CN206943316U - A kind of monitoring device suitable for engineering site environment - Google Patents
A kind of monitoring device suitable for engineering site environment Download PDFInfo
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- CN206943316U CN206943316U CN201720876630.4U CN201720876630U CN206943316U CN 206943316 U CN206943316 U CN 206943316U CN 201720876630 U CN201720876630 U CN 201720876630U CN 206943316 U CN206943316 U CN 206943316U
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- interface
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Abstract
The utility model discloses a kind of monitoring device suitable for engineering site environment, power module includes interface a, interface b and interface c, interface c, the first motor and the 3rd conductive head are sequentially connected electrically, and interface a is electrically connected to the first conductive head, and interface b is electrically connected to the second conductive head;Interface b is negative pole interface, and interface a and interface c are anode interface, and interface a output voltage is twice of interface c output voltage.A kind of monitoring device suitable for engineering site environment of the utility model, alleviate external shock, and then improve monitoring accuracy so that Monitoring Data is more accurate;The utility model is simple in construction simultaneously, and the work of whole device is completed using common electric machine can, and simple in construction compared with the working method of gyroscope chip, level device and stepper motor, volume reduces, and cost is greatly reduced.
Description
Technical field
It the utility model is related to engineering monitoring field, and in particular to a kind of monitoring device suitable for engineering site environment.
Background technology
Engineering monitoring refers in construction of structures work progress, and key position items Con trolling index is entered using monitoring instrument
The technological means of row monitoring, alarm is sent when monitor value is close to controlling value, for ensureing the security of construction, it can also be used to examine
Whether reasonable look into work progress.
But when carrying out field monitoring at the construction field (site), because in work progress, various apparatuses can cause environmental vibration frequency
Numerous, so as to cause monitoring accuracy to decline, Monitoring Data is inaccurate.
Utility model content
Technical problem to be solved in the utility model is in existing work progress, and various apparatuses can cause environmental vibration
Frequently, so as to causing monitoring accuracy and Monitoring Data to decline, and it is an object of the present invention to provide a kind of monitoring suitable for engineering site environment
Equipment, solve the above problems.
The utility model is achieved through the following technical solutions:
A kind of monitoring device suitable for engineering site environment, including device housings, be arranged inside device housings
One bubbler tube, the first motor and power module;The first bubble pipe include the first conduction liquid, first bubble, the first conductive head,
Second conductive head and the 3rd conductive head;First conduction liquid is arranged in first bubble pipe, and first bubble is arranged at first
In conduction liquid;First conductive head and the second conductive head are respectively arranged at the both ends of first bubble pipe, and the first conductive head and
Second conductive head is contacted with the first conduction liquid;3rd conductive head is arranged in the middle part of first bubble pipe and connect with the first conduction liquid
To touch, the distance of the first conductive head and the second conductive head to the 3rd conductive head is equal, and when first bubble pipe level, first bubble
Axis overlapped with the axis of the 3rd conductive head;The axis of first motor is vertical with the axis of first bubble pipe, and first
The output end of motor is connected to device housings;The power module includes interface a, interface b and interface c, the interface c, first
Motor and the 3rd conductive head are sequentially connected electrically, and the interface a is electrically connected to the first conductive head, and the interface b is electrically connected to second
Conductive head;The interface b is negative pole interface, and the interface a and interface c are anode interface, and interface a output voltage is interface
Twice of c output voltage.
In the prior art, when carrying out field monitoring at the construction field (site), because in work progress, various apparatuses can cause environment
Vibrations are frequent, and so as to cause monitoring accuracy to decline, Monitoring Data is inaccurate.When the utility model is applied, when the external world is not shaken
When, first bubble pipe is horizontal, and the axis of first bubble overlaps with the axis of the 3rd conductive head, because the first conductive head and second are led
The distance of dateline to the 3rd conductive head is equal, and the negative pole of power supply is commonly considered as 0 voltage, so the voltage at the 3rd conductive head is
The half of first conductive head voltage, that is, the half that voltage is interface a voltages, and it is identical with interface c output voltage, now
First motor both end voltage is identical, does not move;In the presence of having vibrations when the external world, first bubble pipe run-off the straight, the first gas
The first bubble motion in pipe is steeped, is caused between the first conductive head and the 3rd conductive head, the second conductive head and the 3rd conductive head
The conductive area of first conduction liquid changes, and is changed so as to the voltage of the 3rd conductive head, and then causes the first motor two
End produces pressure differential, and the first motor works and drives device housings to tilt opposite direction to first bubble pipe and moves, so as to alleviate
External shock, and then improve monitoring accuracy so that Monitoring Data is more accurate;The utility model is simple in construction simultaneously, and use is general
Three-way motor can completes the work of whole device, compared with the working method of gyroscope chip, level device and stepper motor, structure
Simply, volume reduces, and cost is greatly reduced.
