CN220751131U - Floor thickness detector - Google Patents

Abstract

The utility model relates to a floor thickness detector relates to the technical field of building detection, and it includes receiver, signal transmission probe and is used for supporting signal transmission probe's bracing piece, signal transmission probe be equipped with a plurality of installation pieces all around, every all rotate on the installation piece be connected with a plurality of pulleys that are used for with outside butt, install the locating piece on the signal transmission probe, the locating piece with installation piece one-to-one, the installation piece with be equipped with the elastic component that is used for connecting both between the locating piece. The application has the effect of improving the service life of the signal transmitting probe.

Description

Floor thickness detector

Technical Field

The application relates to the technical field of building detection, in particular to a floor thickness detector.

Background

The floor thickness detector is an instrument for detecting the floor thickness, a signal transmitting probe is arranged below a floor, a receiver is correspondingly arranged above the floor, the distance between the receiver and the signal transmitting probe is calculated through the detector, when the signal transmitting probe is moved, the distance between the receiver and the signal transmitting probe changes, and then the minimum value is the floor thickness (the minimum value is the minimum distance when the receiver is exactly perpendicular to the signal transmitting probe).

For the related art in the foregoing, when a worker detects, it is generally required to fix the signal transmitting probe on the supporting rod, then hold the supporting rod by hand, and make the signal transmitting probe on the supporting rod abut against the roof, then control the signal transmitting probe to move on the roof through the supporting rod, thereby determining the minimum value of the distance between the signal transmitting probe and the receiver, but in the long-term use process, the signal transmitting probe will always abut against the roof, and in the moving process of the signal transmitting probe, the signal transmitting probe will frequently generate friction with the roof, thereby not only affecting the service life of the signal transmitting probe, but also affecting the measurement accuracy of the signal transmitting probe due to the thickness variation of the outer package of the signal transmitting probe in the abrasion.

Disclosure of Invention

In order to reduce the probability of the signal transmitting probe being worn, the application provides a floor thickness detector.

The application provides a floor thickness detector adopts following technical scheme:

the utility model provides a floor thickness detector, includes receiver, signal emission probe and is used for supporting signal emission probe's bracing piece, signal emission probe be equipped with a plurality of installation pieces all around, every all rotate on the installation piece be connected with a plurality of pulleys that are used for with outside butt, install the locating piece on the signal emission probe, the locating piece with installation piece one-to-one, the installation piece with be equipped with between the locating piece and be used for connecting both elastic component.

Through adopting above-mentioned technical scheme, when moving signal transmission probe on the roof, accessible pulley and the lateral wall butt on roof, when the detector detects that the distance between signal probe and the receiver is close, workman accessible bracing piece is applyed external force to signal transmission probe roof to make the elastic component compress, make signal transmission probe butt on the roof from this, carry out the adjustment of a small circle to the roof again afterwards, and then can greatly reduce signal transmission probe and the contact time and the friction time on roof, and then can reduce signal transmission probe by the probability of wearing and tearing, improve signal transmission probe's life.

Optionally, the elastic element is provided as a spring, and the spring is installed between the positioning block and the installation block.

By adopting the technical scheme, the spring has good elasticity, can be reset rapidly and can be used repeatedly, and the purchasing cost is low.

Optionally, the spring overcoat is equipped with and is used for restricting the telescopic link of spring flexible direction, the one end of telescopic link with the locating piece rigid coupling, the other end of telescopic link with the installation piece rigid coupling.

Through adopting above-mentioned technical scheme, the telescopic link can together stretch out and draw back with the spring under the effort of spring to the slip direction of accessible telescopic link restriction spring improves the stability of spring.

Optionally, the signal transmitting probe is fixedly connected with a wear-resisting pad.

By adopting the technical scheme, the signal transmitting probe can be abutted with the outside through the wear-resisting pad, so that the signal transmitting probe can be protected.

Optionally, scale marks for marking the thickness of the wear-resistant pad are carved on the side wall of the wear-resistant pad.

Through adopting above-mentioned technical scheme, the comparatively audio-visual wearing and tearing condition of knowing the wear pad of accessible scale mark from this is convenient for in time adjust the data that detects and be convenient for carry out timely change to the wear pad.

Optionally, the positioning block is slidably connected to the signal transmitting probe, and an adjusting component that is identical to the adjusting component that adjusts the position of the positioning block on the signal transmitting probe is disposed on the signal transmitting probe.

