CN217561933U - Electrical control device for kitchen waste treatment - Google Patents

Abstract

The utility model discloses an electrical control device for kitchen waste treatment, which comprises a pretreatment device, an anaerobic treatment device and a microbial inoculum treatment device; the pretreatment device comprises: the system comprises a CPU engineering module, a first substation, a second substation, a switch, a field HMI touch screen control cabinet, a plurality of centrifuges, a micro-filter and a plurality of field HMI touch screen control boxes; the anaerobic treatment device comprises a third substation, an engineering CPU module, a plurality of micro-filters, a sludge dewatering machine, a plurality of local control boxes, a switch and a central control upper computer. The microbial inoculum processing device comprises a fourth substation, an engineering CPU module, a seventh switch, an electric cabinet, a plate frame system and a local control box. The utility model discloses when remote control system loses communication connection with on-the-spot industrial control, can be controlled through the HMI touch-sensitive screen by the on-the-spot personnel, still can know the operation conditions of system in real time.

Description

Electrical control device for kitchen waste treatment

Technical Field

The utility model belongs to the technical field of refuse treatment, especially, relate to an electrical control device that kitchen remains refuse treatment.

Background

The existing kitchen garbage treatment mode is an artificial semi-intelligent operation mode, and limitations are mainly embodied in the following three points: 1. when a field worker operates a button on a local control box/local button box, whether corresponding equipment with a certain distance is started or not cannot be immediately judged; 2. when a field worker manually operates the button, the operation condition of the field process equipment cannot be observed comprehensively. 3. In the remote cooperation operation, the first observer is a field person, and the field person can only notice the condition of part of equipment but cannot notice the condition of all equipment of a certain section of process.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model provides an electric control device of kitchen garbage processing can show the situation of whole equipment locally through setting up the HMI touch-sensitive screen at local control box.

Specifically, the utility model discloses an electrical control device for kitchen waste treatment, which comprises a pretreatment device, an anaerobic treatment device and a microbial inoculum treatment device;

the pretreatment device comprises: the system comprises a first CPU engineering module, a first substation, a second substation, a first switch, a field HMI touch screen control cabinet, a first centrifugal machine, a second centrifugal machine, a first micro-filter and a plurality of field HMI touch screen control boxes;

the CPU engineering module is respectively connected with a first field HMI touch screen control cabinet and a first Profinet interface module through a first switch, and the first Profinet interface module is connected with a second Profinet interface module through an Ethernet line; the second Profinet interface module is connected with the first local control box, the second local control box and the third local control box through a second switch;

the second switch is connected with a third switch through an Ethernet, and the third switch is connected with the first centrifugal machine, the second centrifugal machine, the first micro-filter and the fourth local control box;

the anaerobic treatment device comprises a third substation, a third Profinet interface module, a second engineering CPU module, a second micro-filter, a third micro-filter, a sludge dewatering machine, a fifth local control box, a sixth local control box, a seventh local control box, an eighth local control box, a ninth local control box, a fourth switch, a fifth switch, a sixth switch and a central control upper computer;

the microbial inoculum processing device comprises a fourth substation, a third engineering CPU module, a seventh switch, an electric cabinet, a plate frame system and a tenth local control box;

the seventh switch is respectively connected with the fourth Profinet interface module, the third project CPU module, the seventh switch, the electric cabinet, the plate frame system and the tenth local control box.

Further, the local control box and the local control cabinet comprise an HMI touch screen and a power supply.

Furthermore, the local control box and the local control cabinet are connected with the HMI touch screen through COM interfaces.

Further, the model of the HMI touch screen is TPC1031KT.

Furthermore, the model of the chip used by the first CPU engineering module, the second CPU engineering module and the third CPU engineering module is 6 ES7-214-1 AG40.

Further, the first branch station comprises a first Profinet interface module, a plurality of DI module terminals and a DO module terminal; the second substation comprises a second Profinet interface module, a plurality of DI module terminals, a plurality of DO module terminals and a plurality of AI module terminals; the third substation comprises a third Profinet interface module and a plurality of DI module terminals, a plurality of DO module terminals, a plurality of AI module terminals and a plurality of AO module terminals; the fourth substation comprises a fourth Profinet interface module, a plurality of DI module terminals, a plurality of DO module terminals and a plurality of AI module terminals.

