CN218546322U - Steel material strength detection device for building engineering - Google Patents

Abstract

The utility model relates to a building engineering technical field specifically discloses a steel strength detection device for building engineering, the on-line screen storage device comprises a base, roof and detection mechanism, detection mechanism fixes on the roof, be provided with two positioning mechanism on the base, positioning mechanism includes the positioning seat, two stoppers, the guide bar, remove the seat, the locating piece, motor power and power threaded rod, the positioning seat is fixed on the base, two stoppers are all fixed on the positioning seat, motor power fixed connection roof, power threaded rod rotates and connects roof and base, and fixed connection motor power, guide bar fixed connection roof and base, remove a threaded connection power threaded rod, and the sliding connection guide bar, locating piece fixed connection removes the seat, and slide between two stoppers, the utility model provides a steel strength detection device for building engineering needs the staff to twist when detecting and moves a plurality of butterfly compression bars and fix steel and can reduce detection efficiency's problem among the prior art.

Description

Steel material strength detection device for building engineering

Technical Field

The application relates to the technical field of constructional engineering, and particularly discloses a steel strength detection device for constructional engineering.

Background

The building engineering is an engineering entity formed by the construction of various building constructions and auxiliary facilities thereof and the installation activities of lines, pipelines and equipment matched with the building constructions, wherein the building constructions comprise a top cover, a beam column, a wall, a foundation and an inner space capable of forming, and meet the requirements of production, living, study and public activities of people.

The prior art discloses chinese patent like publication No. CN215115613U, a steel strength detection device for building engineering, includes frame, objective table and detects the head, wherein, the frame is including the base that is located the bottom, connects two curb plates in the base both sides and connects the roof at two curb plate top level arrangements, its characterized in that: the bottom of the object stage is provided with a groove which is slidably clamped on two slide rails arranged on the base, a second screw hole is arranged at the middle position of the bottom of the object stage and is matched with a second screw rod arranged on the base for use, and one end of the second screw rod is connected with a rotating shaft of a second motor; a U-shaped sliding block is slidably mounted on a top plate of the rack, the upper part of the U-shaped sliding block is fixedly connected with a sliding block, the sliding block is clamped in a rectangular sliding groove formed in the top plate, the sliding block is provided with a first lead screw, the first lead screw is arranged in parallel with the top plate, and one end of the first lead screw is connected with a rotating shaft of a first motor; a hydraulic cylinder is vertically arranged at the bottom of the U-shaped slider, and a detection head is arranged at the free end of a hydraulic rod connected to the hydraulic cylinder.

Above-mentioned steel intensity detection device for building engineering's butterfly compresses tightly pole and horizontal part through threaded connection, and the staff need twist a plurality of butterflies to compress tightly the pole when fixing steel to the objective table and detecting, has not only increased staff's work load and intensity of labour, has still increased the time that a steel intensity detection device for building engineering detects steel to the efficiency that the steel detected has been reduced.

In view of the above, the present invention provides a steel strength detection device for building engineering to solve the above problems.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a steel intensity detection device for building engineering to solve a steel intensity detection device for building engineering need the staff to twist and move a plurality of butterflies when detecting among the prior art and compress tightly the problem that the pole can reduce detection efficiency fixed steel.

In order to achieve the above object, the utility model discloses a basic scheme provides a steel strength detection device for building engineering: the automatic detection device comprises a base, four support columns, a top plate and a detection mechanism, four support column homogeneous end fixed connection base top surfaces, other end fixed connection roof bottom surface, detection mechanism fixes on the roof, be provided with two positioning mechanism along base central line symmetrical arrangement on the base top surface, positioning mechanism includes the positioning seat, two stoppers, power pack, the guide bar, remove seat and locating piece, power pack includes motor power, power threaded rod and two location bearing, the positioning seat is fixed on the base top surface, two stoppers are fixed respectively on positioning seat top surface both ends, all seted up the power hole on roof and the base top surface, two location bearing fix respectively in two power holes, motor power fixed connection roof, the inner circle of two location bearing of power threaded rod one end fixed connection, other end fixed connection motor power's motor shaft, guide bar one end fixed connection roof bottom surface, other end fixed connection base top surface, remove seat one end threaded connection power threaded rod, other end sliding connection guide bar, locating piece fixed connection removes the seat bottom surface, and slide between two stoppers.

