CN218435041U - Multiple-effect concentrated structure - Google Patents

Abstract

The utility model discloses a multiple-effect concentrated structure, including evaporation tank and filter residue subassembly, the discharge gate has been seted up to evaporation tank lower extreme, and evaporation tank left side fixedly connected with inlet pipe for the solid sediment of filtering the filter residue subassembly sets up in the inlet pipe left end, the filter residue subassembly includes casing, top cap, spout, motor, drive wheel, inlet tube, apron, slide bar and filter frame, casing top block is connected with the top cap, and the top cap lower surface has seted up the spout, top cap top fixedly connected with motor, and motor left fixedly connected with drive wheel, the drive wheel left is provided with the drive wheel, and drive wheel central fixedly connected with inlet tube, inlet tube lower extreme fixedly connected with apron, and the apron upper surface symmetry fixedly connected with slide bar all around, the block of apron below is connected with the filter frame. The utility model discloses a cooperation between each part, before concentrating waste water, can avoid caking in the evaporation tank earlier with the solid sediment filtering wherein.

Description

Multiple-effect concentrated structure

Technical Field

The utility model relates to an industrial wastewater treatment technical field specifically is a multiple-effect concentrated structure.

Background

Industrial waste water, which refers to waste water and waste liquid discharged from a process, contains industrial materials, intermediate products, byproducts and pollutants generated in the production process, which are lost with water, and therefore needs to be treated before discharge.

As in application No.: CN202023022972.0, this utility model provides an energy-saving industrial waste water enrichment facility, including feed liquor pipe, drain pipe, preheating cabinet, header tank, evaporation tank and heat pump system, heat pump system includes that the pipeline concatenates into compressor, the condenser of thermal cycle return circuit in proper order and concatenates combination, throttling arrangement and evaporimeter, the condenser concatenates the combination and includes preheating condenser and main condenser, main condenser is used for doing the evaporation cabinet provides the heat, preheating condenser is used for doing the preheating cabinet provides the heat, the evaporimeter is used for doing the header tank provides cold volume. Adopt the utility model discloses a technical scheme can pour into waste water into in advance in the preheating cabinet, preheats the waste water of condenser in to the preheating cabinet through preheating, and make full use of heat pump system's waste heat has improved the utilization efficiency of the energy.

The energy-saving industrial wastewater concentration device similar to the above application has the following defects at present:

when waste water is heated, solid residue inside is easy to agglomerate and is difficult to clean.

Therefore, in view of the above, research and improvement are made on the existing structure and defects, and a multi-effect concentrated structure is provided in order to achieve the purpose of having more practical value.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a multiple effect concentrated structure to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a multiple-effect concentrated structure, includes evaporation tank and filter residue subassembly, the discharge gate has been seted up to evaporation tank lower extreme, and evaporation tank left side fixedly connected with inlet pipe for the solid sediment of filtering the filter residue subassembly sets up in the inlet pipe left end, the filter residue subassembly includes casing, top cap, spout, motor, drive wheel, inlet tube, apron, slide bar and filter frame, casing top block is connected with the top cap, and the top cap lower surface has seted up the spout, top cap top fixedly connected with motor, and motor left fixedly connected with drive wheel, the drive wheel left is provided with the drive wheel, and drive wheel central fixedly connected with inlet tube, inlet tube lower extreme fixedly connected with apron, and the apron upper surface symmetry fixedly connected with slide bar all around, the apron below block is connected with the filter frame.

Furthermore, the driving wheel is meshed with the driving wheel, and the driving wheel is rotatably connected with the top cover through the water inlet pipe.

Furthermore, the slide bar is connected with the sliding groove in an embedded mode, and the slide bar is connected with the top cover in a sliding mode through the sliding groove.

Further, the apron is symmetry all around and is provided with the fixed subassembly that is used for fixed filter frame, fixed subassembly is including calorie chamber, draw-in groove and card hole, the apron is symmetry all around and is provided with the card chamber, and blocks the chamber top and seted up the draw-in groove, the filter frame upper end is close to card chamber department and has seted up the card hole.

Further, fixed subassembly still includes jump ring, kelly and fixture block, the card intracavity fixedly connected with jump ring, and the jump ring is close to the one end fixedly connected with kelly in card hole, kelly top fixedly connected with fixture block, and the kelly lower surface is provided with the inclined plane.