Further, the central control upper computer is connected with a fifth local control box, a sixth local control box, a seventh local control box, a fourth switch and a sixth switch through a fifth switch; the sixth switch is connected with the eighth local control box and the ninth local control box; and the fourth switch is connected with the second micro-filter, the third micro-filter, the sludge dewatering machine, the second engineering CPU module and the third Profinet interface module.

The utility model has the advantages as follows:

when the remote control system is out of communication connection with the field industrial control, field personnel can control the remote control system through the HMI touch screen, and the operating condition of the remote control system can be known in real time.

Drawings

FIG. 1 is a general block diagram of the present invention;

FIG. 2 is a schematic diagram of the network topology of the preprocessing unit of the present invention;

FIG. 3 is a network topology structure diagram of the anaerobic treatment device of the present invention;

fig. 4 is a network topology structure diagram of the microbial inoculum processing device of the utility model.

Detailed Description

The following description of the present invention is provided with reference to the accompanying drawings, which are not intended to limit the present invention in any way, and all modifications and replacements made based on the teachings of the present invention belong to the protection scope of the present invention.

Referring to fig. 1, the control system mainly includes a central control upper computer, a plurality of CPU engineering modules, a PLC input/output module, a collection and storage module, a data acquisition device such as an instrument, and an HMI system on site.

PLC's input/output module includes switching value DI module terminal, DO module terminal, gathers AI module terminal, AO module terminal that storage module includes the analog quantity. The data acquisition unit is an on-site instrument, the AI module terminal converts analog quantity into digital quantity through internal analog-to-digital conversion, and the AO module terminal converts the digital quantity into analog quantity through internal digital-to-analog conversion.

The acquisition and storage module is connected with the data acquisition unit and acquires analog input and output signals of the instrument; the input/output module and the acquisition and storage module of the PLC convert the analog signals into digital signals. The on-site HMI system comprises an on-site HMI touch screen control box and an on-site HMI touch screen control cabinet, and can collect analog input and output signals of the acquisition and storage module and digital input and output signals of the input and output module of the PLC to perform local monitoring of the instrument.

Figure 1 right is the field control condition, carries out the optimal design to the field control condition, and is different with the manual work button case mode on the spot of traditional mode, the utility model discloses a scene HMI touch-sensitive screen control box and scene HMI touch-sensitive screen switch board mode increase HMI touch-sensitive screen in scene HMI touch-sensitive screen control box and the scene HMI touch-sensitive screen switch board promptly, through COM interface connection between control box, switch board and the HMI touch-sensitive screen.

Referring to fig. 2, the preprocessing unit includes: the system comprises a first CPU engineering module, a first Profinet interface module, a second Profinet interface module, a first exchanger, an on-site HMI touch screen control cabinet, a first centrifuge, a second centrifuge, a first microstrainer and a plurality of on-site HMI touch screen control boxes; the first substation comprises a first Profinet interface module, a plurality of DI module terminals (ES-1160D) and a DO module terminal (ES-2161D). The first Profinet interface module connects the DI module terminal and the DO module terminal with the first CPU engineering module through the switch.

The second substation includes a second Profinet interface module, a plurality of DI module terminals (ES-1160D), a plurality of DO module terminals (ES-2161D), and a plurality of AI module terminals (ES-3081A).

The first and second Profinet interface modules comprise bus interfaces, extension interfaces, power interfaces and the like, and connect the first CPU engineering module with the DI/DO/AI module terminal.

The first CPU engineering module is respectively connected with a first field HMI touch screen control cabinet and a first Profinet interface module through a first switch, and the first Profinet interface module is connected with a second Profinet interface module through an Ethernet line; the second Profinet interface module is connected with the first local control box, the second local control box and the third local control box through a second switch; the first Profinet interface module connects the CPU engineering module with the DI/DO module, and the second Profinet interface module connects the first CPU engineering module with the DI/DO/AI module.