Further, the utility model also includes the second bubbler tube and the second motor;Second bubbler tube includes second
Conduction liquid, the second bubble, the 4th conductive head, the 5th conductive head and the 6th conductive head;The axis of second bubbler tube perpendicular to
The axis of first bubble pipe, and the axis of the second motor is vertical with the axis of the second bubbler tube, and the output end of the second motor connects
It is connected to device housings;Second conduction liquid is arranged in the second bubbler tube, and the second bubble is arranged in the second conduction liquid;Institute
State the 4th conductive head and the 5th conductive head is respectively arranged at the both ends of the second bubbler tube, and the 4th conductive head and the 5th conductive head connect
Touch in the second conduction liquid;6th conductive head is arranged in the middle part of the second bubbler tube and contacted with the second conduction liquid, and the 4th is conductive
Head is equal with the distance of the 5th conductive head to the 6th conductive head, and when the second bubbler tube level, the axis of the second bubble and the
The axis of six conductive heads overlaps.
Further, the power module also includes interface d, and the interface d, the second motor and the 6th conductive head are electric successively
Connection;The interface a is electrically connected to the 4th conductive head, and the interface b is electrically connected to the 5th conductive head;The interface d is positive pole
Interface, and interface a output voltage is twice of interface d output voltage.
When the utility model is applied, the second bubbler tube and the second motor are added, because the axis of second bubbler tube hangs down
Directly in the axis of first bubble pipe, and the axis of the second motor is vertical with the axis of the second bubbler tube, so that first bubble
Pipe and the orthogonal work of the second bubbler tube, so as to complete to being shaken present on the whole horizontal direction of device into row buffering, and then
Improve monitoring accuracy so that Monitoring Data is more accurate.
Further, first conduction liquid uses mercury.
Further, first conductive head, the second conductive head and the 3rd conductive head use copper.
The utility model compared with prior art, has the following advantages and advantages:
1st, a kind of monitoring device suitable for engineering site environment of the utility model, alleviate external shock, and then improve prison
Survey precision so that Monitoring Data is more accurate;The utility model is simple in construction simultaneously, is completed using common electric machine can whole
The work of device, simple in construction compared with the working method of gyroscope chip, level device and stepper motor, volume reduces, and cost is big
Width reduces;
2nd, a kind of monitoring device suitable for engineering site environment of the utility model, is completed to the whole horizontal direction of device
Present on shake into row buffering, and then improve monitoring accuracy so that Monitoring Data is more accurate.
Brief description of the drawings
Accompanying drawing described herein is used for providing further understanding the utility model embodiment, forms the one of the application
Part, the restriction to the utility model embodiment is not formed.In the accompanying drawings:
Fig. 1 is the utility model structure diagram;
Fig. 2 is the utility model wiring schematic diagram.
Mark and corresponding parts title in accompanying drawing:
1- device housings, 2- first bubble pipes, 3- power modules, the motors of 4- first, the motors of 5- second, the bubbles of 6- second
Pipe, the conduction liquids of 21- first, 22- first bubbles, the conductive heads of 23- first, the conductive heads of 24- second, the conductive heads of 25- the 3rd, 61- the
Two conduction liquids, the bubbles of 62- second, the conductive heads of 63- the 4th, the conductive heads of 64- the 5th, the conductive heads of 65- the 6th.
Embodiment
For the purpose of this utility model, technical scheme and advantage is more clearly understood, with reference to embodiment and accompanying drawing,
The utility model is described in further detail, and exemplary embodiment of the present utility model and its explanation are only used for explaining this
Utility model, it is not intended as to restriction of the present utility model.
