CN216169999U - Condensate water recycling device of double-effect concentrator - Google Patents

Abstract

The utility model discloses a condensate water recycling device of a double-effect concentrator, which comprises a confluence mechanism connected with outlets of a first-effect condenser and a second-effect condenser, wherein a cooling water pool is arranged below the confluence mechanism. The condensed water outlets of the two condensers in the double-effect concentrator are connected through the confluence mechanism, the condensed water generated by the double-effect concentrator is converged to the cooling water pool, the water in the cooling water pool is sucked to the filter through the first circulation mechanism and then is discharged back to the cooling water pool, and the cooling water in the cooling water pool is sucked to the double-effect concentrator through the second circulation mechanism for use, so that the condensed water generated by the double-effect concentrator is recycled, and the waste and the consumption of water resources are avoided.

Description

Condensate water recycling device of double-effect concentrator

Technical Field

The utility model relates to the technical field of condensate water recycling, in particular to a condensate water recycling device of a double-effect concentrator.

Background

In the chemical industry, liquid raw materials such as liquid medicine, stock solution and the like need to be concentrated to improve the content, when the liquid raw materials are concentrated, a reduced pressure distillation method is commonly used, generally, the concentration is carried out through a single-effect evaporator, but the efficiency of the single-effect evaporator is not high, so that the birth of a double-effect concentrator is promoted, the double-effect concentrator is used by combining two single-effect evaporators, the double-effect concentrator adopts two-effect simultaneous evaporation, secondary steam is fully utilized, the investment of a boiler is saved, the energy consumption is also saved, and the energy consumption is reduced by 50% compared with the single-effect evaporator; the double-effect concentrator adopts an external heating natural circulation and vacuum negative pressure mode, has high evaporation speed and large concentration ratio, liquid materials are concentrated in a full seal without foam, liquid medicine concentrated by the equipment has no pollution, thick medicine taste and convenient cleaning, two single-effect evaporators, a vacuum generator and two condensers are contained in the double-effect concentrator, and condensed water condensed by the general condensers is directly discharged to cause waste of water resources.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a condensate water recycling device of a double-effect concentrator, which aims to solve the problems in the background technology.

To achieve the above object, the present invention provides the following solutions:

the utility model provides a double-effect concentration ware comdenstion water recovery cyclic utilization device, includes the mechanism that converges that is connected with the exit of one-effect condenser and two-effect condenser, the below of the mechanism that converges is provided with cooling water pool, cooling water pool is close to the one end intermediate position department of the mechanism that converges and offers inside sunken cooling water pool fluting, cooling water pool's one end is provided with second circulation mechanism, one side that second circulation mechanism was kept away from to cooling water pool's one end is provided with first circulation mechanism, one side that second circulation mechanism was kept away from to first circulation mechanism is connected with the filter, first circulation mechanism and second circulation mechanism's the same structure.

As a further improvement of the technical scheme, a through total water outlet opening is formed in the middle position of the lower end of one side, close to the second circulating mechanism, of the cooling water tank, a total water outlet valve is connected to one end, far away from the cooling water tank, of the total water outlet opening, a through total water inlet opening is formed in the middle position of the upper end of one side, close to the filter, of the cooling water tank, and a total water inlet valve is connected to one end, far away from the cooling water tank, of the total water inlet opening.

As a further improvement of the technical scheme, a through conveying opening is formed in the position of the second circulating mechanism of the cooling water pool, one end, away from the cooling water pool, of the conveying opening is connected with a conveying valve, the conveying valve is connected with the second circulating mechanism, a through input opening is formed in one upper end of one side, away from the second circulating mechanism, of the cooling water pool, one end, away from the cooling water pool, of the input opening is connected with an input pipe, and one end, away from the cooling water pool, of the input pipe is connected with an input valve.

As a further improvement of the technical scheme, a through filtering opening is formed in the position of the first circulating mechanism of the cooling water tank, one end, far away from the cooling water tank, of the filtering opening is connected with a switch valve, the switch valve is connected with the first circulating mechanism, the upper end of the first circulating mechanism is connected with a filtering water inlet pipe, and one end, far away from the first circulating mechanism, of the filtering water inlet pipe is connected with a filter.

As a further improvement of the technical scheme, the filter inlet opening that link up is seted up in the position department of filtering the inlet tube to the filter, the filter outlet opening that link up is seted up to one side that the upper end of filter is close to the cooling water pool, filter outlet opening in-connection has the filtration outlet pipe, the one end suspension that the filter was kept away from to the filtration outlet pipe is in the cooling water pool top, the intermediate position department of filtering the outlet pipe installs the filtration outlet valve.

As a further improvement of the technical scheme, the first circulating mechanism and the second circulating mechanism both comprise circulating motors, the transmission ends of the circulating motors are connected with circulating pump heads, the upper ends of the circulating pump heads are connected with circulating output pipes, and one ends, far away from the circulating pump heads, of the circulating output pipes are connected with circulating output valves.

