CN209740754U - Three-dimensional evaporation frame - Google Patents

Abstract

The utility model discloses a three-dimensional evaporation frame, including the rotation piece to and be fixed in on the rotation piece and can follow rotation piece pivoted evaporation frame main part, evaporation frame main part has topside and base, the first left end point and the first right end point on topside to and the second left end point and the second right end point on base enclose into an imaginary quadrangle, the extension line of the rotation axis of rotation piece will the quadrangle is cut apart into first hypothetical surface and second hypothetical surface, the area of first hypothetical surface is less than the area of second hypothetical surface. Because the evaporation frame main part sets up about the axis of rotation asymmetry, can utilize the wind pressure difference to make the evaporation frame main part rotate around slewing bearing's axis of rotation to accelerate the air-drying of salt solution, improve the treatment effeciency. The utility model discloses utilize the wind energy to realize the evaporation treatment of sewage, need not consume extra energy, and evaporation area is big, and sewage treatment is efficient.

Description

Three-dimensional evaporation frame

Technical Field

The utility model relates to a waste water treatment technical field especially relates to a three-dimensional evaporation frame.

Background

Because the salt content in the algae cultivation wastewater and the high-salt industrial wastewater is high, biochemical treatment cannot be carried out, and the sewage treatment is carried out by adopting membrane treatment processes such as ultrafiltration, reverse osmosis and the like. The concentrated brine treated by the reverse osmosis membrane accounts for 40-50% of the total amount of the wastewater, has certain toxicity and corrosivity, and is a technical problem on how to further reduce the quantity. In the research process, the planar airing is changed into the vertical airing, so that the floor occupation problem can be effectively solved, the energy consumption is low, and the planar airing and deep film treatment scheme can be effectively replaced.

In the traditional technology, CN 201406327Y discloses an abamectin sewage treatment machine power wind tower, which comprises an axial flow fan, a sewage spray pipe, a sewage pool and a circulating pump, and is structurally characterized in that a heat exchange coil pipe is arranged below the sewage spray pipe. The traditional technology utilizes the preheating of waste heat circulating water to evaporate sewage, can effectively save energy consumption, but is only suitable for sewage treatment occasions with waste heat circulating water. CN 101913668A discloses an evaporative sewage treatment device, which is characterized in that a plurality of open water pipes are provided, a plurality of openings are provided on the open water pipes, an evaporation blanket is hung on each open water pipe, a fan is provided on one side of the evaporation blanket, the fan is connected with a hot air pipe, the moisture evaporated from the evaporation blanket is carried to the atmosphere by hot wind force, and all substances dissolved in the moisture are remained on the evaporation blanket, thereby realizing the separation of the moisture and achieving the purification purpose. The wind power source of the traditional technology is a fan, the fan needs to be matched with hot air for use, and more electric energy and heat energy need to be consumed in the evaporation process; in addition, the evaporation area of the evaporation type sewage treatment device is small due to the size of the fan, and the sewage treated at one time is limited.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to overcome the not enough of prior art, provide a simple structure, small investment, the power consumption is few, the three-dimensional evaporation frame that treatment effeciency is high.

In order to solve the technical problem, the utility model discloses a following technical scheme:

A three-dimensional evaporation rack comprises a rotating member and an evaporation rack main body which is fixed on the rotating member and can rotate along with the rotating member, wherein the evaporation rack main body is provided with a top edge and a bottom edge, a first left end point and a first right end point of the top edge and a second left end point and a second right end point of the bottom edge enclose an imaginary quadrangle, the quadrangle is divided into a first imaginary plane and a second imaginary plane by an extension line of a rotating axis of the rotating member, and the area of the first imaginary plane is smaller than that of the second imaginary plane.

By above-mentioned structure, will evaporate the frame main part through the mounting and fix to strong brine pond top, strong brine in the pond is taken out the top after through the water pump, sprays on evaporation frame main part by the shower nozzle, then utilizes natural wind to air-dry it to hang, because evaporation frame main part sets up about the axis of rotation asymmetry, utilizes the difference of wind pressure to make evaporation frame main part rotate around the axis of rotation of rotating part to avoid this three-dimensional evaporation frame to continuously stand the wind-load. In addition, the evaporation frame main part rotates with the wind and can accelerate the air drying of salt water, improves the treatment effeciency. When the air is dried to a certain degree, the dirt is evaporated on the evaporation frame main body, and the three-dimensional evaporation frame can be put into use after being cleaned.

