CN110002700B - Resource recycling equipment for piling mud and working method thereof - Google Patents

Abstract

The invention discloses resource recycling equipment for piling mud and a working method thereof. According to the invention, the first vacuum glass tube and the second vacuum glass tube are arranged in the drying plate, the heat collecting tubes are movably connected at two ends of the heat collecting tube fixing through holes through the sealing bearings, the upper connecting plate and the lower connecting plate are welded at the top end and the bottom end of the drying plate, and the scraping frame which is scraped with the inner walls of the heat collecting tubes is fixed between the upper connecting plate and the lower connecting plate, so that the drying plate can absorb heat to heat the heat collecting tubes, and the scraping frame can spread and scrape muddy water, thereby dehydrating the muddy water by using heat energy and conveniently recovering the muddy water.

Description

Resource recycling equipment for piling mud and working method thereof

Technical Field

The invention relates to the technical field of piling equipment, in particular to resource recycling equipment for piling mud and a working method thereof.

Background

The slurry is prepared by adding water into clay and stirring. The mud can prevent hole collapse, suspend debris, safely pass through a quicksand layer and the like. The mud is used correctly, and safe drilling can be guaranteed. However, excessive mud use can cause difficulties in well cleanup and affect water production. Therefore, when the mud is used, the mud must be thickened or diluted at any time according to different stratum properties. The properties of the slurry generally refer to the indexes of the slurry such as moisture, fineness (or residue), specific gravity (or density), fluidity and thixotropy, slurry absorption speed and the like, and the slurry properties must be detected and controlled in the ceramic production. Clay and water are basic raw materials constituting the slurry, and clay is the most important constituent of the slurry. In drilling engineering, mud is generally synonymous with drilling fluid and is used primarily in drilling operations for oil and gas. The mud is typically water, oil or a mixture of oil and water containing a large amount of suspended matter, a gel. The role of mud in drilling is great and is often referred to as the "blood" of the borehole.

In the process of piling, the pile head is convenient to cut soil by pouring water into the pile hole, but the mud water needs to be discharged outwards along with the increase of the depth of the drilled pile, and the mud cannot be repeatedly utilized because soil particles in the mud water have no nutrient components, so that the soil near the drilled pile is easily polluted, and the resource recycling equipment for the piling mud is needed.

Disclosure of Invention

In order to overcome the technical problems, the invention aims to provide resource recycling equipment for pile driving slurry and a working method thereof, wherein a first vacuum glass tube and a second vacuum glass tube are arranged inside a drying plate, heat collecting tubes are movably connected at two ends of a heat collecting tube fixing through hole through a sealing bearing, an upper connecting plate and a lower connecting plate are welded at the top end and the bottom end of the drying plate, and a scraping frame which is scraped with the inner walls of the heat collecting tubes is fixed between the upper connecting plate and the lower connecting plate, so that the drying plate can absorb heat to heat the heat collecting tubes, and the scraping frame can spread and scrape the slurry water, thereby dehydrating the slurry water by utilizing heat energy and conveniently recycling the slurry water; the bottom of the heat collecting pipe fixing through hole is fixed with an arc-shaped plate, a mirror reflection layer is coated on the inner arc surface of the arc-shaped plate, and heating wires are distributed on the surface of the mirror reflection layer in an S shape; the top that lies in the top connecting plate is fixed with the condensation collecting plate in the thermal-collecting tube exit, is connected with the plastic film simultaneously between condensation collecting plate and storage water tank, and this kind of structure can dispel the heat to the condensing plate through the fin to carry out the condensation with vapor and collect and lead the water catch bowl and collect through the plastic film, play the effect of water economy resource.

