CN211437492U - Rolling oil management and control device - Google Patents

Abstract

The utility model discloses a rolling oil pipe controlling means, for be used for the storage and the transmission of rolling oil, it includes a pipeline subassembly, a rolling oil storage mechanism and a control mechanism, control mechanism further includes an at least monitoring subassembly, the monitoring subassembly set up in a rolling oil tank subassembly, a rectification oil tank subassembly, a recovery oil tank subassembly or a rolling mill oil tank subassembly of rolling oil storage mechanism, in order to be used for the monitoring rolling oil is in mutual transmission state in the rolling oil storage mechanism to with monitoring data feedback in the pipeline subassembly, in order to control the operating condition of pipeline subassembly.

Description

Rolling oil management and control device

Technical Field

The utility model relates to a rolling oil field especially relates to a rolling oil pipe accuse device.

Background

In the production process of the aluminum strip foil rolling mill, rolling oil is used as a cooling and lubricating agent, and the rolling oil is used as a main consumable material in the production and needs to be supplemented and replaced frequently. In the use process, due to process requirements, an aluminum strip foil rolling mill is usually matched with functional areas such as a rolling mill oil tank unit, an oil mist recovery device, a rectification device, an oil depot and the like, and related equipment or areas corresponding to rolling oil at present are as follows: oil depot, oil mist recovery system, rectifier unit, rolling mill oil tank and plate filter.

The oil depot is mainly used for storing new oil and oil used by the rolling mill, the oil mist recovery system is mainly used for recovering rolling oil discharged into flue gas, the recovered rolling oil is directly returned to an oil tank of the rolling mill for use, the rectification device is mainly used for solving the problem of heavy oil pollution to the rolling oil in the using process, the treated rolling oil is directly returned to the oil tank of the rolling mill for use, the plate filter is mainly used for solving the problem of mechanical pollution to the rolling oil in the using process, the oil conveyed from a dirty oil tank of the rolling mill is filtered by the plate filter and then returned to the clean oil tank of the rolling mill for direct use, and the oil tank of the rolling mill is mainly used for storing clean rolling oil and dirty rolling oil which are respectively the clean oil tank of the rolling mill and the dirty oil tank.

At present, the devices or areas of rolling oil are relatively independent and are not controlled in a correlation mode, so that the devices need to be shut down and started up during the oil guiding process, the oil storing process and the like of the related devices in the later period.

Disclosure of Invention

The utility model discloses a main advantage is that it provides a rolling oil pipe control device, wherein rolling oil is in realize pure clean oil and the conversion between the contaminated oil in the rolling oil pipe control device.

The utility model discloses a main advantage is that it provides a rolling oil pipe accuse device, wherein rolling oil transmits each other between a rolling oil tank subassembly, a rectification oil tank subassembly, a recovery oil tank subassembly and a rolling mill oil tank subassembly respectively, so as to do benefit to rolling oil's use and storage.

The utility model discloses a main advantage is that it provides a rolling oil pipe accuse device, wherein rolling oil pipe accuse device includes a control mechanism, control mechanism sets up in a rolling oil storage mechanism to be used for detecting and management and control rolling oil is in transmission state in the rolling oil storage mechanism.

The utility model discloses a rolling oil pipe controlling means is provided to another advantage thereof, wherein a control mechanism's at least liquid level monitoring piece set up respectively in rolling oil storage mechanism for monitor each rolling oil storage mechanism rolling oil memory space, according to the feedback numerical value of liquid level monitoring piece calculates but transmittable in rolling oil storage mechanism with can save rolling oil's capacity.

The utility model discloses a rolling oil pipe controlling means is provided to another advantage thereof, wherein a control mechanism's at least display part is set up respectively in each rolling oil storage mechanism, the display part will memory space and mutual transmission oil mass between the rolling oil storage mechanism are shown in the user to in real time, be convenient for the user knows the oil mass in the rolling oil storage mechanism ensures leading oily accurate of process.

The utility model discloses a further advantage is that it provides a rolling oil pipe accuse device, wherein a control mechanism's at least warning piece is set up respectively in rolling oil storage mechanism, it can be right to report to the police the piece leak phenomenon and the cluster oil phenomenon that the rolling oil storage component leads the oil in-process to appear carry out the alarm process to remind operating personnel in time to take measures.

