CN206339352U - A kind of electromechanical equipment anti-seismic detection device - Google Patents

Abstract

The utility model discloses a kind of electromechanical equipment anti-seismic detection device, including testing stand, testing stand includes two groups of detection supports, and every group of detection support includes the middle frame of pony sill, the top-support above pony sill and connect base frame and the top-support contacted with seismic test platform；Pony sill includes being fixed with scissors support between two root bottom part longerons and some base cross members between base longerons, adjacent base crossbeam；Top-support includes two top longitudinal beams and some top cross-bars being distributed between top longitudinal beam；Middle frame includes being provided with the first brace between the vertical rod and tilting bar of connection top longitudinal beam and base longerons, neighboring vertical bar, and tilting bar is connected by outstanding montant and top longitudinal beam.Detection means simulant building is not in the case where being destroyed, in the testing stand that various pipelines are positioned towards to true earthquake, so as to detect the anti seismic efficiency of pole and suspension rod, and then greatly reduces because of the property loss and casualties that earthquake zone comes.

Description

A kind of electromechanical equipment anti-seismic detection device

Technical field

The utility model is related to testing equipment field, and in particular to a kind of electromechanical equipment anti-seismic detection device.

Background technology

Earthquake is one of natural calamity main on the earth, and China is a multiple earthquake country, especially by Wenchuan After special violent earthquake, brought about great losses to people's lives and properties.National correlation department is formulated《Build electromechanical engineering Aseismic Design Specification（GB50981-2104）》、《Build electromechanical equipment antidetonation suspension and support general technical specifications CJ/T476-2015》、《Antidetonation branch Suspension bracket is installed and control of acceptance CECS 420-2015》Etc. specification.Relevant production unit is also actively performing national regulation, production Electromechanical equipment para-seismic support.

Due to electromechanical equipment be mounted in it is architectural, it is general in fortification intensity in the building structure set according to national regulation Under will not be destroyed, if electromechanical equipment para-seismic support, suspension bracket etc. can not reach that shockproof requirements equally will also result in personnel Injures and deaths and property loss；In view of earthquake is difficult to predict, how to detect that para-seismic support is in the anti seismic efficiency of earthquake conditions One urgent problem to be solved.

Utility model content

The purpose of this utility model is to provide a kind of electromechanical equipment anti-seismic detection device, and electromechanical equipment is installed for detecting The anti-seismic performance of support, suspension bracket, and then reduce casualties and property loss.

For up to above-mentioned purpose, the technical scheme that the utility model is used is：A kind of electromechanical equipment anti-seismic detection dress is provided Put, including testing stand, testing stand includes two groups of detection supports, every group of detection support includes the base contacted with seismic test platform The middle frame of frame, the top-support above pony sill and connect base frame and top-support；Pony sill includes two foundation Scissors support is fixed between portion's longeron and some base cross members between base longerons, adjacent base crossbeam；Top branch Frame includes two top longitudinal beams and some top cross-bars being distributed between top longitudinal beam；Middle frame includes connection top Be provided with the first brace between the vertical rod and tilting bar of longeron and base longerons, neighboring vertical bar, tilting bar by outstanding montant with Top longitudinal beam is connected.

It is preferred that, two groups of detection supports are connected by connecting rod and anchor ear.

It is preferred that, tilting bar is fixedly connected by the second brace with vertical rod.

It is preferred that, it is provided with fixed plate on tilting bar, the junction of tilting bar and base longerons is provided with turning contact panel；The One end of two braces and outstanding montant is connected by fixed plate and tilting bar, and the other end of outstanding montant is with being fixed in top longitudinal beam Contact panel be connected, the other end of the second brace is connected with the contact panel on vertical rod.

It is preferred that, two groups of scissors supports are fixed between adjacent base crossbeam, every group of scissors support includes two and intersect company The second straight-bar connect, second straight-bar one end is connected by bottom connecting plate and base cross members, the other end by bottom connecting plate with The junction of base cross members and base longerons is connected, and is connected at the interconnection of the second straight-bar by vertical rod and top-support.

It is preferred that, some top cross-bars and top longitudinal beam constitute some spaces, and the first space is provided with two groups of scissors supports And two vertical poles between scissors support, scissors support intersects the first connected straight-bars by two and constitutes, and the 3rd space is set There is reinforcing frame, reinforcing frame is intersected connected long straight-bar by two and constituted, and the 4th space mounting there are some vertical poles.

It is preferred that, testing stand is isosceles trapezoidal structure, and upper bottom is 12m ~ 18m, is gone to the bottom as 4.6m ~ 6.6m, highly for 1.6m ~ 2.4m, width is 2.1m ~ 4.1m.

