CN114408400A - Concrete pole raw material storage device - Google Patents

Abstract

The application relates to a concrete pole raw material storage device which comprises a bin body and a bin cover, wherein the bin cover is positioned at the upper end of the bin body and is hinged with the bin body; the lower end of the bin body is provided with a plurality of discharging assemblies for discharging; a partition board is arranged in the bin body to divide the bin body into a plurality of subareas, and each subarea corresponds to a discharging assembly; each subarea is provided with a residual amount detection module for detecting the residual amount of the raw materials in the corresponding subarea and generating residual amount data; the plurality of residual detection modules are electrically connected with a processing module, and the processing module is used for receiving residual data transmitted by each residual detection module; the processing module is further used for generating order placing information based on the surplus data when the surplus data is smaller than the corresponding preset surplus threshold, calling a corresponding preset order placing template and a merchant contact way, filling the order placing information into the order placing template, and outputting the order placing template to the merchant contact way. This application has the intelligence and the effect of concrete pole quality of being convenient for improve storage device.

Description

Concrete pole raw material storage device

Technical Field

The invention relates to the field of equipment for producing concrete poles, in particular to a raw material storage device for a concrete pole.

Background

The pole is the most basic facilities of electric power transportation, including wooden pole, concrete pole and iron system pole, and wherein the concrete pole receives favour because of characteristics such as longe-lived, with low costs, obtains the wide use. In the production process of the concrete pole, various raw materials including cement, sand, stones, reinforcing steel bars and additives are needed, and the raw materials are usually stored in a raw material bin to ensure that the raw materials are not easy to damp, meet water or enter other impurities.

The raw material bin in the related art comprises a bin body, a bin cover, a discharge hole, a discharge valve and a temperature and humidity sensor. The discharge valve is usually an electric control valve, so that when discharging, a worker can input the total discharging amount in a computer, and the computer automatically controls the opening and closing of the discharge valve, thereby being convenient for ensuring the accurate control of the discharging amount. The temperature and humidity sensor is positioned in the bin body, detects the temperature and humidity value in the bin body and uploads the temperature and humidity value to the computer in real time, so that a worker can conveniently monitor the storage environment condition of the raw materials in the bin body. So as to prevent the raw material from being affected with damp or overheating and reduce the quality of the raw material in the process of storage.

In view of the above-mentioned related art, the inventor considers that the remaining amount of the raw material in the bin body needs to be manually monitored, and whether the raw material needs to be replenished is judged according to the purchased raw material and the raw material consumed daily. Or the sensor is arranged in the bin body to monitor the residual quantity of the raw materials and transmit the monitored data to the computer, so that workers can know the residual quantity. However, no matter the worker judges the residual amount of the raw materials by means of memory of the worker or checks the residual amount of the raw materials by means of a computer, the raw materials are easily supplied untimely due to forgetting or untimely checking, the electric pole is made to be interrupted due to insufficient raw materials, and the intelligence of the raw material bin is low.

Disclosure of Invention

In order to improve the intelligence of the raw material bin, the invention provides a concrete pole raw material storage device.

The application provides a concrete pole raw materials storage device adopts following technical scheme:

a concrete pole raw material storage device comprises a bin body and a bin cover, wherein the bin cover is positioned at the upper end of the bin body and is hinged with the bin body; the lower end of the bin body is provided with a plurality of discharging assemblies for discharging; a partition board is arranged in the bin body to divide the bin body into a plurality of subareas, and each subarea corresponds to one discharging assembly;

each partition is provided with a residual amount detection module used for detecting the residual amount of the raw materials in the corresponding partition and generating residual amount data;

the plurality of residual detection modules are electrically connected with a processing module, and the processing module is used for receiving residual data transmitted by each residual detection module; the processing module is further used for generating order placing information based on the surplus data when the surplus data is smaller than the corresponding preset surplus threshold, calling a corresponding preset order placing template and a merchant contact way, filling the order placing information into the order placing template, and outputting the order placing template to the merchant contact way.

