CN207501991U - A kind of data acquisition monitoring system of dry type connection member - Google Patents

Abstract

The utility model provides a kind of data acquisition monitoring system of dry type connection member, is related to technical field of buildings.The data acquisition monitoring system of the dry type connection member, applied to dry type connection structure, the first prefabricated board and the second prefabricated board are connected by dry type connection member.The data acquisition monitoring system of the dry type connection member includes data acquisition unit, data acquisition unit includes the first force sensor, signal wire and data/address bus, first force sensor is connect with signal wire, signal wire is connect with data/address bus, first force sensor is for being set to dry type connection member, for acquiring the first stress data of dry type connection member.The data acquisition monitoring system of the dry type connection member is by setting data acquisition unit, the stress data of dry type connection member can be acquired in real time, and storage for a long time is with analyzing, building structure can be formed by data analysis and optimize foundation, to scent a hidden danger in time, ensure building structure long-term safety.

Description

A kind of data acquisition monitoring system of dry type connection member

Technical field

The utility model is related to technical field of buildings, are acquired in particular to a kind of data of dry type connection member Monitoring system.

Background technology

The existing dry type formula building that is linked and packed can not carry out real-time, long-term, the online acquisition and monitoring of stress data, When hidden danger occurs for building, it can not find in time, influence the safety of building structure.

Utility model content

The purpose of this utility model is to provide a kind of data acquisition monitoring systems of dry type connection member, can be real When acquire dry type connection member stress data, and for a long time storage and analysis, building structure can be formed by data analysis Optimize foundation, to scent a hidden danger in time, ensure building structure long-term safety.

What the embodiment of the utility model was realized in：

A kind of data acquisition monitoring system of dry type connection member, applied to dry type connection structure, the dry type connection Structure includes the first prefabricated board, the second prefabricated board and dry type connection member, first prefabricated board and described second prefabricated Plate is connected by dry type connection member, and the data acquisition monitoring system of the dry type connection member includes data acquisition list Member, the data acquisition unit include the first force sensor, signal wire and data/address bus, first force sensor and institute Signal wire connection is stated, the signal wire is connect with the data/address bus, and first force sensor is described dry for being set to Formula connection member, for acquiring the first stress data of the dry type connection member.

Further, the data acquisition unit further includes data collector, and the data collector passes through the signal Line is connect with first force sensor, and the data collector is connect with the data/address bus, the data acquisition Device is used to first stress data being converted to the first digital signal, and the data/address bus is used for transmission the first number letter Number.

Further, it is provided with the first groove in first prefabricated board, the dry type connection member passes through described the One groove is simultaneously connect with second prefabricated board, and the data collector is used to be set in first groove.

Further, temperature sensor and/or humidity sensor are provided on the data collector.

Further, the data acquisition unit further includes the second force sensor, and second force sensor passes through The signal wire is connect with the data/address bus, for acquiring the second stress data of the dry type connection member.

Further, first prefabricated board is provided with the first groove, and the dry type connection member passes through described first Groove is simultaneously connect with second prefabricated board, and second force sensor is used to be set to the dry type connection member and institute Between the side wall for stating the first groove.

Further, second force sensor is the gasket of included pressure sensitivity resistance or is patch type stress sensing Device, alternatively, second force sensor is integrated in one to form included pressure sensing function with the dry type connection member Connector.

Further, the data acquisition unit further includes master controller, and the data/address bus connects with the master controller It connects.

Further, communication module is provided on the master controller, for being connect with external server communication.

The utility model embodiment additionally provides a kind of data acquisition monitoring system of dry type connection member, and feature exists In applied to dry type connection structure, the dry type connection structure includes the first prefabricated board, the second prefabricated board and dry type connection knot Component, first prefabricated board are connected with second prefabricated board by dry type connection member, the dry type connection member Data acquisition monitoring system include multiple data acquisition units, each data acquisition unit includes the first stress sensing Device, signal wire, data collector and data/address bus, first force sensor are connect with the signal wire, the signal wire It is connect with the data collector, the data collector of the two neighboring data acquisition unit is connected by the data/address bus It connects, first force sensor is for being set to the dry type connection member, for acquiring the dry type connection member The first stress data.

