CN213557588U - Ore sand making production line - Google Patents

Abstract

The utility model provides an ore system sand production line, vibrating feeder's transport end is to having jaw breaker, jaw breaker's discharge gate is to having first band conveyer, first band conveyer's end is to having cone crusher, cone crusher's end is to having impacted system sand machine, impacted system sand machine passes through second band conveyer and vibrating screen extension butt joint, vibrating screen extension is provided with three discharge gate, and first discharge gate links to each other with wheeled sand washer, and the second discharge gate passes through third band conveyer and links to each other with impacted system sand machine, and the third discharge gate passes through fourth band conveyer and links to each other with first band conveyer. The sand making line can perform crushing and screening treatment on hard ores such as limestone and obtain machine-made sand with good quality.

Description

Ore sand making production line

Technical Field

The utility model relates to a system sand technical field especially relates to a but ore system sand production line.

Background

With the increasing demand of infrastructure construction in China, the market demand of machine-made sand increases year by year. The sand production line is suitable for the application of industries such as hydropower, building materials, highways, urban construction and the like, can be used for aggregates of various materials such as hard limestone, granite, basalt, cobble, slag and the like and artificial sand production operation, and is particularly suitable for the special construction fields of producing and processing highway surface materials, highway pavement broken stones, highway passenger special line gravel aggregates, hydropower station gravel materials, port wharfs, crushed stones for airport runways and the like. Under this background, degree of automation is high, and the breakage ratio is big, and system sand line that production efficiency is high can bring considerable economic benefits for the customer.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an ore system sand production line, this system sand line can carry out crushing screening processing to stereoplasm ores such as lime stone, obtains the good mechanism sand of quality, and simultaneously, sewage is handled through sewage treatment machine and is become circulated use's clear water, and mud is handled through the press and is become the mud piece, as building filler or be used for building materials production, and this system sand line system sand is efficient, environmental protection can be good.

In order to realize the technical characteristics, the purpose of the utility model is realized as follows: ore system sand production line, it includes vibrating feeder, vibrating feeder's transport end is to having jaw breaker, jaw breaker's discharge gate is to having first band conveyer, first band conveyer's end is to having cone crusher, cone crusher's end is to having impacted system sand machine, impacted system sand machine passes through second band conveyer and vibratory screening machine butt joint, vibratory screening machine is provided with three discharge gate, and first discharge gate links to each other with wheeled sand washer, and the second discharge gate passes through third band conveyer and links to each other with impacted system sand machine, and the third discharge gate passes through fourth band conveyer and links to each other with first band conveyer.

The vibrating screen machine adopts a double-layer vibrating screen, and the particle sizes of the screened materials are 0-5mm, 5-30mm and larger than 30mm respectively.

The sewage port of the wheel type sand washer is connected with the water accumulation tank, the water accumulation tank is connected with the water circulating system, and the clear water outlet of the water circulating system is connected with the water inlet of the wheel type sand washer.

The water circulation system comprises a press machine, an inlet of the press machine is connected with the water accumulation tank, and the sludge is processed into sludge blocks; the delivery port of the press machine is connected with a sewage treatment machine, and the delivery port of the sewage treatment machine is connected with a wheel type sand washer.

And the materials with the thickness of 0-5mm directly enter a wheel type sand washer, enter a micro-sand processor after sand washing is finished, and are conveyed to a finished product warehouse through a fifth belt conveyor.

And returning the 5-30mm material to the impact sand making machine through a third belt conveyor for fine crushing.

And returning the materials larger than 30mm to a feeding belt of the cone crusher through a fourth belt conveyor for secondary crushing.

The utility model discloses there is following beneficial effect:

1. through the ore sand making line adopting the process flow and the structure, the machine-made sand can be generated by crushing and screening the ore, and good economic benefit is generated.

2. Through the ore sand making line adopting the process flow and the structure, the crushed materials which do not meet the requirement of granularity are returned by the belt conveyor and sent to the impact sand making machine for secondary crushing, so that a closed-loop multi-cycle is formed. The high-efficiency production of the machine-made sand can be realized while the energy consumption is reduced.

3. The sewage is treated by the wheel type sand washer, the clear water is recycled, and the sludge is used for building fillers or building material production, so that the waste products can also create value.

Drawings

The present invention will be further explained with reference to the drawings and examples.

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is the sand making flow chart of the utility model.

In the figure: the method comprises the following steps of 1-a vibrating feeder, 2-a jaw crusher, 3-a first belt conveyor, 4-a cone crusher, 5-an impact sand making machine, 6-a second belt conveyor, 7-a vibrating screening machine, 8-a wheel type sand washing machine, 9-a third belt conveyor, 10-a fourth belt conveyor, 11-a micro-sand processor, 12-a fifth belt conveyor, 13-a sewage processor and 14-a press machine.

Detailed Description

The following describes embodiments of the present invention with reference to the accompanying drawings.

