CN211278928U - Circulating intelligent blank storage system - Google Patents

Abstract

The utility model discloses a circulating intelligent adobe storage system, it is including glaze line transfer chain, a first circulating adobe storage machine for storing the adobe, a second circulating adobe storage machine for carrying and storing the adobe, a desicator for carrying out drying operation to the adobe, a buffer storage cage for depositing the adobe and carry the carrier that removes the operation to the adobe, wherein first circulating adobe storage machine and second circulating adobe storage machine link up with glaze line transfer chain respectively, correspond respectively be used for storing the operation and be used for carrying the adobe that stores in buffer storage cage to the adobe on the glaze line transfer chain respectively; the green brick storage system in the scheme can reduce the labor time and labor intensity of workers on the premise of ensuring normal green brick firing operation, saves the labor cost and the production cost, and has important influence on improving the competitive advantage of ceramic enterprises.

Description

Circulating intelligent blank storage system

Technical Field

The utility model relates to a adobe production technical field, concretely relates to circulating intelligent storage base system.

Background

With the development of the ceramic industry, the difficulty in recruitment and the rising of labor cost gradually become important factors restricting the development of ceramic enterprises. In the production process of common ceramics, three workers in each class are required to continuously work for 24 hours all day to ensure the normal operation of production. The production efficiency is improved, the labor cost is saved, and the improvement of the automation level of equipment is particularly important for ceramic enterprises. Therefore, it is very important to find a green brick system with less manpower management equipment and high automation degree.

Disclosure of Invention

To the defect that exists among the prior art, the utility model aims to provide a circulating intelligent storage base system and storage base method thereof, this storage base system and storage base method it can be on the basis that satisfies normal adobe and fire the work load, effectual saving manpower and manufacturing cost improve the operating efficiency.

In order to achieve the above object, the utility model adopts the following technical scheme:

the utility model provides a circulating intelligent storage base system, circulating intelligent storage base system is including glazed wire transfer chain, the first circulating storage base machine that is used for storing the adobe, the circulating storage base machine of second that is used for carrying the storage adobe, the desicator that is used for carrying out drying process to the adobe, the buffer memory storage base cage that is used for depositing the adobe and carry the carrier that removes the operation to the adobe, wherein first circulating storage base machine and second circulating storage base machine respectively with glazed wire transfer chain links up mutually, correspond respectively be used for to lie in glazed wire transfer chain the adobe store the operation and be used for with storing the adobe in the buffer memory storage base cage carries on the glazed wire transfer chain.

Further, circulating intelligent storage base system still including be used for supplying the carrier carries out the electric pile that fills of charging operation.

Compared with the prior art, the scheme has the beneficial technical effects that: the green brick storage system in the scheme can reduce the labor time and labor intensity of workers on the premise of ensuring normal green brick firing operation, saves the labor cost and the production cost, and has important influence on improving the competitive advantage of ceramic enterprises.

Drawings

Fig. 1 is a schematic view of a layout of a blank storage system in the first embodiment of the present invention.

Fig. 2 is a schematic view of a layout of a blank storage system in the second embodiment of the present invention.

The reference numerals in the figures illustrate:

the method comprises the following steps of 1-a glaze line conveying line, 2-a first circulating type blank storage machine, 3-a second circulating type blank storage machine, 4-a kiln, 5-a dryer, 6-a caching blank storage cage, 7-a charging pile and 8-a carrying vehicle.

Detailed Description

The present invention will be described in further detail with reference to the drawings and the following detailed description.

The scheme aims at solving the problems of high cost and high labor intensity due to the fact that a large amount of manual work is needed for a long time in the existing ceramic production process, and further provides the circulating type intelligent green brick storage system which can effectively save manpower and production cost and improve the operation efficiency on the basis of meeting the normal green brick firing operation amount.

The first embodiment is as follows:

referring to fig. 1, the circulating intelligent green brick storage system in this embodiment includes a glaze line conveying line 1, a first circulating green brick storage machine 2 for storing green bricks, a second circulating green brick storage machine 3 for conveying and storing green bricks, a dryer 5 for drying green bricks, a buffer green brick storage cage 6 for storing green bricks, a charging pile 7, and a transport vehicle 8 for transporting and moving green bricks, wherein the first circulating green brick storage machine 2 and the second circulating green brick storage machine are respectively connected to the glaze line conveying line 1, and are respectively used for storing green bricks on the glaze line conveying line and for transporting green bricks stored in the buffer green brick storage cage 6 to the glaze line conveying line, and the transport vehicle 8 can be charged by means of the charging pile 7.

