CN213544255U - Building structure spare tie point intensity detection device - Google Patents

Abstract

The utility model discloses a building structure tie point intensity detection device, including the install bin, rotate the bearing base, detect the support frame, load case, electronic hydraulic rod, mounting fixture, host computer, radiator, bearing plate, height adjusting device, anchor clamps drive arrangement, bearing base drive arrangement, detection device, grabbing device and control panel. The utility model belongs to the technical field of building structure spare strength test, specifically a building structure spare tie point intensity detection device, can detect to the tie point of co-altitude not through high adjusting device, and anchor clamps drive arrangement can detect the tie point of equidimension not, building structure spare tie point intensity detection device's work efficiency has been improved, can control the fixed and rotation that detect the support frame through bearing base drive arrangement, building structure spare tie point intensity detection device's use experience has been improved, building structure spare tie point intensity detection device's utilization ratio has been improved.

Description

Building structure spare tie point intensity detection device

Technical Field

The utility model belongs to the technical field of building structure intensity test, specifically indicate a building structure tie point intensity detection device.

Background

The structural member can become various members of a building installation project entity after hoisting, assembling and installing in the construction process of the building installation project. With the development of decorative building technology, a large number of concrete prefabricated parts such as high-strength bolts, anchoring parts and the like in the building are applied to building engineering, and the prefabricated parts play an important role in subsequent construction, so that the strength of connecting points of the prefabricated parts must meet certain requirements to ensure the quality and safety of the subsequent construction. In the prior art, the detection of the connection point of the concrete prefabricated part in the fabricated building is generally carried out in a mode of manually knocking by a hammer or in a gantry type frame body with a sensor, because the impact force of the hammer directly acts on the connecting piece when the detection is carried out in a manual knocking detection mode, the structural part is easy to damage, the service life of the structural part is reduced, the fluctuation of the acting force exerted on the structural part by knocking by the hammer is large, the stress condition of the building in a natural vibration state cannot be effectively simulated, the force application direction of the hammer is single, and the detection effect is poor; when detecting through the support body mode, only can realize the removal of direction from top to bottom, often only stop on drawing the capability test to the test of structure, if need carry out the torsion test to the structure, need change torsion test equipment again, therefore whole testing process is comparatively complicated, inefficiency, intensity of labour is big, different equipment need be used in different tests, and the equipment commonality is low, consequently has provided a new building structure tie point intensity detection device.

SUMMERY OF THE UTILITY MODEL

To the above situation, for overcoming prior art's defect, the utility model provides a building structure tie point intensity detection device, can detect to the tie point of co-altitude not through high adjusting device, and anchor clamps drive arrangement can detect the tie point of equidimension not, building structure tie point intensity detection device's work efficiency has been improved, can control through bearing base drive arrangement and detect the fixed and rotation of detection support frame, building structure tie point intensity detection device's use experience has been improved, building structure tie point intensity detection device's utilization ratio has been improved.

The utility model adopts the following technical scheme: the utility model relates to a building structure spare tie point intensity detection device, including install bin, rotation bearing base, detection support frame, loading case, electronic hydraulic push rod, mounting fixture, host computer, radiator, bearing plate, height adjusting device, anchor clamps drive arrangement, bearing base drive arrangement, detection device, grabbing device and control panel, rotation bearing base locates in the install bin, detection support frame locates on rotation bearing base, loading case locates on the detection support frame, electronic hydraulic push rod locates on the detection support frame, mounting fixture locates on electronic hydraulic push rod, the host computer locates in the install bin, the radiator locates in the install bin, the bearing plate locates on the lower wall of install bin, height adjusting device locates on the detection support frame, anchor clamps drive arrangement locates on the detection support frame, the bearing base driving device is arranged in the installation box, the detection device is arranged on the loading box, the gripping device is arranged on the installation box, and the control panel is arranged on the installation box.

Further, the height adjusting device comprises a height adjusting screw, a sliding limiting rod and a height adjusting motor, the height adjusting screw is arranged in the detection support frame, the sliding limiting rod is arranged in the detection support frame, and the height adjusting motor is arranged on the height adjusting screw.

