CN210464850U - Anti side rigidity check out test set of a antidetonation gallows - Google Patents

Abstract

The utility model relates to an antidetonation gallows check out test set technical field specifically is an antidetonation gallows's anti side rigidity check out test set, the pillar that two vertical symmetries of upside fixedly connected with of examining test table set up, and two pillars keep away from the crossbeam that the one end fixedly connected with of examining test table transversely set up, the crossbeam be hollow structure, and be equipped with moving mechanism in the crossbeam, moving mechanism's both ends run through the crossbeam and the clamping device that two symmetries of fixedly connected with set up respectively. The utility model discloses in, through setting up moving mechanism, realize between two clamping device apart from adjustable purpose, make this device can detect the antidetonation gallows of different specifications size, it is more convenient to use, and the practicality is more sufficient, sparingly makes into, through setting up clamping device, only needs to rotate the dog, can realize the fixed of antidetonation gallows, has replaced artifical handheld fixed, uses manpower sparingly more, and is fixed more firm, and the testing result is more accurate.

Description

Anti side rigidity check out test set of a antidetonation gallows

Technical Field

The utility model relates to a gallows check out test set technical field combats earthquake specifically is an anti side rigidity check out test set of gallows combats earthquake.

Background

The earthquake-resistant support is an electromechanical engineering facility which limits the displacement of an attached electromechanical engineering facility, controls the vibration of the facility and transmits load to a bearing structure, and after earthquake-resistant reinforcement, the building is provided with various components or devices, such as water supply and drainage, fire control, heating, ventilation, air conditioning, gas, heating power, electric power, communication and the like.

In the production process of an anti-seismic support hanger, the anti-seismic detection of the anti-seismic support hanger is a crucial link, the mode of increasing gravity is generally adopted to detect the anti-seismic pressure borne by the anti-seismic support hanger in the vertical direction in the prior art, but the mode is difficult to apply to the anti-lateral rigidity detection of the anti-seismic support hanger, and the mode of manual holding is generally adopted to detect the anti-seismic detection of the anti-seismic support hanger in the prior art, the manpower is not only wasted in the mode, and the stability is not enough, so that the detection structure is not accurate enough, and the specifications of the anti-seismic support hanger are different in size, and the anti-seismic support hanger with different specifications and sizes can be detected in consideration. Accordingly, one skilled in the art provides a lateral stiffness detecting apparatus for an earthquake resistant support and hanger to solve the problems set forth in the background art.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an anti side rigidity check out test set of antidetonation gallows to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides an anti side rigidity check out test set of antidetonation gallows, is including examining test table, examine the pillar that two vertical symmetries of upside fixedly connected with set up of test table, and two pillars keep away from the crossbeam that the one end fixedly connected with of examining test table transversely set up, be hollow structure of crossbeam, and be equipped with moving mechanism in the crossbeam, moving mechanism's both ends are run through the crossbeam and are respectively the clamping device that two symmetries set up of fixedly connected with, one of them the horizontal electric hydraulic telescopic handle that sets up of lateral wall fixedly connected with of pillar, and electric hydraulic telescopic handle's drive end is located clamping device's below and fixedly connected with pressure sensor, examine the preceding lateral wall fixedly connected with of test table and electric hydraulic telescopic handle input electric connection's the control.

As a further aspect of the present invention: the moving mechanism is including fixing the horizontal pole in the crossbeam, the sliding sleeve that two symmetries set up is established and sliding connection to the cover on the horizontal pole, the last sliding opening and the lower sliding opening that the symmetry set up are seted up respectively to the upper and lower both ends lateral wall of crossbeam, and insert in going up the sliding opening and establish and sliding connection has two vertical setting's fixing bolt, two the screw hole that sets up with two fixing bolt correspondences is seted up respectively to the upside of sliding sleeve, and the end and screw hole threaded connection that insert of two fixing bolt, one side fixedly connected with slide bar of screw hole are kept away from to the sliding sleeve, and the slide bar keep away from the one end of sliding sleeve run through down sliding opening.

As a further aspect of the present invention: clamping device include with slide bar fixed connection's fixed plate, the fixed plate is hollow structure, and one side inner wall of fixed plate rotates through rotating the threaded rod that is connected with horizontal setting, the threaded rod is kept away from the one end that rotates and is run through fixed plate fixedly connected with dog, is located the fixed plate threaded connection has the nut piece on the threaded rod, the slide opening has been seted up to one side that the slide bar was kept away from to the fixed plate, the downside fixedly connected with carriage release lever of nut piece, and the one end that the nut piece was kept away from to the carriage release lever runs through slide opening and fixedly connected with movable clamp plate, the fixed plate is close to the one side fixedly connected with of slide opening and the fixed splint.