Further, evaporating chamber upper end fixedly connected with outlet duct, and outlet duct top fixedly connected with cooler bin, cooler bin right side below fixedly connected with outlet pipe, and outlet pipe below intercommunication has the storage water tank.

Furthermore, a heating pipe is arranged in the evaporation tank, a heat pump is connected to the right side of the heating pipe, a cooling pipe is connected to the upper portion of the heat pump, and the cooling pipe is arranged in the cooling tank.

The utility model provides a multiple-effect concentrated structure possesses following beneficial effect: according to the multi-effect concentration structure, through the matching of parts of each part, solid residues in the wastewater can be filtered before the wastewater is concentrated, so that the wastewater is prevented from caking in an evaporation box;

1. the utility model discloses a setting of filter residue subassembly makes waste water send into the filter frame from the inlet tube after, the filter frame can be with the solid sediment filtering in the waste water, the motor can drive the drive wheel through the drive wheel and rotate, thereby makes the inlet tube drive the filter frame through the apron and rotate, and then separates the liquid that carries on solid sediment under the effect of centrifugal force, the slide bar can restrict the apron through the spout, avoid when the dewatering the apron incline lead to the filter frame incline;

2. the utility model discloses a setting of fixed subassembly for when installing the filter frame, the filter frame can be impressed its card chamber and compress the jump ring through the inclined plane of kelly, after card hole and card chamber parallel and level, the kelly kick-backs and inserts the card hole under the effect of jump ring, fix the filter frame, avoid the filter frame to become flexible and drop in the rotation process, and when clearing up the filter frame, only need slide the fixture block in the draw-in groove can take out the kelly from the card hole, thereby pull down the filter frame from the apron and clear up;

3. the utility model discloses a setting of heat pump for behind the waste water of the solid sediment of filtering got into the evaporating box, heat pump accessible heating pipe heated waste water, made the evaporation of water and got into the cooler bin through the intake pipe, the heat pump passes through the cooling tube and makes steam cooling and follow the outlet pipe and get into the storage water tank in, the concentrate is detained in the evaporating box, leaves the evaporating box through the discharge gate.

Drawings

Fig. 1 is a schematic sectional front view of the present invention;

fig. 2 is an enlarged schematic structural view of a point a in fig. 1 according to the present invention;

fig. 3 is a schematic view of the three-dimensional structure of the filter frame of the present invention.

In the figure: 1. an evaporation tank; 2. a discharge port; 3. a feeding pipe; 4. a residue filtering component; 401. a housing; 402. a top cover; 403. a chute; 404. a motor; 405. a drive wheel; 406. a driving wheel; 407. a water inlet pipe; 408. a cover plate; 409. a slide bar; 410. a filter frame; 5. a fixing component; 501. a card cavity; 502. a card slot; 503. clamping holes; 504. a clamp spring; 505. a clamping rod; 506. a clamping block; 6. an air outlet pipe; 7. a cooling tank; 8. a water outlet pipe; 9. a water storage tank; 10. heating a tube; 11. a heat pump; 12. and (7) cooling the tube.

Detailed Description

The following describes embodiments of the present invention in further detail with reference to the drawings and examples. The following examples are provided to illustrate the invention but are not intended to limit the scope of the invention.

As shown in fig. 1, fig. 2 and fig. 3, a multiple-effect concentration structure comprises an evaporation tank 1 and a residue filtering assembly 4, wherein a discharge port 2 is arranged at the lower end of the evaporation tank 1, a feed pipe 3 is fixedly connected to the left side of the evaporation tank 1, the residue filtering assembly 4 for filtering out solid residues is arranged at the left end of the feed pipe 3, the residue filtering assembly 4 comprises a shell 401, a top cover 402, a chute 403, a motor 404, a driving wheel 405, a driving wheel 406, a water inlet pipe 407, a cover plate 408, a slide bar 409 and a filter frame 410, the top cover 402 is connected above the shell 401 in a clamping manner, the chute 403 is arranged on the lower surface of the top cover 402, the motor 404 is fixedly connected above the top cover 402, the driving wheel 405 is fixedly connected to the left side of the motor 404, the driving wheel 406 is arranged on the left side of the driving wheel 405, the water inlet pipe 407 is fixedly connected to the center of the driving wheel 406, the cover plate 408 is fixedly connected to the lower end of the water inlet pipe 407, and the periphery of the upper surface of the cover plate 408 is symmetrically and fixedly connected with slide rods 409, the lower part of the cover plate 408 is connected with a filter frame 410 in a clamping manner, the driving wheel 405 is meshed with the driving wheel 406, the driving wheel 406 is rotatably connected with the top cover 402 through a water inlet pipe 407, the slide rods 409 are connected with the sliding grooves 403 in a embedding manner, the slide rods 409 are slidably connected with the top cover 402 through the sliding grooves 403, through the arrangement of the filter residue assembly 4, after wastewater is sent into the filter frame 410 from the water inlet pipe 407, the filter frame 410 can filter solid residues in the wastewater, the motor 404 can drive the driving wheel 406 to rotate through the driving wheel 405, so that the water inlet pipe 407 can drive the filter frame 410 to rotate through the cover plate 408, and then liquid carried on the solid residues is separated under the action of centrifugal force, the slide rods 409 can limit the cover plate 408 through the sliding grooves, and the deflection of the cover plate 408 caused by the deflection of the filter frame 410 during water removal is avoided.