The purpose of the invention can be realized by the following technical scheme:

a resource recycling device for piling mud comprises a drying plate, a mud storage tank and a water storage tank, wherein the drying plate comprises a shell and a light-transmitting panel embedded and installed on the end face of the shell, a first vacuum glass tube and a second vacuum glass tube which are attached to each other are fixed inside the shell, a plurality of first semicircular grooves are formed in the first vacuum glass tube at equal intervals relative to the end face of the second vacuum glass tube, and a plurality of second semicircular grooves corresponding to the first semicircular grooves are formed in the second vacuum glass tube at equal intervals relative to the end face of the first vacuum glass tube;

an arc-shaped plate is fixed at the inner bottom of the second semicircular groove, a mirror reflection layer is coated on the inner arc surface of the arc-shaped plate, and heating wires distributed in an S shape are laid on the surface of the mirror reflection layer;

the first semicircular groove and the second semicircular groove are spliced to form a heat collecting pipe fixing through hole, and two ends of the heat collecting pipe fixing through hole are movably connected with a heat collecting pipe through a sealing bearing;

the solar collector tube drying device comprises a drying plate, a scraping frame, a plurality of driven gears, a stepping motor and a driving gear, wherein the top end and the bottom end of the drying plate are respectively welded with an upper connecting plate and a lower connecting plate, the scraping frame penetrating through the inner cavity of the collector tube is welded between the upper connecting plate and the lower connecting plate, the bottom of the scraping frame is fixedly provided with a blade attached to the inner wall of the collector tube, the end parts, located outside the drying plate, of the plurality of collector tubes are clamped and connected with the driven gears in a mutually meshed transmission mode, the outer wall of the drying plate is fixedly provided;

the back of drying plate is fixed with the storage water tank, the bottom surface of storage water tank and the welding of drying plate back have six supporting legs with ground contact, a pair of support post top sprag of welded is fixed with mud storage jar in the top of upper junction plate and the storage water tank, the inner wall welding of upper junction plate has the condensation collecting plate, the condensation collecting plate include with upper junction plate inner wall vertically condensation plate, the internal bottom welding of condensation plate has the water catch bowl, the lateral wall intercommunication of water catch bowl has the outlet pipe, the outlet pipe intercommunication has the hose of arranging in the storage water tank, the even welding of external of condensation plate has a plurality of fin, the bottom intercommunication of storage water tank has a plurality of condensation collecting plates that run through and extends to the play thick liquid pipe in the corresponding collecting tube.

Further, the method comprises the following steps: the height of the slurry storage tank is larger than 60cm, a grid net is fixedly clamped on the inner wall of the slurry storage tank at a position 10-15cm away from the top surface of the slurry storage tank, the mesh width of the grid net is smaller than the inner diameter of the slurry outlet pipe, and the grid net prevents large impurities from blocking the slurry outlet pipe.

Further, the method comprises the following steps: the included angle between the light-transmitting panel of the drying plate and the vertical surface is 30 degrees, so that muddy water can conveniently slide down along the inner wall of the heat collecting tube under the action of gravity.

Further, the method comprises the following steps: the part of the scraping frame, which is positioned in the heat collecting pipe, is of a spiral sheet structure, the rotating angle of the spiral sheet body is 90 degrees, and the structure can guide the muddy water in the heat collecting pipe.

Further, the method comprises the following steps: the scraping frames in the heat collecting pipes at the adjacent positions are symmetrical about the central plane of the heat collecting pipes at the adjacent positions, so that the scraping frames are ensured to scrape slurry towards the center of the inner wall of the bottom of the heat collecting pipe all the time in the rotating process of the driven gear.

Further, the method comprises the following steps: the length of the heat collecting pipe is larger than 1m, so that muddy water is prevented from being discharged from the heat collecting pipe without being completely dried.

Further, the method comprises the following steps: the outer wall of the heat collecting tube is coated with black pigment, so that the heat collecting tube can absorb heat conveniently.

Further, the method comprises the following steps: the inner wall of the water outlet pipe is tangent to the inner contour of the lowest end of the water collecting tank when the resource recycling equipment for the piling mud is horizontally placed, so that the condensed water in the water collecting tank can be conveniently and completely discharged from the water collecting tank.

Further, the method comprises the following steps: the sub-unit connection of condensation collecting plate is the tube-shape and extends to the inside plastic film of storage water tank, prevents that condensation collecting plate from generating heat the back, influences the condensation effect, prevents that vapor from overflowing from the condensation collecting plate outside.