The advantageous effect of data acquisition monitoring system for the dry type connection member that the utility model embodiment provides is：

The data acquisition monitoring system for the dry type connection member that the utility model embodiment provides is by setting data to adopt Collect unit, the stress data of dry type connection member, and storage for a long time and analysis can be acquired in real time, it can shape by data analysis Optimize foundation into building structure, to scent a hidden danger in time, ensure building structure long-term safety.

Description of the drawings

It, below will be to use required in embodiment in order to illustrate more clearly of the technical solution of the utility model embodiment Attached drawing be briefly described, it should be understood that the following drawings illustrates only some embodiments of the utility model, therefore should not be by Regard the restriction to range as, for those of ordinary skill in the art, without creative efforts, may be used also To obtain other relevant attached drawings according to these attached drawings.

Fig. 1 is the application of the data acquisition monitoring system of dry type connection member that the utility model first embodiment provides Schematic diagram of a scenario；

Fig. 2 is the part of the data acquisition monitoring system of dry type connection member that the utility model first embodiment provides Structure diagram；

Fig. 3 is the structure of the data acquisition monitoring system of dry type connection member that the utility model first embodiment provides Block diagram；

Fig. 4 is the application of the data acquisition monitoring system of dry type connection member that the utility model second embodiment provides Schematic diagram of a scenario；

Fig. 5 is the part of the data acquisition monitoring system of dry type connection member that the utility model second embodiment provides Structure diagram.

Icon：10th, the data acquisition monitoring system of 20- dry types connection member；The first prefabricated boards of 100-；110- first is recessed Slot；The second prefabricated boards of 200-；The second grooves of 210-；300- dry type connection members；The first bolts of 310-；320- nuts；400- Data acquisition unit；The first force sensors of 410-；The second force sensors of 420-；430- signal wires；440- data/address bus； 450- data collectors；460- master controllers；461- communication modules；500- matrixes；600- third grooves；700- the second connection groups Part；The second bolts of 710-；720- connecting poles；800- third force sensors.

Specific embodiment

Purpose, technical scheme and advantage to make the utility model embodiment are clearer, new below in conjunction with this practicality Attached drawing in type embodiment, the technical scheme in the utility model embodiment is clearly and completely described, it is clear that is retouched The embodiment stated is the utility model part of the embodiment, instead of all the embodiments.Usually here described in attached drawing and The component of the utility model embodiment shown can be configured to arrange and design with a variety of different.

Therefore, requirement is not intended to limit to the detailed description of the embodiment of the utility model provided in the accompanying drawings below The scope of the utility model of protection, but it is merely representative of the selected embodiment of the utility model.Based in the utility model Embodiment, those of ordinary skill in the art's all other embodiments obtained without creative efforts, all Belong to the range of the utility model protection.

It should be noted that：Similar label and letter represents similar terms in following attached drawing, therefore, once a certain Xiang Yi It is defined in a attached drawing, does not then need to that it is further defined and explained in subsequent attached drawing.

In the description of the present invention, it is to be appreciated that term the instructions such as " on ", " under ", " interior ", " outer " orientation Or position relationship be based on orientation shown in the drawings or position relationship or the utility model product using when usually put The orientation or position relationship that orientation or position relationship or those skilled in the art usually understand, are for only for ease of description The utility model and simplified description rather than instruction imply that signified equipment or element must be with specific orientation, Yi Te Fixed azimuth configuration and operation, therefore it is not intended that limitation to the utility model.

In addition, term " first ", " second " etc. are only used for distinguishing description, and it is not intended that indicating or implying relatively important Property.

In the description of the present invention, it should also be noted that, unless otherwise clearly defined and limited, term " is set Put ", " installation ", " connection " should be interpreted broadly, for example, it may be being fixedly connected or being detachably connected or integrally Connection；Can be mechanical connection or electrical connection；It can be directly connected, can also be indirectly connected by intermediary, It can be the connection inside two elements.For the ordinary skill in the art, can above-mentioned art be understood with concrete condition Concrete meaning of the language in the utility model.

First embodiment

It please refers to Fig.1 and Fig. 2, present embodiments provides a kind of data acquisition monitoring system 10 of dry type connection member, Applied to dry type connection structure.The structure and skill of the data acquisition monitoring system 10 of the dry type connection member for convenience of description Art effect, a kind of dry type connection structure introduced below that it is applied, it should be understood that dry type connection structure provided in this embodiment The dry type connection structure that the data acquisition monitoring system 10 of part can be applied is not limited to this following one kind, and the present embodiment is only It illustrates.