In summary, the utility model has advantages below：

1st, various pipelines are positioned towards by detection means simulant building of the present utility model in the case where not being destroyed In the testing stand of true earthquake, dropped so as to detect for installing the pole of electromechanical equipment and the anti seismic efficiency of suspension rod, and then significantly The low property loss and casualties come by earthquake zone.

2nd, electromechanical pipeline（Pipe arrangement 29, e framves 28, water pipe 27 etc.）It is connected by suspension rod with testing stand, can detects that suspension rod is It is no to bear vertical load；It is connected by pole and connector with testing stand, so as to detect that pole and connecting rod whether can The horizontal and vertical seismic force that earthquake is produced is resisted, and then detects that can suspension rod and pole be used for fitting machine electric pipe, is anti- The installation of shake electromechanical equipment brings great convenience.

3rd, by setting multigroup scissors support on pony sill, and two groups of scissors supports and one group are set on top-support Reinforcing frame so that testing stand has good stability, and anti-seismic performance is more preferably.

Brief description of the drawings

Fig. 1 is the side view of the utility model electromechanical equipment anti-seismic detection device；

Fig. 2 is the schematic diagram of the utility model top-support；

Fig. 3 is the schematic diagram of the utility model pony sill；

Fig. 4 is scheme of installation of the present utility model；

Wherein, 1, testing stand；2nd, middle frame；3rd, pony sill；4th, top-support；5th, base longerons；6th, vertical rod；7th, connect Bar；8th, montant is hanged；9th, the second brace；10th, the first brace；11st, tilting bar；12nd, top longitudinal beam；13rd, contact panel；14th, fixed plate； 15th, anchor ear；16th, turning contact panel；17th, the first straight-bar；18th, top cross-bar；19th, vertical pole；20th, long straight-bar；21st, scissors support； 22nd, base cross members；23rd, the second straight-bar；24th, bottom connecting plate；25th, pole；26th, suspension rod；27th, water pipe；28th, e framves；29th, pipe arrangement.

Embodiment

Embodiment of the present utility model is described in detail below in conjunction with the accompanying drawings.

In one embodiment of the present utility model, such as there is provided a kind of electromechanical equipment anti-seismic detection device shown in Fig. 1 ~ 3, Including testing stand 1, testing stand 1 includes two groups of detection supports, and every group of detection support includes the pony sill contacted with seismic test platform 3rd, located at the top-support 4 and the middle frame 2 of connect base frame 3 and top-support 4 of the top of pony sill 3；Pony sill 3 includes two Bridging is fixed between root bottom part longeron 5 and some base cross members 22 between base longerons 5, adjacent base crossbeam 22 Frame 21；Top-support 4 includes two top longitudinal beams 12 and some top cross-bars 18 being distributed between top longitudinal beam 12； Middle frame 2 includes the vertical rod 6 and tilting bar 11 of connection top longitudinal beam 12 and base longerons 5, provided with the between neighboring vertical bar 6 One brace 10, tilting bar 11 is connected by outstanding montant 8 and top longitudinal beam 12.

Optimal enforcement example of the present utility model, two groups of detection supports are connected by connecting rod 7 and anchor ear 15；Tilting bar 11 It is fixedly connected by the second brace 9 with vertical rod 6, fixed plate 14, tilting bar 11 and base longerons 5 is provided with tilting bar 11 Junction is provided with turning contact panel 16；One end of second brace 11 and outstanding montant 8 is connected by fixed plate 14 and tilting bar 11, The other end of outstanding montant 8 is connected with the contact panel being fixed in top longitudinal beam 12, on the other end and vertical rod 6 of the second brace 9 Contact panel be connected；Two groups of scissors supports 21 are fixed between adjacent base crossbeam 22, every group of scissors support includes two intersections Second straight-bar 23 of connection, one end of the second straight-bar 23 is connected by bottom connecting plate 24 and base cross members 22, and the other end passes through bottom The junction of portion's connecting plate 24 and base cross members 22 and base longerons 5 is connected, by vertical at the interconnection of the second straight-bar 23 Bar 6 is connected with top-support 4；Some top cross-bars 18 and top longitudinal beam 12 constitute some spaces, and the first space is provided with two groups Scissors support and two vertical poles 19 between scissors support, scissors support intersect 17 groups connected of the first straight-bar by two Into the 3rd space is provided with reinforcing frame, and reinforcing frame is intersected connected long straight-bar 20 by two and constituted, and the 4th space mounting has some vertical Bar；Testing stand 1 is isosceles trapezoidal structure, and upper bottom is 12m ~ 18m, goes to the bottom as 4.6m ~ 6.6m, is highly 1.6m ~ 2.4m, width is 2.1m~4.1m。

As shown in figure 4, two groups of detection supports are connected as one by anchor ear 15, the isosceles trapezoidal structure of handstand is constituted Testing stand 1, seismic test platform is positioned over by the testing stand 1 after assembling, now, in the central cavity of testing stand 1 install pipe arrangement 29, E framves 28, water pipe 27 etc., pipe arrangement 29, e framves 28, water pipe 27 are connected by pole 25 or suspension rod 26 with top longitudinal beam 5, treat each portion Point connection can be rearward, you can starts seismic test platform, the anti-seismic performance for the electromechanical equipment that dynamic detection is tested.

