CN219200361U - Floor slab concrete thickness measuring equipment - Google Patents

Abstract

The application relates to the field of supervision and cost consultation, in particular to floor slab concrete thickness measuring equipment, which comprises a detector host and a transmitting probe which can be respectively abutted to two sides of a floor slab, and also comprises a first heightening component and a second heightening component, wherein the transmitting probe is detachably arranged on the second heightening component; the first height adjusting component comprises a driving piece, a driven piece and a locking piece; the driving piece comprises a first sliding seat and a right trapezoid block which is glidingly arranged on the first sliding seat; the inclined side of the right trapezoid block faces upwards; the driven piece comprises a second sliding seat arranged on the first sliding seat, fang Huazhu which is glidingly arranged on the second sliding seat in a penetrating manner and an abutting roller arranged at one end of Fang Huazhu; the abutting roller is abutted on the inclined side of the right trapezoid block, and the second height adjusting component is detachably arranged at the other end of Fang Huazhu; the locking piece can lock the right trapezoid block. The application has the effect of improving convenience in floor slab concrete thickness measurement.

Description

Floor slab concrete thickness measuring equipment

Technical Field

The application relates to the field of supervision and cost consultation, in particular to floor slab concrete thickness measuring equipment.

Background

Concrete is short for concrete, and the floor slab of the existing house is often poured by concrete.

In inspection and acceptance of house hosts by proctoring, the concrete thickness of the floor slab needs to be measured. The method adopted in the past is that a detection through hole is formed in a floor slab, then a measuring tool is adopted to measure the edge of the detection through hole, so that the concrete thickness of the floor slab is obtained, and finally the detection through hole is plugged. This approach is overly damaging to the floor, and so floor thickness gauges are increasingly being used as technology advances.

The floor thickness gauge comprises two parts, a floor thickness gauge host and a transmitting probe connected with a telescopic rod. The main machine of the floor slab thickness gauge is abutted to the upper surface of the floor slab, then the transmitting probe is abutted to the lower surface of the same position of the floor slab through the telescopic rod, and the concrete thickness of the floor slab can be measured through signal transmission of the floor slab thickness gauge and signal return of the transmitting probe.

However, in the prior art, multi-point measurement is needed when measuring the floor slab concrete thickness, so as to reduce the error in measurement. However, every measuring point is required to lift the telescopic rod all the time, so that the transmitting probe is closely attached to the lower surface of the floor slab, and the physical strength is wasted, so that the convenience in measurement is still required to be improved.

Disclosure of Invention

In order to improve convenience when floor concrete thickness measures, this application provides a floor concrete thickness measuring equipment.

The application provides a floor concrete thickness measuring equipment adopts following technical scheme:

the floor slab concrete thickness measuring equipment comprises a detector host and a transmitting probe which can be respectively abutted to two sides of a floor slab, and also comprises a first heightening component and a second heightening component, wherein the transmitting probe is detachably arranged on the second heightening component;

the first height adjusting component comprises a driving piece, a driven piece and a locking piece;

the driving piece comprises a first sliding seat and a right trapezoid block which is glidingly arranged on the first sliding seat; the inclined side of the right trapezoid block faces upwards;

the driven piece comprises a second sliding seat arranged on the first sliding seat, fang Huazhu which is glidingly arranged on the second sliding seat in a penetrating manner and an abutting roller arranged at one end of Fang Huazhu; the abutting roller is abutted on the inclined side of the right trapezoid block, and the second height adjusting component is detachably arranged at the other end of Fang Huazhu;

the locking piece can lock the right trapezoid block.

Through adopting above-mentioned technical scheme, when measuring floor concrete thickness, only need with detector host computer butt in the upper surface of floor, then with first height-adjusting subassembly, second height-adjusting subassembly and transmitting probe connect gradually, promote right trapezoid piece again and slide on first slide, the butt gyro wheel of butt in right trapezoid piece hypotenuse rotates, thereby make the butt gyro wheel shift up, fang Huazhu upwards slide, and then drive the high lifting of second slide shift up and make transmitting probe, until transmitting probe butt on the floor, then the rethread locking piece locks. The hand-lifting equipment is not needed, so that convenience in floor slab concrete thickness measurement can be improved.

