CN114288739A - Water-sand separation buffer mechanism for high-purity quartz sand processing - Google Patents

Abstract

The invention discloses a water-sand separation buffer mechanism for high-purity quartz sand processing, which comprises water-sand separation equipment, wherein the water-sand separation equipment comprises a mounting frame and a water-sand separation chamber fixed on the mounting frame, a leading-in pipeline is obliquely arranged below the water-sand separation chamber, the middle part of the leading-in pipeline is provided with a separation port, the upper end of the leading-in pipeline is processed and molded with a speed reducing plate, a filter screen is movably arranged at the opening of the separation plate, two groups of unloading buffer plates are uniformly arranged at the right end of the filter screen, the two groups of unloading buffer plates are positioned at the connection part of the leading-in pipeline and the water-sand separation chamber, a protective outer cover is arranged on the surface of the filter screen, a reset piece is arranged at the top of the protective outer cover, and a buffer hanging mechanism is arranged at the left end of the protective outer cover. The invention designs a mechanism specially used for buffering quartz sand water-sand separation equipment, the buffering mechanism mainly comprises a force-unloading buffering plate and a buffering hanging mechanism, and the service life of a filter screen can be effectively prolonged by the aid of the omnibearing buffering mode.

Description

Water-sand separation buffer mechanism for high-purity quartz sand processing

Technical Field

The invention relates to the technical field of quartz sand processing equipment, in particular to a water-sand separation buffer mechanism for high-purity quartz sand processing.

Background

The quartz sand is quartz particles formed by crushing and processing quartz stones. Quartz is a nonmetallic mineral, is a hard, wear-resistant, chemically stable silicate mineral, and has the main mineral component of SiO 2. The color of the quartz sand is milk white or colorless translucent, the Mohs hardness is 7, the quartz sand is an important industrial mineral raw material and a non-chemical dangerous product, and the quartz sand is widely used in the industries of glass, casting, ceramics and fireproof materials, smelting ferrosilicon, metallurgical flux, metallurgy, construction, chemical engineering, plastics, rubber, grinding materials, filter materials and the like. The unique physical and chemical properties of quartz sand make IT play a very important role in aviation, aerospace, electronics, machinery and the current rapidly-developing IT industry, especially the internal molecular chain structure, crystal shape and lattice change rule, so that the quartz sand has high temperature resistance, small thermal expansion coefficient, high insulation, corrosion resistance, piezoelectric effect, resonance effect and unique optical properties, and plays an increasingly important role in many high-tech products. After quartz stones are broken in the process of quartz sand processing and production, grinding and separating are carried out through a series of procedures, then corresponding cleaning is carried out, after the quartz sand is cleaned after processing, water and sand are usually discharged simultaneously, and water and the quartz sand are separated through special quartz sand water-sand separation equipment.

However, the existing quartz sand water-sand separation equipment has the following problems in the use process: (1) the filter screen is easy to damage because of the large impact force of water and sand in the leading-in process and the impact force impacts the surface of the filter screen for a long time, and the existing water-sand separation equipment lacks a mechanism specially used for buffering the filter screen; (2) the water sand is in the in-process of assaulting the filter screen, because the impact force leads to the condition that the large granule grit in aquatic appears jumping when contacting with the filter screen easily greatly, and the noise of production is great and harm the organism inside easily. For this reason, a corresponding technical scheme needs to be designed to solve the existing technical problems.

Disclosure of Invention

The invention aims to provide a water-sand separation buffer mechanism for processing high-purity quartz sand, which solves the technical problems that the filter screen is easy to damage due to the fact that the impact force is large in the process of leading in water and sand, the impact force impacts the surface of the filter screen for a long time, and the existing water-sand separation equipment is lack of a mechanism specially used for buffering the filter screen.