Further, anchor clamps drive arrangement is including going up and down solid fixed sliding block, anchor clamps adjustment axis of rotation, anchor clamps adjustment rotating gear, anchor clamps adjustment drive gear and anchor clamps adjustment driving motor, go up and down solid fixed sliding block and locate on height-adjusting screw and the slip gag lever post, anchor clamps adjustment axis of rotation is located on the solid fixed sliding block that goes up and down, anchor clamps adjustment rotating gear locates in the anchor clamps adjustment axis of rotation, anchor clamps adjustment drive gear meshing is connected on anchor clamps adjustment rotating gear, anchor clamps adjustment driving motor locates on the solid fixed sliding block that goes up and down, and is connected with anchor clamps adjustment drive gear.

Further, bearing base drive arrangement is including rotating post, driven gear, motor fixed plate, rotation motor and driving gear, it locates in the install bin to rotate the post, driven gear locates on rotating the post, the motor fixed plate is located on the bearing plate, it locates on the motor fixed plate to rotate the motor, the driving gear is located on rotating the motor, the driving gear is connected with driven gear meshing.

Further, the detection device comprises a transverse moving screw rod, a sleeve moving ring, a transverse moving motor, a telescopic electric push rod, a building structural member push plate, a torsion sensor, a lifting electric hydraulic push rod, a shock absorber, a building structural member placing plate and a pressure sensor, the transverse moving screw is arranged in the loading box, the sleeve moving ring is arranged on the transverse moving screw, the transverse moving motor is arranged on the sleeve moving ring, the telescopic electric push rod is arranged on the transverse moving motor, the building structural member push plate is arranged on the telescopic electric push rod, the torsion sensor is arranged on the building structural member push plate, the lifting electric hydraulic push rod is arranged on the upper wall of the installation box, the shock absorber is arranged on the lifting electric hydraulic push rod, the building structural member placing plate is arranged on the shock absorber, and the pressure sensor is arranged on the building structural member placing plate.

Further, grabbing device includes rotating base, bracing piece, first dwang, second dwang, snatchs the head and snatchs the controller, rotating base locates on the install bin, the bracing piece is located on rotating base, first dwang is articulated to be located on the bracing piece, the second dwang is articulated to be located on the first dwang, snatch the head and locate on the second dwang, snatch the controller and locate on the first dwang.

Further, control panel includes electronic display screen, altitude mixture control motor control key, anchor clamps adjustment driving motor control key, rotates motor control key, lateral shifting motor control key and snatchs the controller control key, electronic display screen, altitude mixture control motor control key, anchor clamps adjustment driving motor control key, rotation motor control key, lateral shifting motor control key and snatch the controller control key and all locate on the install bin.

Further, be equipped with buffering laminating layer on the mounting fixture, altitude mixture control motor control key, anchor clamps adjustment driving motor control key, rotation motor control key, lateral shifting motor control key and snatch the controller control key and be connected with altitude mixture control motor, anchor clamps adjustment driving motor, rotation motor, lateral shifting motor and snatch the controller electricity respectively.

Adopt above-mentioned structure the utility model discloses the beneficial effect who gains as follows: this scheme building structure tie point intensity detection device, can detect to the tie point of co-altitude not through high adjusting device, and anchor clamps drive arrangement can detect the tie point of equidimension not, building structure tie point intensity detection device's work efficiency has been improved, can control the fixed and rotation that detect the support frame through bearing base drive arrangement, building structure tie point intensity detection device's use experience has been improved, building structure tie point intensity detection device's utilization ratio has been improved.

Drawings

Fig. 1 is a front sectional view of the device for detecting strength of a connection point of a building structural member of the present invention;

fig. 2 is the utility model relates to a cross-sectional view is looked to building structure tie point intensity detection device's right side.

