CN217277306U - Auxiliary device for load detection of anti-seismic connecting component - Google Patents

Abstract

The utility model relates to an antidetonation connecting elements's auxiliary device for load detection, the base of spout is seted up including the top, and the smooth slider of locating in the spout, the spout is convex setting, the glide plane profile modeling of slider sets up in the spout, antidetonation connecting elements's auxiliary device for load detection still is including the bevel protractor of locating the slider lateral surface, and the fitting pin of connecting between base and slider, the mounting hole has been seted up at the top of slider, install the mounting that can be fixed in antidetonation connecting elements on the slider in the mounting hole, the slider slides along the spout, and the angle of the antidetonation connecting elements of adjustment installation on the slider, in order to guarantee that antidetonation connecting elements examines the load application direction of time measuring at the load. The utility model discloses can adjust the test angle of antidetonation connecting elements, and the cooperation is used in equipment such as servo universal tester of current electric liquid or electron tensile test machine, simple structure, convenient operation, and with low costs.

Description

Auxiliary device for load detection of anti-seismic connecting component

Technical Field

The utility model relates to a detection device technical field especially relates to an antidetonation connecting elements's auxiliary device for load detection.

Background

In order to implement the guidelines of 'prevention is the main' in the construction law of the people's republic of China and the earthquake-proof and disaster-reduction law of the people's republic of China, the novel product of 'earthquake-proof connecting members' is required to be applied to the earthquake-proof of the constructional engineering machine, namely the earthquake-proof connecting members are required to be used for supporting water pipes, air pipes, bridge frames and other electromechanical pipeline equipment, providing earthquake-proof support, limiting the displacement of the electromechanical engineering equipment, controlling the vibration of the equipment and transmitting the load to various components and devices on the bearing structure.

Because the detection standard of the anti-seismic connecting component is in a new development stage, the actual stress direction of the component is required to be tested in the detection parameter of 'load performance of the anti-seismic connecting component' in the standard, and the load is applied in the actual stress direction. Because no special detection equipment for the earthquake-resistant connecting component exists at present, the research and development time of equipment needing to wait for purchasing the special detection equipment is longer, and the capital investment is larger.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides an antidetonation connecting elements's auxiliary device for load detection can adjust antidetonation connecting elements's test angle, and the cooperation is used in equipment such as current servo universal tester of electricity liquid or electron tensile test machine, simple structure, convenient operation, and with low costs.

The utility model adopts the technical proposal that: the utility model provides an auxiliary device for load detection of antidetonation connecting elements, includes that the base of spout is seted up at the top to and smooth locating slider in the spout, the spout is convex setting, the glide plane profile modeling of slider in the spout sets up, auxiliary device for load detection of antidetonation connecting elements is still including locating the angle scale of slider lateral surface, and will the base with the fitting pin of connecting between the slider, in the mounting hole has been seted up at the top of slider, in install in the mounting hole and to be fixed in antidetonation connecting elements the mounting on the slider, the slider is followed the spout slides, and the adjustment install in on the slider antidetonation connecting elements's angle, in order to guarantee antidetonation connecting elements is in the direction is applyed to the load of load detection time measuring.

As a further limitation to the above technical solution, a clamping groove is formed on the slider, and the locking pin is clamped in the clamping groove.

As a further limitation to the above technical solution, the locking groove includes a first mounting clip provided adjacent to the sliding surface and a second mounting clip penetrating through the first mounting clip, a width of the first mounting clip is smaller than a width of the second mounting clip, and a head of the locking pin is engaged with the second mounting clip.

As a further limitation to the technical scheme, the locking pin is arranged in a T shape, and the outer surface of the head of the locking pin is concavely arranged in a circular arc shape.

As a further limitation to the above technical solution, two sides of the sliding groove are respectively formed with a stop to stop an outer side surface of the sliding block.

As a further limitation to the above technical solution, the mounting hole is disposed in a T shape.

As a further limitation to the above technical solution, a mounting platform is formed at the bottom of the base, and a threaded mounting hole is formed on the mounting platform.

