CN112936608A - Factory raw material residual material quantity detection feedback system - Google Patents

Abstract

The application relates to the technical field of concrete production, and discloses a factory raw material surplus material quantity detection feedback system which comprises a powder tank surplus material detection device, an aggregate bin surplus material detection device and a storage management module, wherein the storage management module comprises a powder tank management submodule, an aggregate bin management submodule and a material surplus display panel; the material allowance display panel is electrically connected with the powder tank management submodule and the aggregate bin management submodule and is used for visually displaying the material allowance in the powder tank and the aggregate bin. This application inquires about, manages and maintains powder jar interior product basic information and aggregate storehouse interior product basic information and corresponding relation through powder jar management submodule piece and aggregate storehouse management submodule piece respectively, through the material surplus show panel more specifically, audio-visually carry out the clout show to powder jar and aggregate storehouse.

Description

Factory raw material residual material quantity detection feedback system

Technical Field

The application relates to the technical field of concrete production, in particular to a plant raw material residual material quantity detection feedback system.

Background

Concrete is called concrete for short, and refers to a general name of engineering composite materials formed by cementing aggregates into a whole by using gel materials. Generally, cement is used as a gel material, and sand and stone are used as aggregates; mixing with water (optionally containing additive and admixture) in a certain proportion, and stirring to obtain the cement concrete. In the concrete production process, different incoming materials need to be placed in different bins for storage, so that raw materials can be obtained in time during later concrete production.

In the related technology, a chinese patent with application number 201410319751.X discloses a real-time monitoring system and method for powder tank material level and a mixing plant, the real-time monitoring system for powder tank material level comprises a plurality of material level meters for being installed at different height positions of a powder tank, each material level meter sends out an induction signal when powder reaches the installation position, and the installation position of each material level meter corresponds to the weight of each preset powder one by one; and the controller is in signal connection with the plurality of level meters and is used for updating the real-time weight of the powder in the powder tank to the weight of the powder corresponding to the installation position of the corresponding level meter when the induction signal sent by each level meter is received.

Aiming at the related technologies, the inventor considers that the existing real-time monitoring system can only simply monitor and alarm the raw material allowance of the powder tank, can not specifically and intuitively feed back the excess material of the material tank, and is inconvenient for user management.

Disclosure of Invention

In order to more specifically and visually feed back the surplus materials of the raw materials in the factory and facilitate the management of a user, the application provides a system for detecting and feeding back the surplus material amount of the raw materials in the factory.

The application provides a factory raw material surplus material volume detection feedback system adopts following technical scheme:

a plant raw material surplus material quantity detection feedback system comprises a powder tank surplus material detection device, an aggregate bin surplus material detection device and a storage management module;

the powder tank residual material detection device is arranged corresponding to the powder tank, is in signal connection with the storage management module, is used for acquiring the real-time powder residual quantity in each powder tank, and is used for recording the corresponding relation between the powder tank and the raw materials and the basic information of products in the powder tank, wherein the basic information of the products in the powder tank comprises material varieties, material specifications, material names and powder residual quantities;

the aggregate bin excess detecting device is arranged corresponding to the aggregate bins, is in signal connection with the storage management module, is used for acquiring real-time aggregate excess in each aggregate bin, and is used for recording the corresponding relation between the aggregate bins and raw materials and basic information of products in the aggregate bins, wherein the basic information of the products in the aggregate bins comprises material varieties, material specifications, material names and aggregate excess;

the warehouse management module comprises a powder tank management submodule, an aggregate bin management submodule and a material allowance display panel; the powder tank management submodule is used for receiving and recording the corresponding relation between the powder tank and the powder tank excess material detection device and basic product information in the powder tank, wherein the corresponding relation between the powder tank and raw materials comprises a powder tank name, a powder tank maximum capacity, a powder tank online early warning value, a powder tank offline early warning value, a powder tank material category and a material name; the aggregate bin management submodule is used for receiving and recording the corresponding relation between the aggregate bin and raw materials and basic information of products in the aggregate bin, which are sent by the aggregate bin excess material detection device, wherein the corresponding relation between the aggregate bin and the raw materials comprises a bin position name, a bin position maximum capacity, a bin position online early warning value, a bin position offline early warning value, a bin position internal material category and a material name; and the material allowance display panel is electrically connected with the powder tank management submodule and the aggregate bin management submodule and is used for visually displaying the material allowance in the powder tank and the aggregate bin.