The dry type connection structure includes the first prefabricated board 100, the second prefabricated board 200 and dry type connection member 300.The The side of one prefabricated board 100 is connect by dry type connection member 300 with the side of the second prefabricated board 200.

Wherein, the first groove 110 is provided in the first prefabricated board 100, and the first prefabricated board 100 is close to the second prefabricated board 200 side is provided with first through hole (figure is not marked), and the first groove 110 is connected with first through hole.

The second groove 210 is provided in second prefabricated board 200, and the second prefabricated board 200 is close to the one of the first prefabricated board 100 Side is provided with the second through-hole (figure is not marked), and the second groove 210 is connected with the second through-hole.Second through-hole is used for and first through hole pair Should, to house dry type connection member 300.

It should be noted that the first groove 110, first through hole, the second through-hole and the second groove 210 can be collectively formed One installation position, for housing dry type connection member 300 so that dry type connection member 300 at the first installation position by first 100 and second prefabricated board 200 of prefabricated board connects.The quantity of first installation position and the quantity pair of dry type connection member 300 Should, it can be one, can also be corresponding multiple, in the present embodiment, the first installation position and dry type connection member 300 It it is four, the side being connected with each other along the first prefabricated board 100 and the second prefabricated board 200 is evenly spaced on successively.Namely It says, the side of the first prefabricated board 100 has been evenly spaced on four group of first groove 110 and first through hole, the second prefabricated board successively 200 side has been evenly spaced on four group of second 210 and second through-hole of groove successively, and first through hole and the second through-hole one are a pair of It should.

In addition, each dry type connection member 300 includes the first bolt 310 and nut 320.First bolt 310 is accommodating In first through hole and the second prefabricated board 200 that the first prefabricated board 100 is sequentially passed through in the first groove 110 and by the first groove 110 The second through-hole stretch in the second groove 210, nut 320 is set in the second groove 210 and is connect with the first bolt 310. So as to fulfill the connection of the first prefabricated board 100 and the second prefabricated board 200.

The specific knot of the data acquisition monitoring system 10 of dry type connection member provided in this embodiment is introduced in detail below Structure and technique effect：

The data acquisition monitoring system 10 of the dry type connection member includes data acquisition unit 400.Data acquisition unit 400 are used to acquire the data such as the temperature and humidity of the stress data of dry type connection member 300 and building.Wherein, data acquire Unit 400 can be one, or multiple, in the present embodiment, data acquisition unit 400 is multiple, along the first prefabricated board 100 and second the junction of prefabricated board 200 be spaced apart successively.

Each data acquisition unit 400 includes the first force sensor 410, the second force sensor 420, signal wire 430th, data/address bus 440 and data collector 450.Wherein, the data collector 450 of adjacent two data collecting unit 400 is logical Data/address bus 440 is crossed to connect.

Wherein, the first force sensor 410 is connect with signal wire 430, and signal wire 430 is connect with data/address bus 440.First Force sensor 410 is set to the first bolt 310, for acquiring the first stress data of the first bolt 310.

In the present embodiment, the first force sensor 410 is two, one of them first force sensor 410 is set to the One bolt 310 is located at the part in the first prefabricated board 100, another first force sensor 410 is set to 310, the first bolt Part in the second prefabricated board 200.Two the first force sensors 410 are connected, and be set to first by signal wire 430 First force sensor 410 of prefabricated board 100 is connect by signal wire 430 with data collector 450.Preferably, this implementation In example, the first force sensor 410 is foil gauge.

Second force sensor 420 can be connect by signal wire 430 with data/address bus 440.In the present embodiment, second by Force snesor 420 is set between the side wall of the first bolt 310 and the first groove 110, for acquiring the second of the first bolt 310 Stress data.Second force sensor 420 is connect by signal wire 430 with data collector 450.

Wherein, the second force sensor 420 can be the screw washer of included pressure sensitivity resistance or be that patch type stress passes Sensor, alternatively, the second force sensor 420 and the first bolt 310 are integrated in one to form the bolt of included pressure sensing function. Certainly, in the other embodiment of the utility model, if the first bolt 310 is using other connectors, then second by Force snesor 420 can also be to be integrated in one with dry type connection member to form other of included pressure sensing function and connect Part.