Specifically, during work, within the normal work time of 12 hours (or 8 hours) of ceramic production, the green bricks conveyed by the glaze line conveying line 1 are divided into two parts for conveying, and one part is directly conveyed into the kiln 4 for firing; the redundant adobes (namely the number of the adobes on the glaze line conveying line 1 which meet the requirements of the kiln outside the normal firing industry) are stored by the first circulating adobe storage machine 2, namely, the redundant adobes on the glaze line conveying line 1 are conveyed to the first circulating adobe storage machine 2 for storage, and are automatically conveyed to the caching adobe storage cage 6 by the carrier vehicle 8 for storage after being fully stored; when the whole production line reaches the normal working time for 12 hours (or 8 hours), after the working section used in front of the kiln stops working, the second circulating type green brick storage machine 3 sends an instruction, green bricks stored in the caching green brick storage cage 6 are conveyed to the dryer 5 for drying according to the sequence through the carrier 8, the dried green bricks are conveyed to the second circulating type green brick storage machine 3 through the carrier 8 after being dried and heated, and the green bricks are conveyed to the glaze line for conveying according to the sequence of first in and first out by the second circulating type green brick storage machine and then conveyed to the kiln 4 for firing. After reaching 12 hours (or 8 hours), i.e. after completing a production shift, all the sections in front of the kiln start working, the whole process being carried out as the cycle described above.

Example two

The second embodiment is different from the first embodiment only in that: the second embodiment of the present invention is different from the first embodiment of the present invention in the operation manner of the circulating type intelligent blank storage system.

Referring to fig. 2, in detail, before the kiln 4 starts to work, all the green bricks conveyed by the glaze line conveying line 1 are stored by the first circulating type green brick storage machine 2 within a normal working time of 12 hours (or 8 hours), and the green bricks on the first circulating type green brick storage machine 2 are conveyed to the buffer storage cage 6 by the carrying vehicle 8 to be stored after the first circulating type green brick storage machine 2 is full; when the quantity of the stored green bricks is enough for the normal work of the kiln 4 for 12 hours (or 8 hours), the second circulating green brick storage machine sends an instruction, the green bricks stored in the buffering green brick storage cage are sequentially sent to the dryer 5 for heating and drying through the carrier 8, the green bricks after heating and drying are sent to the second circulating green brick storage machine through the carrier 8, and the second circulating green brick storage machine conveys the green bricks to the glaze line conveying line 1 according to the first-in first-out principle of the green bricks and enters the kiln 4 for firing operation; it should be noted that, in the process that the carrier 8 sends the green bricks in the buffer storage cage 6 to the dryer for drying operation, the first circulating type green brick storage machine 2 continues to store the green bricks on the glaze line conveying line 1, so as to ensure the working efficiency of the whole equipment. Meanwhile, after all working sections at the front section of the kiln continue to work for 12 hours (or 8 hours), all working sections stop working, and the second circulating type green brick storage machine 3 continues to send the stored green bricks into the kiln 4 without interruption all day long; after reaching 12 hours (or 8 hours), all working sections in front of the kiln and the first circulating type blank storage machine 2 start to work in cycles.

It will be apparent to those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims and their equivalent technologies, the present invention is also intended to include such modifications and variations.

Claims (2)

1. The utility model provides a circulating intelligent storage base system which characterized in that: the circulating intelligent green brick storage system comprises a glaze line conveying line, a first circulating green brick storage machine used for storing green bricks, a second circulating green brick storage machine used for conveying and storing green bricks, a dryer used for drying the green bricks, a caching green brick storage cage used for storing the green bricks and a carrier used for carrying and moving the green bricks, wherein the first circulating green brick storage machine and the second circulating green brick storage machine are respectively connected with the glaze line conveying line and correspondingly and respectively used for storing the green bricks on the glaze line conveying line and conveying the green bricks stored in the caching green brick storage cage to the glaze line conveying line.

2. The circulating intelligent blank storage system of claim 1, wherein: the circulating intelligent blank storage system further comprises a charging pile for the carrier to perform charging operation.

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