Optionally, the locking piece is selected as a locking pin, and the locking pin can be simultaneously inserted on the right trapezoid block and the first sliding seat.

Through adopting above-mentioned technical scheme, when needs carry out the locking, only need insert the locking round pin and locate on right trapezoid piece and the first slide to fix right trapezoid piece and first slide's position, the butt gyro wheel can not remove any more, thereby accomplish the locking of height.

Optionally, a long-strip chute is formed on the first sliding seat, and the right trapezoid block is slidingly connected in the long-strip chute.

Through adopting above-mentioned technical scheme, rectangular trapezoid piece slides through rectangular spout and connects on first slide, and rectangular spout can guide rectangular trapezoid piece's travel path, can strengthen rectangular trapezoid piece and remove stability.

Optionally, a push-pull handle is arranged on the right trapezoid block along the length direction of the long chute.

Through adopting above-mentioned technical scheme, adopt the push-and-pull handle to push-and-pull right trapezoid piece to the removal to right trapezoid piece of being convenient for.

Optionally, the second height adjusting component comprises a pressed height adjusting piece and a telescopic piece; the transmitting probe is arranged on the telescopic piece, and the telescopic piece can be used for adjusting the height;

the compression height adjusting piece comprises a penetrating rod with one end fixedly arranged on the Fang Hua column and a compression spring sleeved on the penetrating rod;

the other end of the penetrating rod slides and penetrates into the telescopic piece, and two ends of the compression spring are respectively propped against Fang Huazhu and the telescopic piece.

Through adopting above-mentioned technical scheme, when locking pin inserts and locates one of them locking hole and lock, if transmitting probe can't support and press on the floor, and continue to heighten transmitting probe, transmitting probe can surpass the height of floor, and the compression spring is pressed this moment, wears to establish the pole and continues to stretch into in the extensible member, can make transmitting probe support completely and press on the floor. Thus, the entire pressurized height adjuster can increase the adaptability of the apparatus.

Optionally, the telescopic piece comprises a first connecting rod, a second connecting rod and a third connecting rod which are sequentially and slidably arranged; one end of the first connecting rod far away from the second connecting rod is slidably sleeved on the penetrating rod, and one end of the third connecting rod far away from the second connecting rod is detachably connected with the transmitting probe.

Through adopting above-mentioned technical scheme, first connecting rod, second connecting rod and the third connecting rod that wears to establish that slide in proper order can be convenient for accomodate, can provide the support of certain height again when using, consequently can promote the convenience of butt transmitting probe.

Optionally, the device further comprises a moving base assembly arranged on the first sliding seat, and the moving base assembly can move and support.

Through adopting above-mentioned technical scheme, can be convenient for the removal and the support of whole equipment through setting up to be convenient for carry out the multipoint measurement, and then promote the convenience when measuring.

Optionally, the movable base assembly includes a plurality of universal wheels with self-locking function, and the universal wheels are arranged on the first sliding seat.

By adopting the technical scheme, when the mobile equipment is needed, the mobile equipment can be moved only through the universal wheels. When the concrete thickness of the floor slab needs to be measured, the universal wheels only need to be locked and fixed, so that the convenience in measurement is greatly improved.

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

1. the detector host is abutted to the upper surface of the floor, and then the emission probe is abutted to the floor through the first heightening component and the second heightening component, so that measurement can be performed. The hand-lifting equipment is not needed, so that convenience in floor slab concrete thickness measurement can be improved.

Drawings

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

Fig. 2 is a positional relationship diagram of the first height adjusting member and the pressure-receiving height adjusting member in the embodiment of the present application.