By adopting the technical scheme, each powder tank of the concrete mixing plant is monitored in real time through the plurality of powder tank excess material detection devices, and the real-time powder allowance in each powder tank is obtained; monitoring each aggregate bin of the concrete mixing plant in real time through a plurality of aggregate bin excess material detection devices to obtain the real-time aggregate excess of each aggregate bin; the basic information of the products in the powder tank, the basic information of the products in the aggregate bin and the corresponding relation are inquired, managed and maintained through the powder tank management submodule and the aggregate bin management submodule, and the surplus material condition of the powder tank and the aggregate bin is displayed more specifically and visually through the material surplus display panel.

Optionally, the material allowance display panel comprises a powder tank allowance display unit, an aggregate bin allowance display unit and a concrete total input consumption display unit in a certain time period; the system comprises a powder tank allowance display unit, an aggregate bin allowance display unit and a total input and consumption display unit, wherein the powder tank allowance display unit is used for displaying the name of materials in each powder tank and the percentage of the powder allowance in the powder tank to the maximum capacity of the powder tank, the aggregate bin allowance display unit is used for displaying the name of the materials in each aggregate bin and the percentage of aggregates in the aggregate bin to the maximum capacity of a bin, and the total input and consumption display unit of each material in the concrete is used for displaying the input amount and the consumption of each material in.

By adopting the technical scheme, the powder material allowance condition is displayed by the powder material tank allowance display unit of the material allowance display panel in a mode that the powder material allowance accounts for the maximum capacity percentage of the powder material tank; displaying the aggregate allowance condition in the aggregate bin allowance display unit in a mode that the aggregate accounts for the maximum capacity percentage of the aggregate bin; the total consumption display unit of each material of the concrete displays the consumption of each material of the concrete in one day, one month or one year in a form of a histogram, so that a user can more intuitively and specifically know the surplus and consumption condition of the raw materials in the concrete plant area.

Optionally, the material allowance display panel further comprises a time and date display unit and a panel name display module.

By adopting the technical scheme, the time and date display unit is convenient for a user to know the current time and date through the material allowance display panel; the name of the panel is displayed through the panel name display module, so that a user can conveniently watch and inquire.

Optionally, the warehouse management module further includes an alarm sub-module for alarming the condition that the material allowance in the powder tank and the aggregate bin exceeds the online early warning value or is insufficient to the offline early warning value.

By adopting the technical scheme, the emergency alarm module alarms in an emergency, and reminds a user to pay attention to the emergency in time.

Optionally, the alarm sub-module is a plurality of different audible and visual alarms or voice alarms.

By adopting the technical scheme, the audible and visual alarm device brings convenience to users to distinguish different emergency situations, different instructions are directly broadcasted under different emergency situations through the voice alarm device, and the audible and visual alarm device is convenient for users to use.

Optionally, each powder tank clout detection device all includes weight formula charge level indicator and first industrial computer, weight formula charge level indicator sets up on the powder tank, is connected with first industrial computer electricity, first industrial computer with powder tank management submodule signal connection, powder tank management submodule piece still are used for revising the powder tank early warning value of getting on the line, the powder tank early warning value of getting off the line and the material name of binding of powder tank.

By adopting the technical scheme, the weight type charge level indicator has the advantages of reliable operation, small maintenance amount, wide application range and small influence on equipment by the use environment, and is suitable for detecting the charge level height of the powder tank.

Optionally, each aggregate bin clout detection device all includes radar charge level indicator and second industrial computer, radar charge level indicator sets up on the aggregate bin, with the second industrial computer electricity is connected, the second industrial computer with aggregate bin management submodule signal connection, aggregate bin management submodule piece still are used for revising the bin online early warning value of aggregate bin, bin offline early warning value and the material name of binding.

Through adopting above-mentioned technical scheme, radar charge level indicator detects that the precision is high, the security is high, the good reliability, is applicable to and detects aggregate storehouse clout volume.

