CN203365062U - Loom axial position deviation monitoring system - Google Patents

Abstract

The utility model provides a loom axial position deviation monitoring system which comprises a revolving body and a pedestal pivotally placing the revolving body. Two ends of the revolving body are respectively provided with positioning members which are used for positioning centers of the two ends of the revolving body. Positioning members comprise positioning pins which are arranged in the centers of the two ends of the revolving body. The positioning pins are arranged on the axis of the revolving body. The positioning members are provided with monitoring members which are used for determining whether the positioning members are deviated. Each monitoring member comprises a reflecting plate which penetrates through the corresponding revolving body axis and a rotation base stand which bears and adjusts position of the reflecting plate. One end of the revolving body is provided with an optical sending head and an optical receiving head which are arranged on the same side. Vibration of the revolving body is utilized to vibrate the reflecting plate so that transmission of light rays is affected. Strength of the light rays received by the optical receiving head is analyzed so that working state of the revolving body is greatly monitored.

Description

The biased monitoring system of moving of loom shaft

Technical field

The utility model relates to the loom monitoring apparatus field, especially, is a kind of monitoring system of monitoring the skew of loom rotating shaft position.

Background technology

Comprise a large amount of parts that rotate in textile machine commonly used, such as rotor of various transmission shafts, main shaft, motor etc., be referred to as solid of revolution.The pressure that bearing is produced is the same when not rotating solid of revolution when rotation in ideal conditions, and such solid of revolution is the solid of revolution of balance.Various solid of revolution in engineering, due to material is inhomogeneous or blank defect, processing and assembling in the error that produces, and the wearing and tearing in normal operation, make solid of revolution when rotated, the centrifugal intertia force that on it, each small particle produces can not be cancelled out each other, centrifugal intertia force is applied on machinery and basis thereof by bearing, cause vibration, produced noise, accelerate bearing wear, shorten mechanical life, when serious, can damage incidents.For this reason, must make rotor keep balance, make its balance accuracy grade that reaches permission, or make so the mechanical vibration amplitude that produces is fallen in allowed limits.

Usually the mode that adopts the vibration of actual observation loom or distinguish the noise of loom in the machinery of loom type judges the whether maintenance balance of the solid of revolution parts of loom, and mode that a lot of looms employings be fixed on ground heavier due to the weight of loom itself is difficult to produce while making the weaving machine turning body that imbalance occur to be vibrated, and the larger noise of loom makes the noise impalpable that solid of revolution occurs because of imbalance simultaneously.

Summary of the invention

In order to address the above problem, the purpose of this utility model is to provide a kind of loom shaft the biased monitoring system of moving, and this loom shaft is biased moves the equilibrium state that monitoring system is effectively monitored each solid of revolution on loom.

The utility model solves the technical scheme that its technical matters adopts:

This loom shaft is biased moves the pedestal that monitoring system comprises solid of revolution and the described solid of revolution of hub setting, the two ends of described solid of revolution are respectively arranged with the align member at center, described solid of revolution two ends, location, described align member comprises the pilot pin at center, described solid of revolution two ends, described pilot pin is arranged on the axis of described solid of revolution, be provided with on described align member and determine whether described align member the monitoring member of skew occurs, described monitoring member comprises through reflecting plate and the carrying of corresponding described solid of revolution axis and adjusts the rotation base station of described reflecting plate position, described rotation base station carries the plane layout of described reflecting plate on the axis of described pilot pin, described rotation base station and described pilot pin are rotationally connected, be provided with the elastic component of the described rotation base corner of table degree of locking between described rotation base station and described pedestal, described solid of revolution one end that is positioned at the same side is provided with optical emitting head and optics Receiver, the light that described optical emitting hair is penetrated enters described optics Receiver after each described baffle reflection.

As preferably, in described rotation base station, be provided with electronic gyroscope.

As preferably, described elastic component is elastic webbing.

As preferably, described optical emitting head and described optics Receiver are integral type, and the described reflecting plate of last piece of the light process that described optical emitting hair is penetrated is perpendicular to incident ray, and incident ray Jing Yuan returns on road.

The utility model has the advantage of:

When imbalance occurs because of wearing and tearing in described solid of revolution, vibration-generating when described solid of revolution rotates, described vibration conducts on described rotation base station through described pilot pin, drive described reflecting plate vibration, the light that described optical emitting hair is penetrated can not arrive described optics Receiver, and the power that receives light by analyzing described optics Receiver is well monitored the duty of solid of revolution.

The accompanying drawing explanation

Fig. 1 is the biased side-looking structural representation that moves monitoring system of this loom shaft;

Fig. 2 is the biased structural representation of facing that moves monitoring system of this loom shaft.