Data collector 450 is connect with data/address bus 440, and data collector 450 is used to be converted to the first stress data First digital signal, and for the second stress data to be converted to the second digital signal, and by the first digital signal and second Digital data transmission is to data/address bus 440.Data/address bus 440 is used for transmission the first digital signal and the second digital signal to outside Structure.

In the present embodiment, data collector 450 is set in the first groove 110.In addition, according to the big of the first groove 110 It is small correspondingly to add some sensors, for acquiring other required data.It for example, can be on data collector 450 Temperature sensor and/or humidity sensor are provided with, for distinguishing collecting temperature data and humidity data, i.e. data collector On 450 can only set temperature sensor or humidity sensor, can also set temperature sensor and humidity sensor simultaneously.And And it can accordingly be set according to the data of required acquisition with other types of sensor on data collector 450.

Referring to Fig. 3, the sensor in Fig. 3 can represent above-mentioned the first force sensor 410, the second force sensor 420th, temperature sensor either humidity sensor or other sensors.In the present embodiment, which can be with Including master controller 460.Data/address bus 440 is connect with master controller 460, can believe the first digital signal and the second number Number or other institutes collected data such as temperature datas and humidity data, be transferred to master controller 460.Wherein, master control Device 460 can be set in the first prefabricated board 100 and building constructed by the second prefabricated board 200, and data can also be acquired Device 450 is powered.Communication module 461 is provided on master controller 460, for being connect with external server communication.Master control Device 460 processed by the data of acquisition by periodically transmitting, the modes such as wired or wireless network reach server.Server storage data It establishes building life-cycle and the acquisition of real-time data, and by analyzing data, analyzes building structure operation conditions, work as hair On-call maintenance during existing problem.

In conclusion the data acquisition monitoring system 10 of dry type connection member provided in this embodiment is by setting data Collecting unit 400 can acquire the data such as the stress data of dry type connection member and the temperature and humidity of building, and long in real time Phase stores and analysis, is included in Building Information Model (Building Information Modeling, BIM) system operation, passes through Data analysis can form building structure optimization foundation, to scent a hidden danger in time, ensure building structure long-term safety.

Second embodiment

Fig. 4 and Fig. 5 are please referred to, present embodiments provides a kind of data acquisition monitoring system 20 of dry type connection member, Applied to dry type connection structure.The structure and skill of the data acquisition monitoring system 20 of the dry type connection member for convenience of description Art effect, a kind of dry type connection structure introduced below that it is applied.

Difference lies in the present embodiment for the dry type connection structure of dry type connection structure and first embodiment in the present embodiment In dry type connection structure further include matrix 500 and multiple second connection components 700.First prefabricated board 100 and the second prefabricated board 200 are connect by the second connection component 700 with matrix 500.Multiple second connection components 700 along the side of matrix 500 successively It is evenly spaced on.Do not refer to that part can refer to first embodiment in the present embodiment.

Wherein, the second connection component 700 includes the second bolt 710 and connecting pole 720.Connecting pole 720 is set to matrix 500 It is interior.Third groove 600 is both provided in first prefabricated board 100 and the second prefabricated board 200, it is recessed that the second bolt 710 is set to third In slot 600, the second bolt 710 is pierced by third groove 600 and is connect with connecting pole 720, thus by the first prefabricated board 100 and matrix 500 connect and connect the second prefabricated board 200 and matrix 500.

The specific knot of the data acquisition monitoring system 20 of dry type connection member provided in this embodiment is introduced in detail below Structure and technique effect do not refer to part with reference to first embodiment.

The data acquisition monitoring system 20 of dry type connection member provided in this embodiment provides dry with first embodiment Difference lies in the data of dry type connection member provided in this embodiment for the data acquisition monitoring system 10 of formula connection member 20 dry type connection structure of collection monitoring system further includes third force sensor 800.Third force sensor 800 is set to first The second bolt 710 in 100 or second prefabricated board 200 of prefabricated board, for acquiring the third stress data of the second bolt 710.The Three force sensors 800 can be connect with signal wire 430.Preferably, in the present embodiment, third force sensor 800 is answers Become piece.

In the present embodiment, third force sensor 800 is positioned apart from multiple second connection components 700, i.e., wherein Third force sensor 800 is provided in one the second connection component 700, then third force sensor 800 adjacent thereto is not Third force sensor 800 is set.

