CN202088304U - Moving mortar mixing plant based on the Internet of Things - Google Patents

Moving mortar mixing plant based on the Internet of Things Download PDF

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Publication number
CN202088304U
CN202088304U CN2011201463479U CN201120146347U CN202088304U CN 202088304 U CN202088304 U CN 202088304U CN 2011201463479 U CN2011201463479 U CN 2011201463479U CN 201120146347 U CN201120146347 U CN 201120146347U CN 202088304 U CN202088304 U CN 202088304U
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CN
China
Prior art keywords
mixing plant
things
internet
microprocessor
push
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Fee Related
Application number
CN2011201463479U
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Chinese (zh)
Inventor
薛国龙
黄文兴
杜海蛟
孙建东
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
WUXI JIANGJIA CONSTRUCTION MACHINERY CO Ltd
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WUXI JIANGJIA CONSTRUCTION MACHINERY CO Ltd
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Priority to CN2011201463479U priority Critical patent/CN202088304U/en
Application granted granted Critical
Publication of CN202088304U publication Critical patent/CN202088304U/en
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Expired - Fee Related legal-status Critical Current

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Abstract

The utility model relates to a moving mortar mixing plant based on the Internet of Things. The mixing plant comprises a main support (1), a material storage bin (2), a stirring device (3) and an auxiliary support (2), wherein the material storage bin (2) is erected on the main support (1); the stirring device (3) is erected on the auxiliary support (4) and positioned below the material storage bin (2); the material storage bin (2) comprises a sand and rock bin (2.1) and a cement bin (2.2) which are independent from each other; and discharge openings at the bottoms of the sand and rock bin (2.1) and the cement bin (2.2) are both connected with the feed opening of the stirring device (3). The moving mortar mixing plant based on the Internet of Things can be monitored and managed in real time and has a low management expense.