In order to achieve the purpose, the invention provides the following technical scheme: a water-sand separation buffer mechanism for processing high-purity quartz sand comprises water-sand separation equipment, wherein the water-sand separation equipment comprises a mounting frame and a water-sand separation chamber fixed on the mounting frame, a leading-in pipeline is obliquely arranged below the water-sand separation chamber, a separation port is formed in the middle of the leading-in pipeline, a speed reduction plate is machined and formed at the upper end of the leading-in pipeline, a filter screen is movably arranged at the position of the separation port, two groups of unloading buffer plates are uniformly arranged at the right end of the filter screen and positioned at the joint of the leading-in pipeline and the water-sand separation chamber, a protective outer cover is arranged on the surface of the filter screen, a reset piece is arranged at the top of the protective outer cover, a buffer hanging mechanism is arranged at the left end of the protective outer cover, the upper end of the reset piece is connected with the inner cavity of the water-sand separation chamber, and the buffer hanging mechanism comprises a pull rod fixed on two sides of the filter screen through bolts and a rotating gear arranged at the top of the pull rod, it is two sets of install horizontal pole and fixed surface between the running gear has the spliced pole, the upper end and the spliced pole swing joint of pull rod, one side meshing of running gear is connected with driven gear, and is two sets of install crossbeam and inner between the driven gear and be fixed with the connecting cylinder, the connecting cylinder cover inlays on the crossbeam and the inboard is connected with torque spring, torque spring's the inner is fixed with fixed sleeve, fixed sleeve is fixed in on the crossbeam, the end of filter screen still is provided with a main section of thick bamboo, install screw rod and end in the main section of thick bamboo and seted up the sand discharge mouth, the outlet is still installed to the end of leading-in pipeline, water sand splitter has the control cabinet through the line connection.

In a preferred embodiment of the present invention, the surface of the speed reduction plate is formed into a rugged structure with a tip end inclined downward.

As a preferred embodiment of the invention, the filter screen comprises a filter screen body and a main board fixed at the right end of the filter screen body, two groups of side plates are symmetrically arranged on the periphery of the filter screen body and the main board, two groups of receiving openings are symmetrically formed in the main board, two groups of the unloading buffer plates are respectively positioned in the two groups of receiving openings, and two groups of buffer parts are symmetrically arranged on two sides of the unloading buffer plates.

As a preferred embodiment of the invention, the buffer part comprises a push rod and a push rod which is fixed on the push rod in an inclined manner, a sliding groove is formed in the side plate, the push rod is movably arranged in the sliding groove, a first spring is connected between the tail end of the push rod and the inner wall of the sliding groove, and the upper end of the push rod is connected with the force unloading buffer plate.

As a preferred embodiment of the invention, the protective outer cover consists of an arc outer cover and a sound insulation pad, wherein two sides of the arc outer cover are fixedly connected with the side plates, and the sound insulation pad is attached to the inner wall of the arc outer cover and is made of rubber materials.

As a preferred embodiment of the present invention, the reset member includes a vertical rod fixed to the protective housing and an inclined rod fixed to the vertical rod in an inclined manner, a second spring is connected to the upper portion of the inclined rod, a stop rod is connected to the upper end of the second spring, and the stop rod is fixed to the inner wall of the water-sand separation chamber.

As a preferred embodiment of the invention, the tail end of the filter screen is positioned in the main cylinder, and the height of the tail end is higher than that of the inner wall of the main cylinder.

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

1. the invention designs a mechanism specially used for buffering quartz sand water-sand separation equipment, the buffering mechanism mainly comprises a force-unloading buffering plate and a buffering hanging mechanism, can buffer a water-sand inlet and a filter screen body respectively, and is convenient for fine sand external guide treatment through a spiral material-pushing mechanism at the tail end.

2. According to the invention, the protective outer cover is arranged on the position of the filter screen, so that when the quartz sand in the protective outer cover is in contact with the filter screen and splashes, the purpose of blocking can be achieved, the quartz sand is prevented from damaging the inner cavity of the equipment, and in addition, the sound insulation pad is paved on the inner wall of the protective outer cover, so that the noise pollution of the quartz sand in the collision process can be effectively reduced.

Drawings

FIG. 1 is an overall block diagram of the present invention;

FIG. 2 is a view showing the inside structure of a water-sand separation chamber according to the present invention;

FIG. 3 is a schematic view of the filter screen of the present invention;

fig. 4 is a top view of the cushioning suspension mechanism of the present invention.

