CN219632051U - Water-saving machine-made sand cleaning equipment - Google Patents

Abstract

The water-saving machine-made sand cleaning equipment comprises a conveying system which is obliquely arranged, wherein a primary vibrating screen is arranged at the upper input end of the conveying system, a secondary vibrating screen is arranged at the lower output end of the conveying system, spraying devices are respectively arranged on the primary vibrating screen and the secondary vibrating screen, and a filtering system is respectively arranged at the bottoms of the primary vibrating screen and the secondary vibrating screen. Compared with the prior art, the utility model has the advantages that the filtering systems are respectively arranged below the primary vibrating screen and the secondary vibrating screen of the cleaning system, sewage is led into the filtering barrel and filtered by the filter element, then reclaimed water is sent to the primary cleaning system for rough cleaning, and finally the sand after rough cleaning is subjected to fine cleaning at the secondary cleaning system, so that the recycling of water resources is realized, the water resource utilization rate is greatly improved, the cleaning effect of machine-made sand is ensured, the quality of concrete is stabilized, the production cost is reduced, and the environmental pollution is reduced.

Description

Water-saving machine-made sand cleaning equipment

Technical Field

The utility model relates to the technical field of machine-made sand cleaning, in particular to water-saving machine-made sand cleaning equipment.

Background

The machine-made sand is sand processed by sand raw materials through a sand making machine and other accessory equipment. Soil carried by machine-made sand raw materials and stone powder generated by crushing can influence the quality of finished products, untreated machine-made sand cannot meet the standard of building sand, and the machine-made sand can be used only by cleaning;

the existing machine-made sand cleaning equipment has low utilization rate of water resources, needs to consume a large amount of water resources during cleaning, wastes water resources, improves production cost and is not beneficial to environmental protection. Therefore, how to manufacture a water-saving machine-made sand cleaning device capable of solving the problems in the prior art is a technical problem to be solved.

Disclosure of Invention

The utility model provides water-saving machine-made sand cleaning equipment based on the technical problems, and aims to solve the problems in the background technology.

In view of this, the present utility model proposes a water-saving machine-made sand cleaning apparatus, comprising: the conveying system of slope setting, conveying system upper portion input be provided with primary vibrating screen, conveying system lower part output be provided with secondary vibrating screen, primary vibrating screen with secondary vibrating screen upper portion be provided with sprinkler respectively, primary vibrating screen with secondary vibrating screen bottom set up filtration system respectively.

Further, the spraying device comprises a primary cleaning system arranged at the upper part of the primary vibrating screen and a secondary cleaning system arranged on the secondary vibrating screen, and the input end of the primary cleaning system is connected with the output end of the filtering system.

Further, the primary cleaning system comprises two groups of cleaning pipes which are arranged at intervals, a plurality of groups of spraying pipes are arranged between the two groups of cleaning pipes at intervals, a water pipe used for connecting the output end of the filtering system is arranged at the input end of one group of cleaning pipes, and a water cleaning port is arranged at the input end of the other group of cleaning pipes.

Further, the secondary cleaning system comprises two groups of secondary cleaning pipes which are arranged at intervals, a plurality of groups of secondary spraying pipes are arranged between the two groups of secondary cleaning pipes at intervals, a plurality of groups of secondary spraying pipes are arranged at intervals at the lower parts of the secondary cleaning pipes respectively, and water inlets are formed in the input ends of the secondary cleaning pipes.

Further, filtration system include filter vat and filtration motor, the filter vat bottom plate be provided with the axis of rotation, the axis of rotation top be provided with the filter core, the filter core in be provided with the cavity structure, the filter core with the filter vat inner wall between be provided with the screw conveyer board.

Further, a plurality of groups of stirring fan blades are arranged on the outer ring of the filter core at intervals upwards, and a plurality of layers of filter layers are arranged in the filter core.

Further, a drain pipe communicated with the cavity structure is arranged in the rotating shaft, the drain pipe extends out of the filtering system and is connected with the water pipe, and a circulating pump is arranged on the drain pipe.

Further, the bottom end of the filter vat is provided with a mud discharging port.

Further, the conveying system comprises a supporting seat and a conveying belt arranged on the upper portion of the supporting seat.

Further, the bottom of the primary vibrating screen, the bottom of the conveying system and the bottom of the secondary vibrating screen are respectively provided with a supporting rod.