Wherein, 1, an installation box, 2, a rotary bearing base, 3, a detection support frame, 4, a loading box, 5, an electric hydraulic push rod, 6, a fixed clamp, 7, a host, 8, a radiator, 9, a bearing plate, 10, a height adjusting device, 11, a clamp driving device, 12, a bearing base driving device, 13, a detection device, 14, a gripping device, 15, a control panel, 16, a height adjusting screw rod, 17, a sliding limiting rod, 18, a height adjusting motor, 19, a lifting fixed slide block, 20, a clamp adjusting rotating shaft, 21, a clamp adjusting rotating gear, 22, a clamp adjusting driving gear, 23, a clamp adjusting driving motor, 24, a rotating column, 25, a driven gear, 26, a motor fixing plate, 27, a rotating motor, 28, a driving gear, 29, a transverse moving screw rod, 30, a sleeve moving ring, 31, a transverse moving motor, 32, a telescopic electric push rod, 33. building structure pushing plate, 34, torque sensor, 35, lifting electric hydraulic push rod, 36, shock absorber, 37, building structure placing plate, 38, pressure sensor, 39, rotating base, 40, support rod, 41, first rotating rod, 42, second rotating rod, 43, grabbing head, 44, grabbing controller, 45, electronic display screen, 46, height adjusting motor control key, 47, clamp adjusting driving motor control key, 48, rotating motor control key, 49, transverse moving motor control key, 50, grabbing controller control key, 51, buffering laminating layer.

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments; based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in the figures 1-2, the utility model relates to a building structure member connection point strength detection device, which comprises an installation box 1, a rotary bearing base 2, a detection support frame 3, a loading box 4, an electric hydraulic push rod 5, a fixing clamp 6, a main machine 7, a radiator 8, a bearing plate 9, a height adjustment device 10, a clamp driving device 11, a bearing base driving device 12, a detection device 13, a gripping device 14 and a control panel 15, wherein the rotary bearing base 2 is arranged in the installation box 1, the detection support frame 3 is arranged on the rotary bearing base 2, the loading box 4 is arranged on the detection support frame 3, the electric hydraulic push rod 5 is arranged on the detection support frame 3, the fixing clamp 6 is arranged on the electric hydraulic push rod 5, the main machine 7 is arranged in the installation box 1, the radiator 8 is arranged in the installation box 1, the bearing plate 9 is arranged on the lower wall of the installation box 1, the height adjusting device 10 is arranged on the detection support frame 3, the fixture driving device 11 is arranged on the detection support frame 3, the bearing base driving device 12 is arranged in the installation box 1, the detection device 13 is arranged on the loading box 4, the gripping device 14 is arranged on the installation box 1, and the control panel 15 is arranged on the installation box 1.

The height adjusting device 10 comprises a height adjusting screw 16, a sliding limiting rod 17 and a height adjusting motor 18, the height adjusting screw 16 is arranged in the detection support frame 3, the sliding limiting rod 17 is arranged in the detection support frame 3, and the height adjusting motor 18 is arranged on the height adjusting screw 16.

The fixture driving device 11 comprises a lifting fixing slide block 19, a fixture adjusting rotating shaft 20, a fixture adjusting rotating gear 21, a fixture adjusting driving gear 22 and a fixture adjusting driving motor 23, the lifting fixing slide block 19 is arranged on the height adjusting screw rod 16 and the sliding limiting rod 17, the fixture adjusting rotating shaft 20 is arranged on the lifting fixing slide block 19, the fixture adjusting rotating gear 21 is arranged on the fixture adjusting rotating shaft 20, the fixture adjusting driving gear 22 is meshed with the fixture adjusting rotating gear 21, and the fixture adjusting driving motor 23 is arranged on the lifting fixing slide block 19 and is connected with the fixture adjusting driving gear 22.

Bearing base drive arrangement 12 includes rotation post 24, driven gear 25, motor fixed plate 26, rotation motor 27 and driving gear 28, rotation post 24 is located in install bin 1, driven gear 25 is located on rotation post 24, motor fixed plate 26 is located on bearing plate 9, rotation motor 27 is located on motor fixed plate 26, driving gear 28 is located on rotating motor 27, driving gear 28 is connected with driven gear 25 meshing.