As a further improvement of the above technical solution:

in order to coordinate the stability and the portability of the evaporation rack main body, the evaporation rack main body comprises an upper cross beam, a lower cross beam and a longitudinal beam which is respectively connected with the upper cross beam and the lower cross beam, the upper cross beam forms the top edge, the lower cross beam forms the bottom edge, and the central line of the longitudinal beam coincides with the rotation axis of the rotating member.

The longitudinal beam divides the upper cross beam into a first upper section and a second upper section, the longitudinal beam divides the lower cross beam into a first lower section and a second lower section, the first upper section and the first lower section are both positioned on the same side of the longitudinal beam, and the second upper section and the second lower section are both positioned on the other side of the longitudinal beam; the length of the first upper segment is smaller than that of the second upper segment, and the length of the first lower segment is smaller than that of the second lower segment.

The mounting positions of the cross beams are asymmetrical relative to the longitudinal beam, the lengths of the cross beam parts on the two sides of the longitudinal beam are unequal, and under the action of wind power, the stress around the two sides of the longitudinal beam is unequal, so that the cross beam can rotate under the action of the wind power.

The upper cross beams and the lower cross beams are respectively provided with two upper cross beams which are arranged side by side and are positioned on different sides of the longitudinal beam, and the two lower cross beams are arranged side by side and are positioned on different sides of the longitudinal beam.

In order to ensure the stability of the three-dimensional evaporation rack, the evaporation rack main body further comprises a first upper supporting rod and a second upper supporting rod, the lower ends of the first upper supporting rod and the second upper supporting rod are fixed on the upper portion of the longitudinal beam, the upper end of the first upper supporting rod is fixed on the first upper section of one upper cross beam, and the upper end of the second upper supporting rod is fixed on the second upper section of the other upper cross beam.

The evaporation rack main body further comprises a first lower supporting rod and a second lower supporting rod, the upper ends of the first lower supporting rod and the second lower supporting rod are fixed to the lower portion of the longitudinal beam, the lower end of the first lower supporting rod is fixed to the first lower section of one lower cross beam, and the lower end of the second lower supporting rod is fixed to the second lower section of the other lower cross beam.

A set of evaporation curtain is fixed between the upper cross beam and the lower cross beam which are positioned at the same side of the longitudinal beam. The processing efficiency of the three-dimensional evaporation rack can be improved. The evaporation rack main body is covered with an evaporation curtain to increase the windward area and accelerate the rotation of the evaporation rack main body and the air drying of salt water.

the evaporation curtain comprises curtain cloth, and the curtain cloth covers the quadrangle.

In order to prevent the cotton cloth from being damaged by brushing after being soaked in water, the evaporation curtain also comprises an upper hanging rod and a lower hanging rod, the upper hanging rod is fixed on the upper cross beam, the lower hanging rod is fixed on the lower cross beam, a supporting net is fixed between the upper hanging rod and the lower hanging rod, and the curtain cloth is coated on the surface of the supporting net.

The rotary part comprises an inner ring and an outer ring which are coaxially arranged and connected, the inner ring is a rotary part, the outer ring is a fixing part, the evaporation frame main body is fixed on the inner ring, and the three-dimensional evaporation frame is fixed on the base body through the outer ring.

Compared with the prior art, the utility model has the advantages of:

The utility model discloses utilize the wind energy to realize the evaporation treatment of sewage, need not consume extra energy, and evaporation area is big, and sewage treatment is efficient.

Drawings

Fig. 1 is a schematic structural view of a three-dimensional evaporation rack according to an embodiment of the present invention.

Fig. 2 is a schematic structural view (omitting the curtain cloth) of another viewing angle of the three-dimensional evaporation rack according to the embodiment of the present invention.

Fig. 3 is a schematic structural view (including a curtain cloth) of another viewing angle of the stereoscopic evaporation rack according to the embodiment of the present invention.

fig. 4 is an exploded view of the assembly of the revolving member, the lower beam and the dirt collecting groove in the embodiment of the present invention.

Fig. 5 is a schematic perspective view of a rotating member according to an embodiment of the present invention.

Fig. 6 is a schematic cross-sectional view of a rotating member according to an embodiment of the present invention.

fig. 7 is a schematic view of fixing the three-dimensional evaporation rack of the embodiment of the present invention in a wastewater pond with high salt content.

