CN215842865U - Medicine adding system - Google Patents

Abstract

The application provides a medicine system, including control system, central authorities add medicine pipeline, many parallel branch pipelines and a plurality of work groove. Wherein, be provided with first pneumatic valve and electromagnetic flowmeter on the central authorities add the medicine pipeline, many parallel branch pipelines and working groove one-to-one set up, are provided with the second pneumatic valve respectively on it, and control system can obtain current medicine and flow state based on the flow information that electromagnetic flowmeter sent to detect current medicine and reach the default or current flow state and for unusual, control the second pneumatic valve of first pneumatic valve and branch pipeline and close. The application adds medicine system is provided with the electromagnetic flowmeter that can send flow information to control system to make control system can in time acquire and add medicine abnormal conditions and handle, avoided the unnecessary wasting of resources. In addition, the medicine system of this application only needs to set up many parallel branch pipelines with the work groove one-to-one, has effectively reduced the configuration cost.

Description

Medicine adding system

Technical Field

The application relates to the technical field of chemical production, in particular to a dosing system.

Background

As electronic products such as electronic communication devices, electronic computers, and home appliances are applied more and more widely in daily life, Printed Circuit Boards (PCBs) are important parts of electronic products, and the demand thereof is continuously increasing. The PCB processing includes many processes, wherein the chemical processes such as copper deposition, copper plating, nickel deposition, and gold deposition are the key processes.

In the chemical processing process, a dosing system is needed to be used for dosing a working groove of a production line. At present, a plurality of central dosing pipelines are required to be arranged in one-to-one correspondence with a working tank in a common dosing system, and the configuration cost is high. In addition, the existing dosing system cannot acquire and process dosing abnormal conditions in time, and unnecessary resource waste can be caused.

SUMMERY OF THE UTILITY MODEL

The application provides a medicine system for in time acquire and add the medicine abnormal conditions and handle, reduce the configuration cost of medicine system simultaneously.

In a first aspect, embodiments of the present application provide a drug dosing system, including: the system comprises a control system, a central dosing pipeline, a dosing main pipeline, a plurality of parallel branch pipelines, a plurality of working tanks and a central dosing storage tank;

wherein, the central medicine adding pipeline is provided with a first pneumatic valve and an electromagnetic flowmeter; the plurality of parallel branch pipelines are respectively provided with a second pneumatic valve, and are in one-to-one correspondence with the plurality of working grooves; the outlet of the central medicine-adding pipeline is communicated with the inlet of the main medicine-adding pipeline, and the inlet of the central medicine-adding pipeline is communicated with the central medicine-adding storage tank; inlets of the plurality of parallel branch pipelines are communicated to the main medicine adding pipeline; the control system is connected with the first pneumatic valve, the second pneumatic valve and the electromagnetic flowmeter;

the central medicine adding storage tank is used for storing liquid medicine; the control system is used for controlling the first pneumatic valve and the second pneumatic valve to be opened so as to enable the liquid medicine to flow into the corresponding working groove through the branch pipeline; and obtaining the current medicine adding amount and the current flow state based on the flow information sent by the electromagnetic flowmeter, and controlling the second pneumatic valves of the first pneumatic valve and the branch pipeline to be closed when the current medicine adding amount is detected to reach a preset value or the current flow state is abnormal.

Further, as for the dosing system, the central dosing pipeline is also provided with a first manual valve.

Further, in the dosing system, the plurality of parallel branch pipelines are respectively provided with a second manual valve.

Further, the dosing system as described above, further comprising a first conduit; a third manual valve is arranged on the first pipeline;

and two ends of the first pipeline are respectively communicated to an inlet and an outlet of the central medicine adding pipeline.

Further, the dosing system as described above, further comprising a pump;

the water inlet of the pump is communicated with the central dosing storage tank, and the water outlet of the pump is communicated with the inlet of the central dosing pipeline.

Further, the dosing system as described above, further comprising a pressure sensor.

Further, the dosing system as described above, the control system comprising a programmable logic controller.

Further, as for the dosing system, the control system further comprises a touch screen.

Further, the dosing system as described above, the control system further comprising a sound output device.

Further, as for the dosing system, the control system further comprises an electric box.