Reference numerals: 1. a detector host; 2. a transmitting probe; 3. a mobile base assembly; 31. connecting a round table; 32. a height positioning member; 321. a positioning rod; 3211. a limit convex ring; 322. a sliding sleeve; 323. a hinge rod; 33. a support rod; 34. a universal wheel; 4. a first elevation adjustment assembly; 41. a driving member; 411. a first slider; 4111. a strip chute; 4112. a locking hole; 412. right trapezoid blocks; 4121. a push-pull handle; 42. a follower; 421. a second slider; 422. fang Huazhu; 423. abutting the roller; 43. a locking member; 5. a second elevation adjustment assembly; 51. a pressed heightening piece; 511. a rod is penetrated; 512. a compression spring; 52. a telescoping member; 521. a first link; 522. a second link; 523. a third link; 524. and a locking buckle.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-2.

The embodiment of the application discloses floor slab concrete thickness measuring equipment.

Referring to fig. 1, a floor slab concrete thickness measuring apparatus includes a tester main body 1, a transmitting probe 2, a moving base assembly 3, a first elevation adjusting assembly 4, and a second elevation adjusting assembly 5. The first heightening component 4 is arranged on the movable base component 3, the second heightening component 5 is arranged on the first heightening component 4, and the transmitting probe 2 is arranged on the second heightening component 5. Through the support of the movable base assembly 3, after the first heightening assembly 4 and the second heightening assembly 5 are heightened, the transmitting probe 2 can be abutted on the lower surface of the floor slab. The detector host 1 can be directly abutted on the upper surface of the floor slab, so that the concrete thickness measurement of the floor slab is completed.

The mobile base assembly 3 comprises a connecting circular table 31, a height positioning member 32, a plurality of support rods 33 and a plurality of universal wheels 34. The first height adjusting component 4 is disposed on one side of the connection round table 31, and the plurality of support rods 33 are hinged on the other side of the connection round table 31 at equal intervals along the central axis of the connection round table 31, in this embodiment, the plurality of support rods 33 are three, and the plurality of universal wheels 34 are also equal in number to the plurality of support rods 33.

Referring to fig. 1, three universal wheels 34 are fixedly connected to three support rods 33 one by one, and the universal wheels 34 are fixedly connected to one end of the support rods 33 far from the connection circular table 31. The height positioning members 32 are disposed between the three support rods 33. When performing multipoint measurements, the universal wheels 34 can facilitate supervision of movement of the entire device, thereby improving convenience when the device is moved.

Referring to fig. 1, the height positioner 32 includes a positioning rod 321, a sliding sleeve 322, and a plurality of hinge rods 323. One end of the positioning rod 321 is coaxially and fixedly connected to one side of the connecting circular table 31, and the positioning rod 321 is positioned among the three supporting rods 33, and the distances from the positioning rod 321 to each supporting rod 33 are the same. In the present embodiment, the plurality of hinge rods 323 are also selected to be three equivalent to the support rods 33. One end of the hinge rod 323 is hinged on the outer side wall of the sliding sleeve 322, and the other end is hinged on one end of one of the support rods 33, which is far away from the connecting round table 31. And three hinge bars 323 are equally spaced along the central axis of the positioning bar 321.

When the sliding sleeve 322 slides, the supporting angles of the three supporting rods 33 are changed, and the height of the connecting round table 31 is also changed. Therefore, the positioning rod 321 is far away from the end part of one end of the connecting round table 31 and is fixedly connected with the limiting convex ring 3211, and when the sliding sleeve 322 slides to be abutted against the limiting convex ring 3211, the fixed height of the connecting round table 31 can be obtained, so that the supporting height of the connecting round table 31 is not required to be additionally controlled, and the convenience is greatly improved.

Referring to fig. 1 and 2, the first elevation assembly 4 includes a driving member 41, a driven member 42, and a locking member 43. The driving piece 41 is arranged on one side of the connecting round table 31 far away from the positioning rod 321, the driven piece 42 is connected to the driving piece 41 in a sliding mode, and the driving piece 41 can drive the driven piece 42 to conduct height adjustment. The locking member 43 is provided on the driving member 41, and the locking member 43 can lock the driven member 42 at a position on the driving member 41.