Compared with the prior art, the utility model discloses a principle and effect as follows:

when steel needs to be detected, a worker firstly places the steel on the top surfaces of the two positioning seats, then starts the two power motors to rotate, the two power motors drive the two power threaded rods to rotate together, the two power threaded rods can rotate relative to the two moving seats, the two guide rods can prevent the two moving seats from rotating, the two moving seats can drive the two positioning blocks to move downwards together, the two positioning blocks can move downwards between the two limiting blocks until the two positioning blocks abut against and extrude the two ends of the top surface of the steel respectively, the two power motors can be stopped from rotating, and the position of the steel is fixed;

1. the steel strength detection device for the building engineering can quickly fix steel by adopting the two positioning mechanisms, avoids the problem that the detection efficiency is reduced when the steel strength detection device for the building engineering needs a worker to twist a plurality of butterfly pressing rods to fix the steel when detecting, improves the efficiency of the steel strength detection device for the building engineering on the steel detection, and also reduces the workload and the labor intensity of the worker;

2. the steel strength detection device for the building engineering can limit steel by adopting the two limiting blocks, can also facilitate workers to place the steel at a correct position on the positioning seat, reduces the adjustment of the workers to the position of the steel on the positioning seat, saves the time for the workers to fix the steel, and further increases the efficiency of the steel strength detection device for the building engineering on steel detection;

3. the utility model discloses this kind of steel intensity detection device for building engineering adopts two location bearings can prevent the direct contact of power threaded rod and base and roof, has reduced the friction that the power threaded rod received and the destruction that receives, has increased the life of power threaded rod.

Further, the detection mechanism comprises a detection hydraulic cylinder, a movable plate, a movable rod, a pressure sensor, a detection rod, a processing module and a detection block, the detection hydraulic cylinder is fixed at the center of the top surface of the top plate, the free end of a piston rod of the detection hydraulic cylinder penetrates through the top plate and is fixedly connected with the movable plate, the movable rod is fixed on the bottom surface of the movable plate, one end of the pressure sensor is fixedly connected with the movable rod, the other end of the pressure sensor is fixedly connected with the detection rod, the detection block is fixed on the bottom surface of the detection rod, the processing module is fixed on the top plate, and the pressure sensor is electrically connected with the processing module.

Compared with the prior art, the utility model discloses an effect:

1. the detection hydraulic cylinder can provide sufficient power for the strength detection of the steel, and the pressure sensor can conveniently detect the pressure data of the steel, so that the information is transmitted to the processing module in time, and the working personnel can improve the pressure data of the steel which is received by the processing module in time;

2. the detection block can extrude steel, and the processing module can process signals of the pressure sensor.

Furthermore, detection mechanism still includes the protection unit, and the protection unit includes top surface and the equal open-ended guard box in bottom surface and four guide blocks, and the double-phase inside surface of movable plate fixed connection guard box, guard box sliding connection roof and base, and in the roof and the base outside, four guide blocks are fixed respectively on the double-phase inside surface of guard box, and have all seted up the guiding hole, and four guiding holes are sliding connection four support columns respectively.

Compared with the prior art, the utility model discloses an effect:

1. the protection box can move upwards or downwards along with the detection block and the moving plate, so that the protection box can provide protection for workers in time, and can also be conveniently kept away from the base in time, so that the workers can quickly replace detected steel, and the continuous detection efficiency of the steel strength detection device for the building engineering is improved;

2. the protection box and the movable plate can also guide the up-and-down movement of the detection block, the detection block can be accurately abutted against a detection point on steel, the accuracy of the steel strength detection device for the building engineering for detecting the steel strength is improved, and the four guide blocks can guide the protection box.