A working method of resource recycling equipment for piling mud comprises the following specific using and operating steps:

the method comprises the following steps: the light-transmitting panel of the resource recycling equipment is arranged towards the sunlight direction, so that the light-transmitting plate can fully contact the sunlight;

step two: conveying slurry water generated by piling to a slurry storage tank through a slurry pump, and filtering impurities larger than a grid net in the slurry water through the grid net in the process that the slurry water enters the bottom of the slurry storage tank;

step three: the step motor is started, the driven gear at the adjacent position is driven to rotate through the meshing transmission between the driving gear clamped on the outer wall of the motor shaft of the step motor and the driven gear clamped on the outer wall of the heat collecting pipe, and the driven gear and other driven gears are in a meshing relation, so that when the driving gear rotates, all the heat collecting pipes can be driven to rotate, and the outer wall of the heat collecting pipe can be reflected by sunlight and intensively irradiated through the mirror reflection layer on the surface of the arc plate, so that the heat collecting pipes are heated;

step four: the mud water flows into the heat collecting pipe through the mud outlet pipe at the bottom of the mud storage tank, the rotating heat collecting pipe spreads the mud water on the inner wall of the heat collecting pipe under the scraping action of the scraping frame, the heat collecting pipe with high temperature can heat the spread mud water, the water in the mud water is evaporated after the mud water is heated, and the mud water is changed into soil;

step five: the muddy water becomes soil after being dried, under the scraping action of the blade bars sleeved outside the scraping frame, the muddy water is peeled off from the inner wall of the heat collecting pipe, evaporated steam meets the condensing plate cooled through heat dissipation of the radiating fins and is cooled into liquid drops, under the action of gravity, the liquid drops are collected in the water collecting tank along the inner walls of the condensing plate and the plastic film, the liquid drops in the water collecting tank are guided into the water storage tank through the hose to be collected, and after liquid attached to the plastic film is agglomerated, the liquid drops slide into the water storage tank along the plastic film under the action of gravity;

step six: when the temperature of the heat collecting pipe is too low, the heat collecting pipe is heated through the heating wire, the temperature in the heat collecting pipe fixing through hole is increased through the heating wire, and therefore the wall temperature of the heat collecting pipe is increased.

The invention has the beneficial effects that:

1. the drying plate is arranged in a matched manner, the first vacuum glass tube and the second vacuum glass tube are arranged inside the drying plate, the heat collecting tube fixing through hole is formed between the first vacuum glass tube and the second vacuum glass tube, the heat collecting tubes are movably connected to two ends of the heat collecting tube fixing through hole through sealing bearings, the upper connecting plate and the lower connecting plate are welded to the top end and the bottom end of the drying plate, and the scraping frame which is scraped with the inner walls of the heat collecting tubes is fixed between the upper connecting plate and the lower connecting plate, so that the drying plate can absorb heat to heat the heat collecting tubes, and the scraping frame can spread and scrape muddy water, so that the muddy water is dehydrated by utilizing heat energy, and is convenient to recover the muddy water;

2. the bottom of the heat collecting pipe fixing through hole is fixed with an arc-shaped plate, a mirror reflection layer is coated on the inner arc surface of the arc-shaped plate, and heating wires are distributed on the surface of the mirror reflection layer in an S shape;

3. be located the thermal-collecting tube exit on the top of upper junction plate and be fixed with the condensation collecting plate, the condensation collecting plate includes one and covers the condensation plate of establishing the export of thermal-collecting tube upper end, a plurality of fin are fixed at the back of condensation plate, and the lower extreme of condensation plate is provided with the water catch bowl, be connected with the plastic film simultaneously between condensation collecting plate and storage water tank, this kind of structure, can dispel the heat to the condensation plate through the fin, thereby carry out the condensation with vapor and collect and guide the water catch bowl and collect through the plastic film, play the effect of water economy resource.