Optionally, the aggregate bin excess material detection device further includes a camera monitoring module for acquiring a monitoring picture in the aggregate bin, and the warehouse management module further includes an aggregate bin schematic diagram module, which is electrically connected with the camera monitoring module and is used for displaying the aggregate name, the bin position maximum capacity, the current aggregate allowance and the monitoring picture in the aggregate bin acquired by the camera monitoring module in each aggregate bin.

Through adopting above-mentioned technical scheme, through setting up the inside control picture that the monitoring module was made a video recording in aggregate storehouse to the control picture that obtains is shown at aggregate storehouse sketch map module, and the user of being convenient for observes the surplus condition in the aggregate storehouse.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the basic information of the products in the powder tank, the basic information of the products in the aggregate bin and the corresponding relation are inquired, managed and maintained through the powder tank management submodule and the aggregate bin management submodule, and the surplus material condition of the powder tank and the aggregate bin is displayed more specifically and intuitively through the material surplus display panel;

2. displaying the powder allowance condition in a powder tank allowance display unit of a material allowance display panel in a mode that the powder allowance accounts for the maximum capacity percentage of the powder tank; displaying the aggregate allowance condition in the aggregate bin allowance display unit in a mode that the aggregate accounts for the maximum capacity percentage of the aggregate bin; the total consumption display unit of each material of the concrete displays the consumption of each material of the concrete in one day, one month or one year in a form of a histogram, so that a user can more visually and specifically know the surplus and consumption condition of raw materials in a concrete plant area;

3. the monitoring picture inside the aggregate bin is acquired by arranging the camera monitoring module in the aggregate bin, and the acquired monitoring picture is displayed in the aggregate bin schematic diagram module, so that a user can observe the allowance condition in the aggregate bin conveniently.

Drawings

FIG. 1 is an overall system block diagram of a plant raw material remaining amount feedback system according to an embodiment of the present application;

FIG. 2 is a detailed display structure diagram of the material balance display panel in FIG. 1;

figure 3 is a detailed display block diagram of a schematic block diagram of the aggregate bin of figure 1.

Description of reference numerals: 1. a powder tank excess material detection device; 11. a weight type charge level indicator; 12. a first industrial personal computer; 2. an aggregate bin excess material detection device; 21. a radar level gauge; 22. a second industrial personal computer; 23. a camera monitoring module; 3. a warehousing management module; 31. a powder tank management submodule; 32. an aggregate bin management submodule; 33. a material balance display panel; 331. a powder tank allowance display unit; 332. an aggregate bin allowance display unit; 333. a total consumption display unit for each material of the concrete; 334. a time and date display unit; 335. a panel name display module; 34. an alarm submodule; 35. and the aggregate bin schematic diagram module.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is further described in detail below with reference to fig. 1-3 and the embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

The embodiment of the application discloses a plant raw material residual material amount detection feedback system. Referring to fig. 1, a plant raw material residue quantity detection feedback system comprises a powder tank residue detection device 1, an aggregate bin residue detection device 2 and a storage management module 3; the warehouse management module 3 includes a powder tank management submodule 31, an aggregate bin management submodule 32, and a material allowance display panel 33.

As shown in figure 1, each powder tank residual material detection device 1 comprises a weight type material level meter 11 and a first industrial personal computer 12, wherein the weight type material level meter 11 is installed at the top of the powder tank, the weight type material level meter 11 is electrically connected with the first industrial personal computer 12, and the first industrial personal computer 12 is in electrical signal connection with a powder tank management submodule 31. Detecting by a weight type material level meter 11 to obtain the distance between a weight from the bottom of the powder tank to the material level surface in real time, namely the height of the powder excess material; the percentages of the residual materials and the excess material amount in the powder tank in the maximum capacity of the powder tank are calculated through the first industrial personal computer 12, and the percentages of the residual materials and the excess material amount in the powder tank in the maximum capacity of the powder tank are transmitted to the powder tank management submodule 31 through the first industrial personal computer 12 to be recorded, stored and managed. The detection work of the weight type charge level indicator 11 is controlled by the first industrial personal computer 12. The first industrial personal computer 12 can directly write or indirectly write the corresponding relation between the powder tank and the raw material and the basic information of the product in the powder tank through the powder tank management submodule 31, wherein the basic information of the product in the powder tank comprises the material variety, the material specification, the material name, the powder allowance and a control instruction for the weight type material level indicator 11. The powder tank management submodule 31 is further configured to modify the powder tank online warning value, the powder tank offline warning value, and the bound material name of the powder tank. The powder material for concrete production includes cement, flyash, expanding agent, additive, etc. and the powder material tank includes cement tank, flyash tank, expanding agent tank and additive tank. The corresponding relationship between the powder tank and the raw material comprises the number of the powder tank and the name of the material contained in the powder tank, for example: 1-1 cement silo, cement PO42.5, and the material stored in the No. 1 cement silo of the concrete mixing plant unit 1 is cement PO 42.5.