In the other embodiment of the utility model, data collector 450, third can also be set in third groove 600 Force sensor 800 can also be connect with data collector 450, and data collector 450 is connect with data/address bus 440, passes through number Collected third stress data is converted into third digital signal, and be transmitted to data/address bus 440 according to collector 450.

The data acquisition monitoring system 20 of dry type connection member provided in this embodiment is by setting data acquisition unit 400 and third force sensor 800, the stress data of dry type connection member and the temperature and humidity of building can be acquired in real time Etc. data, and for a long time storage and analysis, be included in Building Information Model (Building Information Modeling, BIM) system System operation can form building structure by data analysis and optimize foundation, to scent a hidden danger in time, ensure that building structure is long-term Safety.

The above descriptions are merely preferred embodiments of the present invention, is not intended to limit the utility model, for this For the technical staff in field, various modifications and changes may be made to the present invention.It is all in the spirit and principles of the utility model Within, any modification, equivalent replacement, improvement and so on should be included within the scope of protection of this utility model.

Claims (10)

1. a kind of data acquisition monitoring system of dry type connection member, applied to dry type connection structure, the dry type connection knot Structure includes the first prefabricated board, the second prefabricated board and dry type connection member, first prefabricated board and second prefabricated board It is connected by dry type connection member, it is characterised in that：

The data acquisition monitoring system of the dry type connection member includes data acquisition unit, and the data acquisition unit includes First force sensor, signal wire and data/address bus, first force sensor are connect with the signal wire, the signal wire It is connect with the data/address bus, first force sensor is for being set to the dry type connection member, for acquiring State the first stress data of dry type connection member.

2. the data acquisition monitoring system of dry type connection member according to claim 1, which is characterized in that the data Collecting unit further includes data collector, and the data collector is connected by the signal wire and first force sensor It connects, and the data collector is connect with the data/address bus, the data collector is used for first stress data The first digital signal is converted to, the data/address bus is used for transmission first digital signal.

3. the data acquisition monitoring system of dry type connection member according to claim 2, which is characterized in that described first The first groove is provided in prefabricated board, the dry type connection member passes through first groove and connects with second prefabricated board It connects, the data collector is used to be set in first groove.

4. the data acquisition monitoring system of dry type connection member according to claim 2, which is characterized in that the data Temperature sensor and/or humidity sensor are provided on collector.

5. the data acquisition monitoring system of dry type connection member according to claim 1, which is characterized in that the data Collecting unit further includes the second force sensor, and second force sensor is connected by the signal wire and the data/address bus It connects, for acquiring the second stress data of the dry type connection member.

6. the data acquisition monitoring system of dry type connection member according to claim 5, which is characterized in that described first Prefabricated board is provided with the first groove, and the dry type connection member passes through first groove and connects with second prefabricated board It connects, second force sensor is used to be set between the side wall of the dry type connection member and first groove.

7. the data acquisition monitoring system of dry type connection member according to claim 5, which is characterized in that described second Force sensor is the gasket of included pressure sensitivity resistance or is patch type force sensor, alternatively, second force sensor It is integrated in one to form the connector of included pressure sensing function with the dry type connection member.

8. the data acquisition monitoring system of dry type connection member according to claim 1, which is characterized in that the data Collecting unit further includes master controller, and the data/address bus is connect with the master controller.

9. the data acquisition monitoring system of dry type connection member according to claim 8, which is characterized in that the master control Communication module is provided on device processed, for being connect with external server communication.

10. a kind of data acquisition monitoring system of dry type connection member, which is characterized in that applied to dry type connection structure, institute It states dry type connection structure and includes the first prefabricated board, the second prefabricated board and dry type connection member, first prefabricated board and institute The second prefabricated board is stated to connect by dry type connection member, it is characterised in that：

The data acquisition monitoring system of the dry type connection member includes multiple data acquisition units, each data acquisition Unit include the first force sensor, signal wire, data collector and data/address bus, first force sensor with it is described Signal wire connects, and the signal wire is connect with the data collector, the data acquisition of the two neighboring data acquisition unit Device is connected by the data/address bus, and first force sensor is for being set to the dry type connection member, for adopting Collect the first stress data of the dry type connection member.