CN102607522A

CN102607522A - Horizontal dynamic automatic monitor

Info

Publication number: CN102607522A
Application number: CN2012100611580A
Authority: CN
Inventors: 吴斌
Original assignee: Zhejiang Jinzhong Mechanical & Electrical Technology Co Ltd
Current assignee: Zhejiang Jinzhong Mechanical & Electrical Technology Co Ltd
Priority date: 2012-01-05
Filing date: 2012-03-09
Publication date: 2012-07-25
Anticipated expiration: 2032-03-09
Also published as: CN102607522B

Abstract

The invention relates to a horizontal dynamic automatic monitor which comprises a square box (1), a control circuit (5), indicator lamps (6), a speaker (8) and an adjusting knob (7), wherein the box (1) is internally provided with a seal cavity (2), and the inner wall of the cavity is non-conducting; the cavity is provided with multiple grooves (3) which are extended in a radial manner along a horizontal direction, the bottom surface of the end of each groove is fixedly provided with a negative electrode (10), and the upper wall of the end of each groove is fixedly provided with a group of positive electrodes (4); and a conducting fluid (11) is arranged in the cavity, and the indicator lamps, the speaker, the adjusting knob, each negative electrode and each group positive electrodes are respectively connected with corresponding terminals of the control circuit. When the horizontal dynamic automatic monitor is inclined, the conducting fluid in the cavity flows to one side, the positive electrodes and the negative electrodes of the end of the groove on the side are conducted, the control circuit can send a signal, the speaker sends warning tone, and meanwhile, the corresponding indicator lamps are twinkled so as to indicate the oblique orientation.

Description

The horizontal dynamic automonitor

Technical field

The present invention relates to the multidirectional horizontal-shift of a kind of automatic monitoring and send the instrument of warning, a kind of horizontal dynamic automonitor.

Background technology

Skyscraper, mountain area and overhead road bridge over strait all might make its pile foundation produce local subsidence and run-off the straight because of construction quality difference or underground pipeline leakage, mountain torrents and rubble flow impact or other geologic hazard or the like influence; The lifting appliance of work high above the ground can be because of the soft local subsidence run-off the straight on ground; Major accident just might take place as not monitoring in real time and giving the alarm in the heeling condition of above-mentioned various building or equipment.Still there is not at present the instrument that this type of inclination takes place in the dynamic monitoring of being exclusively used in.

Summary of the invention

The present invention is intended to propose a kind of horizontal dynamic automonitor, can monitor multidirectional horizontal-shift automatically and send warning.

This horizontal dynamic automonitor comprises square box, control circuit, pilot lamp, loudspeaker and an adjusting knob.An airtight cavity is arranged in the described box; The inwall of cavity is non-conductive; This cavity has several to become the groove of radial extension to horizontal direction, is fixing a negative electrode on the bottom surface of the end of every groove, is fixing one group of positive electrode on the roof of the end of every groove.Placing conducting liquid in the cavity.Pilot lamp, loudspeaker, adjusting knob, each negative electrode and respectively organize positive electrode and link to each other with the respective terminal of control circuit respectively.

When this horizontal dynamic automonitor tilted, the conducting liquid in the cavity was to a side flow, made the positive electrode and negative electrode connection of end of the groove of this side; Control circuit can send signal in view of the above; Make loudspeaker send chimes of doom, simultaneously corresponding pilot lamp is glittering, the orientation that indication is tilted.Can be used on urban skyscraper, overhead road bridge, underground pipeline construction, work high above the ground or the aircraft, as the usefulness of fast monitored degree of tilt.

Description of drawings

Fig. 1 is the basic block diagram of this horizontal dynamic automonitor;

Fig. 2 is the transverse sectional view of horizontal dynamic automonitor;

The schematic diagram that Fig. 3 reports to the police for the horizontal dynamic automonitor;

Fig. 4 is the structural drawing of positive electrode;

Fig. 5 is the electrical schematic diagram of horizontal dynamic automonitor;

Fig. 6 is a kind of arrangenent diagram of cavity and groove;

Fig. 7 is second kind of arrangenent diagram of cavity and groove;

Fig. 8 is the third arrangenent diagram of cavity and groove;

Fig. 9 is the 4th a kind of arrangenent diagram of cavity and groove;

Figure 10 is second kind of structural drawing of horizontal dynamic automonitor.