By adopting the technical scheme, when the storage capacity of the raw materials in a certain partition is insufficient, the processing module automatically calls the ordering template of the raw materials of the type, generates ordering information based on the allowance data, fills the ordering information into the ordering template, and transmits the ordering information to the supplier of the raw materials of the type. The supplier can conveniently convey the raw materials immediately after receiving the order, so that the raw materials are supplemented. From the monitoring of raw materials storage capacity, to ordering, all need not manual operation, and ordering is in time just can not appear forgetting, has improved the intellectuality in former feed bin.

Optionally, the processing module includes a plurality of discharging detection units, and the discharging detection units correspond to the discharging assemblies one by one and are used for detecting the daily discharging amount of the discharging assemblies;

the storage unit is used for receiving and storing the sunrise amount in each partition;

the estimation unit is used for calling the sunrise amount of several days when the surplus data is smaller than the corresponding surplus threshold value, and obtaining the daily demand amount based on the called several sunrise amounts; the estimation unit is further used for obtaining available days based on the daily demand and the surplus data, and obtaining the goods input based on the available days, a corresponding pre-stored annual daily consumption curve and preset replenishment interval days;

and the filling unit is used for filling the available days and the goods input amount into corresponding columns in the order placing template and outputting the order placing template to the contact way of the merchant.

By adopting the technical scheme, the available days and the goods input amount are automatically calculated, the order template is filled in for order placement, manual intervention is not needed, the labor consumption is convenient to reduce, the raw materials of corresponding types are supplemented in time, and the intelligence of the storage device is improved.

Optionally, the storage module stores a plurality of merchant contact information, and each merchant contact information corresponds to a delivery time;

the processing module comprises a checking unit for comparing the available days with the corresponding delivery time and calling the contact way of the merchant with the delivery time less than or equal to the available days.

By adopting the technical scheme, the contact ways of a plurality of merchants are stored, so that on one hand, the raw material suppliers of the same type are facilitated to form good competition, and the quality of supplemented raw materials is facilitated to be ensured; on the other hand, the merchants with the delivery time matched with the available days are convenient to select, and the supplementary raw materials are obtained before the available days are reached, so that the production of the electric pole is not easy to suspend.

Optionally, the processing module further includes a timing unit, configured to perform timing after the order placing template is output; the checking unit is used for acquiring the residual data generated by the residual detection module after the ordering template is output, and calling the timing time of the timing unit and controlling the timing unit to reset when the residual data is increased for the first time;

the checking unit judges whether the timing time is greater than the corresponding delivery time; and if the current time is greater than the preset time, updating the delivery time corresponding to the contact information of the merchant into the timing time.

By adopting the technical scheme, the delivery time corresponding to the contact information of the merchants is updated in real time, so that the corresponding raw material merchants can conveniently deliver the raw materials as soon as possible when learning the rule, and the production work of the electric pole is not suspended due to lack of the raw materials because the actual delivery time exceeds the promised delivery time.

Optionally, the annual daily consumption curve takes time as an abscissa, and the daily output is an ordinate;

the storage unit is also used for storing the sunrise amount and the corresponding date in a group mode and forming the annual daily consumption curve of the current year.

By adopting the technical scheme, the annual daily consumption curve is updated every year, so that when the goods quantity is calculated conveniently, the annual daily consumption curve of the last year or the previous year is used, and the accuracy of the goods quantity is improved.

Optionally, the estimating unit is configured to add the current date to the available number of days to obtain a first estimated date, and add the current date to the replenishment interval number of days to obtain a second estimated date; summing the daily material output from the first estimated date to the second estimated date in the annual daily consumption curve to obtain the cargo input.

By adopting the technical scheme, the number of days between replenishment intervals is preset, so that the replenishment frequency is convenient to control. And then, the goods input is calculated by utilizing the annual daily consumption curve of the last year or the previous year, so that the accuracy of the goods input is improved conveniently. The whole calculation processing process does not need manual intervention, so that the error rate is reduced conveniently, and the intelligence of the storage device is improved.

Optionally, the estimating unit is further configured to calculate the daily demand and the available days of the other partitions, and calculate the stocking amount required for supplying the raw materials to the second estimated date in each partition based on the available days and the corresponding yearly daily consumption curve;

the filling unit is used for calling the order placing templates and the merchant contact ways corresponding to the other subareas in the storage unit, filling the corresponding available days and the corresponding goods input amount in the corresponding order placing templates, and outputting the order placing templates to the corresponding merchant contact ways.

