CN203349986U - Balance monitoring mechanism for centrifuge used in stable state acceleration test - Google Patents

Abstract

The utility model discloses a balance monitoring mechanism for a centrifuge used in a stable state acceleration test. The balance monitoring mechanism includes two connecting pieces, a bearing plate and a plurality of pressure transducers. The two connecting pieces are installed in a cavity of a centrifuge rotating arm. Each connecting piece is internally provided with a pin shaft. The central axes of the two pin shafts are superposed and the long edges of the centrifuge rotating arm are vertical to each other. The two connecting pieces are connected with a transmission piece of a centrifuge through the pin shafts respectively. The bearing plate is arranged at the lower end of the transmission piece of the centrifuge. The upper surface of the bearing plate is vertical to the central axis of the transmission piece of the centrifuge. The plural pressure sensors are arranged on the bearing plates, and the sensing ends of the plural pressure sensors are contacted with the lower surface of the centrifuge rotating arm. The balance monitoring mechanism for the centrifuge used in the stable state acceleration test changes monitoring on centrifugal forces at two ends of a rotating arm into monitoring on static moments at two ends of the rotating arm, and thus the balance monitoring mechanism is effectively simplified.

Description

Hydro-extractor balance monitoring mechanism for steady state acceleration test

Technical field

The utility model relates to a kind of steady state acceleration test hydro-extractor mechanism for monitoring, relates in particular to hydro-extractor balance monitoring mechanism for a kind of steady state acceleration test.

Background technology

Stable state acceleration simulation has become one of requisite environmental simulation technology in field such as Aero-Space, Geotechnical Engineering and electric and electronic product environmental test, but direct physical is approximate or for the prototype system subsequent analysis, steady state acceleration test also can be used as effective means of supplementing out economy of conventional design and analytical technology, is widely used in scientific research and engineering practice.

Pivoted arm (truss-frame structure) formula hydro-extractor is as realizing the most frequently used equipment of stable state acceleration simulation technology, the centrifugal force that when effectively monitoring and opertaing device move, the pivoted arm two ends produce, to eliminate the impact of out-of-balance force on main frame, the use safety of assurance equipment, be one of emphasis of Design of Centrifuge, so the practicable balance monitoring of development and design mechanism tool is of great significance always.

The balance monitoring mechanism that current domestic pivoted arm hydro-extractor uses can be divided into following two kinds by principle of work and arrangement: a kind of mode is to make pivoted arm or workbench can produce the horizontal shift deviator with respect to centrifuge principal axis under the effect of centrifugal force by the linear slide pair, balance monitoring mechanism (containing force cell) is arranged to the linear slide parafacies between two parts of motion and pretension simultaneously, thereby directly monitors the centrifugal force that the pivoted arm two ends produce; Another kind of mode is near balance monitoring mechanism is symmetricly set in to main frame installation fulcrum along centrifuge principal axis, upsetting moment main frame produced by monitoring centrifugal force, the centrifugal force that indirect monitoring pivoted arm two ends produce.

Adopt the directly mode of monitoring centrifugal force, need to be secondary reserved the installation and inspection platform of linear slide in structural design, causes hydro-extractor region of interest complex structure, and the corresponding increase due to processing capacity and man-hour, promoted manufacturing cost; Adopt the mode of indirect monitoring centrifugal force, need to make main frame in the approximate state suspended by fulcrum is installed, to the Horizontal limiting of main frame, selecting of fastening means when main frame is in place and securing member special material all has strict demand, improve manufacture difficulty, thereby increased manufacturing cost.

The utility model content

The purpose of this utility model just is to provide in order to address the above problem a kind of hydro-extractor balance monitoring mechanism for steady state acceleration test of simple in structure, low cost of manufacture.