In the figure, 1, a mounting rack; 2. a water-sand separation chamber; 3. a lead-in conduit; 4. a separation port; 5. a speed reduction plate; 6. a filter screen; 7. a force-unloading buffer plate; 8. a protective outer cover; 9. a reset member; 10. a pull rod; 11. a rotating gear; 12. a cross bar; 13. connecting columns; 14. a driven gear; 15. a cross beam; 16. a connecting cylinder; 17. a torsion spring; 18. fixing the sleeve; 19. a main barrel; 20. a screw; 21. a sand discharge port; 22. a water outlet; 23. a console; 24. a filter screen body; 25. a main board; 26. a side plate; 27. a receiving opening; 28. a push rod; 29. a top rod; 30. a chute; 31. a first spring; 32. a cambered surface outer cover; 33. a sound insulating pad; 34. erecting a rod; 35. a diagonal bar; 36. a second spring; 37. a stop lever.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides a technical solution: a water-sand separation buffer mechanism for processing high-purity quartz sand comprises water-sand separation equipment, wherein the water-sand separation equipment comprises a mounting frame 1 and a water-sand separation chamber 2 fixed on the mounting frame 1, a leading-in pipeline 3 is obliquely arranged below the water-sand separation chamber 2, the middle part of the leading-in pipeline 3 is provided with a separation port 4, the upper end of the leading-in pipeline 3 is processed and formed with a speed reducing plate 5, a filter screen 6 is movably arranged at the separation port, two groups of unloading buffer plates 7 are uniformly arranged at the right end of the filter screen 6, the two groups of unloading buffer plates 7 are positioned at the joint of the leading-in pipeline 3 and the water-sand separation chamber 2, a protective outer cover 8 is arranged on the surface of the filter screen 6, a reset piece 9 is arranged at the top of the protective outer cover 8, a buffer hanging mechanism is arranged at the left end of the protective outer cover, the upper end of the reset piece 9 is connected with an inner cavity of the water-sand separation chamber 2, the buffer hanging mechanism comprises a pull rod 10 fixed on two sides of the filter screen 6 through bolts and a rotating gear 11 arranged at the top of the pull rod 10, a cross bar 12 is arranged between two groups of rotating gears 11, a connecting column 13 is fixed on the surface of the cross bar 12, the upper end of a pull rod 10 is movably connected with the connecting column 13, one side of each rotating gear 11 is engaged with a driven gear 14, a cross beam 15 is arranged between the two groups of driven gears 14, a connecting cylinder 16 is fixed at the inner end of each driven gear 14, the connecting cylinder 16 is sleeved and embedded on the cross beam 15, the inner side of each connecting cylinder is connected with a torsion spring 17, a fixed sleeve 18 is fixed at the inner end of each torsion spring 17, the fixed sleeve 18 is fixed on the cross beam 15, a main cylinder 19 is further arranged at the tail end of the filter screen 6, a screw rod 20 is arranged in the main cylinder 19, a sand discharge port 21 is formed at the tail end of the guide pipeline 3, a water discharge port 22 is further arranged at the tail end of the water-sand separating device, the water-sand separating device is connected with a control console 23 through a circuit, and can respectively buffer the water-sand inlet and the filter screen body through a spiral material pushing mechanism at the tail end through a force-discharging buffer plate 7 and a buffer hanging mechanism, be convenient for the concentrate sand leads the processing outward, the inner wall structure at leading-in pipeline 3 has carried out optimal design in addition, the velocity of flow that can reduce the water sand for the undulation formula structure with designing on leading-in pipeline 3's the inner wall, thereby reduce the impact force to filter screen 6, through the buffer mode of omnidirectional like this, can effectual improvement filter screen life, install protection dustcoat 8 on filter screen 6 position, appear when the condition that splashes when inside quartz sand contacts with filter screen 6, can reach the purpose of separation, avoid quartz sand to damage the equipment inner chamber, in addition the inner wall upper berth at protection dustcoat 8 is equipped with sound insulating pad 33, can effectually reduce the noise pollution of quartz sand in collision process.

Further improved, as shown in fig. 2: the surface of the speed reducing plate 5 is processed and formed into a height-fluctuating structure, and the tail end of the speed reducing plate is downward in an inclined structure, so that the design mode can reduce the flow velocity of the downward flow of the sand.