By adopting the technical scheme, when the allowance data of a certain type of raw materials is smaller than the corresponding allowance threshold value, the second estimation date of the raw materials is calculated, the goods input quantity of other raw materials is calculated according to the second estimation date, all the raw materials are supplemented simultaneously, the next supplement time is estimated to be the same day, the supplement time nodes of all the raw materials are facilitated to be close to each other, workers can supplement all the raw materials in the same day, and the working hours are saved.

Optionally, the filling unit is further configured to select the merchant contact information with the same delivery time when the merchant contact information corresponding to each of the other partitions is called.

Through adopting above-mentioned technical scheme, be convenient for make all raw materialss arrive with the same day, supply the raw materials to corresponding subregion with the same day, workman's centralized work is convenient for improve the efficiency of replenishing the raw materials.

In conclusion, when the raw materials of a certain type in the storage device are too little, the processing module automatically monitors and automatically orders, the raw material surplus and the ordering supplementary raw materials do not need to be monitored manually, sufficient raw materials are stored in the storage device all the time, the raw materials are supplied to the production and use of the power supply rod, and the intelligence of the storage device is improved.

In addition, before placing orders, the input amount is calculated according to the number of days between replenishment, so that a proper amount of raw materials can be replenished conveniently, the raw material stock in the storage device is not prone to being laid for a long time, the quality of the raw materials is convenient to guarantee, and the quality of the concrete pole is convenient to improve.

Drawings

Fig. 1 is a schematic view of the overall structure of a concrete pole raw material storage device according to this embodiment.

Fig. 2 is an overall frame diagram of a concrete pole raw material storage apparatus according to the embodiment.

Description of reference numerals:

1. a bin body; 11. a partition plate; 2. a bin cover; 3. a discharge assembly; 31. a discharge pipe; 32. an electrically controlled valve; 4. a margin detection module; 5. a processing module; 51. a discharge detection unit; 52. a storage unit; 53. an estimation unit; 54. a filling unit; 55. a collation unit; 56. a timing unit.

Detailed Description

The embodiment of the application discloses concrete pole raw materials storage device, refer to fig. 1, including the storehouse body 1, cang gai 2, ejection of compact subassembly 3 and baffle 11. The bin body 1 is hollow, and the upper end of the bin body is provided with an opening; the bin cover 2 is hinged with the upper end of the bin body 1 and is used for sealing the interior of the bin body 1 so that sundries outside the bin body 1 are not easy to enter the bin body 1; the baffle 11 is provided with a plurality ofly, all is located the storehouse body 1 inside and with storehouse body 1 fixed connection, with the inside subregion that divides into a plurality of relatively independence of the storehouse body 1. In this embodiment, four partition plates 11 are provided to divide the interior of the bin body 1 into four divisions. Each subarea is used for storing sand, broken stone, cement and an additive; discharging component 3 is provided with the multiunit, and specific quantity sets up according to the quantity of subregion, guarantees promptly that every subregion all corresponds at least one discharging component 3. The discharging component 3 comprises a discharging pipe 31 and an electric control valve 32, the discharging pipe 31 is communicated with the corresponding subarea, and the electric control valve 32 is used for blocking or conducting the discharging pipe 31.

Referring to fig. 1 and 2, the storage device further includes a processing module 5 and a number of residue detection modules 4. The allowance detection modules 4 are arranged in the partitions, are arranged in one-to-one correspondence to the partitions, and are used for detecting the allowance of the raw materials in the corresponding partitions and generating allowance data. Because the raw materials in this embodiment include sand, gravel, cement, and an additive, there are four residual detection modules 4, which are respectively used to generate sand residual data, gravel residual data, cement residual data, and additive residual data. Specifically, the residual amount detection module 4 can be an infrared sensor, a distance measurement sensor or an ultrasonic sensor which is installed at the upper end of the inner wall of the bin body 1 in the corresponding subarea, and the residual amount of the raw material in the corresponding subarea is calculated by detecting the distance between the upper surface of the raw material in the subarea and the residual amount detection module 4.