Embodiment
As shown in figure 1, a kind of monitoring device suitable for engineering site environment of the utility model, including device housings 1, set
First bubble pipe 2, the first motor 4 and the power module 3 being placed in inside device housings 1;The first bubble pipe 2 is led including first
Electro-hydraulic 21, first bubble 22, the first conductive head 23, the second conductive head 24 and the 3rd conductive head 25;First conduction liquid 21 is set
It is placed in first bubble pipe 2, and first bubble 22 is arranged in the first conduction liquid 21;First conductive head 23 and second is conductive
First 24 are respectively arranged at the both ends of first bubble pipe 2, and the first conductive head 23 and the second conductive head 24 are contacted with the first conduction liquid
21;3rd conductive head 25 is arranged at the middle part of first bubble pipe 2 and contacted with the first conduction liquid 21, the first conductive head 23 and the
The distance of two conductive head 24 to the 3rd conductive heads 25 is equal, and when first bubble pipe 2 is horizontal, the axis of first bubble 22 and
The axis of three conductive heads 25 overlaps;The axis of first motor 4 is vertical with the axis of first bubble pipe 2, and the first motor 4
Output end is connected to device housings 1;The power module 3 includes interface a, interface b and interface c, the interface c, the first motor 4
It is sequentially connected electrically with the 3rd conductive head 25, the interface a is electrically connected to the first conductive head 23, and the interface b is electrically connected to second
Conductive head 24;The interface b is negative pole interface, and the interface a and interface c are anode interface, and interface a output voltage is to connect
Twice of mouth c output voltage.Also include the second bubbler tube 6 and the second motor 5;It is conductive that second bubbler tube 6 includes second
Liquid 61, the second bubble 62, the 4th conductive head 63, the 5th conductive head 64 and the 6th conductive head 65;The axis of second bubbler tube 6
Perpendicular to the axis of first bubble pipe 2, and the axis of the second motor 5 is vertical with the axis of the second bubbler tube 6, and the second motor 5
Output end be connected to device housings 1;Second conduction liquid 61 is arranged in the second bubbler tube 6, and the second bubble 62 is set
In in the second conduction liquid 61;4th conductive head 63 and the 5th conductive head 64 are respectively arranged at the both ends of the second bubbler tube 6, and
4th conductive head 63 and the 5th conductive head 64 are contacted with the second conduction liquid 61;6th conductive head 65 is arranged at the second bubbler tube
6 middle parts simultaneously contact with the second conduction liquid 61, and the distance of the 4th conductive head 63 and the 5th conductive head 64 to the 6th conductive head 65 is equal,
And when the second bubbler tube 6 is horizontal, the axis of the second bubble 62 overlaps with the axis of the 6th conductive head 65.The power module 3
Also include interface d, the interface d, the second motor 5 and the 6th conductive head 65 to be sequentially connected electrically;The interface a is electrically connected to the 4th
Conductive head 63, the interface b are electrically connected to the 5th conductive head 64;The interface d is anode interface, and interface a output voltage
For twice of interface d output voltage.First conduction liquid 21 uses mercury.First conductive head 23, the second conductive head 24
Copper is used with the 3rd conductive head 25.
When the present embodiment is implemented, when the external world is not shaken, first bubble pipe 2 is horizontal, the axis of first bubble 22 and the
The axis of three conductive heads 25 overlaps, because the distance of the first conductive head 23 and the second conductive head 24 to the 3rd conductive head 25 is equal,
The negative pole of power supply is commonly considered as 0 voltage, so the voltage at the 3rd conductive head 25 is the half of the voltage of the first conductive head 23,
It is exactly the half that voltage is interface a voltages, and it is identical with interface c output voltage, and now the both end voltage of the first motor 4 is identical,
Do not move;In the presence of having vibrations when the external world, the run-off the straight of first bubble pipe 2, the first bubble 22 in first bubble pipe 2 is transported
It is dynamic, cause the first conduction liquid between the first conductive head 23 and the 3rd conductive head 25, the second conductive head 24 and the 3rd conductive head 25
21 conductive area changes, and is changed so as to the voltage of the 3rd conductive head 25, and then the both ends of the first motor 4 are produced
Pressure differential, the first motor 4 works and drives device housings 1 to tilt opposite direction to first bubble pipe 2 and moves, so as to alleviate the external world
Vibrations, and then improve monitoring accuracy so that Monitoring Data is more accurate;The utility model is simple in construction simultaneously, uses common electricity
Machine can completes the work of whole device, compared with the working method of gyroscope chip, level device and stepper motor, structure letter
Single, volume reduces, and cost is greatly reduced.The second bubbler tube 6 and the second motor 5 are added, due to the axis of second bubbler tube 6
Perpendicular to the axis of first bubble pipe 2, and the axis of the second motor 5 is vertical with the axis of the second bubbler tube 6, so that first
2 and second bubbler tube of bubbler tube, 6 orthogonal work, delays so as to complete to being shaken present on the whole horizontal direction of device
Punching, and then improve monitoring accuracy so that Monitoring Data is more accurate.
Above-described embodiment, the purpose of this utility model, technical scheme and beneficial effect are entered
One step describes in detail, should be understood that and the foregoing is only specific embodiment of the present utility model, is not used to limit
Determine the scope of protection of the utility model, it is all within the spirit and principles of the utility model, any modification for being made, equally replace
Change, improve, should be included within the scope of protection of the utility model.