The application provides a medicine system, including control system, central authorities add medicine pipeline, many parallel branch pipelines and a plurality of work groove. Wherein, be provided with first pneumatic valve and electromagnetic flowmeter on the central authorities add the medicine pipeline, many parallel branch pipelines and working groove one-to-one set up, are provided with the second pneumatic valve respectively on it, and control system can obtain current medicine and flow state based on the flow information that electromagnetic flowmeter sent to detect current medicine and reach the default or current flow state and for unusual, control the second pneumatic valve of first pneumatic valve and branch pipeline and close. That is to say, the medicine system of this application carries out flow monitoring through electromagnetic flowmeter to send flow information for control system, thereby make control system can in time acquire and add the medicine abnormal conditions and handle, avoided unnecessary wasting of resources. In addition, the medicine system of this application only needs to set up many parallel branch pipelines with the work groove one-to-one, has effectively reduced the configuration cost.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present application and together with the description, serve to explain the principles of the application.

FIG. 1 is a schematic structural diagram of a drug administration system provided in an embodiment of the present application;

FIG. 2 is a schematic structural diagram of a drug administration system provided in an embodiment of the present application;

FIG. 3 is a schematic structural diagram of a drug administration system provided in an embodiment of the present application;

FIG. 4 is a schematic structural diagram of a drug administration system provided in an embodiment of the present application;

fig. 5 is a schematic structural diagram of a dosing system provided in an embodiment of the present application.

With the above figures, there are shown specific embodiments of the present application, which will be described in more detail below. These drawings and written description are not intended to limit the scope of the inventive concepts in any manner, but rather to illustrate the inventive concepts to those skilled in the art by reference to specific embodiments.

Detailed Description

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The embodiments described in the following exemplary embodiments do not represent all embodiments consistent with the present application. Rather, they are merely examples of devices and medicated systems consistent with certain aspects of the present application, as detailed in the appended claims.

The processing of the printed circuit board includes many processes, among which, the chemical processes such as copper deposition, copper plating, nickel deposition, and gold deposition are the key processes. In the process of chemical processing, a dosing system is typically used to dose the working tank of the production line. At present, a plurality of central dosing pipelines are required to be arranged in one-to-one correspondence with a working tank in a common dosing system, and the configuration cost is high. In addition, the existing dosing system cannot acquire and process dosing abnormal conditions in time, and unnecessary resource waste can be caused.

The application provides a medicine system aims at solving prior art as above technical problem.

The following describes the technical solutions of the present application and how to solve the above technical problems with specific embodiments. The following several specific embodiments may be combined with each other, and details of the same or similar concepts or processes may not be repeated in some embodiments. Embodiments of the present application will be described below with reference to the accompanying drawings.

Example one

The medicine system that this embodiment provided includes: control system, central medicine pipeline, add medicine trunk line, many parallel branch pipelines, a plurality of working groove and central medicine storage tank.

Wherein, the central medicine adding pipeline is provided with a first pneumatic valve and an electromagnetic flowmeter; the plurality of parallel branch pipelines are respectively provided with a second pneumatic valve, and are in one-to-one correspondence with the plurality of working grooves; the outlet of the central medicine-adding pipeline is communicated with the inlet of the main medicine-adding pipeline, and the inlet of the central medicine-adding pipeline is communicated with the central medicine-adding storage tank; inlets of the plurality of parallel branch pipelines are communicated to the main medicine adding pipeline; the control system is connected with the first pneumatic valve, the second pneumatic valve and the electromagnetic flowmeter.

The central medicine adding storage tank is used for storing liquid medicine; the control system is used for controlling the first pneumatic valve and the second pneumatic valve to be opened so as to enable the liquid medicine to flow into the corresponding working groove through the branch pipeline; and obtaining the current medicine adding amount and the current flow state based on the flow information sent by the electromagnetic flowmeter, and controlling the second pneumatic valves of the first pneumatic valve and the branch pipeline to be closed when the current medicine adding amount is detected to reach a preset value or the current flow state is abnormal.

Fig. 1 is a schematic structural diagram of a dosing system provided in an embodiment of the present application, and as shown in fig. 1, the dosing system provided in this embodiment includes: the device comprises a control system 1, a central medicine adding pipeline 2, a main medicine adding pipeline 3, a plurality of parallel branch pipelines 4, a plurality of working tanks 5 and a central medicine adding storage tank 6.