The plurality of residual amount detection modules 4 are electrically connected with the processing module 5, and the electrical connection can be wired connection or wireless connection, for example, connection is performed through a twisted pair, WIFI or Bluetooth, and data is transmitted. The control module is used for receiving the residual data transmitted by each residual detection module 4, generating ordering information based on the residual data when the residual data are smaller than the corresponding preset residual threshold values, calling the corresponding preset ordering template and the merchant contact way, filling the ordering information into the ordering template, and outputting the ordering template to the merchant contact way.

As can be understood, the control module receives the residual data transmitted by each residual detection module 4 in real time, so as to monitor the residual amount of each type of raw material in the bin body 1. And when certain residual data is smaller than the corresponding residual threshold, executing a step of ordering. Each allowance data corresponds to an allowance threshold, the allowance thresholds corresponding to different types of raw materials can be the same or different, and the single consumption or the single-day consumption of the raw materials is specifically formulated according to the concrete pole manufacturing process. For example, in this embodiment, since the density of the crushed stone is small, the crushed stone occupies a space, and the single blanking amount of the crushed stone easily causes a large reduction in the margin data, the margin threshold of the crushed stone is larger than the margin thresholds of the other three raw materials.

The lower single formworks are also provided with a plurality of lower single formworks, and are specifically arranged according to the types and the number of the raw materials, in the embodiment, the number of the lower single formworks is four, and the lower single formworks are respectively a sand lower single formwork, a gravel lower single formwork, a cement lower single formwork and an additive lower single formwork. In other embodiments, multiple lower template for the same type of raw material may be provided, for example, the lower template is divided by the size of the crushed stone, and includes a middle-sized lower template for crushed stone and a large-sized lower template for crushed stone.

The order template comprises a delivery address, a contact person mode, a contact person name, the maximum transportation days and the inventory. The distribution address, the contact person mode and the contact person name are all pre-filled, namely corresponding information is filled in the order template. After the order placing template is called out by the processing module 5, the order placing template can be output to a contact way of a merchant only by filling the maximum number of transportation days and the maximum goods input amount. Specifically, the order can be sent by a short message or by an email.

Referring to fig. 1 and 2, the processing module 5 includes a storage unit 52, an evaluation unit 53, a filling unit 54, a collation unit 55, a timing unit 56, and several discharge detection units 51. The discharging detection units 51 correspond to the discharging assemblies 3 one by one and are used for detecting the daily discharging amount of the corresponding discharging assemblies 3. Specifically, the discharge detection unit 51 may be a flow sensor mounted on the discharge pipe 31, and reflects the discharge value by the flow value. The discharging detection unit 51 may also be a weight sensor installed below the discharging pipe 31 for weighing the discharging weight of the raw material each time, thereby knowing the amount of the material discharged by day.

The storage unit 52 is configured to receive and store the sunrise amount in each partition, and store the sunrise amount and the corresponding date in a group, so as to form an annual daily consumption curve of the current year. Wherein, the annual daily consumption curve is a curve taking time as an abscissa and daily discharge as an ordinate; time is in units of days. In the present embodiment, the storage unit 52 stores the sunrise amounts of the four raw materials, and stores the sunrise amount and the date of the previous day in a group on the second day, forming a corresponding point on the corresponding annual day consumption curve. The storage unit 52 further stores a plurality of merchant contact manners, and each merchant contact manner corresponds to a delivery time. It should be noted that, in this embodiment, each raw material corresponds to several merchant contact ways.

The estimating unit 53 is configured to retrieve the sunrise amount of several days later when the remaining amount data is smaller than the corresponding remaining amount threshold, and obtain the daily demand based on the retrieved several sunrise amounts. For example, when the remaining cement data is smaller than the remaining cement threshold, the daily output of the cement in the last several days, which may be three days, five days or ten days, is called, and then the daily output is added to average, so as to obtain the daily demand of the cement.

The estimation unit 53 is further configured to obtain available days based on the daily demand and the surplus data, and obtain the quantity of the stock based on the available days, a corresponding pre-stored annual daily consumption curve, and preset replenishment interval days. Still taking cement as an example, the remaining amount data of cement is divided by the daily required amount to obtain the available days, i.e., the remaining number of days of use of the cement stored in the storage device.