Illustration of the drawings: 10. an evaporation rack main body; 101. a top edge; 102. a bottom edge; 1011. a first left endpoint; 1012. a second right endpoint; 1021. a second left endpoint; 1022. a second right endpoint; 103. a quadrilateral; 1031. a first imaginary plane; 1032. a second imaginary plane; 11. a stringer; 12. an upper cross beam; 121. a first upper segment; 122. a second upper segment; 13. a lower cross beam; 131. a first lower segment; 132. a second lower segment; 14. a first mounting plate; 15. a second mounting plate; 16. a third mounting plate; 171. a first upper support bar; 172. a second upper support bar; 181. a first lower support bar; 182. a second lower support bar; 21. A cord fabric; 22. hanging a rod; 23. a lower hanging rod; 30. a rotating member; 31. an inner ring; 32. an outer ring; 4. a retraction assembly; 41. A fixed pulley; 42. hanging a rope; 43. a connecting plate; 5. a brush barrel; 6. a sewage collecting tank; 20. a support pile; 40. a wastewater tank.

Detailed Description

The invention is further described below with reference to specific preferred embodiments, without thereby limiting the scope of protection of the invention.

Example 1:

As shown in fig. 1 to 3, the three-dimensional evaporation rack of the present embodiment includes a rotary member 30 and an evaporation rack main body 10.

As shown in fig. 5 and 6, the rotating member 30 includes an inner ring 31 and an outer ring 32 which are coaxially disposed and connected, and the inner ring 31 is rotatable about an axis with respect to the outer ring 32; the evaporation rack body 10 is fixed on the inner ring 31. The rotating member 30 is a three-row roller type rotating support with large radial bearing capacity.

As shown in fig. 1 and 2, the evaporation rack main body 10 includes a longitudinal beam 11, an upper beam 12, a lower beam 13, a first mounting plate 14, a second mounting plate 15, a third mounting plate 16, a first upper strut 171, a second upper strut 172, a first lower strut 181, and a second lower strut 182.

As shown in FIG. 1, the evaporation rack main body 10 has a top edge 101 and a bottom edge 102, the upper cross beam 12 forms the top edge 101, the lower cross beam 13 forms the bottom edge 102, the longitudinal beam 11 is connected between the upper cross beam 12 and the lower cross beam 13, and the center line of the longitudinal beam 11 coincides with the pivot axis of the pivoting member. The first left end point 1011 and the first right end point 1012 of the top side 101, and the second left end point 1021 and the second right end point 1022 of the bottom side 102 enclose an imaginary quadrilateral 103, and an extension of the rotation axis O-O of the rotating member 30 divides the quadrilateral 103 into a first imaginary plane 1031 and a second imaginary plane 1032, the area of the first imaginary plane 1031 being smaller than the area of the second imaginary plane 1032.

The longitudinal beam 11 divides the upper cross beam 12 into a first upper section 121 and a second upper section 122, the longitudinal beam 11 divides the lower cross beam 13 into a first lower section 131 and a second lower section 132, the first upper section 121 and the first lower section 131 are both positioned on the same side of the longitudinal beam 11, and the second upper section 122 and the second lower section 132 are both positioned on the other side of the longitudinal beam 11; the length of the first upper section 121 is smaller than the length of the second upper section 122, and the length of the first lower section 131 is smaller than the length of the second lower section 132.

The longitudinal beam 11 is made of I-shaped steel, and can provide larger bending resistance under the condition of equal sectional area; the material can be stainless steel or carbon steel is subjected to waterproof treatment. The upper beam 12 is made of channel steel and the lower beam 13 is made of two sets of i-steel to increase the contact area with the rotating member 30.

The lower ends of the first upper strut 171 and the second upper strut 172 are fixed to the upper portion of the longitudinal beam 11, the upper end of the first upper strut 171 is fixed to the first upper section 121 of one of the upper cross beams 12, and the upper end of the second upper strut 172 is fixed to the second upper section 122 of the other upper cross beam 12.

The upper ends of the first lower supporting rod 181 and the second lower supporting rod 182 are fixed on the lower part of the longitudinal beam 11, the lower end of the first lower supporting rod 181 is fixed on the first lower section 131 of one of the lower cross beams 13, and the lower end of the second lower supporting rod 182 is fixed on the second lower section 132 of the other lower cross beam 13.