Embodiment

As shown in Figure 1, this horizontal dynamic automonitor comprises a square box 1, control circuit 5, pilot lamp 6, loudspeaker 8 and adjusting knob 7.An airtight cavity 2 is arranged in the box 1, and the inwall of cavity is non-conductive, and this cavity has several to become the groove 3 of radial extension to horizontal direction.As shown in Figure 2; Fixing a negative electrode 10 on the bottom surface of the end of every groove; Fixing one group of positive electrode 4 on the roof of the end of every groove; Placing conducting liquid 11 in the cavity, pilot lamp, loudspeaker, adjusting knob, each negative electrode and respectively organize positive electrode and link to each other with the respective terminal of control circuit respectively.Control circuit can be installed in the vacant place in the box 1, and pilot lamp, loudspeaker and adjusting knob can be installed on the outer wall of box.

As shown in Figure 3, with this horizontal dynamic automonitor horizontal positioned, during inclination; Conducting liquid 11 in the cavity is to a side flow, and the positive electrode 4 of end of the groove of this side is connected with negative electrode 10, is inclination to the right among Fig. 3; The positive electrode and the negative electrode on right side are connected, after control circuit is received this connection signal, can be sent signal in view of the above; Corresponding pilot lamp is bright, orientation and inclined degree that indication is tilted.When reaching preset dangerous values, loudspeaker sends chimes of doom.

As shown in Figure 4; Every group of positive electrode 4 of this horizontal dynamic automonitor comprises several parallel to each other, mutual insulatings, the electrode strip of arranging vertically downward 9; The length of electrode strip grows up to the stepped appearance arrangement from being short to; As shown in Figure 5, each every electrode strip 9 of organizing positive electrode link to each other with terminals of control circuit 5 separately (one group of positive electrode has only drawn among the figure).The electrode strip that control circuit can basis be connected with negative pole is confirmed the inclined degree of horizontal dynamic automonitor, thereby makes different pilot lamp glittering, indicates the orientation of inclination and the degree of inclination.Adjusting knob can be used to set the range of instrument, the initial value that chimes of doom is sent in setting.

Like Fig. 6 and shown in Figure 7, the groove 3 in this horizontal dynamic automonitor can have four, across be distributed in cavity 2 around.The arrangement groove 3 of Fig. 6 is perpendicular with four limits of box 1, and the length of groove 3 is shorter.The arrangement of Fig. 7, groove 3 extend to four jiaos of box 1, and the length of groove is longer, and be just meticulousr to the measurement of degree of tilt.

Shown in 8, the groove 3 in this horizontal dynamic automonitor also can have six, become star be uniformly distributed in cavity 2 around.

As shown in Figure 9, the groove 3 in this horizontal dynamic automonitor can also have eight, become M shape be uniformly distributed in cavity 2 around.Groove more for a long time, and is just meticulousr to the monitoring in the orientation that tilts.

Shown in figure 10, the pilot lamp in this horizontal dynamic automonitor also can be digital display 12, is convenient to show concrete numerical value and record.

Claims

1. horizontal dynamic automonitor; Comprise a square box (1), control circuit (5), pilot lamp (6), loudspeaker (8) and adjusting knob (7); It is characterized in that an airtight cavity (2) is arranged in the described box (1), the inwall of cavity is non-conductive, and this cavity has several to become the groove (3) of radial extension to horizontal direction; Fixing a negative electrode (10) on the bottom surface of the end of every groove; Fixing one group of positive electrode (4) on the roof of the end of every groove, placing conducting liquid (11) in the cavity, pilot lamp, loudspeaker, adjusting knob, each negative electrode and respectively organize positive electrode and link to each other with the respective terminal of control circuit respectively.

2. horizontal dynamic automonitor as claimed in claim 1; It is characterized in that every group of positive electrode (4) comprises several parallel to each other, mutual insulatings, the electrode strip of arranging vertically downward (9); The length of electrode strip grows up to the stepped appearance arrangement from being short to, and each every electrode strip organizing positive electrode links to each other with terminals of control circuit separately.

3. according to claim 1 or claim 2 horizontal dynamic automonitor is characterized in that described groove (3) has four, across be distributed in cavity (2) around.

4. according to claim 1 or claim 2 horizontal dynamic automonitor is characterized in that described groove (3) has six, become star be uniformly distributed in cavity (2) around.

5. according to claim 1 or claim 2 horizontal dynamic automonitor is characterized in that described groove (3) has eight, become M shape be uniformly distributed in cavity (2) around.