As shown in FIG. 1, each aggregate bin excess material detection device 2 comprises a radar level indicator 21 and a second industrial computer 22, the radar level indicator 21 is installed at the top of the aggregate bin and electrically connected with the second industrial computer 22, and the second industrial computer 22 is electrically connected with an aggregate bin management submodule 32. The aggregate allowance in the aggregate bin and the percentage of the aggregate allowance in the maximum bin capacity are obtained in real time through the radar level gauge 21, and the obtained percentage of the aggregate allowance in the aggregate bin and the maximum bin capacity is transmitted to the aggregate bin management submodule 32 through the second industrial personal computer 22 to be recorded, stored and managed. The radar level gauge 21 is controlled to detect operation by the second industrial personal computer 22. The second industrial personal computer 22 can directly write in or write in the corresponding relation between the aggregate bin and the raw material and the basic information of the product in the aggregate bin through the aggregate bin management submodule 32, wherein the basic information of the product in the aggregate bin comprises the material variety, the material specification, the material name, the aggregate allowance and a control instruction for the radar level gauge 21. The aggregate bin management submodule 32 is further configured to modify the bin online warning value, the bin offline warning value, and the bound material name of the aggregate bin. The concrete aggregate material includes sand, stone, recycled aggregate, etc.

As shown in fig. 1, the powder tank management sub-module 31 is configured to receive and record a corresponding relationship between the powder tank and the powder tank remainder detection device 1 and basic information of a product in the powder tank, where the corresponding relationship between the powder tank and a raw material includes a powder tank name, a maximum capacity of the powder tank, an online early warning value of the powder tank, an offline early warning value of the powder tank, a material category and a material name of the material in the powder tank, and the corresponding relationship is sent by the powder tank remainder detection device 1. And the aggregate bin management submodule 32 is configured to receive and record a corresponding relationship between the aggregate bin and the raw material and basic information of a product in the aggregate bin, where the corresponding relationship between the aggregate bin and the raw material includes a bin name, a maximum bin capacity, a bin online early warning value, a bin offline early warning value, a bin internal material category, and a material name, and the bin redundant material detection device 2 sends the corresponding relationship. And the material allowance display panel 33 is electrically connected with the powder tank management submodule 31 and the aggregate bin management submodule 32 and is used for visually displaying the material allowance in the powder tank and the aggregate bin.

As shown in FIG. 2, the powder tank remaining amount display unit 331 displays the name of the material in each powder tank and the percentage of the remaining amount of powder in the powder tank to the maximum capacity of the powder tank. In this embodiment, a circle represents the maximum capacity of the powder tank, a dividing line inside the circle divides the circle into an upper half part and a lower half part, wherein the lower half part represents the amount of the powder tank remainder, in order to increase the user recognition, the colors of the upper half part and the lower half part of the circle are obviously different, and the percentage inside the circle represents the percentage value of the powder allowance in the powder tank in the maximum capacity of the powder tank.

As shown in fig. 2, the aggregate bin allowance display unit 332 is used for displaying the name of the material in each aggregate bin and the percentage of the aggregate in the aggregate bin occupying the maximum capacity of the bin. In this embodiment, the maximum bin capacity of the aggregate bin is represented by a rectangular frame, a separation line is arranged in the rectangular frame to divide the rectangular frame into an upper half and a lower half, wherein the lower half represents the excess material amount of the aggregate bin, in order to increase the recognition degree of a user, the colors of the upper half and the lower half of the rectangular frame are obviously different, and the percentage in the rectangular frame represents the percentage value of the aggregate in the aggregate bin occupying the maximum bin capacity.