Compared with the prior art, the utility model has the advantages that the filtering systems are respectively arranged below the primary vibrating screen and the secondary vibrating screen of the cleaning system, sewage is led into the filtering barrel and filtered by the filter element, then reclaimed water is sent to the primary cleaning system for rough cleaning, and finally the sand after rough cleaning is subjected to fine cleaning at the secondary cleaning system, so that the recycling of water resources is realized, the utilization rate of the water resources is greatly improved, the cleaning effect of the machine-made sand is ensured, the quality of concrete is stabilized, the production cost is reduced, and the environmental pollution is reduced.

Drawings

FIG. 1 shows a schematic overall structure of the present utility model;

FIG. 2 shows a schematic diagram of the primary cleaning system of the present utility model;

FIG. 3 shows a schematic diagram of the transport system of the present utility model;

FIG. 4 shows a schematic diagram of the filtration system of the present utility model;

FIG. 5 shows a schematic view of the filter element structure of the present utility model;

FIG. 6 shows a schematic diagram of a secondary cleaning system of the present utility model;

in the figure: 1 primary vibrating screen, 2 water delivery pipe, 3 conveying system, 30 conveyer belt, 31 supporting seat, 4 secondary vibrating screen, 5 secondary cleaning system, 50 secondary spraying pipe, 51 secondary cleaning pipe, 52 secondary spraying pipe, 6 water inlet, 7 filtration system, 70 circulating pump, 71 filter vat, 72 filter core, 73 screw conveying plate, 74 stirring fan blade, 75 filtering layer, 8 supporting rod, 9 primary cleaning system, 90 spraying pipe, 91 cleaning pipe, 10 clear water gap.

Detailed Description

In order that the above-recited objects, features and advantages of the present utility model will be more clearly understood, a more particular description of the utility model will be rendered by reference to the appended drawings and appended detailed description.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present utility model, however, the present utility model may be practiced in other ways than those described herein, and the scope of the utility model is therefore not limited by the following disclosure.

The technical scheme of the present utility model is further described below with reference to fig. 1 to 6.

A first embodiment is shown in fig. 1 to 6: a water saving machine-made sand cleaning device, comprising: the conveying system 3 that the slope set up, conveying system 3 upper portion input be provided with the output of primary shale shaker 1, conveying system 3 lower part output be provided with the input of secondary shale shaker 4, primary shale shaker 1 with secondary shale shaker 4 on be provided with sprinkler respectively, primary shale shaker 1 with secondary shale shaker 4 bottom set up filtration system 7 respectively. The primary vibrating screen 1 and the secondary vibrating screen 4 are respectively provided with a screen, and the screens are connected by a conveying system 3 to form a communicated conveying belt 30.

The spraying device comprises a primary cleaning system 9 arranged at the upper part of the primary vibrating screen 1 and a secondary cleaning system 5 arranged on the secondary vibrating screen 4, wherein the input end of the primary cleaning system 9 is connected with the output end of the filtering system 7.

The primary cleaning system 9 comprises two groups of cleaning pipes 91 which are arranged at intervals, a plurality of groups of spraying pipes 90 are arranged between the two groups of cleaning pipes 91 at intervals, the input end of one group of cleaning pipes 91 is provided with a water conveying pipe 2 which is used for connecting the output end of the filtering system 7, and the input end of the other group of cleaning pipes 91 is provided with a water cleaning port 10. The secondary cleaning system 5 comprises two groups of secondary cleaning pipes 51 which are arranged at intervals, a plurality of groups of secondary spraying pipes 50 are arranged between the two groups of secondary cleaning pipes 51 at intervals, a plurality of groups of secondary spraying pipes 52 are respectively arranged at intervals at the lower part of the secondary cleaning pipes 51, and a water inlet 6 is formed in the input end of the secondary cleaning pipes 51.

The filtering system 7 comprises a filtering barrel 71 with an opening at the upper part and a filtering motor for rotating the filtering barrel 71, a rotating shaft is arranged on a bottom plate of the filtering barrel 71, a filtering core 72 is arranged in the filtering barrel 71 at the top of the rotating shaft, a cavity structure is arranged in the filtering core 72, and a spiral conveying plate 73 is arranged between the filtering core 72 and the inner wall of the filtering barrel 71. The outer ring of the filter core 72 is provided with a plurality of groups of stirring fan blades 74 at intervals upwards, and a plurality of layers of filter layers 75 are detachably arranged in the filter core 72.

The rotary shaft is internally provided with a drain pipe communicated with the cavity structure, the drain pipe extends out of the filtering system 7 to be connected with the water delivery pipe 2, and the drain pipe is provided with a circulating pump 70. The bottom end of the filter vat 71 is provided with a mud discharging opening.

The conveying system 3 comprises a supporting seat 31 and a conveying belt 30 arranged on the upper part of the supporting seat 31. The bottom of the primary vibrating screen 1, the bottom of the conveying system 3 and the bottom of the secondary vibrating screen 4 are respectively provided with a supporting rod 8.