Drawings

The invention will be further described with reference to the accompanying drawings.

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

FIG. 2 is a schematic view of the construction of the dryer sheet of the present invention;

FIG. 3 is a cross-sectional view of a drying panel according to the present invention;

FIG. 4 is a partial schematic view of the arcuate plate of the present invention;

FIG. 5 is a schematic view showing the internal structure of the slurry storage tank according to the present invention;

FIG. 6 is a schematic view showing the structure of a condensing collecting plate according to the present invention.

In the figure: 1. a lower connecting plate; 2. a driving gear; 3. a stepping motor; 4. drying the plate; 41. a light transmissive panel; 42. a first vacuum glass tube; 421. a first semicircular groove; 43. a second vacuum glass tube; 431. a second semicircular groove; 44. an arc-shaped plate; 441. a specular reflection layer; 442. heating wires; 45. the heat collecting pipe is fixed with a through hole; 46. a housing; 5. an upper connecting plate; 6. a slurry storage tank; 61. a grid mesh; 7. a pulp outlet pipe; 8. a condensing and collecting plate; 81. a heat sink; 82. a condensing plate; 83. a water collection tank; 84. a water outlet pipe; 9. a hose; 10. a support pillar; 11. a water storage tank; 12. supporting legs; 13. a heat collecting pipe; 14. a scraping frame; 15. a blade bar; 16. a driven gear; 17. a plastic film.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to 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. 1-6, a resource recycling device for piling mud comprises a drying plate 4, a mud storage tank 6 and a water storage tank 11, wherein the drying plate 4 comprises a housing 46 and a light transmission panel 41 embedded in the end surface of the housing 46, a first vacuum glass tube 42 and a second vacuum glass tube 43 attached to each other are fixed in the housing 46, the first vacuum glass tube 42 is provided with a plurality of first semicircular grooves 421 at equal intervals relative to the end surface of the second vacuum glass tube 43, and the second vacuum glass tube 43 is provided with a plurality of second semicircular grooves 431 corresponding to the first semicircular grooves 421 at equal intervals relative to the end surface of the first vacuum glass tube 42;

an arc-shaped plate 44 is fixed at the inner bottom of the second semicircular groove 431, a mirror reflection layer 441 is coated on the inner arc surface of the arc-shaped plate 44, and heating wires 442 distributed in an S shape are laid on the surface of the mirror reflection layer 441;

the first semicircular groove 421 and the second semicircular groove 431 are spliced to form a heat collecting pipe fixing through hole 45, and two ends of the heat collecting pipe fixing through hole 45 are movably connected with a heat collecting pipe 13 through a sealing bearing;

the top end and the bottom end of the drying plate 4 are respectively welded with an upper connecting plate 5 and a lower connecting plate 1, a scraping frame 14 penetrating through the inner cavities of the heat collecting tubes 13 is welded between the upper connecting plate 5 and the lower connecting plate 1, the bottom of the scraping frame 14 is fixedly provided with a blade 15 attached to the inner walls of the heat collecting tubes 13, the end parts of the heat collecting tubes 13 positioned outside the drying plate 4 are clamped with driven gears 16 in mutual meshing transmission, the outer wall of the drying plate 4 is fixedly provided with a stepping motor 3, and the stepping motor 3 is in transmission connection with a driving gear 2 in meshing transmission with one driven gear 16 through a motor shaft;

the back of drying plate 4 is fixed with storage water tank 11, storage water tank 11's bottom surface and 4 back welds of drying plate have six supporting legs 12 with the ground contact, top and storage water tank 11 internal welded a pair of support column 10 top support are fixed with mud storage jar 6 in upper junction plate 5, the inner wall welding of upper junction plate 5 has condensation collecting plate 8, condensation collecting plate 8 includes with 5 inner wall vertically condensation plate 82 of upper junction plate, the internal bottom welding of condensation plate 82 has water catch bowl 83, the lateral wall intercommunication of water catch bowl 83 has outlet pipe 84, outlet pipe 84 intercommunication has the hose 9 of arranging in storage water tank 11 in, the even welding of external of condensation plate 82 has a plurality of fin 81, the bottom intercommunication of storage water tank 11 has a plurality of condensation collecting plate 8 of running through and extends to the play thick liquid pipe 7 in corresponding thermal-collecting tube 13.