As a further improvement of the technical scheme, the confluence mechanism comprises a confluence pipe, the two ends of the confluence pipe are respectively connected with condensed water outlets of the first-effect condenser and the second-effect condenser, a discharge pipe is connected to the middle position of the confluence pipe, a confluence valve is connected to one end, far away from the confluence pipe, of the discharge pipe, and the confluence valve is suspended above the cooling water pool. Compared with the prior art, the utility model has the beneficial effects that:

the condensed water outlets of the two condensers in the double-effect concentrator are connected through the confluence mechanism, the condensed water generated by the double-effect concentrator converges to the cooling water pool, the water in the cooling water pool is drawn to the filter through the first circulation mechanism and then is drained back to the cooling water pool after being filtered, and the cooling water in the cooling water pool is drawn to the double-effect concentrator through the second circulation mechanism for use, so that the condensed water generated by the double-effect concentrator is recycled, and the water resource is prevented from being wasted and consumed.

Drawings

FIG. 1 is a schematic perspective view of a condensate water recycling device of a double-effect concentrator;

FIG. 2 is a schematic diagram of a disassembled structure of a cooling water tank of a condensate water recycling device of the double-effect concentrator;

FIG. 3 is a schematic structural diagram of a filter of the condensate water recycling device of the double-effect concentrator;

FIG. 4 is a schematic structural view of a converging mechanism of the condensed water recycling device of the double-effect concentrator;

FIG. 5 is a schematic sectional view of a filter of the condensate recycling device of the double-effect concentrator;

in the figure: 1. a first effect condenser; 2. a two-effect condenser; 3. a confluence mechanism; 4. a cooling water pool; 5. a first circulation mechanism; 6. a filter; 7. a second circulation mechanism; 8. a total water inlet opening; 9. a main water inlet valve; 10. a total water outlet opening; 11. a main water outlet valve; 12. a delivery opening; 13. a delivery valve; 14. an input opening; 15. an input tube; 16. an input valve; 17. grooving in a cooling water pool; 18. a filtration opening; 19. an on-off valve; 20. a circulating motor; 21. a circulating pump head; 22. circulating an output pipe; 23. a circulation output valve; 24. a filter water inlet opening; 25. a filter water outlet opening; 26. filtering the water inlet pipe; 27. a water outlet pipe is filtered; 28. filtering the water outlet valve; 29. a collector pipe; 30. a discharge pipe; 31. a confluence valve; 32. a water pump; 33. an ultraviolet lamp; 34. an activated carbon sphere; 35. and (4) a filter screen.

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 to 4, in the embodiment of the present invention, a condensate water recycling device for a double-effect concentrator includes a collecting mechanism 3 connected to outlets of a first-effect condenser 1 and a second-effect condenser 2, a cooling water tank 4 is disposed below the collecting mechanism 3, an inwardly recessed cooling water tank slot 17 is disposed at a middle position of one end of the cooling water tank 4 close to the collecting mechanism 3, a second circulation mechanism 7 is disposed at one end of the cooling water tank 4, a first circulation mechanism 5 is disposed at one side of one end of the cooling water tank 4 far from the second circulation mechanism 7, a filter 6 is connected to one side of the first circulation mechanism 5 far from the second circulation mechanism 7, the first circulation mechanism 5 and the second circulation mechanism 7 have the same structure, the first-effect condenser 1 and the second-effect condenser 2 are two condensers of the double-effect concentrator, condensate water discharged from the first-effect condenser 1 and the second-effect condenser 2 is collected into the cooling water tank 4 by the collecting mechanism 3, water is sucked to a filter 6 through a first circulation mechanism 5 in a cooling water pool 4, the filter 6 filters the water and then discharges the water back to the cooling water pool 4, and the cooling water in the cooling water pool 4 is sucked and conveyed to a double-effect concentrator through a second circulation mechanism 7 for use.

Preferably, a through total water outlet opening 10 is formed in the middle position of the lower end of one side of the cooling water tank 4 close to the second circulating mechanism 7, one end, far away from the cooling water tank 4, of the total water outlet opening 10 is connected with a total water outlet valve 11, a through total water inlet opening 8 is formed in the middle position of the upper end of one side of the cooling water tank 4 close to the filter 6, one end, far away from the cooling water tank 4, of the total water inlet opening 8 is connected with a total water inlet valve 9, the total water inlet opening 8 facilitates water inlet into the cooling water tank 4, the total water outlet opening 10 facilitates water drainage into the cooling water tank 4, the total water inlet valve 9 facilitates opening and closing of water inlet into the cooling water tank 4, the total water outlet valve 11 facilitates opening and closing of water drainage into the cooling water tank 4, and the total water inlet opening 8, the total water inlet valve 9, the total water outlet opening 10 and the total water outlet valve 11 are matched to facilitate water supplement and water change for water in the cooling water tank 4.