Description

Mobile mortar mixing plant based on Internet of Things
Technical field
The utility model relates to a kind of mortar mixing plant, especially relates to a kind of flow-type mortar mixing plant that can monitor mortar mixing plant based on Internet of Things.
Background technology
Cement mortar is as the requisite material of architectural engineering, consumption is very huge, as adopt traditional artificial scene to mix system, the mixing plant of oneself all need be set up in each building site, the buying bagged cement, thereby not only environment has been caused pollution, expended cement package bags in a large number, and the decentralized system of mixing separately, simple and crude equipment and artificial preparation can't guarantee the grating and the quality of mortar, and construction work is caused very big hidden danger.Stir at the scene of forbidding that country carries out in the city, promotes premixing mortar and obtained big effect, has improved bulk cement popularization rate, has produced the good social economic benefit.It is of far-reaching significance that premixing mortar is promoted in the development rural area, a premixing mortar mixing plant point is set in a certain zone concentrates unified the stirring, needs the unit of mortar unified to this website acquisition.The mortar of centralization stirs, and not only can guarantee the mortar quality, and can use bulk cement in a large number, saves cement package bags, economizes on resources.After concentrating stirring in addition, in certain zone, a mixing plant only need be set, not only make things convenient for it is managed, and help discarded and pollutant are focused on, reduce pollution environment.After conventional mixing plant set, each stirred between website separate, made the manager can't in time grasp each information that stirs website (as the output of the consumption of cement, sandstone, mixing plant, use information such as peak, low ebb); And after mixing plant was established the station because of a variety of causes resettlement to new place, the manager often can't in time obtain feedback information, can't in time provide information indicating to relevant user.Simultaneously, for mixing plant, use conventional mortar mixer, when the user need use, need operator's execute-in-place to add cement and sandstone mixing stirring, offering the user, thereby for making things convenient for the user to use, need personnel be set in 24 hours at the stirring website and carry out duty management, increase the weight of the administrative expenses of website greatly.
Summary of the invention
The purpose of this utility model is to overcome above-mentioned deficiency, and providing a kind of can carry out monitoring management and the cheap mobile mortar mixing plant based on Internet of Things of mixing plant administrative expenses to mixing plant in real time.
The purpose of this utility model is achieved in that a kind of mobile mortar mixing plant based on Internet of Things, described mixing plant includes main support, storage bin, agitating device and assistant support, described storage bin is set up on the main support, described agitating device is set up on the assistant support, and agitating device is positioned at the storage bin below, described storage bin includes sandstone storehouse and two separate warehouses of cement bin, and the bottom discharge mouth of described sandstone storehouse and cement bin all links to each other with the charging aperture of agitating device.
The utility model is based on the mobile mortar mixing plant of Internet of Things, and described agitating device is provided with a water inlet, and this water inlet links to each other with a water source through a flowmeter.
The utility model is based on the mobile mortar mixing plant of Internet of Things, described mixing plant also includes control system, described control system includes microprocessor, the GPS module, LOAD CELLS, wireless module and man-machine interaction circuit, the microprocessor of described control system, the GPS module, wireless module and man-machine interaction circuit all are installed in the electric box, described electric box is arranged at main support, storage bin, on agitating device or the assistant support, described GPS module links to each other with the input port of microprocessor with LOAD CELLS, described LOAD CELLS is arranged at the assistant support bottom, and described wireless module links to each other with the PORT COM of microprocessor with the man-machine interaction circuit.
The utility model is based on the mobile mortar mixing plant of Internet of Things, the bottom discharge mouth place of described sandstone storehouse and cement bin is provided with push-pull valve and butterfly valve respectively, described control system also includes push-pull valve controller and butterfly valve controller, and described push-pull valve controller links to each other with the output port of microprocessor with the butterfly valve controller.
The utility model is based on the mobile mortar mixing plant of Internet of Things, described push-pull valve and butterfly valve are respectively pneumatic push-pull valve and Pneumatic butterfly valve, described push-pull valve controller and butterfly valve controller are magnetic valve, and push-pull valve controller and butterfly valve controller are serially connected in respectively on the air feed gas circuit of push-pull valve and butterfly valve.
The utility model is based on the mobile mortar mixing plant of Internet of Things, and described microprocessor links to each other with flowmeter.
Compared with prior art, the beneficial effects of the utility model are:
The utility model is owing to installed GPS module and wireless module additional, thereby the address information with mixing plant that can be real-time is transferred to remote server, and pass through LOAD CELLS, can obtain each gross mass that stirs easily, and be transferred to remote server, thereby make things convenient for the manager to monitor in real time to mixing plant present position and amount of agitation by wireless module; Storage bin is separated into two separate sandstone storehouse and cement bins, can feeds in advance, and after control system is set,, also can stirs easily and get material even administrative staff are not at the scene.Owing on agitating device, be provided with water inlet, thereby when needs wet mixing mortar, open the water inlet of flowmeter magnetic valve and can obtain the wet mixing mortar; Can obtain dry-mixed mortar when not intaking, thereby dual-use, improve the range of application of mixer.
Description of drawings
Fig. 1 is the structural representation of the utility model based on the mobile mortar mixing plant of Internet of Things.