The height of the slurry storage tank 6 is larger than 60cm, a grid net 61 is clamped and fixed on the inner wall of the slurry storage tank 6 at a position 10-15cm away from the top surface of the slurry storage tank 6, the mesh width of the grid net 61 is smaller than the inner diameter of the slurry outlet pipe 7, the grid net 61 prevents large impurities from blocking the slurry outlet pipe 7, the included angle between the light-transmitting panel 41 of the drying plate 4 and the vertical surface is 30 degrees, so that slurry water can conveniently slide down along the inner wall of the heat collecting pipe 13 under the action of gravity, the part of the scraping frame 14 located in the heat collecting pipe 13 is of a spiral sheet structure, the rotating angle of the spiral sheet body is 90 degrees, the structure can guide the slurry water in the heat collecting pipe 13, the scraping frame 14 in the heat collecting pipe 13 at the adjacent position is symmetrical with respect to the central plane of the heat collecting pipe 13 at the adjacent position, so that in the rotating process of the driven gear 16, the scraping frame 14 is, the length of thermal-collecting tube 13 is greater than 1m, prevent that muddy water from discharging in the thermal-collecting tube 13 completely dry, the outer wall coating of thermal-collecting tube 13 has black pigment, the thermal-collecting tube 13 of being convenient for absorbs heat, the inner wall of outlet pipe 84 is tangent with the inside profile of water catch bowl 83 least significant end when resource recycle equipment level of pile mud is placed, make things convenient for the comdenstion water in the water catch bowl 83 to discharge completely in the water catch bowl 83, the sub-unit connection of condensation collecting plate 8 is the tube-shape and extends to the inside plastic film 17 of storage water tank 11, prevent that condensation collecting plate 8 from generating heat the back, influence the condensation effect, prevent that vapor from overflowing from the condensation collecting plate.

A working method of resource recycling equipment for piling mud comprises the following specific using and operating steps:

the method comprises the following steps: the light-transmitting panel 41 of the resource recycling equipment is arranged towards the sunlight direction, so that the light-transmitting plate 4 can fully contact the sunlight;

step two: the method comprises the following steps of conveying slurry water generated by pile driving to a slurry storage tank 6 through a slurry pump, and filtering impurities larger than grids of a grid net 61 in the slurry water through the grid net 61 in the process that the slurry water enters the bottom of the slurry storage tank 6;

step three: the step motor 3 is started, the driven gear 16 at the adjacent position is driven to rotate through the meshing transmission between the driving gear 2 clamped on the outer wall of the motor shaft of the step motor 3 and the driven gear 16 clamped on the outer wall of the heat collecting tube 13, and the driven gear 16 and other driven gears 16 have a meshing relation, so that when the driving gear 2 rotates, all the heat collecting tubes 13 can be driven to rotate, and the mirror reflection layer 441 on the surface of the arc-shaped plate 44 can reflect sunlight and intensively irradiate the outer wall of the heat collecting tube 13, so that the heat collecting tube 13 is heated;

step four: the slurry water flows into the heat collecting pipe 13 through the slurry outlet pipe 7 at the bottom of the slurry storage tank 6, the rotating heat collecting pipe 13 spreads the slurry water on the inner wall of the heat collecting pipe 13 under the scraping action of the scraping frame 14, the heat collecting pipe 13 with high temperature can heat the spread slurry water, the water in the slurry water is evaporated after the slurry water is heated, and the slurry water is changed into soil;