As a further aspect of the present invention: the through-hole has been seted up to one side lateral wall of fixed plate, and the threaded rod runs through the through-hole setting, the lateral wall of threaded rod is connected with the inner wall rotation of through-hole.

As a further aspect of the present invention: the control panel comprises a controller, a data processor and a display, the controller is electrically connected with the input end of the electric hydraulic telescopic rod, and the data processor is electrically connected with the input end of the pressure sensor.

As a further aspect of the present invention: four corners of the bottom wall of the detection table are fixedly connected with four universal wheels which are symmetrically arranged respectively.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model discloses in, through setting up moving mechanism, realize between two clamping device apart from adjustable purpose, make this device can detect the antidetonation gallows of different specifications size, it is more convenient to use, and the practicality is more sufficient, sparingly makes into, through setting up clamping device, only needs to rotate the dog, can realize the fixed of antidetonation gallows, has replaced artifical handheld fixed, uses manpower sparingly more, and is fixed more firm, and the testing result is more accurate.

Drawings

FIG. 1 is a schematic perspective view of an anti-lateral stiffness detection device of an anti-seismic support and hanger;

FIG. 2 is an enlarged schematic structural view of a lateral stiffness detecting apparatus of an earthquake-proof support and hanger at A in FIG. 1;

FIG. 3 is a schematic view of an internal structure of a cross beam in the lateral stiffness detection device of the anti-seismic support and hanger;

fig. 4 is a schematic structural diagram of a clamping device in lateral stiffness resistance detection equipment of an anti-seismic support and hanger.

In the figure: 1. a detection table; 2. a pillar; 3. a cross beam; 4. an electric hydraulic telescopic rod; 5. a pressure sensor; 6. a control panel; 7. a cross bar; 8. a sliding sleeve; 9. an upper sliding port; 10. a lower sliding port; 11. fixing the bolt; 12. a threaded hole; 13. a slide bar; 14. a fixing plate; 15. a rotating member; 16. a threaded rod; 17. a stopper; 18. a nut block; 19. a slide hole; 20. a travel bar; 21. moving the clamping plate; 22. fixing the clamping plate; 23. a universal wheel.

Detailed Description

Referring to fig. 1-4, in the embodiment of the present invention, an anti-lateral stiffness detecting apparatus for an anti-seismic support hanger comprises a detecting table 1, two vertically and symmetrically arranged pillars 2 are fixedly connected to the upper side of the detecting table 1, and a horizontally arranged cross beam 3 is fixedly connected to one end of the two pillars 2 away from the detecting table 1, which are all welded and fixed, the fixing is more reliable, the cross beam 3 is a hollow structure, a moving mechanism is arranged in the cross beam 3, two ends of the moving mechanism penetrate through the cross beam 3 and are respectively and fixedly connected with two symmetrically arranged clamping devices, a laterally arranged electric hydraulic telescopic rod 4 is fixedly connected to the side wall of one pillar 2, a driving end of the electric hydraulic telescopic rod 4 is located below the clamping devices and is fixedly connected with a pressure sensor 5, a control board 6 electrically connected to the input end of the electric hydraulic telescopic rod 4 is fixedly connected to the front side wall of the, the electric hydraulic telescopic rod 4 is started by controlling the control panel 6, the pressure sensor 5 is pushed to be tightly abutted against the anti-seismic support hanger until the anti-seismic support hanger deforms and breaks, the pressure sensor 5 feeds pressure data back to a display screen on the control panel 6 so that a worker can extract data, and the lateral stiffness of the anti-seismic support hanger can be detected;

in fig. 3: the moving mechanism comprises a cross rod 7 fixed in the cross beam 3, two sliding sleeves 8 which are symmetrically arranged are sleeved and slidably connected on the cross rod 7, the upper end side wall and the lower end side wall of the cross beam 3 are respectively provided with an upper sliding opening 9 and a lower sliding opening 10 which are symmetrically arranged, two vertically arranged fixing bolts 11 are inserted and slidably connected in the upper sliding opening 9, the upper sides of the two sliding sleeves 8 are respectively provided with a threaded hole 12 which is correspondingly arranged with the two fixing bolts 11, the insertion ends of the two fixing bolts 11 are in threaded connection with the threaded hole 12 and are abutted against the side wall of the cross rod 7, one side of the sliding sleeve 8 far away from the threaded hole 12 is fixedly connected with a sliding rod 13, one end of the sliding rod 13 far away from the sliding sleeve 8 penetrates through the lower sliding opening 10 and is fixedly connected with a clamping device, the fixing bolt 11 is rotated, because the fixing bolt 11 is in threaded connection with the threaded hole 12, and the axial rotation, when the fixing bolt 11 is separated from the cross rod 7, the sliding sleeve 8 can be moved on the cross rod 7 due to the sliding connection of the sliding sleeve 8 and the cross rod 7, so that the position of the clamping device is adjusted, then the fixing bolt 11 is rotated reversely, the fixing bolt 11 is abutted against the cross rod 7, the displacement of the sliding sleeve 8 can be limited, the fixing of the supporting device is realized, and the device can detect anti-seismic support hangers of different specifications and sizes;