The second switch is connected with the third switch through an Ethernet, and the third switch is connected with the first centrifugal machine, the second centrifugal machine, the first micro-filter and the fourth local control box.

Referring to fig. 3, the anaerobic treatment apparatus includes a third Profinet interface module, a second engineering CPU module, a second micro-filter, a third micro-filter, a sludge dewatering machine, a fifth local control box, a sixth local control box, a seventh local control box, an eighth local control box, a ninth local control box, a fourth switch, a fifth switch, a sixth switch, and a central control upper computer. The third substation comprises a third Profinet interface module and a plurality of DI/DO/AI/AO module terminals.

The central control upper computer is connected with the fifth local control box, the sixth local control box, the seventh local control box, the fourth switch and the sixth switch through the fifth switch. The sixth switch is connected with the eighth local control box and the ninth local control box. The fourth exchanger is connected with the second micro-filter, the third micro-filter, the sludge dewatering machine, the second engineering CPU module and the third Profinet interface module.

The third Profinet interface module comprises a bus interface, an expansion interface, a power interface and the like, and connects the second CPU engineering module with the DI/DO/AI module terminal.

Referring to fig. 4, the microbial inoculum processing apparatus includes a fourth Profinet interface module, a third engineering CPU module, a seventh switch, an electric cabinet, a plate frame system, and a tenth local control box.

The seventh switch is respectively connected with the fourth Profinet interface module, the third project CPU module, the seventh switch, the electric cabinet, the plate frame system and the tenth local control box. The fourth substation comprises a fourth Profinet interface module and a plurality of DI/DO/AI module terminals. Electric cabinet and sheet frame system are current process systems component, the utility model discloses no longer give unnecessary details.

The fourth Profinet interface module comprises a bus interface, an expansion interface, a power interface and the like, and connects the third CPU engineering module with the DI/DO/AI module terminal.

In-situ control boxes are known in the art and are based on the following principles: the start and stop of the load are completed through a manual control button; the automatic control is simulated by the empty mold to be started remotely, and the automatic shutdown is finished by a time relay (the automatic trigger signal is an instant signal). Illustratively, the electrical component includes: the change-over switch 1 is only; 1 AC contactor; the two-link button is 1; the time relay 1 is only. Green running indicator lamp 1; 1 red stop indicator lamp; 2P power supply is switched on 1; the analog auto signal 1P is off 1. The manual control process comprises the steps of pulling SA out, manually pressing SB1, starting KM, sucking a kM11 long open contact, finishing starting, and pressing SB2 equipment to stop. The automatic control process comprises the steps that SA is pulled out to be automatic (remote control or remote control), the contact SA1-2 is also connected, when a starting signal appears, the loop SA is automatically- -a pLc- -KT coil, the kM coil is in electrified attraction, the long-open contact KM12 is closed and self-held, the remote control starting of the equipment is completed, when the KT reaches a set time, the contact KT is automatically disconnected in a delayed mode, and the automatic stopping of the equipment is completed. For further technical details reference may be made to: https:// zhidao.baidu.com/query/149507761. Html.

The engineering CPU module, i.e. the central processing unit, is used as the operation and control core of the whole system to program, operate, control and run the engineering system, the hardware component is the central processing unit, and the software component is the main program, the subprogram, the interrupt program and the like. The utility model discloses well engineering CPU module is prior art, no longer gives details.

The utility model provides a whole local control box and local control cabinet include the HMI touch-sensitive screen, and local control box and local control cabinet pass through COM interface connection with the HMI touch-sensitive screen. The HMI touch screen is a prior art in the field, and is a digital device for realizing information interaction between a Human and a Machine by using an HMI (Human Machine Interface) touch screen to connect industrial control devices such as a Programmable Logic Controller (PLC), a frequency converter, a direct current speed regulator, an instrument and the like, writing working parameters or inputting operation commands through an input unit (such as a touch screen, a keyboard, a mouse and the like) by using display screen display. For specific details reference may be made to https:// baijiahao.baidu.com/sid = 17117742390995634 &wfr = spider &for = pc. The utility model discloses with the button signal of traditional control box on the spot, send for the HMI touch-sensitive screen through the COM interface to can realize the button operation function of traditional control box on the spot through the HMI touch-sensitive screen, and send the analog input output signal who gathers storage module and PLC's input output module's digital input output signal for the HMI touch-sensitive screen through the ethernet interface, thereby show the state of all the other equipment through the HMI touch-sensitive screen.