Claims (5)
1. a kind of monitoring device suitable for engineering site environment, it is characterised in that including device housings (1), be arranged at equipment
Shell (1) internal first bubble pipe (2), the first motor (4) and power module (3);The first bubble pipe (2) includes first
Conduction liquid (21), first bubble (22), the first conductive head (23), the second conductive head (24) and the 3rd conductive head (25);Described
One conduction liquid (21) is arranged in first bubble pipe (2), and first bubble (22) is arranged in the first conduction liquid (21);Described
One conductive head (23) and the second conductive head (24) are respectively arranged at the both ends of first bubble pipe (2), and the first conductive head (23) and
Second conductive head (24) is contacted with the first conduction liquid (21);3rd conductive head (25) is arranged in the middle part of first bubble pipe (2)
And contacted with the first conduction liquid (21), the distance phase of the first conductive head (23) and the second conductive head (24) to the 3rd conductive head (25)
Deng, and when first bubble pipe (2) is horizontal, the axis of first bubble (22) overlaps with the axis of the 3rd conductive head (25);It is described
The axis of first motor (4) is vertical with the axis of first bubble pipe (2), and the output end of the first motor (4) is connected to outside equipment
Shell (1);The power module (3) includes interface a, interface b and interface c, the interface c, the first motor (4) and the 3rd conductive head
(25) it is sequentially connected electrically, the interface a is electrically connected to the first conductive head (23), and the interface b is electrically connected to the second conductive head
(24);The interface b is negative pole interface, and the interface a and interface c are anode interface, and interface a output voltage is interface c
Twice of output voltage.
2. a kind of monitoring device suitable for engineering site environment according to claim 1, it is characterised in that also including
Two bubbler tubes (6) and the second motor (5);Second bubbler tube (6) includes the second conduction liquid (61), the second bubble (62), the
Four conductive heads (63), the 5th conductive head (64) and the 6th conductive head (65);The axis of second bubbler tube (6) is perpendicular to first
The axis of bubbler tube (2), and the axis of the second motor (5) is vertical with the axis of the second bubbler tube (6), and the second motor (5)
Output end is connected to device housings (1);Second conduction liquid (61) is arranged in the second bubbler tube (6), and the second bubble
(62) it is arranged in the second conduction liquid (61);4th conductive head (63) and the 5th conductive head (64) are respectively arranged at the second gas
The both ends of bubble pipe (6), and the 4th conductive head (63) and the 5th conductive head (64) are contacted with the second conduction liquid (61);Described 6th leads
Dateline (65) is arranged in the middle part of the second bubbler tube (6) and contacted with the second conduction liquid (61), and the 4th conductive head (63) and the 5th is led
The distance of dateline (64) to the 6th conductive head (65) is equal, and when the second bubbler tube (6) is horizontal, the axis of the second bubble (62)
Overlapped with the axis of the 6th conductive head (65).
A kind of 3. monitoring device suitable for engineering site environment according to claim 2, it is characterised in that the power supply
Module (3) also includes interface d, the interface d, the second motor (5) and the 6th conductive head (65) and is sequentially connected electrically;The interface a
The 4th conductive head (63) is electrically connected to, the interface b is electrically connected to the 5th conductive head (64);The interface d is anode interface, and
Interface a output voltage is twice of interface d output voltage.
4. a kind of monitoring device suitable for engineering site environment according to claim 1, it is characterised in that described first
Conduction liquid (21) uses mercury.
5. a kind of monitoring device suitable for engineering site environment according to claim 1, it is characterised in that described first
Conductive head (23), the second conductive head (24) and the 3rd conductive head (25) use copper.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201720876630.4U CN206943316U (en) | 2017-07-19 | 2017-07-19 | A kind of monitoring device suitable for engineering site environment |
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CN201720876630.4U CN206943316U (en) | 2017-07-19 | 2017-07-19 | A kind of monitoring device suitable for engineering site environment |
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CN201720876630.4U Expired - Fee Related CN206943316U (en) | 2017-07-19 | 2017-07-19 | A kind of monitoring device suitable for engineering site environment |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN107328398A (en) * | 2017-07-19 | 2017-11-07 | 成都众邦凯测科技有限公司 | The design library part editor and reuse used under dither environment |
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2017
- 2017-07-19 CN CN201720876630.4U patent/CN206943316U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN107328398A (en) * | 2017-07-19 | 2017-11-07 | 成都众邦凯测科技有限公司 | The design library part editor and reuse used under dither environment |
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Legal Events
Date | Code | Title | Description |
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
TR01 | Transfer of patent right |
Effective date of registration: 20191125 Address after: No.1701, 17th floor, building 1, No.138, Tianfu Second Street, hi tech Zone, Chengdu, Sichuan Province Patentee after: CHENGDU XINGZE TECHNOLOGY Co.,Ltd. Address before: 610000, No. 4, No. 2, 20 floor, building 68, 30 sheep Hill Road, Chengdu, Sichuan, Chenghua District Patentee before: CHENGDU US.KIRCH SCIENCE AND TECHNOLOGY CO.,LTD. |
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TR01 | Transfer of patent right | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20180130 Termination date: 20210719 |
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CF01 | Termination of patent right due to non-payment of annual fee |