in fig. 2 and 4: the clamping device comprises a fixed plate 14 fixedly connected with a sliding rod 13, the fixed plate 14 is of a hollow structure, the inner wall of one side of the fixed plate 14 is rotatably connected with a threaded rod 16 transversely arranged through a rotating piece 15, one end, far away from the rotating piece 15, of the threaded rod 16 penetrates through the fixed plate 14 and is fixedly connected with a stop block 17, a nut block 18 is in threaded connection with the threaded rod 16 in the fixed plate 14, one side, far away from the sliding rod 13, of the fixed plate 14 is provided with a sliding hole 19, the lower side of the nut block 18 is fixedly connected with a moving rod 20, one end, far away from the nut block 18, of the moving rod 20 penetrates through the sliding hole 19 and is fixedly connected with a moving clamp plate 21, one side, close to the sliding hole 19, of the fixed plate 14 is fixedly connected with a fixed clamp plate 22 symmetrically arranged with the moving clamp plate 21, the stop block 17 is rotated, at the moment, the axial rotation of the nut block 18 is limited by the sliding hole 19 along with the movable rod 20, so that when the threaded rod 16 rotates, the nut block 18 is forced to displace, and then the movable clamping plate 21 fixed with the movable rod 20 is driven to displace, and the anti-seismic support hanger can be fixed, so that manual handheld fixation is replaced, more labor is saved, the fixation is firmer, and the detection result is more accurate;

in fig. 4: a through hole is formed in the side wall of one side of the fixed plate 14, the threaded rod 16 penetrates through the through hole, and the outer side wall of the threaded rod 16 is rotatably connected with the inner wall of the through hole, so that the threaded rod 16 can rotate conveniently;

in fig. 1: the control panel 6 comprises a controller, a data processor and a display, the controller is electrically connected with the input end of the electric hydraulic telescopic rod 4, the data processor is electrically connected with the input end of the pressure sensor 5, the controller controls the work of the electric hydraulic telescopic rod 4 to push the pressure sensor 5 to be tightly abutted against the anti-seismic support hanger, the pressure sensor 5 feeds back the sensed pressure value to the data processor, and the display is used for displaying and recording, and the technology is the prior art, so that excessive explanation is not performed;

in fig. 1: four corners of the bottom wall of the detection table 1 are respectively fixedly connected with four universal wheels 23 symmetrically arranged, so that the displacement of the device is facilitated, the universal wheels 23 are provided with brakes, and the device is fixed.

The utility model discloses a theory of operation is: when the lateral stiffness of the anti-seismic support hanger needs to be detected, the distance between two clamping devices is adjusted according to the specification of the anti-seismic support hanger, the fixing bolt 11 is rotated, the fixing bolt 11 is in threaded connection with the threaded hole 12, the axial rotation of the sliding sleeve 8 is limited by the cross rod 7, the fixing bolt 11 moves upwards in the threaded hole 12, when the fixing bolt 11 is separated from the cross rod 7, the sliding sleeve 8 can move on the cross rod 7 due to the sliding connection of the sliding sleeve 8 and the cross rod 7, the position of the clamping devices is adjusted, then the fixing bolt 11 is rotated reversely, the fixing bolt 11 is abutted against the cross rod 7, the displacement of the sliding sleeve 8 can be limited, the fixing of the clamping devices is realized, the device can detect the anti-seismic support hangers with different specifications and sizes by realizing the purpose of adjusting the distance between the two clamping devices, and is more convenient to use, the practicability is more sufficient, and the manufacturing cost is saved;