Referring to fig. 1-2, ore sand making production line, it includes vibrating feeder 1, the transport end of vibrating feeder 1 is docked and is had jaw breaker 2, jaw breaker 2's discharge gate is docked and is had first band conveyer 3, first band conveyer 3's end is docked and is had cone crusher 4, cone crusher 4's end is docked and is had impacted formula system sand machine 5, impacted formula system sand machine 5 docks with vibration screening machine 7 through second band conveyer 6, vibration screening machine 7 is provided with three discharge gate, and first discharge gate links to each other with wheeled sand washer 8, and the second discharge gate passes through third band conveyer 9 and links to each other with impacted formula system sand machine 5, and the third discharge gate passes through fourth band conveyer 10 and links to each other with first band conveyer 3. The sand making line can perform crushing and screening treatment on hard ores such as limestone to obtain machine-made sand with good quality, meanwhile, sewage is treated by a sewage treatment machine to become clear water which can be recycled, and sludge is treated by a press machine to become sludge blocks which can be used as building fillers or used for building material production. The sand making line has high sand making efficiency and good environmental protection performance.

Further, the vibrating screen machine 7 adopts a double-layer vibrating screen, and the particle sizes of the screened materials are 0-5mm, 5-30mm and larger than 30mm respectively. The double-layer vibrating screen with the structure can divide original crushed materials into three different particle sizes.

Further, the sewage port of the wheel type sand washer 8 is connected with a water accumulation tank, the water accumulation tank is connected with a water circulating system, and a clear water outlet of the water circulating system is connected with a water inlet of the wheel type sand washer 8. Through foretell water circulating system can realize the reuse of sewage.

Further, the water circulation system comprises a press machine 14, wherein an inlet of the press machine 14 is connected with the water accumulation tank and used for processing the sludge into a sludge block; the water outlet of the press 14 is connected with a sewage treatment machine 13, and the water outlet of the sewage treatment machine 13 is connected with the wheel type sand washer 8. The sludge can be processed into a sludge block by the press 14, and the sludge can be recovered and used as building filler or in building material production.

Further, the materials with the thickness of 0-5mm directly enter a wheel type sand washer 8, enter a micro-sand processor 11 after sand washing is finished, and are conveyed to a finished product warehouse through a fifth belt conveyor 12.

Further, the materials with the thickness of 5-30mm are returned to the impact sand making machine 5 through a third belt conveyor 9 for fine crushing.

Further, the material larger than 30mm is returned to the feeding belt of the cone crusher 4 through the fourth belt conveyor 10 to be secondarily crushed.

The utility model discloses a working process and principle:

the material is conveyed to a jaw crusher through a vibrating feeder, the material is conveyed to a cone crusher for secondary crushing through a belt conveyor after the jaw crusher is coarsely crushed, an impact sand making machine is arranged beside the cone crusher, the discharge ports of the cone crusher and the impact sand making machine share one belt conveyor to convey the crushed material to a double-layer vibrating screen, the double-layer vibrating screen is provided with three discharge ports, and the particle sizes of the sieved material are respectively 0-5mm, 5-30mm and larger than 30 mm. And (3) directly feeding the materials with the thickness of 0-5mm into a wheel type sand washer, feeding the materials into a micro-sand processor after sand washing is finished, and conveying the materials to a finished product warehouse through a belt conveyor. The sewage of the wheel type sand washer enters a water accumulation tank, is processed into clear water by a sewage processor for recycling, and the sludge is processed into sludge blocks by a press machine and is recycled as building fillers or used for building material production. Returning the 5-30mm material to the impact sand making machine through a belt conveyor for fine crushing. And returning the materials larger than 30mm to the feeding belt of the cone crusher through the belt conveyor for secondary crushing.

Claims (7)

1. Ore sand making production line, its characterized in that: it includes vibrating feeder (1), the transport end of vibrating feeder (1) is docked and is had jaw breaker (2), the discharge gate of jaw breaker (2) is docked and is had first band conveyer (3), the end of first band conveyer (3) is docked and is had cone crusher (4), the end of cone crusher (4) is docked and is had impacted formula system sand machine (5), impacted formula system sand machine (5) dock with vibration screening machine (7) through second band conveyer (6), vibration screening machine (7) are provided with three discharge gate, and first discharge gate links to each other with wheeled sand washer (8), and the second discharge gate passes through third band conveyer (9) and links to each other with impacted formula system sand machine (5), and the third discharge gate passes through fourth band conveyer (10) and links to each other with first band conveyer (3).

2. The ore-to-sand production line of claim 1, wherein: the vibrating screen machine (7) adopts a double-layer vibrating screen, and the particle sizes of the screened materials are 0-5mm, 5-30mm and larger than 30mm respectively.

3. The ore-to-sand production line of claim 1, wherein: the sewage port of the wheel type sand washer (8) is connected with a water accumulation tank, the water accumulation tank is connected with a water circulating system, and a clear water outlet of the water circulating system is connected with a water inlet of the wheel type sand washer (8).

4. The ore-to-sand production line of claim 3, wherein: the water circulation system comprises a press machine (14), wherein the inlet of the press machine (14) is connected with the water accumulation tank and used for treating sludge into sludge blocks; the water outlet of the press (14) is connected with a sewage treatment machine (13), and the water outlet of the sewage treatment machine (13) is connected with the wheel type sand washer (8).

5. The ore-to-sand production line of claim 2, wherein: the materials with the thickness of 0-5mm directly enter a wheel type sand washer (8), enter a micro-sand processor (11) after sand washing is finished, and are conveyed to a finished product warehouse through a fifth belt conveyor (12).

6. The ore-to-sand production line of claim 2, wherein: and returning the 5-30mm material to the impact sand making machine (5) through a third belt conveyor (9) for fine crushing.

7. The ore-to-sand production line of claim 2, wherein: and returning the materials larger than 30mm to the feeding belt of the cone crusher (4) through the fourth belt conveyor (10) for secondary crushing.

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