Furthermore, detection mechanism still includes four regulating unit, and regulating unit is including being the regulation seat, the adjusting thread section of thick bamboo and the adjusting threaded rod of round platform form, and four adjusting threaded rod all fix on the base bottom surface, and evenly arrange along the base central line, four adjusting thread section of thick bamboo threaded connection four adjusting threaded rod respectively, and four regulation seats are fixed respectively on four adjusting thread section of thick bamboo bottom surfaces.

Compared with the prior art, the utility model discloses an effect: the adjusting threaded cylinder and the adjusting threaded rod can adjust the height of the base through relative rotation, workers with different heights can use the steel strength detection device for the building engineering conveniently, the detection efficiency of the steel strength detection device for the building engineering is further improved, the area of the bottom surface of the adjusting seat is larger than that of the bottom surface of the adjusting cylinder, the pressure of the adjusting threaded cylinder to the ground can be reduced, and the damage of the adjusting threaded cylinder to the ground is reduced.

Furthermore, positioning mechanism still includes two limiting plates and remote controller, has all seted up the spacing groove on two limiting block sides, and two limiting plates are fixed respectively on two opposite flanks of locating piece, and two spacing grooves of sliding connection respectively, and two power motor are connected to the remote controller electricity

Compared with the prior art, the utility model discloses an effect: two limiting plates can lead reciprocating of locating piece, have improved the positioning accuracy of locating piece, can also share the locating piece and receive the torsion that steel produced when detecting, have reduced the destruction that the locating piece received steel, have increased the life of locating piece, and the remote controller can control two motor power start, just reverse and stop, and the staff of being convenient for controls two motor power's rotation.

Further, detection mechanism still includes two transparent plates and four truckles, has all seted up the viewing aperture on the two opposite flank of guard box, and two transparent plates are fixed respectively in two viewing apertures, and four truckles are all fixed on the base bottom surface, and evenly arrange along the base central line.

Compared with the prior art, the utility model discloses an effect: two transparent plates can let the staff in time observe the deformation that steel takes place under the atress condition, the staff of being convenient for in time stops the action that detects the pneumatic cylinder after the deformation that steel takes place surpasss expectation, thereby let the deformation condition and the intensity of reflection steel that pressure sensor's detected data can be more true, the accuracy that this kind of steel intensity detection device used for building engineering detects steel has been improved, four trundle can be convenient for the staff to remove this kind of steel intensity detection device used for building engineering, staff's physical demands has been reduced.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings required to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the description below are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 is a front view of the steel strength testing device for construction engineering of the present invention;

FIG. 2 is a cross-sectional view of FIG. 1;

FIG. 3 is a partial enlarged view of portion A of FIG. 2;

fig. 4 is a schematic structural diagram of the positioning mechanism in fig. 2.

Detailed Description

The technical solutions in the embodiments of the present application will be described clearly and completely with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only some embodiments of the present application, and not all embodiments. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments in the present application without making any creative effort belong to the protection scope of the present application.

The following is further detailed by the specific embodiments:

reference numerals in the drawings of the specification include: adjusting thread cylinder 1, adjusting threaded rod 2, fixed caster 3, positioning seat 4, limiting block 5, guide rod 6, protection box 7, transparent plate 8, moving seat 9, base 10, motor power 11, guide block 12, power threaded rod 13, detection hydraulic cylinder 14, positioning bearing 15, processing module 16, moving plate 17, pressure sensor 18, detection block 19, positioning block 20, roof 21, limiting plate 22.