The utility model discloses a further advantage is that it provides a rolling oil pipe accuse device, wherein a control mechanism's at least stop is set up in a pipeline subassembly respectively, rolling oil storage subassembly is when leading the oil process and taking place to leak and the oil mixing phenomenon, and a stop obtains automatic stop rolling oil storage mechanism is each other to lead the oil process.

The other advantages and features of the invention will be fully apparent from the following detailed description and realized by means of the instruments and combinations particularly pointed out in the appended claims.

According to the utility model discloses, can realize aforementioned purpose and other purposes and advantage the utility model relates to a rolling oil pipe control device includes a pipeline subassembly and a rolling oil storage mechanism, rolling oil storage mechanism includes a rolling oil tank storage component, a rectification oil tank subassembly, a recovery oil tank subassembly and a rolling mill oil tank subassembly, rolling oil tank storage component rectification oil tank subassembly recovery oil tank subassembly and rolling mill oil tank subassembly pass through the pipeline subassembly communicates each other, so as to do benefit to rolling oil's use and storage.

According to the utility model discloses an embodiment, rolling oil management and control device includes a control mechanism, control mechanism further includes an at least monitoring subassembly, the monitoring subassembly set up in rolling oil tank storage component the rectification oil tank subassembly recovery oil tank subassembly or rolling oil tank group, in order to be used for the monitoring rolling oil is in mutual transmission state in the rolling oil storage mechanism to with monitoring data feedback in the pipeline subassembly, in order to control the operating condition of pipeline subassembly.

According to the utility model discloses an embodiment, the monitoring subassembly includes a liquid level monitoring spare, a liquid level calculation spare and a capacity monitoring spare, the liquid level monitoring spare set up respectively in rolling oil tank storage subassembly the rectification oil tank subassembly retrieve the oil tank subassembly and rolling mill oil tank subassembly, the monitoring signal transmission of liquid level calculation spare in the liquid level monitoring spare with the capacity monitoring spare, the liquid level monitoring spare is used for monitoring in the rolling oil storage subassembly the memory space of rolling oil.

According to the utility model discloses an embodiment, control mechanism includes an alarm assembly, alarm assembly further includes an at least display component, display component set up respectively in rolling oil tank storage component rectifying oil tank subassembly recovering oil tank subassembly and rolling mill oil tank subassembly, display component is used for showing monitoring assembly's monitoring data.

According to the utility model discloses an embodiment, control mechanism the warning subassembly includes a stop, the stop be set up in the pipeline subassembly, the monitoring subassembly monitoring rolling oil is in when transmitting trouble information in the rolling oil storage assembly, stop control the pipeline subassembly stops the transmission process of rolling oil.

According to the utility model discloses an embodiment, rolling oil tank subassembly includes that at least one rolling mill pollutes the oil tank, at least one new oil tank and an at least transfer oil tank, the rolling mill pollutes the oil tank new oil tank and the transfer oil tank passes through the pipeline subassembly communicates each other.

According to the utility model discloses an embodiment, rectification oil tank subassembly includes an at least rectification absolute oil case, an at least rectification dirty oil case and an at least rectification waste oil case, the rectification absolute oil case rectification dirty oil case and rectification waste oil case passes through respectively the pipeline subassembly communicate in the rolling mill pollutes the oil tank new oil tank and transfer oil tank.

According to the utility model discloses an embodiment, the pipeline subassembly includes an at least pipeline and an at least control valve, rolling oil tank subassembly rectification oil tank subassembly recovery oil tank subassembly and rolling mill oil tank subassembly passes through respectively the pipeline is linked together, the control valve set up in the pipeline, in order to control the operating condition of pipeline.

According to the utility model discloses an embodiment, the warning subassembly includes an at least liquid level warning piece, the liquid level warning piece respectively set up in rolling oil tank subassembly the rectification oil tank subassembly and rolling mill oil tank subassembly is when each the mailbox subassembly the rolling oil memory space reaches when the default, oil tank subassembly can send alarm signal.

According to an embodiment of the invention, the control mechanism comprises a selector, which is electrically connected to the rolling oil storage mechanism.

Drawings

Fig. 1 is an overall schematic block diagram according to a preferred embodiment of the present invention.