As shown in fig. 2, the total input/output display unit 333 for each material of concrete is used to display the input amount and the consumption amount of each material in a fixed time period. The total consumption display unit 333 displays the consumption of each material of the concrete in a day, a month or a year in a bar chart form, so that a user can more intuitively and specifically know the surplus and consumption condition of the raw materials in the concrete plant area. In this embodiment, yesterday consumption and this month consumption of each material of concrete are shown.

As shown in fig. 2, the remaining material amount display panel 33 further includes a time and date display unit 334 and a panel name display module 335, the time and date display unit 334 facilitates a user to know the current time and date through the remaining material amount display panel 33, and the panel name display module 335 displays the name of the panel, thereby facilitating the user to view the query.

As shown in fig. 1, the warehouse management module 3 further includes an alarm submodule 34 for alarming the condition that the material allowance exceeds the online early warning value or is insufficient to the offline early warning value in the powder tank and the aggregate bin, the alarm submodule 34 is a plurality of different audible and visual alarms or voice alarms, and the audible and visual alarms or voice alarms facilitate users to distinguish different emergency situations or directly broadcast different instructions under different emergency situations, so that the users can use the alarm.

As shown in fig. 1 and fig. 3, the aggregate bin remainder detection device 2 further includes a camera monitoring module 23 for acquiring a monitoring picture in the aggregate bin, and the warehouse management module 3 further includes an aggregate bin schematic diagram module 35, where the aggregate bin schematic diagram module 35 is electrically connected with the camera monitoring module 23 for displaying an aggregate name, a bin position maximum capacity, a current aggregate remainder in each aggregate bin and the monitoring picture in the aggregate bin acquired by the camera monitoring module 23. In this embodiment, camera monitoring module 23 is the camera, install camera 1 at aggregate storehouse top, install camera 2 bottom the aggregate storehouse, all-round detection aggregate storehouse through camera 1 and camera 2, aggregate storehouse sketch map module 35 is including being used for showing aggregate name in the aggregate storehouse, position maximum capacity, the numerical value display area of current aggregate surplus, and be used for showing the monitor display area of camera 1 or 2 monitor pictures, monitor display area below is equipped with the button that is used for controlling camera 1 or 2 and opens and close, convenience of customers opens, close or switch monitor pictures. When the camera 1 and the camera 2 are both closed, the monitoring display area shows the maximum capacity of the bin, the separation lines in the monitoring display area divide the monitoring display area into an upper half part and a lower half part, wherein the lower half part shows the residual material amount of the aggregate bin, and in order to increase the recognition degree of a user, the colors of the upper half part and the lower half part of the monitoring display area are obviously different.

The implementation principle of the system for detecting and feeding back the residual material amount of the raw materials in the factory is as follows: when the feedback system for the residual material amount of the raw materials in the plant area is used, each powder tank of a concrete mixing plant is monitored in real time through the plurality of powder tank residual material detection devices 1, and the real-time powder residual amount in each powder tank is obtained; monitoring each aggregate bin of the concrete mixing plant in real time through a plurality of aggregate bin excess material detection devices 2 to obtain the real-time aggregate excess of each aggregate bin; the basic information of the product in the powder tank, the basic information of the product in the aggregate bin and the corresponding relation are inquired, managed and maintained through the powder tank management submodule 31 and the aggregate bin management submodule 32, and the excess material condition of the powder tank and the aggregate bin is displayed more specifically and intuitively through the material allowance display panel 33.

The foregoing is a preferred embodiment of the present application and is not intended to limit the scope of the application in any way, and the description is intended to include any features disclosed in the abstract and the drawings, which are replaceable by other equivalent or similarly purposed alternative features, unless expressly stated otherwise. That is, unless expressly stated otherwise, each feature is only an example of a generic series of equivalent or similar features.

Claims (8)