Fig. 2 is the circuit block diagram of the utility model based on the mobile mortar mixing plant of Internet of Things.
Wherein:
Main support 1;
Storage bin 2, sandstone storehouse 2.1, cement bin 2.2, push-pull valve 2.3, butterfly valve 2.4;
Agitating device 3;
Assistant support 4;
Control system 5, microprocessor 5.1, GPS module 5.2, LOAD CELLS 5.3, push-pull valve controller 5.4, butterfly valve controller 5.5, wireless module 5.6, man-machine interaction circuit 5.7, flowmeter 5.8;
Electric box 6.
The specific embodiment
Referring to Fig. 1 and Fig. 2, a kind of mobile mortar mixing plant that the utility model relates to based on Internet of Things, described mixing plant includes main support 1, storage bin 2, agitating device 3, assistant support 4 and control system 5, described storage bin 2 is set up on the main support 1, described agitating device 3 is set up on the assistant support 4, and agitating device 3 is positioned at storage bin 2 belows, described storage bin 2 includes sandstone storehouse 2.1 and 2.2 two separate warehouses of cement bin, the bottom discharge mouth of described sandstone storehouse 2.1 and cement bin 2.2 all links to each other with the charging aperture of agitating device 3, the bottom discharge mouth place of described sandstone storehouse 2.1 and cement bin 2.2 is provided with push-pull valve 2.3 and butterfly valve 2.4 respectively, described agitating device 3 is provided with a water inlet, this water inlet links to each other with the water source through a flowmeter 5.8, is used for reading and provide automatic control signal to the water yield;
Described control system 5 includes microprocessor 5.1, GPS module 5.2, LOAD CELLS 5.3, push-pull valve controller 5.4, butterfly valve controller 5.5, wireless module 5.6, man-machine interaction circuit 5.7,
The mutual circuit 5.7 of the microprocessor 5.1 of described control system 5, GPS module 5.2, wireless module 5.6 and machine all is installed in the electric box 6, and described electric box 6 is arranged on the main support 1,
Described microprocessor 5.1 links to each other with flowmeter 5.8;
Described GPS module 5.2 links to each other with the input port of LOAD CELLS 5.3 with microprocessor 5.1, and described LOAD CELLS 5.3 is arranged at assistant support 4 bottoms;
Described GPS module 5.2 is used for the position of mixing plant is located in real time, and described LOAD CELLS 5.3 is used for monitoring the weight of agitating device 3 interior sandstones and cement in real time and automatic control signal being provided;
Described push-pull valve controller 5.4 links to each other with the output port of butterfly valve controller 5.5 with microprocessor 5.1, and described push-pull valve controller 5.4 and butterfly valve controller 5.5 are respectively applied for opening, closing of control push-pull valve 2.3 and butterfly valve 2.4; In the utility model, described push-pull valve 2.3 and butterfly valve 2.4 adopt pneumatic push-pull valve and Pneumatic butterfly valve respectively, described push-pull valve controller 5.4 and butterfly valve controller 5.5 all adopt magnetic valve, and push-pull valve controller 5.4 and butterfly valve controller 5.5 are serially connected in respectively on the air feed gas circuit of push-pull valve 2.3 and butterfly valve 2.4;
Described wireless module 5.6 links to each other with the PORT COM of man-machine interaction circuit 5.7 with microprocessor 5.1, the address information, the LOAD CELLS 5.3 detected sandstone cement information that are used for GPS module 5.2 is monitored transfer to remote server, described man-machine interaction circuit 5.7 includes keyboard, display screen and relevant button, and described man-machine interaction circuit 5.7 is used to make things convenient for the user to import information or the input order of starting working.
With a specific embodiment the utility model mixing plant is illustrated below:
Before the use, earlier in the sandstone storehouse 2.1 of storage bin 2 and cement bin 2.2, add sandstone and cement, during use, when a certain user need use, on man-machine interaction circuit 5.7, import the colon of joining of cement mortar, as the 1:2 cement mortar, and input aequum, as 45kg, press start key subsequently, at first microprocessor 5.1 is opened push-pull valve 2.3 by push-pull valve controller 5.4, and sand is imported in the agitating device 3, when but LOAD CELLS 5.3 detects weight and reaches (2/3)=30kg of 45 kg, microprocessor 5.1 cuts out push-pull valve 2.3 by push-pull valve controller 5.4, opens butterfly valve 2.4 by butterfly valve controller 5.5 subsequently, and cement (15kg) is imported in the agitating device 3, when LOAD CELLS 5.3 detects weight and reaches 45kg, close butterfly valve 2.4 by butterfly valve controller 5.5, the mixing time controller picks up counting then, and mixing time arrives, the Dump gate control cylinder is opened the Dump gate discharging automatically, can obtain the dry-mixed mortar that the user needs; If the user needs the wet mixing mortar, on man-machine interaction circuit 5.7, press corresponding button, the corresponding order of input, when agitating device 3 stirs, microprocessor 5.1 can be opened the flowmeter magnetic valve that is connected on agitating device 3 water supply loops by relay, thereby agitating device 3 is supplied water, and the water yield is controlled by flowmeter, when the water yield reaches aequum, close the flowmeter magnetic valve, stop to supply water, at this moment, after agitating device 3 stirrings were finished, the user can obtain required wet mixing mortar.Whole process has also realized automation, and even without staff's operation, the user also can easily get the mortar after the stirring.
In addition, the utility model mixing plant also has another mode of operation, because in a lot of places, proportioning to cement mortar is more fixing, thereby in microprocessor 5.1, this proportioning is preset, the user does not just need manually to import proportioning like this, and is convenient for users; Under this kind pattern, the user is also more convenient to the selection of aequum, when the uncertain aequum of user, only need press the beginning key, stir the back when discharging, when thinking that discharging is enough the time, press stop key and get final product, remaining mortar is stayed in the agitating device 3 and can be used for other users, at this moment, LOAD CELLS 5.3 passes through before the relatively discharging and the weight difference after the discharging, promptly knows load.
Simultaneously, when work, microprocessor 5.1 sends to remote server by wireless module 5.6 with load information, and the address information that microprocessor 5.1 also in real time monitors GPS module 5.2 sends to remote server.