PROFINET was introduced by PROFIBUS International (PI) and is a new generation of automation bus standards based on the industrial ethernet technology. The utility model discloses in, well accuse host computer still includes a plurality of slave stations for adopting the main website of Profinet standard, and the slave station is module terminals such as DI/DO/AI AO. The slave stations are connected to the master station via an ethernet (switch) via Profinet interface modules. Both the master station and the slave station are prior art in this field and will not be described further. In fig. 2, 3 and 4, the Profinet interface module and the module terminals such as DI/DO/AI/AO of the substation communicate with each other through the Profinet interface protocol, which is the prior art in the field, and as long as the Profinet interface module and the module terminals such as DI/DO/AI/AO are inserted into the chassis slot supporting the Profinet protocol and are set accordingly, the communication can be performed.

The utility model discloses well PLC's data collection station such as input/output module, collection storage module, instrument all is current sewage treatment plant's prior art, the utility model discloses no longer give unnecessary details. The utility model discloses an innovation point lies in making up above-mentioned prior art to solve the utility model provides a technical problem. Particularly, the utility model discloses an on the basis of current rubbish from cooking processing apparatus, increased the HMI touch screen in field control case or field control cabinet, be connected field control case, field control cabinet and HMI touch screen through COM interface. Other techniques are known in the art.

The utility model discloses a theory of operation does:

the central control upper computer is connected with a plurality of local control boxes, a centrifugal machine, a micro-filter, a sludge dewatering machine and the like through a switch, controls the centrifugal machine, the micro-filter, the sludge dewatering machine and the like, and can remotely monitor the running state of equipment.

The engineering CPU module is connected with the Profinet interface module through the switch and is connected with the PLC output module through the Profinet interface module, the module terminals including DI/DO/AI/AO and the like are connected, data collected by the field instrument are obtained, a plurality of on-site control boxes, a centrifugal machine, a micro-filter, a sludge dewatering machine and the like are controlled according to the collected data, the centrifugal machine, the micro-filter, the sludge dewatering machine and the like are controlled to operate according to the design flow of the process, and kitchen waste is treated.

A plurality of local control boxes can locally control a centrifugal machine, a micro-filter, a sludge dewatering machine and the like through a switch, field workers operate buttons of an HMI (human machine interface) touch screen on a local control cabinet of the local control box/local button box, when certain equipment is controlled, an operation result is displayed through the HMI touch screen, and the running state and the running result of the equipment and other equipment can be obtained.

The beneficial effects of the utility model are as follows:

when the remote control system loses communication connection with the field industrial control, field personnel can control the remote control system through the HMI touch screen, and the running condition of the remote control system can be known in real time.

The word "preferred" is used herein to mean serving as an example, instance, or illustration. Any aspect or design described herein as "preferred" is not necessarily to be construed as advantageous over other aspects or designs. Rather, use of the word "preferred" is intended to present concepts in a concrete fashion. The term "or" as used in this application is intended to mean an inclusive "or" rather than an exclusive "or". That is, unless specified otherwise or clear from context, "X employs A or B" is intended to include either of the permutations as a matter of course. That is, if X employs A; x is B; or X employs both A and B, then "X employs A or B" is satisfied under any of the foregoing instances.

Also, although the disclosure has been shown and described with respect to one or an implementation, equivalent alterations and modifications will occur to others skilled in the art based upon a reading and understanding of this specification and the annexed drawings. The present disclosure includes all such modifications and alterations, and is limited only by the scope of the appended claims. In particular regard to the various functions performed by the above described components (e.g., elements, etc.), the terms used to describe such components are intended to correspond, unless otherwise indicated, to any component which performs the specified function of the described component (e.g., that is functionally equivalent), even though not structurally equivalent to the disclosed structure which performs the function in the herein illustrated exemplary implementations of the disclosure. In addition, while a particular feature of the disclosure may have been disclosed with respect to only one of several implementations, such feature may be combined with one or other features of the other implementations as may be desired and advantageous for a given or particular application. Furthermore, to the extent that the terms "includes," has, "" contains, "or variants thereof are used in either the detailed description or the claims, such terms are intended to be inclusive in a manner similar to the term" comprising.