Wherein, the central medicine adding pipeline 2 is provided with a first pneumatic valve 21 and an electromagnetic flowmeter 22. The second air-operated valves 41 are respectively provided on the plurality of parallel branch pipes 4, and the plurality of parallel branch pipes 4 are provided in one-to-one correspondence with the plurality of working tanks 5. The outlet of the central medicine adding pipeline 2 is communicated with the inlet of the main medicine adding pipeline 3, and the inlet of the central medicine adding pipeline 2 is communicated with the central medicine adding storage tank 6. The inlets of a plurality of parallel branch pipelines 4 are communicated to the main medicine adding pipeline 3. The control system 1 is connected to the first air-operated valve 21, the second air-operated valve 41, and the electromagnetic flow meter 22.

In practical application, the central medicine adding storage tank 6 is used for storing liquid medicine, and the stored liquid medicine can be used for chemical processing.

The control system 1 is used to control the first and second air-operated valves 21 and 41 to be opened so that the drug water flows into the corresponding working tank 5 through the branch pipe 4. Specifically, the control system 1 may send an opening command to the first and second air-operated valves 21 and 41, so as to control the first and second air-operated valves 21 and 41 to be opened by the power provided by the compressed air, and after the first and second air-operated valves 21 and 41 are both opened, the liquid medicine may flow into the corresponding working tank 5 through the branch pipe 4.

In addition, the control system 1 may further obtain a current dosage and a flow state based on the flow information sent by the electromagnetic flow meter 22, and control the first pneumatic valve 21 and the second pneumatic valve 41 of the branch pipe 4 to close when it is detected that the current dosage reaches a preset value or the current flow state is abnormal.

Specifically, the electromagnetic flowmeter 22 may obtain flow information of the central medicine feeding pipeline 2 in real time, and send the flow information to the control system 1, so that the control system 1 calculates and obtains a current medicine feeding amount and a current flow state according to the flow information. When the control system 1 detects that the current medicine adding amount reaches the preset value, it indicates that medicine adding does not need to be continued at this time, and the control system 1 may send a closing instruction to the first pneumatic valve 21 and the second pneumatic valve 41, so as to control the first pneumatic valve 21 and the second pneumatic valve 41 to be closed by the power provided by the compressed air. When the control system 1 detects that the current flow state is abnormal, in order to avoid damaging the dosing system and causing unnecessary waste of resources, the control system 1 may also send a closing command to the first and second pneumatic valves 21 and 41, thereby controlling the first and second pneumatic valves 21 and 41 to be closed by the power provided by the compressed air.

On the basis of the first embodiment, fig. 2 is a schematic structural diagram of the dosing system provided in the embodiment of the present application, and as shown in fig. 2, the dosing system provided in the embodiment further includes a pump 8, wherein a water inlet of the pump 8 is communicated with the central dosing storage tank 6, and a water outlet of the pump 8 is communicated with an inlet of the central dosing pipeline 2. And the pump 8 is connected to the control system 1.

In practical application, the pump 8 is used for conveying the liquid medicine stored in the central medicine-adding storage tank 6 to the central medicine-adding pipeline 2. Specifically, the pump 8 can be turned on or off under the control of the control system 1, and when the pump 8 is turned on, the liquid medicine stored in the central medicine-adding storage tank 6 can be conveyed to the central medicine-adding pipeline 2, so that when the first pneumatic valve 21 and the second pneumatic valve 41 are turned on, the liquid medicine can flow into the main medicine-adding pipeline 3 from the central medicine-adding pipeline 2 and then flow into the working tank 5 corresponding to the branch pipeline 4 through the branch pipeline 4 communicated with the main medicine-adding pipeline 3.

In an alternative embodiment, the medicated system further comprises a pressure sensor based on the first embodiment. The pressure sensor is arranged on the central medicine adding pipeline 2 and is connected with the control system 1.

In practical application, the pressure sensor is used for acquiring pressure information of the liquid medicine in the central medicine adding pipeline 2 in real time and sending the pressure information to the control system 1, so that the control system 1 can acquire the pressure state of the liquid medicine in the central medicine adding pipeline 2 according to the pressure information. When the control system 1 detects that the pressure state is not normal pressure, that is, an abnormal state, the control system 1 may send a shutdown instruction to the pump 8, so as to control the pump 8 to be shut down.

