sleeve (5), a second positioning sleeve (8) is installed at the piston end of the electric push rod (6), the signal transmitter (1) is inserted in the second positioning sleeve (8), a signal transmitter press block (9) is installed above the second positioning sleeve (8), and a plurality of balls (10) are movably embedded on the signal transmitter press block (9) on the periphery of the signal transmitter (1), and a proximity switch is arranged on the outer side of the signal emitter pressing block (9).

2. The floor thickness gauge for building safety detection according to claim 1, wherein an inner sleeve (11) is movably inserted into the support rod (4), a V-shaped spring plate is installed in the inner sleeve (11), a positioning hole is formed above the support rod (4), and a pin (12) of the V-shaped spring plate is inserted into the positioning hole.

3. The floor thickness gauge for building safety detection according to claim 2, wherein a plurality of obliquely arranged positioning rods (13) are arranged between the supporting rod (4) and the remote control trolley (2).

4. The floor thickness gauge for building safety detection according to claim 3, characterized in that one end of the positioning rod (13) is hinged with the support rod (4), and the other end of the positioning rod (13) is hinged with the remote control trolley (2).

5. The floor thickness gauge for building safety detection according to claim 1, wherein a plugging hole is formed in the first positioning sleeve (5), a horn mouth is arranged above the plugging hole, and the electric push rod (6) is plugged in the plugging hole; a conical insertion block (14) is arranged below the electric push rod positioning piece (7), and the conical insertion block (14) is inserted into the bell mouth.

6. The floor thickness gauge for building safety detection according to claim 5, wherein a bolt (15) is screwed in the electric push rod positioning piece (7).

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