Fig. 2 is a specific schematic block diagram according to a preferred embodiment of the present invention.

Fig. 3 is a schematic diagram of a rolling oil storage mechanism according to the present invention.

Fig. 4 is an overall schematic view of a preferred embodiment according to the present invention.

Detailed Description

The following description is presented to disclose the invention so as to enable any person skilled in the art to practice the invention. The preferred embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art. The basic principles of the invention, as defined in the following description, may be applied to other embodiments, variations, modifications, equivalents and other technical solutions without departing from the spirit and scope of the invention.

It will be understood by those skilled in the art that in the present disclosure, the terms "longitudinal," "lateral," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in a generic and descriptive sense only and not for purposes of limitation, as the terms are used in the description to indicate that the referenced device or element must have the specified orientation, be constructed and operated in the specified orientation, and not for the purpose of limitation.

It is understood that the terms "a" and "an" should be interpreted as meaning that a number of one element or element is one in one embodiment, while a number of other elements is one in another embodiment, and the terms "a" and "an" should not be interpreted as limiting the number.

As shown in fig. 1 to 4 the utility model discloses a rolling management and control device, rolling oil management and control device is used for aluminium strip paper tinsel rolling mill production field, aluminium strip paper tinsel rolling mill needs a cooperation rolling oil to use in the in-process of using of producing, rolling oil is used for the cooling action, consequently rolling oil is in rolling oil mechanism has processes such as storage, use, rectification purification and recovery. At present, the rolling oil is subjected to different oil guiding processes in the processes, that is, the rolling oil is subjected to different processes in different production process stages. However, in the actual production process, the rolling oil needs to be manually controlled to be opened or closed by different pipelines when each process is completed so as to meet the oil conveying and guiding process of the rolling oil. Therefore, operation accidents are easy to occur, and the phenomena of leakage or oil leakage of transmission occur.

And the utility model discloses a rolling oil mechanism can avoid above-mentioned technical defect, rolling oil is in rolling oil pipe controlling means leads oily process each other, must solve well defect phenomenon in the rolling oil use. The rolling oil management and control device comprises a rolling oil storage mechanism 10 and a control mechanism 20, wherein the control mechanism 20 is arranged on the rolling oil storage mechanism 10, and the control mechanism 20 is used for monitoring and managing the storage state and the oil guiding transmission state of the rolling oil in the rolling oil storage mechanism 10. When the control mechanism 20 monitors the storage state of the rolling oil in each storage mechanism in the rolling oil storage mechanism 10, the control process of the oil guiding amount is performed according to the capacity of each storage mechanism. Under the control and monitoring action of the control mechanism 20, the rolling oil is mutually transmitted in the storage mechanism without leakage and oil leakage.

Further, the rolling oil storage assembly 10 includes a rolling oil tank assembly 11, a rectifying oil tank assembly 12, a recovery oil tank assembly 13 and a rolling mill oil tank assembly 14, wherein the rolling oil tank assembly 11, the rectifying oil tank assembly 12, the recovery oil tank assembly 13 or the rolling mill oil tank assembly 14 are communicated with each other through a pipeline. The rolling oil tank assembly 11 is used for storing new rolling oil and used rolling oil, the rectification oil tank assembly 12 is used for storing the rolling oil after rectification, the recovery oil tank assembly 13 is used for storing the used rolling oil, and the rolling oil tank area 14 is used for storing the new rolling oil and the rolling oil in the transfer process.

Preferably, the rolling oil tank assembly 11 is communicated with the rectification oil tank assembly 12, and the rolling oil in the rolling oil tank assembly 11 is communicated with the rolling oil in the rectification oil tank assembly 12. The rectification oil tank assembly 12 is communicated with the recovery oil tank assembly 13, and the purified rolling oil in the recovery oil tank assembly 13 is transmitted to the rectification oil tank assembly 12 to carry out rectification and purification processes. The rolling mill oil tank assembly 14 is communicated with the rolling oil tank assembly 11, and the rolling oil in the rolling mill oil tank assembly 14 is communicated with the rolling oil tank assembly 11. Further, the rolling oil tank assembly 11, the rectification oil tank assembly 12, the recovery oil tank assembly 13, or the rolling oil tank assembly 14 are set to be in one-way communication or two-way communication according to different production requirements, and the oil tank assemblies can be communicated and combined according to different use requirements. Those skilled in the art will understand that the number and interconnection states of the tank storages in the respective tank areas of the rolling oil tank assembly 11, the rectification oil tank assembly 12, the recovery oil tank assembly 13 or the rolling oil tank assembly 14 are not intended to limit the present invention, so as to realize the combination matching according to different production requirements.