The present apparatus can simulate real building structure, electromechanical pipeline（Pipe arrangement 29, e framves 28, water pipe 27 etc.）Pass through suspension rod 26 are connected with this testing stand 1, can detect whether suspension rod can bear vertical load；Pass through pole 25 and connector and this detection Frame 1 is connected, so as to detect whether pole 25 and connecting rod can resist the horizontal and vertical seismic force of earthquake generation, and then is detected Can go out be used for fitting machine electric pipe, greatly reduce the loss come by earthquake zone and casualties.

Detection means of the present utility model is exactly simulant building in the case where not being destroyed, and various pipelines are placed on and connect In the environment of nearly true earthquake, in such as testing stand 1, so as to simulate the anti seismic efficiency of electromechanical equipment para-seismic support.

Although being described in detail with reference to accompanying drawing to embodiment of the present utility model, it should not be construed as pair The restriction of the protection domain of this patent.In the scope described by claims, those skilled in the art are without creative labor The dynamic various modification and variation that can be made still belong to the protection domain of this patent.

Claims (7)

1. a kind of electromechanical equipment anti-seismic detection device, it is characterised in that：Including testing stand（1）, the testing stand（1）Including two groups Support is detected, every group of detection support includes the pony sill contacted with seismic test platform（3）, top-support above pony sill （4）And the middle frame of connect base frame and top-support（2）；The pony sill（3）Including two root bottom part longerons（5）With located at Base longerons（5）Between some base cross members（22）, adjacent base crossbeam（22）Between be fixed with scissors support（21）；It is described Top-support（4）Including two top longitudinal beams（12）And it is distributed in top longitudinal beam（12）Between some top cross-bars （18）；The middle frame（2）Including connection top longitudinal beam（12）And base longerons（5）Vertical rod（6）And tilting bar（11）, phase Adjacent vertical rod（6）Between be provided with the first brace（10）, the tilting bar（11）By hanging montant（8）It is connected with top longitudinal beam.

2. electromechanical equipment anti-seismic detection device as claimed in claim 1, it is characterised in that：Two groups of detection supports pass through connecting rod （7）And anchor ear（15）It is connected.

3. electromechanical equipment anti-seismic detection device as claimed in claim 1, it is characterised in that：The tilting bar（11）Pass through second Brace（9）With vertical rod（6）It is fixedly connected.

4. electromechanical equipment anti-seismic detection device as claimed in claim 3, it is characterised in that：The tilting bar（11）On be provided with Fixed plate（14）, tilting bar（11）Turning contact panel is provided with the junction of base longerons（16）；Second brace（9）With it is outstanding Montant（8）One end pass through fixed plate（14）With tilting bar（11）It is connected, the outstanding montant（8）The other end and be fixed on top Contact panel on portion's longeron（13）It is connected, second brace（9）The other end and vertical rod（6）On contact panel be connected.

5. electromechanical equipment anti-seismic detection device as claimed in claim 1, it is characterised in that：Adjacent base crossbeam（22）Between it is solid Surely there are two groups of scissors supports（21）, every group of scissors support include the second straight-bar of two interconnections（23）, second straight-bar （23）One end passes through bottom connecting plate（24）With base cross members（22）It is connected, the other end passes through bottom connecting plate（24）With bottom transverse Beam（22）It is connected with the junction of base longerons, second straight-bar（23）Interconnection at pass through vertical rod and top-support It is connected.

6. electromechanical equipment anti-seismic detection device as claimed in claim 1, it is characterised in that：Some top cross-bars（18）And top Longeron（12）Some spaces are constituted, the first space is provided with two groups of scissors supports and two vertical poles between scissors support （19）, the scissors support is by the first connected straight-bar of two intersections（17）Composition, the 3rd space is provided with reinforcing frame, the enhancing Frame intersects connected long straight-bar by two（20）Constitute, the 4th space mounting there are some vertical poles.

7. electromechanical equipment anti-seismic detection device as claimed in claim 1, it is characterised in that：The testing stand（1）For isosceles ladder Shape structure, upper bottom is 12m ~ 18m, goes to the bottom as 4.6m ~ 6.6m, is highly 1.6m ~ 2.4m, and width is 2.1m ~ 4.1m.