The functional units in the embodiments of the present invention may be integrated into one processing module, or each unit may exist physically alone, or a plurality of or more units are integrated into one module.

To sum up, the above embodiment is an implementation manner of the present invention, but the implementation manner of the present invention is not limited by the embodiment, and any other changes, modifications, replacements, combinations, and simplifications made under the spirit and principle of the present invention should be equivalent replacement manners, and all included in the protection scope of the present invention.

Claims (7)

1. An electrical control device for treating kitchen waste is characterized by comprising a pretreatment device, an anaerobic treatment device and a microbial inoculum treatment device;

the pretreatment device comprises: the system comprises a first CPU engineering module, a first substation, a second substation, a first switch, a field HMI touch screen control cabinet, a first centrifugal machine, a second centrifugal machine, a first micro-filter and a plurality of field HMI touch screen control boxes;

the CPU engineering module is respectively connected with a first field HMI touch screen control cabinet and a first Profinet interface module through a first switch, and the first Profinet interface module is connected with a second Profinet interface module through an Ethernet line; the second Profinet interface module is connected with the first local control box, the second local control box and the third local control box through the second switch;

the second switch is connected with a third switch through an Ethernet, and the third switch is connected with the first centrifugal machine, the second centrifugal machine, the first micro-filter and the fourth local control box;

the anaerobic treatment device comprises a third substation, a third Profinet interface module, a second engineering CPU module, a second micro-filter, a third micro-filter, a sludge dewatering machine, a fifth local control box, a sixth local control box, a seventh local control box, an eighth local control box, a ninth local control box, a fourth switch, a fifth switch, a sixth switch and a central control upper computer;

the microbial inoculum processing device comprises a fourth substation, a third engineering CPU module, a seventh switch, an electric cabinet, a plate frame system and a tenth local control box;

the seventh switch is respectively connected with the fourth Profinet interface module, the third project CPU module, the seventh switch, the electric cabinet, the plate frame system and the tenth local control box.

2. The electrical control kitchen waste treatment apparatus according to claim 1, wherein said local control box and local control cabinet include HMI touch screen and power supply.

3. The electrical control kitchen waste treatment apparatus according to claim 2, wherein said local control box and local control cabinet are connected to the HMI touch screen through a COM interface.

4. The electrical control apparatus for kitchen waste disposal according to claim 3, wherein said HMI touch screen is model TPC1031KT.

5. The electrical control device for kitchen waste treatment according to claim 1, wherein the chip model number used by the first CPU engineering module, the second CPU engineering module and the third CPU engineering module is 6ES7-214-1 AG40.

6. The electrical control apparatus for kitchen waste disposal according to claim 1, wherein said first branch station comprises a first Profinet interface module, a plurality of DI module terminals and a DO module terminal; the second substation comprises a second Profinet interface module, a plurality of DI module terminals, a plurality of DO module terminals and a plurality of AI module terminals; the third substation comprises a third Profinet interface module and a plurality of DI module terminals, a plurality of DO module terminals, a plurality of AI module terminals and a plurality of AO module terminals; the fourth substation comprises a fourth Profinet interface module, a plurality of DI module terminals, a plurality of DO module terminals and a plurality of AI module terminals.

7. The electrical control apparatus for kitchen waste disposal according to claim 1, wherein said central control upper computer is connected to a fifth local control box, a sixth local control box, a seventh local control box, a fourth switch and a sixth switch through a fifth switch; the sixth switch is connected with the eighth local control box and the ninth local control box; and the fourth switch is connected with the second micro-filter, the third micro-filter, the sludge dewatering machine, the second engineering CPU module and the third Profinet interface module.

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