step five: the muddy water becomes soil after being dried, under the scraping action of a blade 15 sleeved outside a scraping frame 14, the muddy water is peeled off from the inner wall of the heat collecting pipe 13, evaporated steam meets a condensing plate cooled through heat dissipation of a heat radiating fin 81 and is cooled into liquid drops, under the action of gravity, the liquid drops in the water collecting tank 83 are collected in a collecting tank 83 along the inner wall of the condensing plate 82 and the plastic film 17, the liquid drops in the collecting tank 83 are guided into a water storage tank 11 through a hose 9 and are collected, and after the liquid attached to the plastic film 17 is agglomerated, the liquid drops slide into the water storage tank 11 along the plastic film 17 under the action of gravity;

step six: when the temperature of the heat collecting tube 13 is too low, the heat collecting tube is heated by the heating wire 442, the temperature in the heat collecting tube fixing through hole 45 is increased by the heating wire 442, and therefore the wall temperature of the heat collecting tube 13 is increased.

The invention has the beneficial effects that:

1. the drying plate 4 is arranged in a matched manner, a first vacuum glass tube 42 and a second vacuum glass tube 43 are arranged inside the drying plate 4, a heat collecting tube fixing through hole 45 is arranged between the first vacuum glass tube 42 and the second vacuum glass tube 43, then heat collecting tubes 13 are movably connected to two ends of the heat collecting tube fixing through hole 45 through sealing bearings, an upper connecting plate 5 and a lower connecting plate 1 are welded to the top end and the bottom end of the drying plate 4, and a scraping frame 14 which is scraped with the inner walls of the heat collecting tubes 13 is fixed between the upper connecting plate 5 and the lower connecting plate 1, so that the drying plate 4 can absorb heat to heat the heat collecting tubes 13, and the scraping frame 14 can spread and scrape muddy water, the muddy water is dehydrated by utilizing heat energy, and the muddy water is convenient to recover;

2. the bottom of the heat collecting pipe fixing through hole 45 is fixed with the arc-shaped plate 44, the inner arc surface of the arc-shaped plate 44 is coated with the mirror reflection layer 441, and the heating wires 442 are distributed on the surface of the mirror reflection layer 441 in an S shape, so that on one hand, the heat collecting pipe 13 can be intensively collected through the mirror reflection layer 441, and on the other hand, the heat generated by the heating wires 442 is collected to the heat collecting pipe 13, so that the influence of insufficient solar heat on the heating effect of the heat collecting pipe 13 is compensated;

3. be located thermal-collecting tube 13 exit on the top of upper junction plate 5 and be fixed with condensation collecting plate 8, condensation collecting plate 8 includes one and covers the condensing plate 82 of establishing thermal-collecting tube 13 upper end export, a plurality of fin 81 are fixed at the back of condensing plate 82, and the lower extreme of condensing plate 82 is provided with water catch bowl 83, be connected with plastic film 17 between condensation collecting plate 8 and storage water tank 11 simultaneously, this kind of structure, can dispel the heat to condensing plate 82 through fin 81, thereby carry out the condensation with vapor and collect and guide water catch bowl 83 and collect through plastic film 17, play the effect of water economy resource.