Further, the rolling oil tank assembly 11 includes at least one rolling mill contamination oil tank 111, at least one new oil tank 112 and at least one intermediate oil tank 113, and the rectification oil tank assembly 12 includes at least one rectification clean oil tank 121, at least one rectification contamination oil tank 122 and at least one rectification waste oil tank 123. The mutual transmission process of the rolling oil among the rolling mill polluted oil tank 111, the new oil tank 112, the transfer oil tank 113, the rectification clean oil tank 121, the rectification dirty oil tank 122, the rectification waste oil tank 123, the recovery oil tank assembly 13 and the rolling mill oil tank assembly 14 is that when the rolling mill needs to be cleaned or oil changed, the rolling oil of the rolling mill oil tank assembly 14 can be transmitted to the rolling mill polluted oil tank 111. The rolling oil of the rolling mill oil tank assembly 14 is transferred to the rectification dirty oil tank 122 to clean the rolling oil stored in the rolling mill oil tank assembly 14. The rolling oil in the rolling mill contaminated oil tank 111 is transferred to the new oil tank 112, and the number of the rolling mill contaminated oil tank 111 and the new oil tank 112 is not limited by the present invention.

The rolling oil in the recovered oil tank assembly 13 is transferred to the rolling mill contaminated oil tank 111, and the purified and recovered rolling oil is reused by the rolling mill. The recovered oil tank assembly 13 and the rolling oil in the rectification clean oil tank 121 are communicated with the transfer oil tank 113, and then the rolling oil is stored in the rectification process or after being recovered. The rolling oil of the recovered oil tank assembly 13 is transmitted to the rectification dirty oil tank 121, and then the recovered rolling oil is subjected to a rectification process again. The rolling oil in the rectification oil tank 121 can be transferred to the rolling mill pollution oil tank 111 and the transfer oil tank 113, and the rectified rolling oil is reused by the rolling mill. The rolling oil in the new oil tank 112 is transferred to the rolling mill oil tank assembly 14, and is used for the oil mist cleaning process of the rolling mill

It should be noted that the rolling oil pipe control device comprises a pipeline assembly 30, and the rolling oil tank assembly 11, the rectification oil tank assembly 12, the recovery oil tank assembly 13 or the rolling mill oil tank assembly 14 are communicated with each other through the pipeline assembly 30. And the control mechanism 20 is electrically connected to the pipeline assembly 30, when the control mechanism 20 controls the pipeline assembly 30 to be in an open state, the rolling oil in the rolling oil tank assembly 11, the rectification oil tank assembly 12, the recovery oil tank assembly 13 or the rolling mill oil tank assembly 14 is conducted with each other. The control mechanisms 20 are respectively electrically connected to the pipeline assemblies 30, and the control mechanisms 20 receive an operation instruction from a user and feed back an operation signal to the pipeline assemblies 30 to control the working state of the management and control assemblies 30. When the control mechanism 20 controls the pipeline assembly 30 to be in the closed state, the rolling oil tank assembly 11, the rectification oil tank assembly 12, the recovery oil tank assembly 13 or the rolling mill oil tank assembly 14 cannot perform the rolling oil transferring process therebetween. When the control mechanism 20 controls the pipeline assembly 30 to be in the open state, the rolling oil between the rolling oil tank assembly 11, the rectification oil tank assembly 12, the reclaimed oil tank assembly 13 or the rolling mill oil tank assembly 14 is mutually transmitted.