The utility model discloses an auxiliary device for load detection of antidetonation connecting elements, the base of spout is seted up through the top, slide and locate the slider in the spout, locate the angle chi of slider lateral surface, and with the setting of the fitting pin of connecting between base and slider, the other end of the connecting elements that will antidetonate afterwards is fixed in on equipment such as current servo universal tester of electricity liquid or electron tensile test machine, can make the slider slide in the spout as required, and the angle of the antidetonation connecting elements of adjustment installation on the slider, load is applyed via equipment such as current servo universal tester of electricity liquid or electron tensile test machine afterwards, in order to guarantee that the antidetonation connecting elements is at the load application direction that load detection time measuring, moreover, the steam generator is simple in structure, and convenient operation, and low cost.

Drawings

Fig. 1 is a schematic view of an assembly structure of an auxiliary device for load detection of an anti-seismic connecting member according to the present invention;

fig. 2 is a schematic structural view of the base of the present invention;

fig. 3 is a schematic structural view of the slider of the present invention;

FIG. 4 is a top view of FIG. 3;

fig. 5 is a schematic structural view of the locking pin of the present invention;

fig. 6 is a use state diagram of the load detection auxiliary device for the anti-seismic connecting member according to the present invention.

In the figure:

1-base, 11-mounting platform, 111-threaded mounting hole, 12-sliding groove, 121-baffle table, 13-through hole, 2-sliding block, 21-clamping groove, 211-first mounting clamp, 212-second mounting clamp, 22-mounting hole, 3-locking pin and 31-outer surface of head.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Examples

An auxiliary device for load detection of an anti-seismic connecting member is disclosed in fig. 1 to 5, and comprises a base 1 with a sliding groove 12 at the top, a sliding block 2 arranged in the sliding groove 12 in a sliding manner, the sliding groove 12 is arranged in a circular arc shape, a sliding surface of the sliding block 2 is arranged along the sliding groove 12, an angle scale arranged on the outer side surface of the sliding block 2, a locking pin 3 for connecting the base 1 and the sliding block 2, a mounting hole 22 is arranged at the top of the sliding block 2, a fixing part for fixing the anti-seismic connecting member on the sliding block 2 is arranged in the mounting hole 22, the sliding block 2 slides along the sliding groove 12, the angle of the anti-seismic connecting member arranged on the sliding block 2 is adjusted, so as to ensure the load application direction of the anti-seismic connecting member during load detection, in the embodiment, the angle scale is not shown in the figure, and the angle scale is fixed as a scale with an angle, is fixed on one outer side surface of the sliding block 2.

Specifically, as shown in fig. 1 and fig. 2, a mounting platform 11 is formed at the bottom of a base 1, a threaded mounting hole 111 is formed on the mounting platform 11, specifically, the base 1 includes the mounting platform 11 and a supporting body which are integrally formed, in this embodiment, the supporting body is arranged in a shape similar to a Y, the threaded mounting holes 111 are two groups, which are arranged at two sides of the supporting body, the base 1 is fixed on a lower beam steel plate of an electro-hydraulic servo universal testing machine or an electronic tensile testing machine in the prior art through bolts mounted in the threaded mounting holes 111 and locking nuts, so as to reduce the influence of an offset load on an auxiliary device for load detection of an anti-vibration connecting member in a detection process, in this embodiment, a chute 12 is formed at the top of the supporting body, so as to better form a stop for an outer side surface of a slider 2, and stop platforms 121 are respectively formed at two sides of the chute 12, in addition, in order to facilitate the installation of the locking pin 3, a through hole 13 is formed in the base 1, i.e., the supporting body, and specifically, the through hole 13 penetrates through the thickness direction of the supporting body.

As shown in fig. 1 and fig. 3 and fig. 4, the sliding surface of the slider 2 is configured to be contoured to the sliding groove 12, that is, the sliding surface of the slider 2 is also configured in an arc shape, so as to facilitate installation of the locking pin 3, a clamping groove 21 is formed on the slider 2, the locking pin 3 is clamped in the clamping groove 21, specifically, the clamping groove 21 includes a first installation clamp 211 formed adjacent to the sliding surface, and a second installation clamp 212 penetrating through the first installation clamp 211, the width of the first installation clamp 211 is smaller than that of the second installation clamp 212, and the head of the locking pin 3 is clamped in the second installation clamp 212, in this embodiment, the clamping groove 21 penetrates through the length direction of the slider 2.