The detection device 13 comprises a transverse moving screw 29, a sleeve moving ring 30, a transverse moving motor 31, a telescopic electric push rod 32, a building structural part push plate 33, a torque sensor 34, a lifting electric hydraulic push rod 35, a shock absorber 36, a building structural part placing plate 37 and a pressure sensor 38, wherein the transverse moving screw 29 is arranged in the loading box 4, the sleeve moving ring 30 is arranged on the transverse moving screw 29, the transverse moving motor 31 is arranged on the sleeve moving ring 30, the telescopic electric push rod 32 is arranged on the transverse moving motor 31, the building structural part push plate 33 is arranged on the telescopic electric push rod 32, the torque sensor 34 is arranged on the building structural part push plate 33, the lifting electric hydraulic push rod 35 is arranged on the upper wall of the installation box 1, the shock absorber 36 is arranged on the lifting electric hydraulic push rod 35, and the building structural part placing plate 37 is arranged on the shock absorber 36, the pressure sensor 38 is provided on the building structure placing plate 37.

Grabbing device 14 includes rotating base 39, bracing piece 40, first dwang 41, second dwang 42, snatchs head 43 and snatchs controller 44, rotating base 39 is located on install bin 1, bracing piece 40 is located on rotating base 39, first dwang 41 articulates and locates on bracing piece 40, second dwang 42 articulates and locates on first dwang 41, snatch head 43 and locate on second dwang 42, snatch controller 44 and locate on first dwang 41.

Control panel 15 includes electronic display 45, altitude mixture control motor control key 46, anchor clamps adjustment driving motor control key 47, rotates motor control key 48, lateral shifting motor control key 49 and snatchs controller control key 50, electronic display 45, altitude mixture control motor control key 46, anchor clamps adjustment driving motor control key 47, rotation motor control key 48, lateral shifting motor control key 49 and snatch controller control key 50 and all locate on install bin 1.

The fixing clamp 6 is provided with a buffering laminating layer 51, and the height adjusting motor control key 46, the clamp adjusting driving motor control key 47, the rotating motor control key 48, the transverse moving motor control key 49 and the grabbing controller control key 50 are respectively and electrically connected with the height adjusting motor 18, the clamp adjusting driving motor 23, the rotating motor 27, the transverse moving motor 31 and the grabbing controller 44.

When the device is used specifically, a user firstly controls the grabbing device 14 to place a detected connection point on the building structural part placing plate 37 through the control panel 15, then presses the control key of the height adjusting motor 18 to adjust the height of the fixing clamp 6, presses the control key 47 of the clamp adjusting driving motor to control the fixing clamp 6 to clamp the connection point, then the telescopic electric push rod 32 and the lifting electric hydraulic push rod 35 perform pushing and pressing strength test on the connection point, then the test result is displayed on the electronic display screen 45 through the pressure sensor 38, if torque test is needed, the rotating motor control key 48 is pressed to start the driving gear 28, so that the driven gear 25 is driven to operate, the rotating column 24 rotates through the driven gear 25 to rotate the detection support frame 3, at the moment, the lifting electric hydraulic push rod 35 rotates, and the telescopic electric push rod 32 is fixed. It is above that the utility model discloses holistic work flow, when using next time repeat this step can.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

The present invention and the embodiments thereof have been described above, but the description is not limited thereto, and the embodiment shown in the drawings is only one of the embodiments of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should understand that they should not be limited to the embodiments described above, and that they can design the similar structure and embodiments without departing from the spirit of the invention.

Claims (8)

1. The utility model provides a building structure spare tie point intensity detection device which characterized in that: comprises an installation box, a rotary bearing base, a detection support frame, a loading box, an electric hydraulic push rod, a fixing clamp, a host machine, a radiator, a bearing plate, a height adjusting device, a clamp driving device, a bearing base driving device, a detection device, a gripping device and a control panel, wherein the rotary bearing base is arranged in the installation box, the detection support frame is arranged on the rotary bearing base, the loading box is arranged on the detection support frame, the electric hydraulic push rod is arranged on the detection support frame, the fixing clamp is arranged on the electric hydraulic push rod, the host machine is arranged in the installation box, the radiator is arranged in the installation box, the bearing plate is arranged on the lower wall of the installation box, the height adjusting device is arranged on the detection support frame, the clamp driving device is arranged on the detection support frame, the bearing base driving device is arranged in the installation box, and the detection device is arranged on the loading box, the gripping device is arranged on the installation box, and the control panel is arranged on the installation box.