The first embodiment is as follows:

the utility model discloses a concrete implementation process: the utility model provides a steel strength detection device for building engineering, as shown in FIG. 1, FIG. 2, FIG. 3 and FIG. 4, including base 10, four support columns, roof 21 and detection mechanism, four support column homogeneous end fixed connection base 10 top surfaces, other end fixed connection roof 21 bottom surfaces, detection mechanism fixes on roof 21, be provided with two positioning mechanism along base 10 central line symmetrical arrangement on the base 10 top surface, positioning mechanism includes positioning seat 4, two stopper 5, the power pack, guide bar 6, shifting block 9 and locating piece 20, the power pack includes motor power 11, power threaded rod 13 and two locating bearing 15, positioning seat 4 fixes on base 10 top surface, two stopper 5 fix respectively on positioning seat 4 top surface both ends, all set up power hole on roof 21 and the base 10 top surface, two locating bearing 15 fix respectively in two power holes, motor power 11 fixed connection roof 21, the inner circle of two locating bearing 15 of power 13 one end fixed connection, the motor shaft of other end fixed connection motor 11, guide bar 6 one end fixed connection roof 21 bottom surfaces, the other end fixed connection base 10 top surface, shift 9 one end threaded connection power threaded rod 13, the other end sliding connection threaded rod 13, two locating block 5 sliding connection threaded rod fixed connection threaded rod between the base 5.

When steel is to be fixed, a worker places the steel on the top surfaces of the two positioning seats 4 first, then the two power motors 11 are started to rotate, the two power screws 13 can be driven by the two power motors 11 to rotate together, the two power screws 13 can rotate relative to the two movable seats 9, the two guide rods 6 can prevent the two movable seats 9 from rotating, the two movable seats 9 can drive the two positioning blocks 20 to move downwards together, the two positioning blocks 20 can move downwards between the two limiting blocks 5 until the two positioning blocks 20 abut against and extrude the two ends of the top surface of the steel respectively, the worker can stop the two power motors 11 from rotating, the positions of the steel are fixed, the surface of the movable seat 9 can be coated with waterproof paint, the corrosion of moisture in the air on the movable seat 9 is reduced, the service life of the movable seat 9 is prolonged, the outer rings of the two positioning bearings 15 are fixed in the two power holes respectively, four connecting rods are fixedly arranged on the lower ends of the power motors 11, the four connecting rods are fixed on the top surface of the top plate 21, and the two power motors 11 can be servo motors.

The second embodiment:

the difference from the first embodiment is that:

a steel strength detection device for building engineering is shown in fig. 2, wherein a detection mechanism comprises a detection hydraulic cylinder 14, a movable plate 17, a movable rod, a pressure sensor 18, a detection rod, a processing module 16 and a detection block 19, the detection hydraulic cylinder 14 is fixed at the center of the top surface of a top plate 21, the free end of a piston rod of the detection hydraulic cylinder 14 penetrates through the top plate 21 and is fixedly connected with the movable plate 17, the movable rod is fixed on the bottom surface of the movable plate 17, one end of the pressure sensor 18 is fixedly connected with the movable rod, the other end of the pressure sensor is fixedly connected with the detection rod, the detection block 19 is fixed on the bottom surface of the detection rod, and the processing module 16 is fixed on the top plate 21 and is electrically connected with the pressure sensor 18.

When steel is detected, a worker fixes the steel on the two positioning seats 4 according to the steps, then the detection hydraulic cylinder 14 is started, the free end of a piston rod of the detection hydraulic cylinder 14 drives the moving plate 17, the moving rod, the pressure sensor 18, the detection rod and the detection block 19 to move downwards, the detection block 19 can abut against the steel and extrude the steel until the worker observes that the deformation of the steel exceeds a preset range, the worker can stop the detection hydraulic cylinder 14 and complete the strength detection of the steel, in the process, the pressure sensor 18 transmits the pressure data of the steel to the processing module 16, the processing module 16 is externally connected with a display and transmits the processed data to the display, the worker can know the pressure and the strength of the steel conveniently, the processing module 16 can process the pressure data transmitted by the pressure sensor 18 into the strength data of the steel, the processing module 16 can be a single chip microcomputer, and the type of the pressure sensor 18 can be PSD-S1.

Example three:

the difference from the second embodiment is that:

the utility model provides a steel intensity detection device for building engineering, as shown in fig. 1 and fig. 2, detection mechanism still includes the protection unit, the protection unit includes top surface and equal open-ended guard box 7 in bottom surface and four guide blocks 12, movable plate 17 fixed connection guard box 7 is double-phase to the inside face, guard box 7 sliding connection roof 21 and base 10, and in the roof 21 and the base 10 outside, four guide blocks 12 are fixed respectively on the double-phase to the inside face of guard box 7, and all seted up the guiding hole, four guiding holes are four support columns of sliding connection respectively.