Wherein, the evaporation rack main body 10 is covered with an evaporation curtain. The evaporative hanging curtain comprises a curtain cloth 21, an upper hanging rod 22 and a lower hanging rod 23 which are arranged along the length direction of the upper cross beam and the lower cross beam and are used for fixing the curtain cloth 21 on the bracket 1, and the curtain cloth 21 covers the space between the upper cross beam 12 and the lower cross beam 13.

In this embodiment, two upper cross beams 12 and two lower cross beams 13 are respectively provided, and the two upper cross beams 12 are arranged in parallel and located on different sides of the longitudinal beam 11, and are fixed with the longitudinal beam 11 through a third mounting plate 16. The two lower cross beams 13 are arranged in parallel and are positioned on different sides of the longitudinal beam 11; a set of evaporation curtain is fixed between the upper cross beam 12 and the lower cross beam 13 which are positioned at the same side of the longitudinal beam 11. Two sets of airing hanging curtains are arranged on one device, so that the evaporation area is increased, and the treatment efficiency is improved.

In this embodiment, as shown in fig. 3, the three-dimensional evaporation rack is further provided with a cleaning mechanism, and the cleaning mechanism comprises two sets of retraction assemblies 4, two brush cylinders 5, and two dirt collecting grooves 6 for collecting evaporation residues on the curtain cloth 21.

The two brush cylinders 5 are symmetrically arranged at two sides of the curtain cloth 21 along the thickness direction and sandwich the curtain cloth 21 between the two brush cylinders, and the two sets of retraction assemblies 4 are symmetrically arranged at two sides of the curtain cloth 21 along the width direction (namely the length direction of the upper hanging rod 22).

The winding and unwinding assembly 4 comprises a winch, a fixed pulley 41, a hanging rope 42 and a connecting plate 43, the fixed pulley 41 is arranged at the upper end of the support 1, the hanging rope 42 penetrates the fixed pulley 41, one end of the hanging rope 42 is wound on the winch, the other end of the hanging rope 42 is fixed on the connecting plate 43, one end of the connecting plate 43 is fixed at the end part of one of the brush drums 5 on the same side of the connecting plate 43, and the other end of the connecting plate 43 is fixed at the end part of the other brush drum 5 on the same side of the connecting plate 43.

The two upper cross beams 12 are connected through two first mounting plates 14, the two first mounting plates 14 are symmetrically arranged on two sides of the upper cross beam 12 along the length direction, and fixed pulleys 41 are fixed at two ends of each first mounting plate 14.

As shown in fig. 4, the dirt collection tank 6 is located below the curtain 21 of the corresponding side and is fixed to the lower cross member 13 by two second mounting plates 15. The two second mounting plates 15 are arranged at intervals along the length direction of the lower cross beam 13. The dirt collecting groove 6 is made of metal plates through bending, and the thickness is selected to be 0.5mm-2 mm.

Two ends of the upper hanging rod 22 are respectively fixed on the fixed pulleys 41 on the corresponding sides, the lower hanging rod 23 is fixed on the sewage collecting groove 6, an iron wire net is fixed between the upper hanging rod 22 and the lower hanging rod 23, and the cord fabric 21 is coated on the surface of the iron wire net.

The three-dimensional evaporation frame of this embodiment is adopted to carry out the process of high salt waste water minimizing treatment and is: as shown in fig. 7, the outer ring 32 is fixed to the upper end face of the support pile 20 of the high salinity wastewater pond 40 through a bearing block 33.

After strong brine in the pond is taken out the top through the water pump, sprayed on curtain cloth 21 by the shower nozzle, then utilize natural wind to air it and hang and air-dry, because evaporation frame main part 10 sets up about the axis of rotation is asymmetric, utilize the difference of wind pressure to make evaporation frame main part 10 rotate around the axis of rotation of rotating member 30, can accelerate the air-drying of salt solution, improve the treatment effeciency. And the evaporation rack main body 10 rotates with the wind, so that the evaporation rack main body 10 is prevented from being continuously subjected to wind load. When the air is dried to a certain degree, the evaporation rack main body 10 evaporates dirt, and the three-dimensional evaporation rack can be put into use after being cleaned and collected by the dirt collecting groove 6.

The above description is only for the preferred embodiment of the present application and should not be taken as limiting the present application in any way, and although the present application has been disclosed in the preferred embodiment, it is not intended to limit the present application, and those skilled in the art should understand that they can make various changes and modifications within the technical scope of the present application without departing from the scope of the present application, and therefore all the changes and modifications can be made within the technical scope of the present application.