By the above mode, when the pressure of the traditional Chinese medicine water in the central medicine adding pipeline is detected to be abnormal, the pump is closed as soon as possible, medicine supply is stopped, and production safety is effectively guaranteed.

The medicine system that this embodiment provided includes control system, central medicine pipeline, many parallel branch pipelines and a plurality of work groove. Wherein, be provided with first pneumatic valve and electromagnetic flowmeter on the central authorities add the medicine pipeline, many parallel branch pipelines and working groove one-to-one set up, are provided with the second pneumatic valve respectively on it, and control system can obtain current medicine and flow state based on the flow information that electromagnetic flowmeter sent to detect current medicine and reach the default or current flow state and for unusual, control the second pneumatic valve of first pneumatic valve and branch pipeline and close. That is to say, in this application embodiment, add medicine system and carry out flow monitoring through electromagnetic flowmeter to send flow information to control system, thereby make control system can in time acquire and add medicine abnormal conditions and handle, avoided unnecessary wasting of resources. In addition, the medicine system of this application only needs to set up many parallel branch pipelines with the work groove one-to-one, has effectively reduced the configuration cost.

Example two

On the basis of the first embodiment, fig. 3 is a schematic structural diagram of the drug adding system according to the embodiment of the present application, and as shown in fig. 3, the drug adding system according to the present embodiment further includes a first manual valve 23 disposed on the central drug adding pipe 2.

In practical applications, when the first pneumatic valve 21 is in a normal state, the first manual valve 23 is kept in an open state. The first manual valve 23 is used to control the opening or closing of the passageway of the central dosing tube 2 when the first pneumatic valve 21 fails.

Specifically, when the first pneumatic valve 21 is in a normal state, i.e., the first pneumatic valve 21 can be normally opened or closed under the control of the control system 1, the first manual valve 23 remains in an open state so that the first pneumatic valve 21 can control the passageway of the central dosing tube 2 to be opened or closed. When the first pneumatic valve 21 fails, that is, the first pneumatic valve 21 cannot be normally opened or closed under the control of the control system 1, the first manual valve 23 may be used to control the opening or closing of the central medicine adding pipe 2 to prevent the leakage of the medicine or the wrong addition of the medicine.

On the basis of the first embodiment, fig. 4 is a schematic structural diagram of the dosing system provided in the embodiment of the present application, and as shown in fig. 4, in the dosing system provided in the embodiment, second manual valves 42 are further respectively disposed on a plurality of parallel branch pipelines 4.

In practical applications, when the second air-operated valve 41 is in a normal state, the second manual valve 42 is kept in an open state. When the second air-operated valve 41 malfunctions, the second manual valve 23 is used to control the passage of the branch duct 4 where it is located to be opened or closed.

Specifically, when the second air-operated valve 41 is in a normal state, that is, the second air-operated valve 41 can be normally opened or closed under the control of the control system 1, the second manual valve 42 is kept in an opened state, so that the passage of the branch duct 4, in which the second air-operated valve 41 can be located, is opened or closed. When the second pneumatic valve 41 fails, that is, the second pneumatic valve 41 cannot be normally opened or closed under the control of the control system 1, in order to prevent the liquid medicine from leaking or being added by mistake, the second manual valve 42 may be used to control the opening or closing of the passage of the branch conduit 4 where the second pneumatic valve is located.

By the mode, the liquid medicine can be prevented from being leaked or mistakenly added, and unnecessary resource waste is avoided.

On the basis of the first embodiment, fig. 5 is a schematic structural diagram of the dosing system provided in the embodiment of the present application, and as shown in fig. 5, the dosing system provided in the embodiment further includes a first pipeline 7, and a third manual valve 71 is disposed on the first pipeline 7. Two ends of the first pipeline 7 are respectively communicated to an inlet and an outlet of the central medicine adding pipeline 2.

In practice, the third manual valve 71 on the first conduit 7 remains closed when the passage of the central dosing conduit 2 is in the normal state. When the passage of the central dosing pipe 2 is not conductive, the third manual valve 71 on the first pipe 7 is opened.