When will detecting steel, guard box 7 and four guide blocks 12 can be along with movable plate 17 downstream together, when detecting 19 butt steel top surfaces, base 10 top surface can be in guard box 7, steel detects the back staff that finishes and starts detection pneumatic cylinder 14, detect the free end of pneumatic cylinder 14 piston rod and can take detection block 19, movable plate 17, guard box 7 and four guide blocks 12 upward movement together, height when getting back to for moving until guard box 7 bottom surface, guard box 7 bottom surface can not influence the staff and place steel, the material of guard box 7 can be the stainless steel.

Example four:

the difference from the second embodiment is that:

the utility model provides a steel strength detection device for building engineering, as shown in fig. 1, fig. 2 and fig. 3, detection mechanism still includes four regulating unit, regulating unit is including the regulation seat that is the round platform form, an adjusting thread section of thick bamboo 1 and adjusting threaded rod 2, and four adjusting threaded rod 2 are all fixed on base 10 bottom surface, and evenly arrange along base 10 central line, and four adjusting thread section of thick bamboo 1 are four adjusting threaded rod 2 of threaded connection respectively, and four regulation seats are fixed respectively on four adjusting thread section of thick bamboos 1 bottom surfaces.

When the height of base 10 will be adjusted, staff's anticlockwise rotation adjusts threaded cylinder 1, adjusts threaded cylinder 1 and can take the seat of regulation anticlockwise rotation together to take place relative rotation with adjusting threaded rod 2, adjusting threaded rod 2 can take base 10 upward movement together, staff's clockwise rotation adjusts threaded cylinder 1, adjusts threaded cylinder 1 and can take place relative rotation with adjusting threaded rod 2, adjusting threaded rod 2 can take base 10 downward movement together.

Example five:

the difference from the first embodiment is that:

the utility model provides a steel intensity detection device for building engineering, as shown in fig. 2 and fig. 4, positioning mechanism still includes two limiting plates 22 and remote controller, has all seted up the spacing groove on two stopper 5 sides, and two limiting plates 22 are fixed respectively on two opposite flanks of locating piece 20, and two spacing grooves of sliding connection respectively, and two motor power 11 are connected to the remote controller electricity.

Two limiting plates 22 can lead the reciprocating of locating piece 20, have improved the positioning accuracy of locating piece 20, can also share locating piece 20 and receive the torsion that steel produced when detecting, and the material of two limiting plates 22 all can be the stainless steel, and the remote controller can control two power motor 11 and just reverse.

Example six:

the difference from the third embodiment is that:

the utility model provides a steel intensity detection device for building engineering, as shown in fig. 1 and fig. 2, detection mechanism still includes two transparent plates 8 and four truckles 3, has all seted up the viewing aperture on 7 two opposite flank of guard box, and two transparent plates 8 are fixed respectively in two viewing apertures, and four truckles 3 are all fixed on base 10 bottom surface, and evenly arrange along base 10 central line.

The two transparent plates 8 can be made of polycarbonate, and the four fixing trundles 3 can be convenient for a worker to move the steel strength detection device for the building engineering, so that the physical consumption of the worker is reduced.

When the steel strength detection device for building engineering works, a worker places steel on the top surfaces of two positioning seats 4 first, then operates the remote controller to control two power motors 11 to rotate, the two power motors 11 can drive two power threaded rods 13 to rotate together, the two power threaded rods 13 can rotate relative to two moving seats 9, two guide rods 6 can prevent the two moving seats 9 from rotating, the two moving seats 9 can drive two positioning blocks 20 to move downwards together, the two positioning blocks 20 can move downwards between the two limiting blocks 5 until the two positioning blocks 20 abut against and extrude the two ends of the top surface of the steel respectively, the remote controller can be operated to control the two power motors 11 to stop rotating, the fixing of the position of the steel is formed, the surface of the moving seat 9 can be coated with waterproof paint, the corrosion of the moving seat 9 caused by moisture in the air is reduced, and the service life of the moving seat 9 is prolonged.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solutions of the present application, and not to limit the same; although the present application has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not necessarily depart from the spirit and scope of the corresponding technical solutions in the embodiments of the present application.

