CN113772355A - Ceramic raw material feeding equipment and feeding method thereof - Google Patents

Abstract

The invention relates to a ceramic raw material feeding device and a feeding method thereof, wherein the feeding device comprises at least 2 groups of conveying belt assemblies, a bracket, a vibrating triangular plate assembly and a shell, wherein bosses extend outwards from two sides of each conveying belt assembly and are provided with fixing grooves; the vibrating triangle plate component comprises a triangle plate and an electric vibrator, wherein two fixing bolts are convexly arranged on the bottom surface of the triangle plate, the electric vibrator is fixed on the inner side wall of the triangle plate, and the triangle plate is matched with the fixing grooves through the fixing bolts to connect two adjacent conveying belt components; the shell is arranged on the bracket and covers the upper part of the connected conveying belt assembly; the weighing sensor is arranged between the shoulder and the bracket. The equipment combination method provided by the invention can improve the raw material loading capacity of the feeder, reduce the manual feeding times, improve the feeding efficiency and realize the simplification and high efficiency of the feeding process.

Description

Ceramic raw material feeding equipment and feeding method thereof

Technical Field

The invention relates to the field of ceramic production, in particular to ceramic raw material feeding equipment and a feeding method thereof.

Background

In recent years, with continuous innovation of production technology of the architectural ceramic industry, a new processing mode is continuously developed in the ceramic industry, wherein the pre-mixing method is directly introduced into continuous ball production to be popularized and used in the architectural ceramic industry on a large scale.

With the continuous improvement of the direct-entering continuous ball system of the pre-mixing party, the simplification and high efficiency of personnel are realized, the labor intensity of the personnel is reduced, and the production cost of enterprises is further reduced. The premixing formula directly enters the continuous ball system, firstly, mud and sand materials with various formulas are mixed to form a premixing formula material, then, one feeding machine is directly used for feeding the premixing formula material, and due to the fact that the feeding amount of the feeding machine is limited, a forklift driver needs to continuously feed the materials, feeding efficiency is low, labor intensity of workers is high, and more people are used, and further reduction of production cost of enterprises is not facilitated.

The problem of feeding the premixed formula directly into the continuous ball is solved, labor intensity of workers is reduced, production cost of enterprises is reduced, and the method is an important improvement measure for improving enterprise competitiveness of ceramic enterprises.

Disclosure of Invention

The purpose of the invention is: the ceramic raw material feeding equipment solves the problems that a feeding machine needs to feed materials continuously by manpower, and the feeding efficiency is low; the invention also aims to provide a feeding method of the feeding equipment, wherein the feeding equipment can continuously control each feeding machine to feed by the disposable feeding system.

The technical solution of the invention is as follows: the ceramic raw material feeding equipment is characterized by comprising at least two groups of conveying belt assemblies arranged in parallel, a bracket arranged on the outer sides of the two conveying belt assemblies, a vibrating triangular plate assembly and a shell, wherein bosses extend outwards from two sides of each conveying belt assembly and are provided with fixing grooves;

the vibrating triangular plate assembly comprises a triangular plate and an electric vibrator, two fixing bolts are convexly arranged on the bottom surface of the triangular plate, the electric vibrator is fixed on the inner side surface of the triangular plate, and the triangular plate is matched with the fixing grooves through the fixing bolts to connect two adjacent conveying belt assemblies;

the shell covers the upper parts of the conveying belt assemblies, convex shoulders are convexly arranged on two sides of the shell, the shell is erected on the support through the convex shoulders, a plurality of baffle plates are arranged in the shell at intervals, and the baffle plates are positioned between every two adjacent conveying belt assemblies and are positioned right above the triangular plate;

the weighing device further comprises a weighing sensor, and the weighing sensor is arranged between the shoulder and the support.

Preferably, the method comprises the following steps: the conveying belt assembly comprises a front synchronous wheel and a rear synchronous wheel which are fixed on a conveying belt supporting frame, a chain plate, a conveying belt and a transmission motor, wherein the chain plate is coated outside the chain plate, the front synchronous wheel and the rear synchronous wheel are in transmission connection, and any synchronous wheel of an output shaft of the transmission motor is in transmission connection.

Preferably, the method comprises the following steps: the vibrating triangle component further comprises vibrating springs, and the vibrating springs are respectively sleeved on the two fixed pins.