Further, the pipeline assembly 30 includes at least one pipeline 31 and at least one control valve 32, the pipeline 31 is respectively disposed between the rolling oil tank assembly 11, the rectifying oil tank assembly 12, the recovering oil tank assembly 13, or the rolling mill oil tank assembly 14, the control valve 32 is disposed on the pipeline 31, and the control valve 32 is controlled to control the pipeline 31 to be in an open state or a closed state, so as to control the transmission of the rolling oil among the rolling oil tank assembly 11, the rectifying oil tank assembly 12, the recovering oil tank assembly 13, or the rolling mill oil tank assembly 14. Preferably, the control mechanism 20 is electrically connected to the control valve 32, and the control mechanism 20 controls the use state of the control valve 32 through monitoring data of the rolling oil storage mechanism 10, so as to realize the transmission of the rolling oil between the rolling oil storage mechanisms 10.

It should be noted that the control mechanism 20 includes a selecting component 21 and a monitoring component 22, the selecting component 21 and the monitoring component 22 are respectively electrically connected to the rolling oil storage mechanism 10, and the monitoring component 22 is configured to monitor the storage amount of the rolling oil in each oil tank component of the rolling oil storage mechanism 10. The monitoring components 22 are respectively disposed in the rolling oil storage mechanism 10, in brief, the monitoring components 22 are respectively disposed in the rolling mill contaminated oil tank 111, the new oil tank 112, the transfer oil tank 113, the rectification clean oil tank 121, the rectification dirty oil tank 122, the rectification waste oil tank 123, the recovered oil tank component 13 or the rolling mill oil tank component 14, and the monitoring components 22 can monitor the storage amount of the rolling oil in each oil tank component of the rolling oil storage mechanism 10 and feed back monitoring data to the pipeline component 30 to control the relative working state of the pipeline component 30.

Further, the selecting member 21 is used for inputting and confirming the amount of the rolling oil mutually transferred by each of the tank assemblies, and the monitoring member 22 is used for monitoring the respective storage amounts of the rolling oil in the tank assemblies, and since the rolling oil stored in the tank assemblies must have a certain preset storage amount, which cannot be lower than a preset value or higher than a preset value, the monitoring member 22 is used for monitoring the maximum transferable amount of the rolling oil and the maximum remaining storable amount of the rolling oil in each of the tank assemblies. When a user needs to transmit the oil quantity between the oil tank assemblies, the user sets the oil quantity of the rolling oil to be transmitted through the selecting member 21, the monitoring member 22 judges the set value of the rolling oil, when the set value is larger than the maximum value of the storable capacity of the oil tank assembly or after the rolling oil is transmitted according to the set value, and the storage quantity of the rolling oil in the oil tank assembly is smaller than the minimum stored value, the monitoring member 22 cannot transmit the rolling oil to the input value of the selecting member 21, and the control mechanism 20 can generate an alarm signal to remind the user of adjusting the transmission value. Therefore, the utility model discloses a rolling oil mechanism is in too much or too little phenomenon of transmission volume can not appear in the rolling oil transmission course, in order to ensure rolling oil mechanism is in normal operating condition.

Furthermore, the selecting element 21 comprises an input element 211 and a confirming element 212, the input element 211 and the confirming element 212 are respectively electrically connected to the monitoring assembly 22, the input element 211 is used for inputting the oil amount to be transferred of the rolling oil, and the confirming element 212 is used for confirming the transferring value.

It is worth mentioning that the monitoring component 22 comprises a liquid level monitoring component 221, a liquid level calculating component 222 and a capacity monitoring component 223, the liquid level monitoring component 221, the liquid level calculating component 222 and the capacity monitoring component 223 are respectively arranged on the rolling mill polluted oil tank 111, the new oil tank 112, the transfer oil tank 113, the rectification clean oil tank 121, the rectification polluted oil tank 122, the rectification waste oil tank 123, the recovery oil tank component 13 or the rolling mill oil tank component 14. The liquid level monitoring component 221 is configured to monitor storage amounts of the rolling oil in the rolling oil tank component 11, the rectification oil tank component 12, the recovery oil tank component 13, or the rolling mill oil tank component 14, respectively. The liquid level calculating component 222 is electrically connected to the liquid level monitoring component 221 and the capacity monitoring component 223, the capacity monitoring component 223 is used for monitoring the storage capacity of each oil tank region, and the liquid level calculating component 222 calculates the remaining storable capacity of the rolling oil in each oil tank region according to the monitoring data of the liquid level monitoring component 221. And then the calculated value of the level calculating part 222 is compared with the input value of the input part 211 to determine the maximum delivery amount of the rolling oil.