Claims (6)

1. A steel strength detection device for building engineering is characterized in that: the automatic detection device comprises a base, four support columns, a top plate and a detection mechanism, four support column homogeneous end fixed connection base top surfaces, other end fixed connection roof bottom surface, detection mechanism fixes on the roof, be provided with two positioning mechanism along base central line symmetrical arrangement on the base top surface, positioning mechanism includes the positioning seat, two stoppers, power pack, the guide bar, remove seat and locating piece, power pack includes motor power, power threaded rod and two location bearing, the positioning seat is fixed on the base top surface, two stoppers are fixed respectively on positioning seat top surface both ends, all seted up the power hole on roof and the base top surface, two location bearing fix respectively in two power holes, motor power fixed connection roof, the inner circle of two location bearing of power threaded rod one end fixed connection, other end fixed connection motor power's motor shaft, guide bar one end fixed connection roof bottom surface, other end fixed connection base top surface, remove seat one end threaded connection power threaded rod, other end sliding connection guide bar, locating piece fixed connection removes the seat bottom surface, and slide between two stoppers.

2. The steel material strength detection device for building engineering according to claim 1, characterized in that: the detection mechanism comprises a detection hydraulic cylinder, a movable plate, a movable rod, a pressure sensor, a detection rod, a processing module and a detection block, the detection hydraulic cylinder is fixed at the center of the top surface of the top plate, the free end of a piston rod of the detection hydraulic cylinder penetrates through the top plate and is fixedly connected with the movable plate, the movable rod is fixed on the bottom surface of the movable plate, one end of the pressure sensor is fixedly connected with the movable rod, the other end of the pressure sensor is fixedly connected with the detection rod, the detection block is fixed on the bottom surface of the detection rod, the processing module is fixed on the top plate, and the pressure sensor is electrically connected with the processing module.

3. The steel material strength detection device for building engineering according to claim 2, characterized in that: the detection mechanism further comprises a protection unit, the protection unit comprises a protection box with a top surface and a bottom surface which are open, and four guide blocks, the two inner side surfaces of the protection box are fixedly connected with the movable plate, the protection box is connected with the top plate and the base in a sliding mode, the four guide blocks are fixed on the two inner side surfaces of the protection box respectively outside the top plate and the base, guide holes are formed in the four guide blocks, and the four guide holes are connected with the four support columns in a sliding mode respectively.

4. The steel material strength detection device for building engineering according to claim 2, characterized in that: the detection mechanism further comprises four adjusting units, each adjusting unit comprises a round-table-shaped adjusting seat, an adjusting threaded cylinder and adjusting threaded rods, the four adjusting threaded rods are all fixed on the bottom surface of the base and are evenly arranged along the central line of the base, the four adjusting threaded cylinders are in threaded connection with the four adjusting threaded rods respectively, and the four adjusting seats are fixed on the bottom surfaces of the four adjusting threaded cylinders respectively.

5. The steel material strength detection device for building engineering according to claim 1, characterized in that: positioning mechanism still includes two limiting plates and remote controller, has all seted up the spacing groove on two stopper sides, and two limiting plates are fixed respectively on two opposite flanks of locating piece, and two spacing grooves of sliding connection respectively, and two motor power are connected to the remote controller electricity.

6. The steel material strength detection device for building engineering according to claim 4, characterized in that: detection mechanism still includes two transparent plates and four truckles, has all seted up the viewing aperture on the two opposite flank of guard box, and two transparent plates are fixed respectively in two viewing apertures, and four truckles are all fixed on the base bottom surface, and evenly arrange along the base central line.

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