CN203587098U - Monitoring system under super-large spliced platform - Google Patents

Abstract

The utility model discloses a monitoring system under a super-large spliced platform. The monitoring system under the super-large spliced platform is characterized in that an inclination sensor and step difference sensors are arranged on each sub-platform of the spliced platform, wherein the inclination sensor is arranged in the middle of a lower platform surface of a monitored sub-platform; a plurality of step difference sensors are arranged at the joint between the monitored sub-platform and the lower platform surface of an adjacent sub-platform; the inclination sensor is used for monitoring the levelness of the sub-platforms in real time; the step difference sensors are used for monitoring the step difference between the sub-platform and the adjacent sub-platform in real time; a master control unit is also arranged on the monitoring system; monitoring data is fed back to the master control unit in real time; the master control unit is used for acquiring a platform surface parameter variation of the spliced platform by processing detection data. According to the monitoring system under the super-large spliced platform, the inclination monitoring, step difference monitoring and data collection systems are integrated as a whole body, so that real-time monitoring is realized. If the variation is out of tolerance, a master control machine is informed to send alarm signals for detecting and adjusting, so that requirements on technical indexes of the platform surface can be effectively ensured.

Description

A kind of for monitoring system under the platform of super-large spliced platform

Technical field

The utility model relates to a kind of for monitoring system under the platform of super-large spliced platform, is specifically related to the levelness of sub-platform and the real-time detection apparatus of step difference.

Background technology

For installing, debug the super-large spliced platform of main equipment, normally by some sub-platforms, be spliced to form, it is rectangular-shaped that sub-platform is conventionally, and every sub-platform all needs to arrange supporting foot structure.In prior art, the levelness of splicing platform and planarization mainly rely on the adjustment of supporting foot structure are guaranteed.Due to the deformation of foundation structure, supporting foot structure and table top itself, the level that platform may occur at any time changes, due to the impact of many factors, slight deformation is inevitable, in use cannot predict, cause rapid adjustment difficulty to improve, thereby bring great inconvenience to using.Therefore before each use, all need levelness and the planarization of splicing platform to detect and adjust, after adjusting, just can come into operation, and adjust according to the acquisition pattern of data, are technical issues that need to address.

Utility model content

For problems of the prior art, it is a kind of for monitoring system under the platform of super-large spliced platform that the purpose of this utility model is to provide, under this platform, monitoring system is arranged on the following table of sub-platform, can splice the levelness of platform and the variation of the parameter of planarization by Real-Time Monitoring, for the adjustment before using provides reference data.

The purpose of this utility model is achieved through the following technical solutions:

A kind of for monitoring system under the platform of super-large spliced platform, the every sub-platform for splicing platform is provided with inclination sensor and step difference sensor, inclination sensor is arranged on the following table middle part of monitored sub-platform, step difference sensor is several, is arranged on the following table seam crossing of monitored sub-platform and adjacent sub-platform; The levelness of inclination sensor Real-Time Monitoring sub-platform, the step difference of step difference sensor Real-Time Monitoring sub-platform and adjacent sub-platform, described monitoring system is also provided with overhead control unit, Monitoring Data Real-time Feedback is to overhead control unit, and overhead control unit detects by processing the table top parameter variable quantity that data draw splicing platform.

Further, in described monitoring system, every sub-platform is provided with independent control unit, reads the data of inclination sensor and the step difference Sensor monitoring of this sub-platform.

Further, described independent control unit adopts single-chip microcomputer, can obtain the network address of this sub-platform by independent control unit.

Further, described monitoring system is divided into several network nodes, and each network node consists of the pick-up unit of some sub-platforms, and first the Monitoring Data of sub-platform transfers to network node, then transfers to overhead control unit.

Further, described network node has the network address of tool self.

Further, described monitoring system is provided with data storage device, can real time record Monitoring Data.

The utlity model has following positive technique effect:

The utility model is by being integrated inclination monitoring, step difference monitoring and data acquisition system (DAS) set, the table top parameter real time monitoring of realization to splicing platform, if variable quantity is overproof, notify main control computer, send alerting signal, carry out necessary detection and adjustment, can effectively guarantee the technical requirement of table top.

Accompanying drawing explanation

Fig. 1 is the applied super-large spliced platform vertical view of the utility model;

Fig. 2 is the applied super-large spliced platform stereographic map of the utility model;

Fig. 3 is the layout of the utility model on sub-platform;

Fig. 4 is use constitutional diagram of the present utility model;

Fig. 5 is that the utility model is being used constitutional diagram;

Fig. 6 is structured flowchart of the present utility model.

In Fig. 1-6: 1. sub-platform, 2. pedestal, 3. initiatively supporting foot, 4. supplemental support foot, 5. mount pad, 6. step difference sensor, 7. inclination sensor.