It should be noted that the monitoring component 22 is configured to monitor whether a leakage phenomenon occurs during the rolling oil transmission process, when the rolling oil is transmitted according to the capacity of the input value of the input component 211, the rolling oil is transmitted to another oil tank region, the liquid level monitoring component 221 and the liquid level calculating component 222 are configured to calculate an actual transmission value which is actually transmitted and then stored in the oil tank region, and compare the actual transmission value with the input value, and within a certain preset error range, the actual transmission value is much smaller than the input value, so as to indicate that a leakage phenomenon occurs during the rolling oil transmission process. If the actual transmission value is close to the input value within a certain error range, the phenomenon that the rolling oil is leaked in the transmission process is indicated.

It should be noted that the control mechanism 20 further includes an alarm component 23, the alarm component 23 is electrically connected to the monitoring component 22, and when the monitoring component 22 monitors that the transmission value of the tank area is too large or the tank area is leaked, the alarm component 23 can generate alarm information to the user to remind the user to take a matching measure for operation.

Further, the alarm assembly 23 includes a liquid level alarm 231, a display 232 and a stop 233, the liquid level alarm 231 is electrically connected to the monitoring assembly 22, the monitoring assembly 22 monitors the storage amount and the transmission amount of the rolling oil in the oil tank area, and when the storage amount of the rolling oil in the oil tank area is less than or more than a preset value, the liquid level alarm 231 can send an alarm signal to a user. The display 232 is electrically connected to the liquid level alarm 231 and the monitoring assembly 22, the monitoring data of the monitoring assembly 22 on the rolling oil storage assembly 10 can be displayed on the display 232, and the alarm signal of the liquid level alarm 231 can also be displayed on the display 232. Therefore, the user can know the overall working state of the rolling oil mechanism, such as the transfer amount of the rolling oil between the respective tank areas or the storage amount of the rolling oil in the respective tank areas or alarm information, in real time through the display member 232.

More specifically, the stop 233 is electrically connected to the liquid level alarm 231 and the control valve 32, when the liquid level alarm 231 generates an alarm signal, the stop 233 receives feedback data of the liquid level alarm 231, and the stop 233 controls the control valve 32 to be in a closed state, so as to stop the transmission of the rolling oil between the oil tank zones. The rolling oil mechanism realizes an autonomous control working mode under the action of the stop 233, and once the monitoring assembly 22 monitors that the rolling oil storage assembly 10 has a fault, the stop 233 autonomously controls the transmission process of the rolling oil.

It should be mentioned that the control mechanism 20 further includes a procurement component 24, the procurement component 24 is set up respectively in the rolling oil tank subassembly 11, the rectification oil tank subassembly 12, the recovery oil tank subassembly 13 and the rolling mill oil tank subassembly 14, and the procurement component 24 electricity connect in the rolling oil storage component 10 with the monitoring component 22, the procurement component 24 basis the monitoring component 22 is to the oil mass monitoring numerical value of the rolling oil storage component 10 judges whether need go add new in the rolling oil storage component 10 the rolling oil is for the production demand. Further, the purchasing component 24 is electrically connected to the liquid level calculating component 222 and the oil tank area, the liquid level calculating component 222 can calculate the storage amount of the rolling oil in the oil tank area, when the storage amount of the rolling oil in the oil tank area is less than a preset value, the purchasing component 24 receives the feedback data of the liquid level calculating component 222, and the purchasing component 24 orders the oil selling merchants which are preset. Preferably, the purchasing member 24 is manually input by a user or automatically placed, and the purchasing member 24 can add the maximum value of the rolling oil according to the feedback of the liquid level calculating member 222 for purchasing. Procurement 24 can avoid personnel in unable observation the rolling in the oil mechanism appear when rolling oil capacity the damage of oil mechanism or the service failure takes place, procurement 24 can ensure the stability of the storage oil volume of oil mechanism rolls.

It is worth mentioning that the control mechanism 20 further comprises a takeout amount monitoring member 25, the takeout amount monitoring member 25 is electrically connected to the rectification oil tank assembly 12, the rectification oil tank assembly 12 is configured to store the purified rolling oil, and when the rolling oil mechanism takes out the rectified and purified rolling oil, the takeout amount monitoring member 25 is configured to monitor the total oil amount or the single sale amount of the rolling oil mechanism selling the rolling oil.