The working principle is as follows: when the solar energy recycling device is used, the light-transmitting panel 41 of the recycling device is arranged towards the sunlight direction, so that the light-transmitting plate 4 can be in full contact with the sunlight, then the slurry water generated by pile driving is conveyed into the slurry storage tank 6 through the slurry pump, impurities larger than grids of the grid 61 in the slurry water are filtered through the grid 61 in the process that the slurry water enters the bottom of the slurry storage tank 6, then the stepping motor 3 is started, the driven gear 16 at the adjacent position is driven to rotate through the meshing transmission between the driving gear 2 clamped on the outer wall of a motor shaft of the stepping motor 3 and the driven gear 16 clamped on the outer wall of the heat collecting tube 13, and the driven gear 16 and other driven gears 16 have a meshing relationship, so that when the driving gear 2 rotates, all the heat collecting tubes 13 can be driven to rotate, and the sunlight can be reflected and intensively irradiate the outer wall of the heat collecting tube 13 through the mirror, thereby heating the heat collecting pipe 13, then the muddy water flows into the heat collecting pipe 13 through the slurry outlet pipe 7 at the bottom of the slurry storage tank 6, the rotating heat collecting pipe 13 spreads the muddy water on the inner wall of the heat collecting pipe 13 under the scraping action of the scraping frame 14, the heat collecting pipe 13 with high temperature can heat the spread muddy water, after the muddy water is heated, the water inside is evaporated, the muddy water becomes soil, under the scraping action of the blade 15 sleeved outside the scraping frame 14, the soil is peeled off from the inner wall of the heat collecting pipe 13, the evaporated water vapor is cooled into liquid drops when encountering the condensing plate cooled by the heat radiation of the radiating fin 81, under the gravity action, the liquid drops in the water collecting tank 83 are collected in the water collecting tank 83 by being collected in the water storage tank 11 through the drainage of the hose 9, and the liquid attached in the plastic film 17 is agglomerated and then slides into the water storage tank 11 along the plastic film 17 under the action of gravity, when the temperature of the heat collecting tube 13 is too low, the heat collecting tube is heated by the heating wire 442, and the temperature in the heat collecting tube fixing through hole 45 is increased by the heating wire 442, so that the wall temperature of the heat collecting tube 13 is increased.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing is illustrative and explanatory only and is not intended to be exhaustive or to limit the invention to the precise embodiments described, and various modifications, additions, and substitutions may be made by those skilled in the art without departing from the scope of the invention or exceeding the scope of the claims.

Claims (10)

1. The resource recycling equipment for the piling mud is characterized by comprising a drying plate (4), a mud storage tank (6) and a water storage tank (11), wherein the drying plate (4) comprises a shell (46) and a light-transmitting panel (41) embedded and mounted on the end face of the shell, a first vacuum glass tube (42) and a second vacuum glass tube (43) which are attached to each other are fixed inside the shell (46), a plurality of first semicircular grooves (421) are formed in the first vacuum glass tube (42) at equal intervals relative to the end face of the second vacuum glass tube (43), and a plurality of second semicircular grooves (431) corresponding to the first semicircular grooves (421) are formed in the second vacuum glass tube (43) at equal intervals relative to the end face of the first vacuum glass tube (42);

an arc-shaped plate (44) is fixed at the inner bottom of the second semicircular groove (431), a mirror reflection layer (441) is coated on the inner arc surface of the arc-shaped plate (44), and heating wires (442) distributed in an S shape are laid on the surface of the mirror reflection layer (441);

the first semicircular groove (421) and the second semicircular groove (431) are spliced to form a heat collecting pipe fixing through hole (45), and two ends of the heat collecting pipe fixing through hole (45) are movably connected with a heat collecting pipe (13) through a sealing bearing;

the solar heat collector is characterized in that an upper connecting plate (5) and a lower connecting plate (1) are welded at the top end and the bottom end of the drying plate (4) respectively, a scraping frame (14) penetrating through the inner cavity of the heat collecting tube (13) is welded between the upper connecting plate (5) and the lower connecting plate (1), a blade (15) attached to the inner wall of the heat collecting tube (13) is fixed at the bottom of the scraping frame (14), driven gears (16) in meshed transmission with each other are clamped at the end parts of the heat collecting tubes (13) positioned outside the drying plate (4), a stepping motor (3) is fixed on the outer wall of the drying plate (4), and the stepping motor (3) is in transmission connection with a driving gear (2) in meshed transmission with the adjacent driven gear (16);

the back of drying plate (4) is fixed with storage water tank (11), the bottom surface of storage water tank (11) and the back welding of drying plate (4) have six supporting legs (12) with ground contact, the top of upper junction plate (5) and a pair of support column (10) top support of storage water tank (11) internal weld are fixed with mud storage jar (6), the inner wall welding of upper junction plate (5) has condensation collecting plate (8), condensation collecting plate (8) include with upper junction plate (5) inner wall vertically condenser plate (82), the internal bottom welding of condenser plate (82) has water catch bowl (83), the lateral wall intercommunication of water catch bowl (83) has outlet pipe (84), outlet pipe (84) intercommunication has hose (9) of arranging in storage water tank (11), the even welding of condenser plate (82) has a plurality of fin (81) to the outside, the bottom of the water storage tank (11) is communicated with a plurality of slurry outlet pipes (7) which penetrate through the condensation collecting plate (8) and extend into the corresponding heat collecting pipes (13).