In a further improvement, as shown in fig. 3: the filter screen 6 includes filter screen body 24 and is fixed in the mainboard 25 of filter screen body 24 right-hand member, two sets of curb plates 26 are installed to the peripheral symmetry of filter screen body 24 and mainboard 25, two sets of storage ports 27 have been seted up to the symmetry on the mainboard 25, two sets of power buffer boards 7 that unload are located two sets of storage ports 27 respectively and bilateral symmetry are provided with two sets of bolster, can reach the purpose to the grit buffering through installing the power buffer board 7 that unloads in the junction of leading-in pipeline 3 and water sand separation chamber 2.

In a further improvement, as shown in fig. 3: the buffer member comprises a push rod 28 and a push rod 29 which is fixed on the push rod 28 in an inclined manner, a sliding groove 30 is formed in the side plate 26, the push rod 28 is movably arranged in the sliding groove 30, a spring 31 is connected between the tail end of the push rod 28 and the inner wall of the sliding groove 30, the upper end of the push rod 29 is connected with the unloading buffer plate 7, the unloading buffer plate 7 is supported conveniently by the aid of the design mode, and the buffer member can be adjusted in a self-adaptive angle when impact force is received.

Further improved, as shown in fig. 2: protective housing 8 comprises cambered surface dustcoat 32 and sound-proof pad 33, cambered surface dustcoat 32's both sides and curb plate 26 fixed connection, and sound-proof pad 33 attaches on cambered surface dustcoat 32's inner wall and adopts rubber materials, can avoid quartz sand to splash and can reach the purpose of making an uproar through sound-proof pad 33 through protective housing 8.

Further improved, as shown in fig. 2: the reset piece 9 comprises a vertical rod 34 fixed on the protective outer cover 8 and an inclined rod 35 fixed on the vertical rod 34 in an inclined manner, a second spring 36 is connected above the inclined rod 35, a stop lever 37 is connected to the upper end of the second spring 36, the stop lever 37 is fixed on the inner wall of the water-sand separation chamber 2, and the purpose of pulling back the filter screen 6 can be achieved through a reset key 9.

Specifically, the end of the filter screen 6 is located in the main cylinder 19, and the height of the end is higher than the height of the inner wall of the main cylinder 19, and a certain height distance difference exists between the filter screen 6 and the main cylinder 19, so that the filter screen 6 can descend in a buffering manner.

And (4) supplementary notes: the filter screen 6 is in a horizontal state in a normal state, and when receiving an impact force, the filter screen 6 is inclined.