Through adopting above-mentioned technical scheme, accessible adjusting part adjusts the position of locating piece on signal emission probe, can adjust the position of pulley from this, and then change the compression degree of spring when signal emission probe and external butt to can pack up the pulley, detect the definite position promptly, when not needing roof removal detection probe again, can directly with signal emission probe and roof butt.

Optionally, the adjusting component comprises a fixed block fixedly connected to the signal transmitting probe, an adjusting bolt is connected to the fixed block in a threaded manner, and a rod portion of the adjusting bolt penetrates through the fixed block and is connected with the positioning block in a rotating manner.

Through adopting above-mentioned technical scheme, accessible rotation adjusting bolt makes the rotation bolt drive the locating piece and removes on signal transmission probe, from this can be to the locating piece fast adjustment and fixed.

Optionally, a limiting groove for limiting the sliding direction of the positioning block is formed in the side wall of the signal transmitting probe, and the positioning block is slidably connected in the limiting groove.

By adopting the technical scheme, the sliding position of the positioning block can be limited by the limiting groove, so that the stability of the positioning block on the signal transmitting probe is improved.

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

1. when the distances between the signal probe and the receiver are similar, an external force can be applied to the roof through the support rod, and the elastic piece is compressed, so that the signal transmitting probe is abutted to the roof, and then the roof is adjusted in a small range, so that the contact time and the friction time between the signal transmitting probe and the roof can be greatly reduced, the abrasion probability of the signal transmitting probe can be reduced, and the service life of the signal transmitting probe can be prolonged;

2. the signal transmitting probe can be abutted with the outside through the wear-resisting pad, so that the signal transmitting probe can be protected;

3. the position of the positioning block on the signal emission probe can be adjusted through the adjusting component, so that the position of the pulley can be adjusted, the compression degree of the spring can be changed when the signal emission probe is abutted with the outside, the pulley can be folded, namely, when the determined position is detected, the signal emission probe can be directly abutted with the roof when the roof is not required to move the detection probe.

Drawings

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

FIG. 2 is an enlarged schematic view of a portion A of FIG. 1;

FIG. 3 is a schematic view of the structure of a spring according to an embodiment of the present application;

in the figure, 1, a receiver; 2. a signal transmitting probe; 21. a limit groove; 3. a support rod; 4. a mounting block; 41. a pulley; 5. a spring; 6. a telescopic rod; 7. a wear pad; 71. a scale; 8. an adjustment assembly; 81. a fixed block; 82. an adjusting bolt; 9. and (5) positioning blocks.

Detailed Description

The present application is described in further detail below with reference to fig. 1-3.

The embodiment of the application is as follows: referring to fig. 1 and 2, the floor thickness detector comprises a signal transmitting probe 2 and a receiver 1 for receiving signals transmitted by the signal transmitting probe 2, wherein a supporting rod 3 is arranged on one side of the signal transmitting probe 2, and one end of the supporting rod 3 is fixedly connected with the signal transmitting probe 2.

One end of the signal transmitting probe 2, which is far away from the supporting rod 3, is fixedly connected with a wear-resisting pad 7, the wear-resisting pad 7 is arranged into a cylinder shape, scales 71 for marking the thickness of the wear-resisting pad 7 are carved on the arc-shaped outer wall of the wear-resisting pad 7, and the scales 71 are arranged along the length direction of the wear-resisting pad 7.

The signal transmitting probe 2 can be abutted on the detected object through the wear-resisting pad 7, and meanwhile, the wearing state of the wear-resisting pad 7 can be visually known through the scales 71.

The both sides of signal transmission probe 2 all are equipped with installation piece 4, and the installation piece 4 is kept away from the recess of one side of bracing piece 3, all rotates in every recess and is connected with two pulleys 41 that are used for with the butt of measured object.

Referring to fig. 2 and 3, positioning blocks 9 are respectively arranged on two sides of the signal transmitting probe 2, the signal transmitting probe 2 is arranged between the two positioning blocks 9, the positioning blocks 9 are in one-to-one correspondence with the mounting blocks 4, a telescopic rod 6 for connecting the positioning blocks 9 and the mounting blocks 4 is arranged between the positioning blocks 9 and the mounting blocks 4, the telescopic direction of the telescopic rod 6 is parallel to the axial direction of the supporting rod 3, one end of the telescopic rod 6 is fixedly connected with the mounting blocks 4, the other end of the telescopic rod 6 is fixedly connected with the positioning blocks 9, an elastic piece is arranged in the telescopic rod 6, the elastic piece is arranged into a spring 5 in the drawing, and the telescopic rod 6 is kept in an extension state under the action of the spring 5.