Claims (9)

1. mobile mortar mixing plant based on Internet of Things, described mixing plant includes main support (1), storage bin (2), agitating device (3) and assistant support (4), described storage bin (2) is set up on the main support (1), described agitating device (3) is set up on the assistant support (4), and agitating device (3) is positioned at storage bin (2) below
It is characterized in that: described storage bin (2) includes sandstone storehouse (2.1) and (2.2) two separate warehouses of cement bin, and the bottom discharge mouth of described sandstone storehouse (2.1) and cement bin (2.2) all links to each other with the charging aperture of agitating device (3).
2. a kind of according to claim 1 mobile mortar mixing plant based on Internet of Things is characterized in that: described agitating device (3) is provided with a water inlet, and this water inlet links to each other with the water source through a flowmeter (5.8).
3. a kind of as claimed in claim 1 or 2 mobile mortar mixing plant based on Internet of Things, it is characterized in that: described mixing plant also includes control system (5), described control system (5) includes microprocessor (5.1), GPS module (5.2), LOAD CELLS (5.3), wireless module (5.6) and man-machine interaction circuit (5.7), the microprocessor (5.1) of described control system (5), GPS module (5.2), wireless module (5.6) and man-machine interaction circuit (5.7) all are installed in the electric box (6), described electric box (6) is arranged at main support (1), storage bin (2), on agitating device (3) or the assistant support (4), described GPS module (5.2) links to each other with the input port of LOAD CELLS (5.3) with microprocessor (5.1), described LOAD CELLS (5.3) is arranged at assistant support (4) bottom, and described wireless module (5.6) links to each other with the PORT COM of man-machine interaction circuit (5.7) with microprocessor (5.1).
4. as a kind of mobile mortar mixing plant as described in the claim 3 based on Internet of Things, it is characterized in that: the bottom discharge mouth place of described sandstone storehouse (2.1) and cement bin (2.2) is provided with push-pull valve (2.3) and butterfly valve (2.4) respectively, described control system (5) also includes push-pull valve controller (5.4) and butterfly valve controller (5.5), and described push-pull valve controller (5.4) links to each other with the output port of butterfly valve controller (5.5) with microprocessor (5.1).
5. as a kind of mobile mortar mixing plant as described in the claim 4 based on Internet of Things, it is characterized in that: described push-pull valve (2.3) and butterfly valve (2.4) are respectively pneumatic push-pull valve and Pneumatic butterfly valve, described push-pull valve controller (5.4) and butterfly valve controller (5.5) are magnetic valve, and push-pull valve controller (5.4) and butterfly valve controller (5.5) are serially connected in respectively on the air feed gas circuit of push-pull valve (2.3) and butterfly valve (2.4).
6. as a kind of mobile mortar mixing plant based on Internet of Things as described in the claim 3, it is characterized in that: described microprocessor (5.1) links to each other with flowmeter (5.8).
7. a kind of as claimed in claim 1 or 2 mobile mortar mixing plant based on Internet of Things is characterized in that: described microprocessor (5.1) links to each other with flowmeter (5.8).
8. as a kind of mobile mortar mixing plant based on Internet of Things as described in the claim 4, it is characterized in that: described microprocessor (5.1) links to each other with flowmeter (5.8).
9. as a kind of mobile mortar mixing plant based on Internet of Things as described in the claim 5, it is characterized in that: described microprocessor (5.1) links to each other with flowmeter (5.8).
CN2011201463479U 2011-05-10 2011-05-10 Moving mortar mixing plant based on the Internet of Things Expired - Fee Related CN202088304U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN2011201463479U CN202088304U (en) 2011-05-10 2011-05-10 Moving mortar mixing plant based on the Internet of Things

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN2011201463479U CN202088304U (en) 2011-05-10 2011-05-10 Moving mortar mixing plant based on the Internet of Things

Publications (1)

Publication Number Publication Date
CN202088304U true CN202088304U (en) 2011-12-28

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105773842A (en) * 2016-04-08 2016-07-20 徐州天龙液压机械有限公司 Double-bin proportioning mortar storage tank
CN106346609A (en) * 2015-07-20 2017-01-25 河南华泰建材开发有限公司 Foam light soil automatic control, feeding and stirring system

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN106346609A (en) * 2015-07-20 2017-01-25 河南华泰建材开发有限公司 Foam light soil automatic control, feeding and stirring system
CN105773842A (en) * 2016-04-08 2016-07-20 徐州天龙液压机械有限公司 Double-bin proportioning mortar storage tank
CN105773842B (en) * 2016-04-08 2018-05-22 徐州天龙液压机械有限公司 A kind of double storehouse proportioning mortar storage tanks

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C14 Grant of patent or utility model
GR01 Patent grant
CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20111228

Termination date: 20150510

EXPY Termination of patent right or utility model