The utility model is achieved through the following technical solutions above-mentioned purpose:

Hydro-extractor balance monitoring mechanism for a kind of steady state acceleration test, comprise two web members, bearing plate and a plurality of pressure transducer, two described web members are arranged in the cavity of hydro-extractor pivoted arm, be provided with bearing pin in described web member, the axis of two described bearing pins overlaps and is mutually vertical with the long limit of described hydro-extractor pivoted arm, two described web members are connected with the driving member of hydro-extractor by bearing pin respectively, described bearing plate is arranged on the lower end of the driving member of described hydro-extractor, the upper surface of described bearing plate is vertical with the axis of the driving member of described hydro-extractor, a plurality of described pressure transducers are arranged on described bearing plate, the induction end of a plurality of described pressure transducers contacts with the lower surface of described hydro-extractor pivoted arm.

Particularly, described pressure transducer is four, is arranged on respectively four bights of described bearing plate.

The beneficial effects of the utility model are:

Hydro-extractor balance monitoring mechanism for the utility model steady state acceleration test, will be to the monitoring of pivoted arm two ends centrifugal force, change the monitoring to pivoted arm two ends locked rotor torque into, be that pressure transducer is monitored the acting force of the vertical direction at the two ends of the pivoted arm of hydro-extractor, effectively simplify balance monitoring mechanism, reduced manufacturing cost.

The accompanying drawing explanation

Fig. 1 is the structural representation of steady state acceleration test described in the utility model with hydro-extractor balance monitoring mechanism;

Fig. 2 is the left view of steady state acceleration test described in the utility model with hydro-extractor balance monitoring mechanism.

Embodiment

Below in conjunction with accompanying drawing, the utility model is described in further detail:

As depicted in figs. 1 and 2, hydro-extractor balance monitoring mechanism for the utility model steady state acceleration test, comprise two web members 2, bearing plate 5 and a plurality of pressure transducer 4, two web members 2 are arranged in the cavity of hydro-extractor pivoted arm, be provided with bearing pin 3 in web member 2, the axis of two bearing pins 3 overlaps and is mutually vertical with the long limit of hydro-extractor pivoted arm, two web members 2 are connected with the driving member 1 of hydro-extractor by bearing pin 3 respectively, bearing plate 5 is arranged on the lower end of the driving member 1 of hydro-extractor, the upper surface of bearing plate 5 is vertical with the axis of the driving member of hydro-extractor 1, a plurality of pressure transducers 4 are arranged on bearing plate 5, the induction end of a plurality of pressure transducers 4 contacts with the lower surface of hydro-extractor pivoted arm.

Pressure transducer 4 is four, is arranged on respectively four bights of bearing plate 5.

Use the utility model steady state acceleration test as follows by the principle of work of hydro-extractor balance monitoring mechanism:

During hydro-extractor work, web member 2 forms rotating lever with respect to the driving member 1 of hydro-extractor, (the load that hydro-extractor produces the hydro-extractor pivoted arm after test specimen or counterweight are installed when any end of hydro-extractor pivoted arm loads, its direction is vertical direction), all can make the hydro-extractor pivoted arm pitching of certain angle occur, and trigger pressure transducer 4 and work, record pressure, again according to the statical moment relation formula, can under quiescent conditions, adjust distributing again of centrifugal basket arm other end architecture quality by automatic or manual mode, complete the trim at hydro-extractor pivoted arm two ends, thereby the mobile equilibrium at pivoted arm two ends while guaranteeing the hydro-extractor operation.

Claims (2)

1. hydro-extractor balance monitoring mechanism for a steady state acceleration test, it is characterized in that: comprise two web members, bearing plate and a plurality of pressure transducer, two described web members are arranged in the cavity of hydro-extractor pivoted arm, be provided with bearing pin in described web member, the axis of two described bearing pins overlaps and is mutually vertical with the long limit of described hydro-extractor pivoted arm, two described web members are connected with the driving member of hydro-extractor by bearing pin respectively, described bearing plate is arranged on the lower end of the driving member of described hydro-extractor, the upper surface of described bearing plate is vertical with the axis of the driving member of described hydro-extractor, a plurality of described pressure transducers are arranged on described bearing plate, the induction end of a plurality of described pressure transducers contacts with the lower surface of described hydro-extractor pivoted arm.

2. hydro-extractor balance monitoring mechanism for steady state acceleration test according to claim 1, it is characterized in that: described pressure transducer is four, is arranged on respectively four bights of described bearing plate.

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