Embodiment

For further setting forth the utility model, be to reach technological means and the effect that predetermined goal of the invention is taked, below in conjunction with accompanying drawing and preferred embodiment, structure of the present utility model, feature and effect be described in detail as follows.

The applied super-large spliced platform of the utility model as shown in Figure 1 and Figure 2, by some sub-platforms 1, be spliced to form, sub-platform 1 obtains firm support by active supporting foot 3 and supplemental support foot 4 on pedestal 2, requires to form a larger area surface level in design.

The applied super-large spliced platform of the utility model as shown in Figure 1 and Figure 2, by some sub-platforms 1, be spliced to form, sub-platform 1 obtains firm support by active supporting foot 3 and supplemental support foot 4 on pedestal 2, requires in theory to form a larger area surface level.

As Fig. 3, Fig. 4, Figure 5 shows that one of the utility model embodiment, in this embodiment, a kind of for monitoring system under the platform of super-large spliced platform, every sub-platform 1 for splicing platform is provided with inclination sensor 7 and step difference sensor 6, inclination sensor 7 is arranged on the following table middle part of monitored sub-platform, step difference sensor 6 is several, is arranged on the following table seam crossing of monitored sub-platform and adjacent sub-platform; The levelness of inclination sensor 7 Real-Time Monitoring sub-platforms 1, the step difference of step difference sensor 6 Real-Time Monitoring sub-platforms and adjacent sub-platform, described monitoring system is also provided with overhead control unit, Monitoring Data Real-time Feedback is to overhead control unit, and overhead control unit detects by processing the table top parameter variable quantity that data draw splicing platform.

Why the utility model arranges two kinds of sensors, because multiple variable quantity may appear in the table top of splicing platform, for example: when integral inclination appears in splicing platform, at this moment between sub-platform, there is not larger step difference, but variation has occurred levelness, or the settlement of foundation of zones of different is inhomogeneous, and at this time levelness is normal, but the performance of the variation on step difference obviously, and the utility model can effectively improve the accuracy rate of observation process by two kinds of sensors are set.

In the utility model, every sub-platform is provided with independent control unit, reads the inclination sensor 7 of this sub-platform and the data of step difference sensor 6 monitorings.

As shown in Figure 6, described independent control unit adopts single-chip microcomputer, can obtain the network address of this sub-platform by independent control unit.

As shown in Figure 6, in the utility model, monitoring system is divided into several network nodes, each network node consists of the monitoring device of some sub-platforms, first the Monitoring Data of sub-platform transfers to network node, transfer to again overhead control unit, can avoid transmitting the slow problem of data rate by sub-platform simultaneously.

Described network node has the network address of self.

In the utility model, monitoring system is provided with data storage device, can real time record Monitoring Data.

When the utility model is used, the independent control unit memory platform of sub-platform mixes up the data of rear-inclined sensor and step difference sensor, tilt variation amount and step difference variable quantity as benchmark monitoring platform, if variable quantity surpasses the variable quantity that arranges separately, notify overhead control unit, overhead control unit sends alerting signal.

This system can be worked always, realizes the inclination of Real-Time Monitoring platform and the variation of step difference, by with topworks as active supporting foot 3, supplemental support foot 4 cooperatings, effectively guarantee the inclination angle of platform and the technical requirement of step difference.

Above described just for the utility model is described, is construed as the utility model and is not limited to above embodiment, meet the various flexible form of the utility model thought all within protection domain of the present utility model.

Claims (6)

1. one kind for monitoring system under the platform of super-large spliced platform, it is characterized in that, the every sub-platform for splicing platform is provided with inclination sensor and step difference sensor, inclination sensor is arranged on the following table middle part of monitored sub-platform, step difference sensor is several, is arranged on the following table seam crossing of monitored sub-platform and adjacent sub-platform; The levelness of inclination sensor Real-Time Monitoring sub-platform, the step difference of step difference sensor Real-Time Monitoring sub-platform and adjacent sub-platform, described monitoring system is also provided with overhead control unit, Monitoring Data Real-time Feedback is to overhead control unit, and overhead control unit detects by processing the table top parameter variable quantity that data draw splicing platform.

2. monitoring system as claimed in claim 1, is characterized in that, in described monitoring system, every sub-platform is provided with independent control unit, reads the data of inclination sensor and the step difference Sensor monitoring of this sub-platform.

3. monitoring system as claimed in claim 2, is characterized in that, described independent control unit adopts single-chip microcomputer, can obtain the network address of this sub-platform by independent control unit.

4. monitoring system as claimed in claim 3, it is characterized in that, described monitoring system is divided into several network nodes, and each network node consists of the pick-up unit of some sub-platforms, first the Monitoring Data of sub-platform transfers to network node, then transfers to overhead control unit.

5. monitoring system as claimed in claim 4, is characterized in that, described network node has the network address of self.

6. monitoring system as claimed in claim 1, is characterized in that, described monitoring system is provided with data storage device, can real time record Monitoring Data.

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