In figure: 100, solid of revolution; 110, reflecting plate; 120, electronic gyroscope; 200, pilot pin; 300, elastic component; 400, pedestal; 500, optical emitting head.

Embodiment

Below in conjunction with drawings and Examples, the utility model is further illustrated:

Consult Fig. 1 and Fig. 2, in the present embodiment, this loom shaft is biased moves the pedestal 400 that monitoring system comprises solid of revolution 100 and the described solid of revolution of hub setting, the two ends of described solid of revolution 100 are respectively arranged with the align member at described solid of revolution 100 centers, two ends, location, described align member comprises the pilot pin 200 at described solid of revolution 100 centers, two ends, described pilot pin 200 is arranged on the axis of described solid of revolution 100, be provided with on described align member and determine whether described align member the monitoring member of skew occurs, described monitoring member comprises the reflecting plate 110 and the rotation base station 100 that carries and adjust described reflecting plate 110 positions through corresponding described solid of revolution 100 axis, the plane layout of the described reflecting plate 110 of described rotation base station 100 carrying is on the axis of described pilot pin 200, described rotation base station 100 is rotationally connected with described pilot pin 200, 400 of described rotation base station 100 and described pedestals are provided with the elastic component 300 of described rotation base station 100 angles of locking, described solid of revolution 100 1 ends that are positioned at the same side are provided with optical emitting 500 and optics Receiver, the light of described optical emitting 500 emission enters described optics Receiver after each described reflecting plate 110 reflections.

The biased monitoring system of moving of above-mentioned loom shaft, be provided with electronic gyroscope 120 in described rotation base station 100, and described electronic gyroscope can be monitored the axially-movable of described solid of revolution 100.

The biased monitoring system of moving of above-mentioned loom shaft, described elastic component 300 is elastic webbing, the elastic webbing cost is lower and be convenient to change.

The biased monitoring system of moving of above-mentioned loom shaft, described optical emitting 500 and described optics Receiver are integral type, the described reflecting plate 110 of last piece of the light process of described optical emitting 500 emission is perpendicular to incident ray, incident ray Jing Yuan returns on road, and the design of integral type can reduce wiring and simplify the structure of whole device.

The biased working method of moving monitoring system of above-mentioned loom shaft:

When imbalance occurs because of wearing and tearing in described solid of revolution 100, vibration-generating when described solid of revolution rotates, described vibration conducts on described rotation base station 100 through described pilot pin 200, drive described reflecting plate 110 vibrations, make the light of described optical emitting 500 emission can not arrive described optics Receiver, the power that receives light by analyzing described optics Receiver is well monitored the duty of solid of revolution 100.

The foregoing is only preferred embodiment of the present utility model, not in order to limit the utility model, all within spirit of the present utility model and principle, any modification of doing, be equal to replacement, improvement etc., all should be included in protection domain of the present utility model.

Claims (4)

1. the biased monitoring system of moving of loom shaft comprises and it is characterized in that the pedestal (400) of solid of revolution (100) and the described solid of revolution of hub setting (100):

The two ends of described solid of revolution (100) are respectively arranged with the align member at described solid of revolution (100) center, two ends, location, described align member comprises the pilot pin (200) at described solid of revolution (100) center, two ends, described pilot pin (200) is arranged on the axis of described solid of revolution (100), be provided with on described align member and determine whether described align member the monitoring member of skew occurs, described monitoring member comprises through the reflecting plate (110) of corresponding described solid of revolution (100) axis and carries and adjust the rotation base station (100) of described reflecting plate (110) position, described rotation base station (100) carries the plane layout of described reflecting plate (110) on the axis of described pilot pin (200), described rotation base station (100) is rotationally connected with described pilot pin (200), be provided with the elastic component (300) of locking described rotation base station (100) angle between described rotation base station (100) and described pedestal (400), described solid of revolution (100) one ends that are positioned at the same side are provided with optical emitting head (500) and optics Receiver, the light of described optical emitting head (500) emission enters described optics Receiver after each described reflecting plate (110) reflection.

2. the biased monitoring system of moving of loom shaft according to claim 1, is characterized in that: be provided with electronic gyroscope (120) in described rotation base station (100).

3. the biased monitoring system of moving of loom shaft according to claim 1, it is characterized in that: described elastic component (300) is elastic webbing.

4. the biased monitoring system of moving of loom shaft according to claim 1, it is characterized in that: described optical emitting head (500) and described optics Receiver are integral type, the described reflecting plate of last piece (110) of the light process of described optical emitting head (500) emission is perpendicular to incident ray, and incident ray Jing Yuan returns on road.

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