Claims (10)

1. A three-dimensional evaporation rack is characterized by comprising a rotating member (30) and an evaporation rack main body (10) which is fixed on the rotating member (30) and can rotate along with the rotating member (30), wherein the evaporation rack main body (10) is provided with a top edge (101) and a bottom edge (102), a first left end point (1011) and a first right end point (1012) of the top edge (101), and a second left end point (1021) and a second right end point (1022) of the bottom edge (102) enclose an imaginary quadrangle (103), an extension line of a rotation axis O-O of the rotating member (30) divides the quadrangle (103) into a first imaginary plane (1031) and a second imaginary plane (1032), and the area of the first imaginary plane (1031) is smaller than that of the second imaginary plane (1032).

2. A stereoscopic evaporation rack according to claim 1, wherein the evaporation rack body (10) comprises an upper cross beam (12) and a lower cross beam (13), and a longitudinal beam (11) connected with the upper cross beam (12) and the lower cross beam (13), respectively, the upper cross beam (12) forms the top edge (101), the lower cross beam (13) forms the bottom edge (102), and the center line of the longitudinal beam (11) coincides with the rotation axis of the rotating member (30).

3. Stereoscopic evaporation rack according to claim 2, characterized in that the longitudinal beams (11) divide the upper cross beam (12) into a first upper section (121) and a second upper section (122), the longitudinal beams (11) divide the lower cross beam (13) into a first lower section (131) and a second lower section (132), the first upper section (121) and the first lower section (131) are both located on the same side of the longitudinal beams (11), and the second upper section (122) and the second lower section (132) are both located on the other side of the longitudinal beams (11); the length of the first upper segment (121) is smaller than the length of the second upper segment (122), and the length of the first lower segment (131) is smaller than the length of the second lower segment (132).

4. A stereoscopic evaporation rack according to claim 2, characterized in that the two upper cross beams (12) and the two lower cross beams (13) are respectively provided, the two upper cross beams (12) are juxtaposed and located on different sides of the longitudinal beam (11), and the two lower cross beams (13) are juxtaposed and located on different sides of the longitudinal beam (11).

5. The stereoscopic evaporation rack according to claim 4, wherein the evaporation rack main body (10) further comprises a first upper supporting rod (171) and a second upper supporting rod (172), the lower ends of the first upper supporting rod (171) and the second upper supporting rod (172) are fixed on the upper parts of the longitudinal beams (11), the upper end of the first upper supporting rod (171) is fixed on the first upper section (121) of one upper cross beam (12), and the upper end of the second upper supporting rod (172) is fixed on the second upper section (122) of the other upper cross beam (12).

6. The stereoscopic evaporation rack according to claim 5, wherein the evaporation rack main body (10) further comprises a first lower supporting rod (181) and a second lower supporting rod (182), the upper ends of the first lower supporting rod (181) and the second lower supporting rod (182) are fixed to the lower portion of the longitudinal beam (11), the lower end of the first lower supporting rod (181) is fixed to the first lower section (131) of one lower cross beam (13), and the lower end of the second lower supporting rod (182) is fixed to the second lower section (132) of the other lower cross beam (13).

7. A stereoscopic evaporation rack according to any one of claims 4 to 6, characterized in that a set of evaporation curtains is fixed between the upper cross beam (12) and the lower cross beam (13) on the same side of the longitudinal beam (11).

8. A stereoscopic evaporation rack according to claim 7, wherein the evaporation curtain comprises a curtain cloth (21), the curtain cloth (21) covering the quadrangle (103).

9. The stereoscopic evaporation rack according to claim 8, wherein the evaporation curtain further comprises an upper hanging rod (22) and a lower hanging rod (23), the upper hanging rod (22) is fixed on the upper cross beam (12), the lower hanging rod (23) is fixed on the lower cross beam (13), a support net is fixed between the upper hanging rod (22) and the lower hanging rod (23), and the curtain cloth (21) is coated on the surface of the support net.

10. The stereoscopic evaporation rack according to claim 3, wherein the rotating member (30) comprises an inner ring (31) and an outer ring (32) which are coaxially arranged and connected, the inner ring (31) is a rotating member, the outer ring (32) is a fixed member, the evaporation rack body (10) is fixed on the inner ring (31), and the stereoscopic evaporation rack is fixed on a base body through the outer ring (32).