2. The apparatus for detecting the strength of the connecting point of the building structural member according to claim 1, wherein: the height adjusting device comprises a height adjusting screw, a sliding limiting rod and a height adjusting motor, the height adjusting screw is arranged in the detection support frame, the sliding limiting rod is arranged in the detection support frame, and the height adjusting motor is arranged on the height adjusting screw.

3. The apparatus for detecting the strength of the connecting point of the building structural member according to claim 2, wherein: the fixture driving device comprises a lifting fixing slider, a fixture adjusting rotating shaft, a fixture adjusting rotating gear, a fixture adjusting driving gear and a fixture adjusting driving motor, wherein the lifting fixing slider is arranged on the height adjusting screw rod and the sliding limiting rod, the fixture adjusting rotating shaft is arranged on the lifting fixing slider, the fixture adjusting rotating gear is arranged on the fixture adjusting rotating shaft, the fixture adjusting driving gear is meshed with the fixture adjusting rotating gear, and the fixture adjusting driving motor is arranged on the lifting fixing slider and is connected with the fixture adjusting driving gear.

4. The apparatus for detecting the strength of the connecting point of the building structural member according to claim 3, wherein: the bearing base driving device comprises a rotating column, a driven gear, a motor fixing plate, a rotating motor and a driving gear, wherein the rotating column is arranged in the installation box, the driven gear is arranged on the rotating column, the motor fixing plate is arranged on the bearing plate, the rotating motor is arranged on the motor fixing plate, the driving gear is arranged on the rotating motor, and the driving gear is meshed with the driven gear.

5. The apparatus for detecting the strength of the connecting point of the building structural member as claimed in claim 4, wherein: the detection device comprises a transverse moving screw, a sleeve moving ring, a transverse moving motor, a telescopic electric push rod, a building structural member push plate, a torsion sensor, a lifting electric hydraulic push rod, a shock absorber, a building structural member placing plate and a pressure sensor, the transverse moving screw is arranged in the loading box, the sleeve moving ring is arranged on the transverse moving screw, the transverse moving motor is arranged on the sleeve moving ring, the telescopic electric push rod is arranged on the transverse moving motor, the building structural member push plate is arranged on the telescopic electric push rod, the torsion sensor is arranged on the building structural member push plate, the lifting electric hydraulic push rod is arranged on the upper wall of the installation box, the shock absorber is arranged on the lifting electric hydraulic push rod, the building structural member placing plate is arranged on the shock absorber, and the pressure sensor is arranged on the building structural member placing plate.

6. The apparatus for detecting the strength of the connecting point of the building structural member as claimed in claim 5, wherein: the grabbing device comprises a rotating base, a supporting rod, a first rotating rod, a second rotating rod, a grabbing head and a grabbing controller, wherein the rotating base is arranged on the installation box, the supporting rod is arranged on the rotating base, the first rotating rod is hinged to the supporting rod, the second rotating rod is hinged to the first rotating rod, the grabbing head is arranged on the second rotating rod, and the grabbing controller is arranged on the first rotating rod.

7. The apparatus for detecting the strength of the connecting point of the building structural member as claimed in claim 6, wherein: control panel includes electronic display screen, altitude mixture control motor control key, anchor clamps adjustment driving motor control key, rotates motor control key, lateral shifting motor control key and snatchs the controller control key, electronic display screen, altitude mixture control motor control key, anchor clamps adjustment driving motor control key, rotation motor control key, lateral shifting motor control key and snatch the controller control key and all locate on the install bin.

8. The apparatus for detecting the strength of the connecting point of the building structural member according to claim 7, wherein: the fixture is characterized in that a buffer laminating layer is arranged on the fixture, and the height adjusting motor control key, the fixture adjusting driving motor control key, the rotating motor control key, the transverse moving motor control key and the grabbing controller control key are respectively electrically connected with the height adjusting motor, the fixture adjusting driving motor, the rotating motor, the transverse moving motor and the grabbing controller.

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