The driving member 41 includes a first slider 411 and a right trapezoid block 412. The first sliding seat 411 is horizontally and fixedly connected to one side of the connecting round table 31 away from the positioning rod 321, a long-strip sliding groove 4111 is formed in the first sliding seat 411, and the right trapezoid block 412 is slidingly connected in the long-strip sliding groove 4111 on the first sliding seat 411. And the side of the right trapezoid block 412 faces upwards, the lower bottom of the right trapezoid block 412 is vertically and fixedly connected with a push-pull handle 4121, and the push-pull handle 4121 is arranged along the length extending direction of the long chute 4111, so that the right trapezoid block 412 is conveniently pushed to move, and the height of the driven member 42 is conveniently controlled.

The follower 42 includes second slides 421, fang Huazhu 422 and abutment rollers 423. The second slide 421 is fixedly connected to the first slide 411, and the Fang Huazhu slide vertically passes through the second slide 421. The abutment roller 423 is rotatably connected to one end of the Fang Huazhu close to the first slider 411, and the abutment roller 423 abuts against a side edge of the right trapezoid block 412. The second height adjusting component 5 is arranged on the Fang Huazhu 422. When the right trapezoid block 412 moves, the abutment roller 423 rotates, and the Fang Huazhu moves upward or downward.

The locking member 43 is selected as a locking pin, and a plurality of locking holes 4112 are linearly and equidistantly formed in the inner wall of the elongated sliding groove 4111, and the locking pin is inserted into the right trapezoid block 412 and is inserted into one of the locking holes 4112.

Referring to fig. 1, the second elevation assembly 5 includes a pressed elevation member 51 and a telescoping member 52. The pressure-increasing member 51 is disposed on the Fang Huazhu, and the telescopic member 52 is disposed on the pressure-increasing member 51. The pressure-receiving height adjuster 51 includes a penetration lever 511 and a pressure-receiving spring 512. One end of the penetrating rod 511 is vertically and fixedly connected to the Fang Huazhu 422, and the other end of the penetrating rod slides and penetrates through the telescopic piece 52. The compression spring 512 is sleeved on the penetrating rod 511, one end of the compression spring 512 abuts against the end face of the Fang Huazhu, which is far away from one end of the abutting roller 423, and the other end abuts against the telescopic piece 52.

The telescoping member 52 includes a first link 521, a second link 522, and a third link 523. One end of the first connecting rod 521 is slidably sleeved on the penetrating rod 511, and the other end is slidably penetrated on one end of the second connecting rod 522. The other end of the second connecting rod 522 is slidably arranged at one end of the third connecting rod 523, and the other end of the third connecting rod 523 is detachably connected to the transmitting probe 2 through threads. And the sliding penetrating parts of the first connecting rod 521 and the second connecting rod 522 and the sliding penetrating parts of the second connecting rod 522 and the third connecting rod 523 are respectively provided with a locking buckle 524, so that the length of the whole telescopic piece 52 is locked.

The implementation principle of the floor slab concrete thickness measuring equipment provided by the embodiment of the application is as follows: when the floor slab concrete thickness is measured, the whole movable base assembly 3 is unfolded at the position where the floor slab thickness is required to be measured, then the transmitting probe 2 is connected to the telescopic piece 52 in a threaded manner, the telescopic piece 52 is unfolded, the compression spring 512 is sleeved on the penetrating rod 511, and then the first connecting rod 521 is sleeved on the penetrating rod 511, so that the installation is completed.