When in use: the invention leads in water sand to a water sand separation chamber 2 through a lead-in pipeline 3, can achieve the purpose of buffering water flow through the undulate structure of the surface of a speed reduction plate 5 in the downflow process, when the water sand flows into the position of a force unloading buffer plate 7, the water sand is subjected to secondary force unloading treatment through the force unloading buffer plate 7, when the water sand enters a filter screen 6, water is left from the filter screen 6 and is discharged outside through a water outlet 22, quartz sand is left on the filter screen 6, the filter screen 6 is downward under the pressure of the quartz sand and pulls a pull rod 10, the pull rod 10 pulls a rotating gear 11 to reversely rotate and drives a driven gear 14 to synchronously rotate, the driven gear 14 achieves the purposes of blocking and buffering through a torsion spring 17 at the inner side, the descending speed of the filter screen 6 is reduced, the collision between the filter screen 6 and the water sand separation chamber 2 is avoided, in addition, the quartz sand can be prevented from splashing through a protective outer cover 8 and can achieve the purpose of reducing noise through a sound insulation pad 33, the filter screen 6 in an inclined state guides the sand into the main cylinder 19 and rotates through the screw 20 to guide the sand outwards, so that the aim of discharging the sand outwards is fulfilled through the sand discharge port 21.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. The utility model provides a water sand separation buffer gear for processing of high-purity quartz sand, includes water sand splitter, its characterized in that: the water-sand separation equipment comprises a mounting frame (1) and a water-sand separation chamber (2) fixed on the mounting frame (1), wherein a leading-in pipeline (3) is obliquely arranged below the water-sand separation chamber (2), a separation port (4) is formed in the middle of the leading-in pipeline (3), a speed reducing plate (5) is formed at the upper end of the separation port, a filter screen (6) is movably arranged at the separation port, two groups of unloading buffer plates (7) are uniformly arranged at the right end of the filter screen (6), the two groups of unloading buffer plates (7) are positioned at the connection part of the leading-in pipeline (3) and the water-sand separation chamber (2), a protective outer cover (8) is arranged on the surface of the filter screen (6), a reset piece (9) is arranged at the top of the protective outer cover (8), a buffering hanging mechanism is arranged at the left end of the reset piece (9), and the upper end of the reset piece (9) is connected with the inner cavity of the water-sand separation chamber (2), the buffering and hanging mechanism comprises pull rods (10) fixed on two sides of a filter screen (6) through bolts and rotating gears (11) installed at the tops of the pull rods (10), a cross rod (12) and connecting columns (13) are installed between the two groups of rotating gears (11) and fixed on the surfaces of the two groups of rotating gears (11), the upper end of each pull rod (10) is movably connected with the corresponding connecting column (13), one side of each rotating gear (11) is connected with a driven gear (14) in a meshed mode, a cross beam (15) is installed between the two groups of driven gears (14), the inner end of each driven gear (14) is fixed with a connecting cylinder (16), each connecting cylinder (16) is embedded on the corresponding cross beam (15) in a sleeved mode, the inner side of each connecting cylinder is connected with a torsion spring (17), the inner end of each torsion spring (17) is fixed with a fixing sleeve (18), each fixing sleeve (18) is fixed on the corresponding cross beam (15), and the tail end of the filter screen (6) is further provided with a main cylinder (19), install screw rod (20) and the end has seted up row sand mouth (21) in main section of thick bamboo (19), outlet (22) are still installed to the end of inlet pipe (3), water sand splitter has control cabinet (23) through the line connection.

2. The water sand separation buffer mechanism for processing high-purity quartz sand according to claim 1, which is characterized in that: the surface of the speed reducing plate (5) is processed and formed into a height-fluctuating structure, and the tail end of the speed reducing plate is downward in an inclined structure.

3. The water sand separation buffer mechanism for processing high-purity quartz sand according to claim 1, which is characterized in that: filter screen (6) include filter screen body (24) and be fixed in mainboard (25) of filter screen body (24) right-hand member, two sets of curb plates (26) are installed to the peripheral symmetry of filter screen body (24) and mainboard (25), two sets of storage ports (27) have been seted up to the symmetry on mainboard (25), and are two sets of unload power buffer board (7) and be located two sets of storage ports (27) respectively and bilateral symmetry is provided with two sets of bolster.

4. The water sand separation buffer mechanism for processing high-purity quartz sand according to claim 3, which is characterized in that: the bolster includes push rod (28) and is ejector pin (29) that the slope form is fixed in on push rod (28), spout (30) have been seted up on curb plate (26), push rod (28) activity sets up in spout (30) and is connected with spring (31) between terminal and spout (30) inner wall, the upper end of ejector pin (29) is connected with unload power buffer board (7).

5. The water sand separation buffer mechanism for processing high-purity quartz sand according to claim 1, which is characterized in that: protection dustcoat (8) comprise cambered surface dustcoat (32) and sound-proof pad (33), the both sides and curb plate (26) fixed connection of cambered surface dustcoat (32), sound-proof pad (33) attach and just adopt rubber materials on the inner wall of cambered surface dustcoat (32).

6. The water sand separation buffer mechanism for processing high-purity quartz sand according to claim 1, which is characterized in that: reset piece (9) including be fixed in pole setting (34) on protection dustcoat (8) and be down tube (35) on the slope form is fixed in pole setting (34), the top of down tube (35) is connected with spring two (36), the upper end of spring two (36) is connected with pin (37), pin (37) are fixed in on the inner wall of water sand separation chamber (2).

7. The water sand separation buffer mechanism for processing high-purity quartz sand according to claim 3, which is characterized in that: the tail end of the filter screen (6) is positioned in the main cylinder (19) and the height of the tail end is higher than that of the inner wall of the main cylinder (19).

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