2. The equipment for recycling the piling mud as recited in claim 1, wherein the height of the mud storage tank (6) is more than 60cm, a grid net (61) is fixed on the inner wall of the mud storage tank (6) in a clamping manner at a distance of 10-15cm from the top surface of the mud storage tank, and the mesh width of the grid net (61) is smaller than the inner diameter of the mud outlet pipe (7).

3. A resource recycling apparatus for pile driving mud according to claim 1, characterized in that the angle between the light transmitting panel (41) of the drying plate (4) and the vertical is 30 °.

4. The recycling equipment for piling mud as recited in claim 1, wherein the portion of the scraping frame (14) located in the heat collecting pipe (13) is a spiral sheet structure, and the rotation angle of the spiral sheet structure is 90 °.

5. A resource recycling apparatus for pile driving slurry according to claim 1, characterized in that the scraping frames (14) in the adjacent position heat collecting pipe (13) are symmetrical about the central plane of the adjacent position heat collecting pipe (13).

6. A resource recycling apparatus for pile driving mud according to claim 1, characterized in that the length of the heat collecting pipe (13) is more than 1 m.

7. The recycling equipment for piling mud as recited in claim 1, wherein the outer wall of the heat collecting pipe (13) is coated with black pigment.

8. A resource recycling apparatus for pile driving mud as claimed in claim 1, wherein the inner wall of the outlet pipe (84) is tangential to the inner profile of the lowermost end of the sump (83) when the apparatus is horizontally positioned.

9. A resource recycling apparatus for pile driving mud as claimed in claim 1, characterized in that the lower part of the condensation collecting plate (8) is connected with a plastic film (17) which is cylindrical and extends to the inside of the water storage tank (11).

10. A working method of resource recycling equipment for piling mud is characterized in that the concrete using and operating steps of the resource recycling equipment are as follows:

the method comprises the following steps: a light-transmitting panel (41) of the resource recycling equipment is set towards the direction of sunlight;

step two: the method comprises the following steps that slurry water generated by pile driving is conveyed into a slurry storage tank (6) through a slurry pump, and when the slurry water enters the bottom of the slurry storage tank (6), large impurities in the slurry water are filtered through a grid net (61);

step three: starting the stepping motor (3), driving all the heat collecting tubes (13) to rotate through the meshing transmission between a driving gear (2) clamped on the outer wall of a motor shaft of the stepping motor (3) and a driven gear (16) clamped on the outer wall of the heat collecting tubes (13), and heating the outer walls of the heat collecting tubes (13) through the reflection of a mirror reflection layer (441) on the surface of an arc-shaped plate (44) to sunlight;

step four: the muddy water flows into the heat collecting pipes (13) through the mud discharging pipes (7), the rotating heat collecting pipes (13) spread the muddy water on the inner walls of the heat collecting pipes (13) under the scraping action of the scraping frames (14), and the heat collecting pipes (13) with high temperature heat the spread muddy water to ensure that the water in the muddy water is evaporated;

step five: the muddy water becomes soil after being dried, the muddy water is peeled off from the inner wall of the heat collecting pipe (13) under the scraping action of the blade strip (15), evaporated steam meets the condensing plate (82) cooled through heat dissipation of the radiating fin (81) and is cooled into liquid drops, and the water drops are collected in a water collecting tank (83) along the inner wall of the condensing plate (82) and the plastic film (17) under the action of gravity and then are guided into a water storage tank (11) through a hose (9) for collection;

step six: when the temperature of the heat collecting pipe (13) is too low, the heat collecting pipe is heated through the heating wire (442), the temperature in the heat collecting pipe fixing through hole (45) is increased through the heating wire (442), and therefore the wall temperature of the heat collecting pipe (13) is increased.

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