As shown in fig. 1, 2 and 3, the fixing assembly 5 for fixing the filter frame 410 is symmetrically disposed around the cover plate 408, the fixing assembly 5 includes a clamp cavity 501, a clamp groove 502 and a clamp hole 503, the clamp cavity 501 is symmetrically disposed around the cover plate 408, the clamp groove 502 is disposed above the clamp cavity 501, the clamp hole 503 is disposed at the upper end of the filter frame 410 near the clamp cavity 501, the fixing assembly 5 further includes a clamp spring 504, a clamp rod 505 and a clamp block 506, the clamp spring 504 is fixedly connected in the clamp cavity 501, the clamp rod 505 is fixedly connected at one end of the clamp spring 504 near the clamp hole 503, the clamp block 506 is fixedly connected above the clamp rod 505, the lower surface of the clamp rod 505 is provided with an inclined surface, by the arrangement of the fixing assembly 5, when the filter frame 410 is installed, the filter frame 410 can be pressed into the clamp cavity 501 through the inclined surface of the clamp rod 505 and compressed the clamp spring 504, when the clamp hole 503 is flush with the clamp cavity 501, the clamp rod 505 can be rebounded into the clamp hole 503 and inserted into the clamp hole 503 under the action of the clamp rod 504, the filter frame 410 is fixed, the filter frame 410 is prevented from loosening and falling off during the cleaning, and the filter frame 410, and the clamp groove 410 can be removed from the clamp hole 503 only by sliding the clamp rod 503 when the filter frame 502 is removed, and the cover plate 410, and the clamp rod 408 can be removed, so that the clamp rod 408 can be removed from the filter frame 410.

As shown in fig. 1, evaporation tank 1 upper end fixedly connected with outlet duct 6, and outlet duct 6 top fixedly connected with cooler bin 7, cooler bin 7 right side below fixedly connected with outlet pipe 8, and outlet pipe 8 below intercommunication has storage water tank 9, be provided with heating pipe 10 in the evaporation tank 1, and the right-hand heat pump 11 that is connected with of heating pipe 10, heat pump 11 top is connected with cooling tube 12, and cooling tube 12 sets up in cooler bin 7, setting through heat pump 11, make the waste water of the solid sediment of filtering get into behind evaporation tank 1, heat pump 11 accessible heating pipe 10 heats waste water, make moisture evaporation and get into cooler bin 7 through the intake pipe, heat pump 11 makes steam cooling and get into in storage water tank 9 from outlet pipe 8 through cooling tube 12, the concentrate is detained in evaporation tank 1, leave evaporation tank 1 through discharge gate 2.