Those skilled in the art will appreciate that the embodiments of the present invention illustrated in the drawings and described above are merely examples of the invention and not limitations.

It can thus be seen that the objects of the invention have been fully and effectively accomplished. The embodiments have been fully illustrated and described for the purpose of explaining the functional and structural principles of the present invention, and the present invention is not limited by changes based on the principles of these embodiments. Accordingly, this invention includes all modifications encompassed within the scope and spirit of the following claims.

Claims (9)

1. A rolling oil management and control apparatus for storage and transmission of the rolling oil, comprising:

a pipeline assembly;

a rolling oil storage mechanism; and

a control mechanism, rolling oil storage mechanism includes a rolling oil tank subassembly, a rectification oil tank subassembly, a recovery oil tank subassembly and a rolling mill oil tank subassembly, rolling oil tank subassembly the rectification oil tank subassembly recovery oil tank subassembly and rolling mill oil tank subassembly passes through the pipeline subassembly communicates each other, control mechanism further includes an at least monitoring subassembly, the monitoring subassembly set up in rolling oil tank subassembly the rectification oil tank subassembly recovery oil tank subassembly or rolling mill oil tank subassembly, in order to be used for the monitoring rolling oil is in mutual transmission state in the rolling oil storage mechanism, and with monitoring data feedback in the pipeline subassembly, in order to control the operating condition of pipeline subassembly.

2. The rolling oil pipe control device according to claim 1, wherein the monitoring assembly comprises a liquid level monitoring assembly, a liquid level calculating assembly and a capacity monitoring assembly, the liquid level monitoring assembly is respectively disposed on the rolling oil tank assembly, the rectifying oil tank assembly, the recovering oil tank assembly and the rolling oil tank assembly, the monitoring signal of the liquid level calculating assembly is transmitted to the liquid level monitoring assembly and the capacity monitoring assembly, and the liquid level monitoring assembly is used for monitoring the storage amount of the rolling oil in the rolling oil tank assembly.

3. The rolling oil pipe control device according to claim 2, wherein the control mechanism comprises an alarm assembly, the alarm assembly further comprises at least one display member, the display member is respectively disposed on the rolling oil tank assembly, the rectifying oil tank assembly, the recycling oil tank assembly and the rolling mill oil tank assembly, and the display member is used for displaying the monitoring data of the monitoring assembly.

4. The rolled oil pipe control device according to claim 3, wherein the alarm assembly of the control mechanism comprises a stop, the stop is disposed on the pipe assembly, the monitoring assembly monitors that the rolled oil transmits a failure message in the rolled oil tank assembly, and the stop controls the pipe assembly to stop the transmission process of the rolled oil.

5. The roll oil management apparatus of claim 1, wherein said roll oil tank assembly comprises at least one mill contamination tank, at least one fresh oil tank, and at least one transfer oil tank, said mill contamination tank, said fresh oil tank, and said transfer oil tank being in communication with each other through said piping assembly.

6. The rolling oil pipe control device according to claim 5, wherein the rectification oil tank assembly comprises at least one rectification clean oil tank, at least one rectification dirty oil tank and at least one rectification waste oil tank, and the rectification clean oil tank, the rectification dirty oil tank and the rectification waste oil tank are respectively communicated with the rolling mill pollution oil tank, the new oil tank and the transit oil tank through the pipeline assembly.

7. The rolling oil pipe control device according to claim 6, wherein the pipeline assembly comprises at least one pipeline and at least one control valve, the rolling oil tank assembly, the rectification oil tank assembly, the recovery oil tank assembly and the rolling mill oil tank assembly are respectively communicated through the pipeline, and the control valve is disposed on the pipeline to control the working state of the pipeline.

8. The rolling oil pipe control device according to claim 3, wherein the alarm assembly comprises at least one liquid level alarm member respectively disposed in the rolling oil tank assembly, the rectification oil tank assembly and the rolling mill oil tank assembly, and the oil tank assembly is configured to send an alarm signal when the storage amount of the rolling oil in each oil tank assembly reaches a preset value.

9. The rolling oil control device of claim 4 wherein said control mechanism comprises a selector member electrically connected to said rolling oil storage mechanism.

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