During the use process: the machine-made sand is sent into a primary vibrating screen 1, sand and stone vibrate on the screen body of the primary vibrating screen 1, water is sent to a primary cleaning system 9 through a clean water port 10, clean water is sprayed on the sand and stone through a spraying nozzle on a spraying pipe 90, and generated sewage flows into a filter barrel 71 of a lower filter system 7 along an installation seat;

the filter motor drives the filter barrel 71 to rotate, the filter core 72 is rotationally connected with the filter barrel 71 through a rotating shaft, sewage enters the cavity structure after passing through the filter core 72, is sent back to the primary cleaning system 9 through the water delivery pipe 2 under the action of the circulating pump 70 through the rotating shaft, at the moment, the valve of the water cleaning port 10 is closed, the bottom end of the filter barrel 71 is provided with a sludge discharge port, and when more sludge is in the barrel, the sludge discharge port can be opened for discharge;

the sand and stone cleaned by the primary cleaning system 9 is sent to the screen body of the secondary vibrating screen 4 through the conveying system 3, water is sent to the secondary cleaning system 5 through the water inlet 6, clean water finely cleans machine-made sand and stone through the spraying nozzles on the secondary spraying pipe 50 and the secondary spraying pipe 52, generated sewage flows into the lower filtering barrels 71 along the installation seat, the two filtering barrels 71 have the same structure, the filtering flow is consistent, and the filtered sewage is sent back to the primary cleaning system 9 through the water pipe 2, so that the recycling of water resources is realized.

The above description is only of the preferred embodiments of the present utility model and is not intended to limit the present utility model, but various modifications and variations can be made to the present utility model by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (10)

1. A water conservation mechanism sand cleaning equipment, its characterized in that: the device comprises a conveying system which is obliquely arranged, wherein a primary vibrating screen is arranged at the upper input end of the conveying system, a secondary vibrating screen is arranged at the lower output end of the conveying system, spraying devices are respectively arranged on the primary vibrating screen and the upper part of the secondary vibrating screen, and a filtering system is respectively arranged at the bottom of the primary vibrating screen and the bottom of the secondary vibrating screen.

2. The water conservation mechanism sand washing device according to claim 1, wherein: the spraying device comprises a primary cleaning system arranged at the upper part of the primary vibrating screen and a secondary cleaning system arranged on the secondary vibrating screen, and the input end of the primary cleaning system is connected with the output end of the filtering system.

3. The water conservation mechanism sand washing device according to claim 2, wherein: the primary cleaning system comprises two groups of cleaning pipes which are arranged at intervals, a plurality of groups of spraying pipes are arranged between the two groups of cleaning pipes at intervals, the input end of one group of cleaning pipe is provided with a water pipe which is used for connecting the output end of the filtering system, and the input end of the other group of cleaning pipe is provided with a water cleaning port.

4. A water conservation mechanism sand cleaning device according to claim 3, wherein: the secondary cleaning system comprises two groups of secondary cleaning pipes which are arranged at intervals, a plurality of groups of secondary spraying pipes are arranged between the two groups of secondary cleaning pipes at intervals, a plurality of groups of secondary spraying pipes are arranged at intervals at the lower parts of the secondary cleaning pipes respectively, and water inlets are formed in the input ends of the secondary cleaning pipes.

5. The water conservation mechanism sand washing device according to claim 4, wherein: the filter system comprises a filter vat and a filter motor, wherein a rotary shaft is arranged on a bottom plate of the filter vat, a filter element is arranged at the top of the rotary shaft, a cavity structure is arranged in the filter element, and a spiral conveying plate is arranged between the filter element and the inner wall of the filter vat.

6. The water conservation mechanism sand washing device according to claim 5, wherein: the filter core outer ring upwards interval be provided with multiunit stirring flabellum, the filter core in be provided with the multilayer filtering layer.

7. The water conservation mechanism sand washing device of claim 6 wherein: the rotary shaft is internally provided with a drain pipe communicated with the cavity structure, the drain pipe extends out of the filtering system and is connected with the water delivery pipe, and the drain pipe is provided with a circulating pump.

8. The water conservation mechanism sand washing device of claim 7 wherein: the bottom end of the filter vat is provided with a mud discharging port.

9. The water conservation mechanism sand washing device of claim 8 wherein: the conveying system comprises a supporting seat and a conveying belt arranged on the upper part of the supporting seat.

10. The water conservation mechanism sand washing device of claim 9 wherein: the primary vibrating screen, the conveying system and the bottom of the secondary vibrating screen are respectively provided with a supporting rod.