The other technical solution of the invention is as follows: the feeding method of the feeding equipment is characterized by comprising the following steps:

presetting a plurality of vibration threshold values in a control system;

fully loading ceramic raw materials into the shell;

the control system controls the feeding equipment to be started, and the conveying belt assemblies are started from left to right in sequence;

weighing the ceramic raw material in the shell by using a weighing sensor;

the control system judges whether the weight of the ceramic raw materials in the shell is lower than a first vibration threshold value or not, and if not, the first conveying belt assembly maintains the working state; if yes, entering the next step;

sixthly, the control system controls the electric vibrator to work to drive the triangular plate to vibrate, all ceramic raw materials on the triangular plate are vibrated down, and meanwhile, the first conveying belt assembly is controlled to stop and the next conveying belt assembly is controlled to start;

and sixthly, the fourth step and the sixth step are circulated until all weighing sensors return to zero, and feeding is finished.

Compared with the prior art, the invention has the beneficial effects that:

according to the ceramic raw material feeding equipment provided by the invention, the plurality of conveying belt assemblies are placed in parallel and connected in pairs through the vibrating triangular plate assembly, and the shell is sleeved outside the assembled structure, so that the ceramic raw material loading capacity of the whole system is increased, the feeding times are reduced, the working efficiency of workers is improved, and the labor intensity of the workers is reduced;

connect through vibrating triangle board subassembly between two adjacent conveyor belt subassemblies, monitoring being assisted with weighing sensor, when the system feed, prevent through the mode of vibration that ceramic raw materials from remaining in a large number on the set-square of system, need not the manual work and clear up the set-square lateral surface, improved staff's work efficiency, realized retrenching high-efficiently, be favorable to manufacturing cost's reduction, utilize vibrating spring to cushion the set-square simultaneously, prolong the life of equipment.

Drawings

FIG. 1 is a schematic view of a ceramic raw material feeding apparatus.

Description of the main component symbols:

1 conveyor belt assembly	11 boss	12 fixed slot	13 conveyor belt support frame
				14 synchronous wheel	15 chain row wheel	16 conveying belt	17 drive motor
2 support	3 vibrating triangle plate component	31 triangle	311 fixed bolt
				32 electric vibrator	33 vibration spring	4 outer cover	41 convex shoulder
42 baffle	5 weighing sensor

Detailed Description

The invention will be described in more detail below with reference to the accompanying drawings:

the following detailed description of the preferred embodiments of the present invention, taken in conjunction with the accompanying drawings, will make the advantages and features of the invention more readily understood by those skilled in the art, and thus will more clearly and distinctly define the scope of the invention. The directional terms used in the present invention, such as "up", "down", "front", "back", "left", "right", "top", "bottom", etc., refer to the directions of the attached drawings. Accordingly, the directional terms used are used for explanation and understanding of the present invention, and are not used for limiting the present invention.

Referring to fig. 1, a ceramic raw material feeding device comprises 4 sets of parallel conveyor belt assemblies 1, a bracket 2 arranged at the outer side of the two conveyor belt assemblies, a vibrating triangle assembly 3 and a shell 4;

bosses 11 extend outwards from two sides of the conveying belt assembly 1, fixing grooves 12 are formed in the bosses 11, the conveying belt assembly 1 comprises a front synchronizing wheel 14 and a rear synchronizing wheel 14 which are fixed on a conveying belt support frame 13, a chain bar plate 15 which is in transmission connection with the front synchronizing wheel 14 and the rear synchronizing wheel 14, a conveying belt 16 which is coated outside the chain bar plate 15, and a transmission motor 17, wherein any synchronizing wheel 14 of an output shaft of the transmission motor 17 is in transmission connection;

vibration set-square subassembly 3 includes set-square 31, electric vibrator 32, vibrating spring 33, the protruding two fixing bolt 311 that are equipped with in bottom surface of set-square 31, electric vibrator 32 is fixed set-square 31 medial surface, vibrating spring 33 suit is respectively on two fixing bolt 311, set-square 31 is connected two adjacent conveyor belt subassemblies 1 through fixing bolt 311 and fixed slot 12's cooperation, under motor vibrator 32 and vibrating spring 33's combined action, realizes will remaining under the ceramic raw materials shake of set-square 31 surface, need not the manual work and clears up the set-square surface, has improved staff's work efficiency, and vibrating spring 33 plays the effect of buffering when set-square 31 vibrates simultaneously, increase of service life.