The signal transmitting probe 2 opposite to the positioning block 9 is provided with a limiting groove 21, the limiting groove 21 extends along the length direction of the signal transmitting probe 2, and the positioning block 9 is slidably connected in the limiting groove 21.

One side of the positioning block 9, which is far away from the telescopic rod 6, is provided with an adjusting component 8 for adjusting the position of the positioning block 9 in the limiting groove 21, the adjusting component 8 comprises a fixed block 81 fixedly connected to the signal transmitting probe 2, an adjusting bolt 82 is connected to the fixed block 81 in a threaded manner, and the rod part of the adjusting bolt 82 penetrates through the fixed block 81 and is rotationally connected to the positioning block 9.

The adjusting bolt 82 is rotated, and the adjusting bolt 82 can drive the positioning block 9 to slide in the chute, so that the distance between the telescopic rod 6 fixed on the positioning block 9 and the measured object is changed.

The implementation principle of the embodiment of the application is as follows: when the floor is measured, the receiver 1 is placed at the upper end of the floor, then the signal transmitting probe 2 is lifted by using the supporting rod 3 below the floor, the required expansion degree of the spring 5 when the wear-resisting pad 7 is abutted against the floor is adjusted by rotating the adjusting bolt 82 before use, then the pulley 41 on the mounting block 4 is abutted against the lower end of the floor, when the distance between the receiver 1 and the signal transmitting probe 2 reaches the shortest, the supporting rod 3 can be applied with an external force, the spring 5 is compressed, the telescopic rod 6 is contracted, the wear-resisting pad 7 is abutted against the lower end of the floor, then the position of the signal transmitting probe 2 is finely adjusted, and the obtained value minus the thickness of the wear-resisting pad 7 is the thickness of the floor.

The embodiments of this embodiment are all preferred embodiments of the present application, and are not intended to limit the scope of the present application, in which like parts are denoted by like reference numerals. Therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (8)

1. The utility model provides a floor thickness detector, includes receiver (1), signal transmission probe (2) and is used for supporting bracing piece (3) of signal transmission probe (2), its characterized in that, be equipped with a plurality of installation piece (4) around signal transmission probe (2), every all rotate on installation piece (4) be connected with a plurality of pulleys (41) that are used for with outside butt, install locating piece (9) on signal transmission probe (2), locating piece (9) with installation piece (4) one-to-one, installation piece (4) with be equipped with the elastic component that is used for connecting both between locating piece (9).

2. A floor thickness gauge according to claim 1, characterized in that the elastic member is provided as a spring (5), the spring (5) being mounted between the positioning block (9) and the mounting block (4).

3. The floor thickness detector according to claim 2, wherein the spring (5) is sleeved with a telescopic rod (6) for limiting the telescopic direction of the spring (5), one end of the telescopic rod (6) is fixedly connected with the positioning block (9), and the other end of the telescopic rod (6) is fixedly connected with the mounting block (4).

4. A floor thickness detector according to claim 1, characterized in that the signal transmitting probe (2) is fixedly connected with a wear-resistant pad (7).

5. A floor thickness gauge according to claim 4, characterized in that the side wall of the wear pad (7) is marked with graduation (71) lines for marking the thickness of the wear pad (7).

6. Floor thickness detector according to claim 1, characterized in that the positioning block (9) is slidingly connected to the signal transmission probe (2), and that the signal transmission probe (2) is provided with an adjusting assembly (8) for adjusting the position of the positioning block (9) on the signal transmission probe (2).

7. A floor thickness detector according to claim 6, wherein the adjusting assembly (8) comprises a fixed block (81) fixedly connected to the signal transmitting probe (2), an adjusting bolt (82) is connected to the fixed block (81) in a threaded manner, and a rod portion of the adjusting bolt (82) penetrates through the fixed block (81) and is in rotary connection with the positioning block (9).

8. The floor thickness detector according to claim 7, wherein a limit groove (21) for limiting the sliding direction of the positioning block (9) is formed in the side wall of the signal transmitting probe (2), and the positioning block (9) is slidably connected in the limit groove (21).