In summary, when the multi-effect concentrating structure is used, firstly, according to the structure shown in fig. 1, fig. 2 and fig. 3, the filter frame 410 is installed on the cover plate 408, when the filter frame 410 is installed, the filter frame 410 can be pressed into the clamping cavity 501 through the inclined surface of the clamping rod 505 and compress the clamping spring 504, after the clamping hole 503 is flush with the clamping cavity 501, the clamping rod 505 rebounds under the action of the clamping spring 504 and is inserted into the clamping hole 503, the filter frame 410 is fixed, the filter frame 410 is prevented from loosening and falling in the rotating process, and when the filter frame 410 is cleaned, the clamping rod 505 can be pulled out from the clamping hole 503 only by sliding the clamping block 506 in the clamping groove 502, so that the filter frame 410 is detached from the cover plate 408 and cleaned, then the top cover 402 is installed on the housing 401, and then the wastewater is sent into the filter frame 410 from the water inlet pipe 407, filter frame 410 can carry out the filtering with the solid sediment in the waste water, motor 404 can drive wheel 406 through drive wheel 405 and rotate, thereby make inlet tube 407 pass through apron 408 and drive filter frame 410 and rotate, and then the liquid that carries on will solid sediment under the effect of centrifugal force separates, slide bar 409 accessible spout 403 restricts apron 408, avoid apron 408 skew to lead to filter frame 410 skew when the dewatering, the waste water of the solid sediment of filtering passes through inlet pipe 3 and gets into evaporation tank 1 from casing 401 after, heat pump 11 accessible heating pipe 10 heats waste water, make the moisture evaporation and get into cooler bin 7 through the intake pipe, heat pump 11 makes steam cooling and gets into in storage water tank 9 from outlet pipe 8 through cooling tube 12, the concentrate is detained in evaporation tank 1, leave evaporation tank 1 through discharge gate 2.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (7)

1. The utility model provides a multiple-effect concentration structure, includes evaporation tank (1) and filter residue subassembly (4), a serial communication port, discharge gate (2) have been seted up to evaporation tank (1) lower extreme, and evaporation tank (1) left side fixedly connected with inlet pipe (3), be used for the solid sediment of filtering filter residue subassembly (4) set up in inlet pipe (3) left end, filter residue subassembly (4) include casing (401), top cap (402), spout (403), motor (404), drive wheel (405), drive wheel (406), inlet tube (407), apron (408), slide bar (409) and filter frame (410), casing (401) top block is connected with top cap (402), and top cap (402) lower surface has seted up spout (403), top cap (402) top fixedly connected with motor (404), and motor (404) left fixedly connected with drive wheel (405), drive wheel (405) left is provided with drive wheel (406), and drive wheel (406) central fixedly connected with inlet tube (407), inlet tube (407) lower extreme fixedly connected with apron (408), and upper surface fixedly connected with apron (408) symmetry all around slide bar (409) below block (410), apron (408) below block (408).

2. The multi-effect concentrating structure as claimed in claim 1, wherein the driving wheel (405) is engaged with a driving wheel (406), and the driving wheel (406) is rotatably connected with the top cover (402) through a water inlet pipe (407).

3. The multi-effect concentration structure as claimed in claim 1, wherein the sliding rod (409) is connected with the sliding groove (403) in a jogged manner, and the sliding rod (409) is connected with the top cover (402) in a sliding manner through the sliding groove (403).

4. The multi-effect concentration structure of claim 1, wherein fixing components (5) for fixing the filter frame (410) are symmetrically arranged on the periphery of the cover plate (408), each fixing component (5) comprises a clamping cavity (501), a clamping groove (502) and a clamping hole (503), the clamping cavities (501) are symmetrically arranged on the periphery of the cover plate (408), the clamping grooves (502) are formed in the upper portions of the clamping cavities (501), and the clamping holes (503) are formed in the positions, close to the clamping cavities (501), of the upper ends of the filter frames (410).

5. The multi-effect concentration structure as claimed in claim 4, wherein the fixing assembly (5) further comprises a clamp spring (504), a clamp rod (505) and a clamp block (506), the clamp spring (504) is fixedly connected in the clamp cavity (501), one end of the clamp spring (504) close to the clamp hole (503) is fixedly connected with the clamp rod (505), the clamp block (506) is fixedly connected above the clamp rod (505), and an inclined surface is arranged on the lower surface of the clamp rod (505).

6. The multi-effect concentration structure as claimed in claim 1, wherein the upper end of the evaporation tank (1) is fixedly connected with an air outlet pipe (6), a cooling tank (7) is fixedly connected above the air outlet pipe (6), a water outlet pipe (8) is fixedly connected to the lower right of the cooling tank (7), and a water storage tank (9) is communicated below the water outlet pipe (8).

7. The multiple-effect concentration structure as claimed in claim 6, wherein heating pipes (10) are arranged in the evaporation tank (1), a heat pump (11) is connected to the right side of the heating pipes (10), a cooling pipe (12) is connected to the upper side of the heat pump (11), and the cooling pipe (12) is arranged in the cooling tank (7).

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