The shell 4 covers a plurality of conveyor belt assemblies 1 after the combination is completed, convex shoulders 41 are convexly arranged on two sides of the shell, the shell 4 is erected on the support 2 through the convex shoulders 41, a plurality of baffle plates 42 are arranged in the shell 4 at intervals, the baffle plates 42 are positioned between every two adjacent conveyor belt assemblies 1 and are positioned right above the triangular plate 31, and the weighing sensor 5 is arranged between the convex shoulders 41 and the support 2.

A feeding method of feeding equipment specifically comprises the following steps:

presetting a plurality of vibration threshold values in a control system;

fully loading ceramic raw materials into the shell;

the control system controls the feeding equipment to be started, and the conveying belt assemblies are started from left to right in sequence;

weighing the ceramic raw material in the shell by using a weighing sensor;

the control system judges whether the weight of the ceramic raw materials in the shell is lower than a first vibration threshold value or not, and if not, the first conveying belt assembly maintains the working state; if yes, entering the next step;

sixthly, the control system controls the electric vibrator to work to drive the triangular plate to vibrate, all ceramic raw materials on the triangular plate are vibrated down, and meanwhile, the first conveying belt assembly is controlled to stop and the next conveying belt assembly is controlled to start;

a second conveyor belt assembly is started;

and the weighing sensor is used for weighing the ceramic raw material in the shell;

the self-supporting control system judges whether the weight of the ceramic raw material in the shell is lower than a second vibration threshold value or not, and if not, the second conveying belt assembly maintains the working state; if yes, entering the next step;

the control system controls the electric vibrator to work to drive the triangular plate to vibrate, all ceramic raw materials on the triangular plate are vibrated down, and the first conveying belt assembly is controlled to stop;

the step four of circulating is with the step is with convenient, until all weighing sensors return to zero, then the feed finishes.

The above-mentioned embodiments are only preferred embodiments of the present invention, and all equivalent changes and modifications made within the scope of the claims of the present invention should be covered by the claims of the present invention.

Claims (4)

1. The ceramic raw material feeding equipment is characterized by comprising at least two groups of conveying belt assemblies arranged in parallel, a bracket arranged on the outer sides of the two conveying belt assemblies, a vibrating triangular plate assembly and a shell, wherein bosses extend outwards from two sides of each conveying belt assembly and are provided with fixing grooves;

the vibrating triangular plate assembly comprises a triangular plate and an electric vibrator, two fixing bolts are convexly arranged on the bottom surface of the triangular plate, the electric vibrator is fixed on the inner side surface of the triangular plate, and the triangular plate is matched with the fixing grooves through the fixing bolts to connect two adjacent conveying belt assemblies;

the shell covers the upper parts of the conveying belt assemblies, convex shoulders are convexly arranged on two sides of the shell, the shell is erected on the support through the convex shoulders, a plurality of baffle plates are arranged in the shell at intervals, and the baffle plates are positioned between every two adjacent conveying belt assemblies and are positioned right above the triangular plate;

the weighing device further comprises a weighing sensor, and the weighing sensor is arranged between the shoulder and the support.

2. The ceramic raw material feeding device as claimed in claim 1, wherein the conveying belt assembly comprises a front synchronizing wheel and a rear synchronizing wheel fixed on a conveying belt supporting frame, a chain plate in transmission connection with the front synchronizing wheel and the rear synchronizing wheel, a conveying belt coated outside the chain plate, and a transmission motor, wherein any synchronizing wheel of an output shaft of the transmission motor is in transmission connection.

3. The ceramic raw material feeding device as claimed in claim 1, wherein the vibrating triangle assembly further comprises vibrating springs which are respectively sleeved on the two fixing pins.

4. A feeding method of a feeding device is characterized by comprising the following steps:

presetting a plurality of vibration threshold values in a control system;

fully loading ceramic raw materials into the shell;

the control system controls the feeding equipment to be started, and the conveying belt assemblies are started from left to right in sequence;

weighing the ceramic raw material in the shell by using a weighing sensor;

the control system judges whether the weight of the ceramic raw materials in the shell is lower than a first vibration threshold value or not, and if not, the first conveying belt assembly maintains the working state; if yes, entering the next step;

sixthly, the control system controls the electric vibrator to work to drive the triangular plate to vibrate, all ceramic raw materials on the triangular plate are vibrated down, and meanwhile, the first conveying belt assembly is controlled to stop and the next conveying belt assembly is controlled to start;

and sixthly, the fourth step and the sixth step are circulated until all weighing sensors return to zero, and feeding is finished.

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