then, two ends of the anti-seismic support hanger are placed between a movable clamping plate 21 and a fixed clamping plate 22, then a stop block 17 is rotated to drive a threaded rod 16 to rotate, a nut block 18 is in threaded connection with the threaded rod 16, a movable rod 20 fixed with the nut block 18 penetrates through a sliding hole 19, and at the moment, the axial rotation of the nut block 18 is limited by the sliding hole 19 along with the movable rod 20, so that when the threaded rod 16 rotates, the nut block 18 is forced to displace, the movable clamping plate 21 fixed with the movable rod 20 is driven to displace, the anti-seismic support hanger can be fixed, manual holding and fixing are replaced, manpower is saved, the fixing is firmer, the detection result is more accurate, after the fixing is completed, the electric hydraulic telescopic rod 4 is started by controlling the control panel 6, the pressure sensor 5 is pushed to be tightly abutted against the anti-seismic support hanger until the anti-seismic support hanger deforms and breaks, the pressure sensor 5 feeds pressure data back to a display screen on the control panel 6, and finishing the lateral stiffness detection of the anti-seismic support and hanger.

The above-mentioned, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (6)

1. The lateral stiffness resistance detection equipment of the anti-seismic support and hanger comprises a detection platform (1) and is characterized in that, the upper side of the detection table (1) is fixedly connected with two upright and symmetrical supporting columns (2), and one end of the two pillars (2) far away from the detection table (1) is fixedly connected with a transverse beam (3) which is transversely arranged, the transverse beam (3) is of a hollow structure, and a moving mechanism is arranged in the cross beam (3), two ends of the moving mechanism penetrate through the cross beam (3) and are respectively and fixedly connected with two symmetrically arranged clamping devices, the side wall of one of the pillars (2) is fixedly connected with a transversely arranged electric hydraulic telescopic rod (4), the driving end of the electric hydraulic telescopic rod (4) is positioned below the clamping device and is fixedly connected with a pressure sensor (5), the front side wall of the detection table (1) is fixedly connected with a control plate (6) electrically connected with the input end of the electric hydraulic telescopic rod (4).

2. The lateral stiffness detecting apparatus of an earthquake-resistant support and hanger according to claim 1, the moving mechanism comprises a cross rod (7) fixed in the cross beam (3), the cross rod (7) is sleeved and connected with two sliding sleeves (8) which are symmetrically arranged in a sliding way, the upper and lower end side walls of the beam (3) are respectively provided with an upper sliding opening (9) and a lower sliding opening (10) which are symmetrically arranged, two vertically arranged fixing bolts (11) are inserted and connected in the upper sliding opening (9) in a sliding manner, threaded holes (12) which are arranged corresponding to the two fixing bolts (11) are respectively arranged at the upper sides of the two sliding sleeves (8), the insertion ends of the two fixing bolts (11) are in threaded connection with the threaded holes (12), a sliding rod (13) is fixedly connected to one side of the sliding sleeve (8) far away from the threaded hole (12), and one end of the sliding rod (13) far away from the sliding sleeve (8) penetrates through the lower sliding opening (10) and is fixedly connected with the clamping device.

3. The lateral stiffness detection device of an earthquake-resistant support and hanger frame according to claim 2, wherein the clamping device comprises a fixed plate (14) fixedly connected with the sliding rod (13), the fixed plate (14) is of a hollow structure, a threaded rod (16) transversely arranged is rotatably connected to the inner wall of one side of the fixed plate (14) through a rotating member (15), one end of the threaded rod (16) far away from the rotating member (15) penetrates through the fixed plate (14) and is fixedly connected with a stop block (17), a nut block (18) is in the fixed plate (14) and is in threaded connection with the threaded rod (16), a sliding hole (19) is formed in one side of the fixed plate (14) far away from the sliding rod (13), a moving rod (20) is fixedly connected to the lower side of the nut block (18), and one end of the moving rod (20) far away from the nut block (18) penetrates through the sliding hole (19) and is fixedly connected with a, one side of the fixed plate (14) close to the sliding hole (19) is fixedly connected with a fixed clamping plate (22) which is symmetrically arranged with the movable clamping plate (21).

4. The lateral stiffness detection device of an earthquake-resistant support and hanger frame as claimed in claim 3, wherein a through hole is formed in a side wall of the fixing plate (14), the threaded rod (16) penetrates through the through hole, and an outer side wall of the threaded rod (16) is rotatably connected with an inner wall of the through hole.

5. The lateral stiffness detection device of an earthquake-resistant support and hanger frame according to claim 1, wherein the control panel (6) comprises a controller, a data processor and a display, the controller is electrically connected with the input end of the electric hydraulic telescopic rod (4), and the data processor is electrically connected with the input end of the pressure sensor (5).

6. The lateral stiffness detection device of an earthquake-proof support and hanger frame according to claim 1 is characterized in that four corners of the bottom wall of the detection platform (1) are fixedly connected with four universal wheels (23) which are symmetrically arranged respectively.

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