The algorithm of the cargo volume is as follows: the estimation unit 53 adds the current date to the available days to obtain a first estimated date; and adding the current date to the number of replenishment interval days to obtain a second estimated date. Judging whether the first estimation date is before the second estimation date, if so, summing the daily output of the annual daily consumption curve from the first estimation date to the second estimation date to obtain the input quantity; if not, canceling the order placement. The annual daily consumption curve is the one closest to the current year, for example, the one generated in the previous year or two years.

Taking cement as an example, if the current date is No. 10/1 month, the available days of the cement is 5 days, and the preset replenishment interval days are 15 days, the first estimation date is No. 10+5= 15; the second evaluation date is No. 10+15= 25. The cement is charged in the total amount of the daily output of 1 month 15 to 1 month 25 in the annual daily consumption curve of the cement.

The estimation unit 53 is also configured to calculate daily demands and available days for other bays, and calculate the required stock quantities for the supply of the materials to the second estimation date in each bay based on the available days and the corresponding annual daily consumption curve. And the other partitions refer to partitions of which the residual data of the raw materials in the partitions are not smaller than the corresponding residual threshold values. The daily requirement and the usable days both correspond to the raw materials in the subareas, and using the above example, when the cement remaining amount data is less than the cement remaining amount threshold value, the daily requirement of the sand, the usable days of the sand, the daily requirement of the crushed stone, the usable days of the crushed stone, the daily requirement of the admixture, and the usable days of the admixture are calculated. And obtaining corresponding goods input according to daily demand, available days and annual daily consumption curves of various types of raw materials.

When the cement allowance data is smaller than the cement allowance threshold value, the goods input amount of the sand, the broken stone and the additive is calculated by using the second estimation date of the cement, so that the expected used-up time of all raw materials after the completion of the supplement is ensured to be the same day, and the time for supplementing each raw material is unified into one day.

The filling unit 54 is configured to fill the available days and the amount of the input goods in corresponding fields of the corresponding order template, and output the order template to the contact information of the merchant. Wherein, before filling out the ordering template, the checking unit 55 is configured to compare the available days with the corresponding delivery time, and retrieve the contact information of the merchant with the delivery time less than or equal to the available days. If the delivery time corresponding to the contact ways of the merchants is less than the available days, the selection can be carried out according to the storage sequence or the calling times of the contact ways of the merchants.

The filling unit 54 is further configured to retrieve the order placing templates and the merchant contact addresses corresponding to the other partitions in the storage unit 52, fill the corresponding available days and the corresponding inventory into the corresponding order placing templates, and output each order placing template to the corresponding merchant contact address. When the cement allowance data is smaller than the cement allowance threshold value, the lower single template of the cement, the lower single template of the sand, the lower single template of the gravel and the lower single template of the additive are filled simultaneously besides the lower single template of the cement. And transmitting the ordering template of the cement to the merchant contact way of the cement, transmitting the ordering template of the sand to the merchant contact way of the sand, transmitting the ordering template of the gravel to the merchant contact way of the gravel, and transmitting the ordering template of the admixture to the merchant contact way of the admixture.

Upon selecting the business contact of sand, gravel, and admixture, the fill-in unit 54 selects the business contact having the same delivery time as the cement. That is, the filling unit 54 is configured to select the merchant contact addresses with the same delivery time when retrieving the merchant contact addresses corresponding to the other partitions.

The timing unit 56 is used for timing after outputting the ordering template. The checking unit 55 is configured to obtain the remaining amount data generated by the corresponding remaining amount detection module 4 after outputting the ordering template, and when the remaining amount data increases for the first time, call the timing time of the timing unit 56 and control the timing unit 56 to reset. The checking unit 55 is configured to determine whether the timing time is greater than the corresponding delivery time, and if so, update the delivery time corresponding to the contact information of the merchant to the timing time.