And then the right trapezoid block 412 is pushed to slide on the first sliding seat 411, so that the height of the transmitting probe 2 is raised until the transmitting probe 2 is abutted against the floor. In this process, since there is a space between the adjacent locking holes 4112, the transmitting probe 2 cannot be pressed against the floor slab when one of the locking holes 4112 is locked. Therefore, the emission probe 2 needs to be continuously adjusted up, but when the adjacent locking holes 4112 are locked, the emission probe 2 will exceed the height of the floor slab, and the compression spring 512 is compressed, and the penetrating rod 511 continues to extend into the first connecting rod 521 until the emission probe 2 is completely pressed against the floor slab.

After the measurement of a single point is completed, the transmitting probe 2 is only required to move down by sliding the right trapezoid block 412 reversely, and then the whole equipment is moved to the next measuring point through the universal wheel 34. In the whole measurement process, hand-held equipment is not needed, so that convenience in floor slab concrete thickness measurement can be improved.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, 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 concrete thickness measuring equipment, includes detector host computer (1) and transmitting probe (2) that can the butt in the floor both sides respectively, its characterized in that: the device also comprises a first heightening component (4) and a second heightening component (5), wherein the transmitting probe (2) is detachably arranged on the second heightening component (5);

the first height adjusting component (4) comprises a driving piece (41), a driven piece (42) and a locking piece (43);

the driving piece (41) comprises a first sliding seat (411) and a right trapezoid block (412) which is glidingly arranged on the first sliding seat (411); the hypotenuse of the right angle trapezoidal block (412) faces upward;

the driven piece (42) comprises a second sliding seat (421) arranged on the first sliding seat (411), a Fang Huazhu (422) which slides and penetrates through the second sliding seat (421) and an abutting roller (423) arranged at one end of Fang Huazhu (422); the abutting roller (423) is abutted on the inclined side of the right trapezoid block (412), and the second height adjusting component (5) is detachably arranged at the other end of the Fang Huazhu (422);

the locking piece (43) can lock the right trapezoid block (412).

2. The floor slab concrete thickness measuring apparatus according to claim 1, wherein: the locking piece (43) is a locking pin, and the locking pin can be simultaneously inserted on the right trapezoid block (412) and the first sliding seat (411).

3. A floor slab concrete thickness measuring apparatus according to claim 2, wherein: the first sliding seat (411) is provided with a long-strip sliding groove (4111), and the right-angle trapezoid block (412) is connected in the long-strip sliding groove (4111) in a sliding mode.

4. A floor slab concrete thickness measuring apparatus according to claim 3, wherein: a push-pull handle (4121) is arranged on the right trapezoid block (412) along the length direction of the long chute (4111).

5. A floor slab concrete thickness measuring apparatus according to claim 3, wherein: the second height adjusting component (5) comprises a pressed height adjusting piece (51) and a telescopic piece (52); the transmitting probe (2) is arranged on the telescopic piece (52), and the telescopic piece (52) can be adjusted in height;

the pressed height-adjusting piece (51) comprises a penetrating rod (511) with one end fixedly arranged on the Fang Huazhu (422) and a pressed spring (512) sleeved on the penetrating rod (511);

the other end of the penetrating rod (511) is glidingly penetrated in the telescopic piece (52), and two ends of the compression spring (512) are respectively pressed against the Fang Huazhu (422) and the telescopic piece (52).

6. The floor slab concrete thickness measuring apparatus according to claim 5, wherein: the telescopic piece (52) comprises a first connecting rod (521), a second connecting rod (522) and a third connecting rod (523) which are sequentially and slidably arranged; one end of the first connecting rod (521) far away from the second connecting rod (522) is slidably sleeved on the penetrating rod (511), and one end of the third connecting rod (523) far away from the second connecting rod (522) is detachably connected with the transmitting probe (2).

7. The floor slab concrete thickness measuring apparatus according to claim 5, wherein: the mobile base assembly (3) is arranged on the first sliding seat (411), and the mobile base assembly (3) can move and support.

8. The floor slab concrete thickness measuring apparatus according to claim 7, wherein: the movable base assembly (3) comprises a plurality of universal wheels (34) with a self-locking function, and the universal wheels (34) are arranged on the first sliding seat (411).

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