It should be noted that, if the above embodiment is implemented separately, that is, the first pneumatic valve 21 is disposed on the central medicine feeding pipe 2, the normal state of the passage of the central medicine feeding pipe 2 means that the first pneumatic valve 21 can be normally opened or closed under the control of the control system 1. Accordingly, if the first and second embodiments are combined, that is, the central medicine feeding pipe 2 is provided with the first pneumatic valve 21 and the first manual valve 23, the normal state of the central medicine feeding pipe 2 is that the first pneumatic valve 21 can be normally opened or closed under the control of the control system 1, and the first manual valve 23 can be normally opened or closed.

Specifically, when the passage of the central dosing pipe 2 is in the normal state, the third manual valve 71 on the first pipe 7 may act as a backup valve and remain closed. When the passage of the central medicine feeding pipeline 2 cannot be conducted, the third manual valve 71 on the first pipeline 7 can be opened, so that the first pipeline 7 replaces the central medicine feeding pipeline 2 for medicine feeding.

The medicine system that this embodiment provided sets up the first pipeline with the entry and the export intercommunication of central authorities ' medicine pipeline to set up the manual valve of third on first pipeline, thereby can adopt first pipeline to replace central authorities ' medicine pipeline to add the medicine when the passageway of central authorities ' medicine pipeline can't switch on, effectively guaranteed chemical production's process.

EXAMPLE III

In accordance with any other embodiment, the control system includes a programmable logic controller.

Specifically, a Programmable Logic Controller (PLC) is a digital operation Controller with a microprocessor and used for automatic control, and can load a control instruction into a memory at any time for storage and execution, so that the PLC can be used for sending an opening instruction to a first pneumatic valve and a second pneumatic valve to control the first pneumatic valve and the second pneumatic valve to open, and in addition, can also receive flow information sent by an electromagnetic flowmeter, calculate and obtain a current dosage and a current flow state, and control the first pneumatic valve and the second pneumatic valve of a branch pipeline to close when it is detected that the current dosage reaches a preset value or the current flow state is abnormal.

In addition, the PLC has high integration level and has the functions of protecting the circuit and self-diagnosing, thereby improving the reliability of the control system.

In an optional implementation manner, on the basis of the fourth embodiment, the control system further includes a touch screen.

In practical application, a user can input the number of the working tank needing to be added with the liquid medicine and the preset medicine adding amount through the touch screen, so that the control system controls the medicine adding system to add the preset medicine adding amount of the liquid medicine into the related working tank according to information input by the user.

Specifically, after a user inputs the number of the working tank to be added with the liquid medicine through the touch screen and a preset medicine adding amount, the control system can send an opening instruction to the first pneumatic valve and the second pneumatic valve on the branch pipeline corresponding to the working tank to be added with the liquid medicine, so that the first pneumatic valve and the second pneumatic valve on the corresponding branch pipeline are controlled to be opened, the medicine adding system starts to add the medicine, and then the electromagnetic flowmeter can acquire flow information of the central medicine adding pipeline in real time and send the flow information to the control system, so that the control system calculates and obtains the current medicine adding amount and the flow state according to the flow information. When the control system detects that the current medicine adding amount reaches a preset value, the control system can send closing instructions to the first pneumatic valve and the second pneumatic valve on the corresponding branch pipeline, and therefore the first pneumatic valve and the second pneumatic valve are controlled to be closed.

In addition, when the control system detects that the current flow state is abnormal based on the flow information sent by the electromagnetic flowmeter, prompt information can be output through the display screen, for example, words of 'abnormal flow' are displayed on the display screen, so that a user is prompted to perform corresponding processing in time, and unnecessary loss is avoided.

In an optional implementation manner, on the basis of the fourth embodiment, the control system further includes a sound output device.

In practical applications, when the control system detects that the current flow state is abnormal based on the flow information transmitted from the electromagnetic flowmeter, it may output a warning sound, such as a warning sound lamp of "tic" through an audio output device, thereby more quickly warning the user.

In an optional implementation manner, on the basis of the fourth embodiment, the control system further includes an electric box. Specifically, the electric box can be connected with a first pneumatic valve, a second pneumatic valve, an electromagnetic flowmeter and a pump, and is used for providing electric quantity required by normal work of the electric box.