1. The utility model provides a factory raw and other materials surplus material volume detects feedback system which characterized in that: comprises a powder tank excess material detection device (1), an aggregate bin excess material detection device (2) and a storage management module (3);

the powder tank residual material detection device (1) is arranged corresponding to the powder tank, is in signal connection with the storage management module (3), is used for acquiring real-time powder residual quantity in each powder tank, and is used for recording the corresponding relation between the powder tank and raw materials and basic information of products in the powder tank, wherein the basic information of the products in the powder tank comprises material varieties, material specifications, material names and powder residual quantities;

the aggregate bin excess material detection device (2) is arranged corresponding to the aggregate bins, is in signal connection with the storage management module (3), is used for acquiring real-time aggregate excess in each aggregate bin, and is used for recording the corresponding relation between the aggregate bins and raw materials and basic information of products in the aggregate bins, and the basic information of the products in the aggregate bins comprises material varieties, material specifications, material names and aggregate excess;

the warehouse management module (3) comprises a powder tank management submodule (31), an aggregate bin management submodule (32) and a material allowance display panel (33); the powder tank management submodule (31) is used for receiving and recording the corresponding relation between the powder tank and the powder tank excess material detection device (1) and basic information of products in the powder tank, wherein the corresponding relation between the powder tank and raw materials comprises a powder tank name, the maximum capacity of the powder tank, an on-line early warning value of the powder tank, an off-line early warning value of the powder tank, the types of materials in the powder tank and a material name; the aggregate bin management submodule (32) is used for receiving and recording the corresponding relation between the aggregate bin and raw materials and basic information of products in the aggregate bin, which are sent by the aggregate bin excess material detection device (2), wherein the corresponding relation between the aggregate bin and the raw materials comprises a bin position name, a bin position maximum capacity, a bin position online early warning value, a bin position offline early warning value, a bin position material category and a material name; and the material allowance display panel (33) is electrically connected with the powder tank management submodule (31) and the aggregate bin management submodule (32) and is used for visually displaying the material allowance in the powder tank and the aggregate bin.

2. The plant raw material residual quantity detection feedback system according to claim 1, characterized in that: the material allowance display panel (33) comprises a powder tank allowance display unit (331), an aggregate bin allowance display unit (332) and a total consumption display unit (333) of all materials of concrete in a certain time period; the concrete powder filling system comprises a powder tank allowance display unit (331) used for displaying names of materials in the powder tanks and percentages of powder allowances in the powder tanks to the maximum capacity of the powder tanks, an aggregate bin allowance display unit (332) used for displaying names of the materials in the aggregate bins and percentages of aggregates in the aggregate bins to the maximum capacity of bin positions, and a concrete material total input consumption display unit (333) used for displaying warehousing quantities and consumption quantities of the materials in a fixed time period.

3. The plant raw material residual quantity detection feedback system according to claim 2, characterized in that: the material allowance display panel (33) also comprises a time and date display unit (334) and a panel name display module (335).

4. The plant raw material residual quantity detection feedback system according to claim 1, characterized in that: the warehouse management module (3) further comprises an alarm submodule (34) for alarming the condition that the material allowance in the powder tank and the aggregate bin exceeds an online early warning value or is insufficient to be an offline early warning value.

5. The plant raw material residual quantity detection feedback system according to claim 4, characterized in that: the alarm sub-module (34) is a plurality of different audible and visual alarms or voice alarms.

6. The plant raw material residual quantity detection feedback system according to claim 1, characterized in that: each powder tank clout detection device (1) all includes weight formula charge level indicator (11) and first industrial computer (12), weight formula charge level indicator (11) set up on the powder tank, are connected with first industrial computer (12) electricity, first industrial computer (12) with powder tank management submodule (31) signal connection, powder tank management submodule (31) still are used for revising the powder tank online early warning value of powder tank, the powder tank early warning value that rolls off the production line and the material name that binds.

7. The plant raw material residual quantity detection feedback system according to claim 1, characterized in that: each aggregate bin clout detection device (2) all includes radar charge level indicator (21) and second industrial computer (22), radar charge level indicator (21) set up on the aggregate bin, with second industrial computer (22) electricity is connected, second industrial computer (22) with aggregate bin management submodule (32) signal connection, aggregate bin management submodule (32) still are used for revising the bin position early warning value of aggregate bin, bin position early warning value that rolls off the line and the material name that binds.

8. The plant raw material residual quantity detection feedback system according to claim 7, characterized in that: aggregate storehouse clout detection device (2) still include camera monitoring module (23) for obtain the control picture in the aggregate storehouse, storage management module (3) still include aggregate storehouse sketch map module (35), aggregate storehouse sketch map module (35) with camera monitoring module (23) electricity is connected for show aggregate name, position maximum capacity, current aggregate surplus and the control picture in the aggregate storehouse that camera monitoring module (23) acquireed in each aggregate storehouse.

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