For the installation of the connecting elements of combatting earthquake, seted up mounting hole 22 at the top of slider 2 for the installation of antidetonation, it is concrete, mounting hole 22 is the setting of T font, and during the installation, the circular port has been seted up to the one end of antidetonation connecting elements, aligns mounting hole 22 with circular port to the head of installation mounting in mounting hole 22, the other end of mounting is worn out mounting hole 22, circular port in proper order and via nut locking can.

As shown in fig. 1 and fig. 5, the locking pin 3 is arranged in a T shape, and in order to ensure that the outer surface 31 of the head of the locking pin 3 is attached to the slot 21, the outer surface 31 of the head of the locking pin 3 is recessed and arranged in a circular arc shape.

When the device is used, as shown in fig. 6, a steel bar with the strength of Q355 and the diameter of 16mm is installed on a lower clamp of an electro-hydraulic servo universal testing machine or an electronic tensile testing machine in the prior art, the other end of the steel bar is connected with one end of an anti-seismic connecting member, the other end of the anti-seismic connecting member is connected with a sliding block 2, an installation platform 11 of a base 1 is installed on a lower cross beam steel plate of the testing machine, the sliding block 2 slides in a sliding groove 12, after the required angle is adjusted (the angle is determined according to the actual stress direction of the anti-seismic connecting member, and the angle ruler is adjusted), the sliding block 2 and the base 1 are fixed by a locking pin 3, so that the angle adjustment of the anti-seismic connecting member is realized, and then the anti-seismic connecting member is loaded by the electro-hydraulic servo universal testing machine or the electronic tensile testing machine in the prior art, so that detection is realized.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be covered by the present invention within the technical scope of the present invention, and the technical solution obtained by replacing or changing the technical idea of the present invention with equivalents.

Claims (7)

1. An auxiliary device for load detection of an anti-seismic connecting member, characterized in that: the base of spout is seted up including the top to and smooth locating slider in the spout, the spout is convex setting, the glide plane profile modeling of slider in the spout sets up, the auxiliary device for the load detection of antidetonation connecting elements is still including locating the bevel protractor of slider lateral surface, and will the base with the fitting pin of connecting between the slider, in the mounting hole has been seted up at the top of slider, in install in the mounting hole and to be fixed in antidetonation connecting elements the mounting on the slider, the slider is followed the spout slides, and the adjustment install in on the slider the angle of antidetonation connecting elements is in order to guarantee the direction is applyed to the load of antidetonation connecting elements when the load detects.

2. The auxiliary device for load detection of an earthquake-resistant connection member according to claim 1, wherein: a clamping groove is formed in the sliding block, and the locking pin is clamped in the clamping groove.

3. The auxiliary device for load detection of an earthquake-resistant connecting member according to claim 2, wherein: the clamping groove comprises a first installation clamp and a second installation clamp, the first installation clamp is arranged adjacent to the sliding surface, the second installation clamp is communicated with the first installation clamp, the width of the first installation clamp is smaller than that of the second installation clamp, and the head of the locking pin is clamped in the second installation clamp.

4. The auxiliary device for load detection of an earthquake-resistant connecting member according to claim 2, wherein: the locking pin is arranged in a T shape, and the outer surface of the head of the locking pin is concave inwards and arranged in a circular arc shape.

5. The auxiliary device for load detection of an earthquake-resistant connecting member according to claim 1 or 2, wherein: and blocking platforms are respectively formed on two sides of the sliding groove so as to block the outer side surface of the sliding block.

6. The auxiliary device for load detection of an earthquake-resistant connecting member according to claim 1, wherein: the mounting hole is arranged in a T shape.

7. The auxiliary device for load detection of an earthquake-resistant connecting member according to claim 1, wherein: and a mounting platform is formed at the bottom of the base, and a threaded mounting hole is formed in the mounting platform.

Images