The medicine system that this embodiment provided includes control system, central medicine pipeline, many parallel branch pipelines and a plurality of work groove. Wherein, be provided with first pneumatic valve and electromagnetic flowmeter on the central authorities add the medicine pipeline, many parallel branch pipelines and working groove one-to-one set up, are provided with the second pneumatic valve respectively on it, and control system can obtain current medicine and flow state based on the flow information that electromagnetic flowmeter sent to detect current medicine and reach the default or current flow state and for unusual, control the second pneumatic valve of first pneumatic valve and branch pipeline and close. That is to say, in this application embodiment, add medicine system and carry out flow monitoring through electromagnetic flowmeter to send flow information to control system, thereby make control system can in time acquire and add medicine abnormal conditions and handle, avoided unnecessary wasting of resources. In addition, the medicine system of this application only needs to set up many parallel branch pipelines with the work groove one-to-one, has effectively reduced the configuration cost.

In the several embodiments provided herein, it should be understood that the disclosed applicator system may be implemented in other ways. For example, the medicated system embodiments described above are merely illustrative, for example, although the operations are depicted in a particular order, this should be understood as requiring that such operations be performed in the particular order shown or in sequential order, or that all illustrated operations be performed, to achieve desirable results. Under certain circumstances, multitasking and parallel processing may be advantageous. Likewise, while several specific implementation details are included in the above discussion, these should not be construed as limitations on the scope of the application. Certain features that are described in the context of separate embodiments can also be implemented in combination in a single implementation. Conversely, various features that are described in the context of a single implementation can also be implemented in multiple implementations separately or in any suitable subcombination.

Other embodiments of the present application will be apparent to those skilled in the art from consideration of the specification and practice of the invention disclosed herein. This application is intended to cover any variations, uses, or adaptations of the invention following, in general, the principles of the application and including such departures from the present disclosure as come within known or customary practice within the art to which the invention pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the application being indicated by the following claims.

It will be understood that the present application is not limited to the precise arrangements described above and shown in the drawings and that various modifications and changes may be made without departing from the scope thereof. The scope of the application is limited only by the appended claims.

Claims (10)

1. A medicated system, comprising: the system comprises a control system, a central dosing pipeline, a dosing main pipeline, a plurality of parallel branch pipelines, a plurality of working tanks and a central dosing storage tank;

wherein, the central medicine adding pipeline is provided with a first pneumatic valve and an electromagnetic flowmeter; the plurality of parallel branch pipelines are respectively provided with a second pneumatic valve, and are in one-to-one correspondence with the plurality of working grooves; the outlet of the central medicine-adding pipeline is communicated with the inlet of the main medicine-adding pipeline, and the inlet of the central medicine-adding pipeline is communicated with the central medicine-adding storage tank; inlets of the plurality of parallel branch pipelines are communicated to the main medicine adding pipeline; the control system is connected with the first pneumatic valve, the second pneumatic valve and the electromagnetic flowmeter;

the central medicine adding storage tank is used for storing liquid medicine; the control system is used for controlling the first pneumatic valve and the second pneumatic valve to be opened so as to enable the liquid medicine to flow into the corresponding working groove through the branch pipeline; and obtaining the current medicine adding amount and the current flow state based on the flow information sent by the electromagnetic flowmeter, and controlling the second pneumatic valves of the first pneumatic valve and the branch pipeline to be closed when the current medicine adding amount is detected to reach a preset value or the current flow state is abnormal.

2. The medicated system of claim 1, wherein the central medicated conduit is further provided with a first manual valve.

3. The medicated system of claim 1, wherein the plurality of side-by-side branch conduits are each further provided with a second manual valve.

4. The medicated system of claim 1, further comprising a first conduit; a third manual valve is arranged on the first pipeline;

and two ends of the first pipeline are respectively communicated to an inlet and an outlet of the central medicine adding pipeline.

5. The medicated system of claim 1, further comprising a pump;

the water inlet of the pump is communicated with the central dosing storage tank, and the water outlet of the pump is communicated with the inlet of the central dosing pipeline.

6. The medicated system of claim 5, further comprising a pressure sensor.

7. The medicated system of any of claims 1-5, wherein the control system comprises a programmable logic controller.

8. The medicated system of claim 7, wherein the control system further comprises a touch screen.

9. The medicated system of claim 7, wherein the control system further comprises an audio output device.

10. The medicated system of claim 7, wherein the control system further comprises an electrical box.

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