The implementation principle of a concrete pole raw material storage device in the embodiment of the application is as follows: when the processing module 5 detects that the raw material residual amount data in a certain subarea is smaller than the corresponding residual amount threshold value, the available days, the daily demand and the input amount of the raw materials of the type are calculated, the corresponding order placing template and the merchant contact way are called, the available days are filled in the column of the maximum transportation days in the order placing template, and the input amount is filled in the column of the input amount in the order placing template. Then, the ordering template is output to a merchant contact way, the residual quantity of each type of raw materials is automatically monitored, and when the residual quantity is insufficient, the ordering is automatically carried out to supplement the raw materials, so that the intelligence of the storage device is improved conveniently.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. A concrete pole raw material storage device comprises a bin body (1) and a bin cover (2), wherein the bin cover (2) is positioned at the upper end of the bin body (1) and hinged with the bin body (1); the lower end of the bin body (1) is provided with a plurality of discharging assemblies (3) for discharging; the method is characterized in that: a partition plate (11) is arranged in the bin body (1) to divide the bin body (1) into a plurality of partitions, and each partition is provided with one discharging assembly (3) correspondingly;

each partition is provided with a residual amount detection module (4) for detecting the residual amount of the raw materials in the corresponding partition and generating residual amount data;

the plurality of residual amount detection modules (4) are electrically connected with a processing module (5), and the processing module (5) is used for receiving residual amount data transmitted by each residual amount detection module (4); the processing module (5) is further configured to generate order placing information based on the surplus data when the surplus data is smaller than the corresponding preset surplus threshold, call a corresponding preset order placing template and a merchant contact way, fill the order placing information into the order placing template, and output the order placing template to the merchant contact way.

2. A concrete pole stock storage unit as recited in claim 1, wherein: the processing module (5) comprises a plurality of discharging detection units (51), and the discharging detection units (51) correspond to the discharging assemblies (3) one by one and are used for detecting the daily discharging amount of the corresponding discharging assemblies (3);

a storage unit (52) for receiving and storing the sunrise amount in each of the subareas;

an estimating unit (53) for calling the sunrise amount for several days when the surplus data is smaller than the corresponding surplus threshold, and obtaining a daily demand based on the called several sunrise amounts; the estimation unit (53) is further used for obtaining available days based on the daily demand and the surplus data, and obtaining the goods input based on the available days, a corresponding pre-stored annual daily consumption curve and preset replenishment interval days;

and the filling unit (54) is used for filling the available days and the goods input amount into corresponding columns in the ordering template and outputting the ordering template to the contact way of the merchant.

3. A concrete pole stock storage unit as recited in claim 2, wherein: the storage module stores a plurality of merchant contact ways, and each merchant contact way corresponds to delivery time;

the processing module (5) comprises a checking unit (55) for comparing the available days with the corresponding delivery time and calling the merchant contact information of which the delivery time is less than or equal to the available days.

4. A concrete pole stock storage unit as recited in claim 3, wherein: the processing module (5) further comprises a timing unit (56) for timing after the order placing template is output; the proofreading unit (55) is configured to obtain the residual data generated by the residual detection module (4) after the ordering template is output, and call the timing time of the timing unit (56) and control the timing unit (56) to reset when the residual data is increased for the first time;

the proofreading unit (55) judges whether the timing time is greater than the corresponding delivery time; and if the current time is greater than the preset time, updating the delivery time corresponding to the contact information of the merchant into the timing time.

5. A concrete pole stock storage unit as recited in claim 2, wherein: the annual daily consumption curve takes time as an abscissa and the daily output as an ordinate;

the storage unit (52) is also used for storing the sunrise and the corresponding date in a group mode and forming the annual daily consumption curve of the current year.

6. A concrete pole stock storage unit as recited in claim 2, wherein: the estimation unit (53) is used for adding the current date to the available days to obtain a first estimation date, and adding the current date to the replenishment interval days to obtain a second estimation date; summing the daily material output from the first estimated date to the second estimated date in the annual daily consumption curve to obtain the cargo input.

7. A concrete pole stock storage device as recited in claim 6, wherein: the estimation unit (53) is further configured to calculate the daily demand and the available days of the other bays, and calculate the stock quantity required for supplying the raw materials to the second estimation date in each of the bays based on the available days and the corresponding yearly daily consumption curve;

the filling unit (54) is used for calling the order placing templates and the merchant contact ways corresponding to the other subareas in the storage unit (52), filling the corresponding available days and the corresponding purchase amount in the corresponding order placing templates, and outputting the order placing templates to the corresponding merchant contact ways.

8. A concrete pole stock storage unit as recited in claim 7, wherein: the filling unit (54) is further configured to select the merchant contact information with the same delivery time when the merchant contact information corresponding to each of the other partitions is called.

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