Preferably, the cooling water tank 4 is provided with a through conveying opening 12 at the position of the second circulation mechanism 7, one end of the conveying opening 12, which is far away from the cooling water tank 4, is connected with a conveying valve 13, the conveying valve 13 is connected with the second circulation mechanism 7, one upper end of one side of the cooling water tank 4, which is far away from the second circulation mechanism 7, is provided with a through input opening 14, one end of the input opening 14, which is far away from the cooling water tank 4, is connected with an input pipe 15, one end of the input pipe 15, which is far away from the cooling water tank 4, is connected with an input valve 16, the second circulation mechanism 7 is started to suck water in the cooling water tank 4 through the conveying opening 12, and the sucked water is conveyed to the concentrator through the second circulation mechanism 7 for use.

Preferably, the cooling water tank 4 is provided with a through filtering opening 18 at the position of the first circulating mechanism 5, one end of the filtering opening 18 far away from the cooling water tank 4 is connected with a switch valve 19, the switch valve 19 is connected with the first circulating mechanism 5, the upper end of the first circulating mechanism 5 is connected with a filtering water inlet pipe 26, one end of the filtering water inlet pipe 26 far away from the first circulating mechanism 5 is connected with the filter 6, the first circulating mechanism 5 is started to continuously suck water in the cooling water tank 4, the water is conveyed to the filter 6 through the filtering water inlet pipe 26 to be filtered, and the subsequent use is facilitated.

Preferably, the filter 6 is provided with a through filter water inlet opening 24 at a position of the filter water inlet pipe 26, one side of the upper end of the filter 6 close to the cooling water tank 4 is provided with a through filter water outlet opening 25, a filter water outlet pipe 27 is connected in the filter water outlet opening 25, one end of the filter water outlet pipe 27 far away from the filter 6 is suspended above the cooling water tank 4, a filter water outlet valve 28 is installed at the middle position of the filter water outlet pipe 27, water drawn by the filter 6 is discharged into the filter 6 through the filter water inlet opening 24, the filter 6 filters the discharged water, and the filtered water is discharged back into the cooling water tank 4 through the filter water outlet pipe 27.

Preferably, the first circulation mechanism 5 and the second circulation mechanism 7 both comprise a circulation motor 20, a transmission end of the circulation motor 20 is connected with a circulation pump head 21, an upper end of the circulation pump head 21 is connected with a circulation output pipe 22, one end, far away from the circulation pump head 21, of the circulation output pipe 22 is connected with a circulation output valve 23, the circulation output valve 23 corresponding to the first circulation mechanism 5 is connected with a filtration water inlet pipe 26, the circulation output valve 23 corresponding to the second circulation mechanism 7 is connected with the double-effect concentrator, the circulation motor 20 is started to drive the circulation pump head 21 to work, and the circulation pump head 21 draws water in the cooling water tank 4 and pumps the water to the circulation output pipe 22 to enter equipment with corresponding operation for corresponding operation.

Preferably, mechanism 3 converges includes collecting pipe 29, collecting pipe 29's both ends are connected with the comdenstion water exit of one effect condenser 1 and two effect condenser 2 respectively, collecting pipe 29's intermediate position department is connected with discharge pipe 30, discharge pipe 30 keeps away from collecting pipe 29's one end and is connected with converging valve 31, converging valve 31 suspension is in cooling water pool 4 top, the comdenstion water in the comdenstion water exit of one effect condenser 1 and two effect condenser 2 all flows into collecting pipe 29 and converges, the comdenstion water that converges passes through collecting pipe 29 in the collecting pipe 29 drains into cooling water pool 4, use in the cooling water pool 4 is drawn by second effect circulation mechanism 7 after being filtered by filter 6 again, can effectively carry out recycle to the comdenstion water, avoid causing the waste of water resource.

Preferably, as shown in fig. 5, a filter screen 35 is disposed in the filter 6 below the filter water inlet pipe 26, a water pump 32 is disposed at the bottom of the inner wall of the filter 6, the filter water outlet pipe 27 extends to the bottom of the filter 6 and is communicated with the water pump 32, an ultraviolet lamp 33 is disposed in the filter 6 below the filter screen 35, a movable activated carbon ball 34 is disposed on the filter screen 35 below the filter water inlet pipe 26, and the activated carbon ball 34 is connected with the filter water outlet pipe 27 through a rope. First circulation mechanism 5 is with the comdenstion water through filtering in inlet tube 26 gets into filter 6, comdenstion water striking activated carbon ball 34, play the effect of vortex, simultaneously can also adsorb the filtration to the comdenstion water through activated carbon ball 34, the comdenstion water is filtered through filter screen 35 again after that, and through ultraviolet lamp 33 virus killing, the comdenstion water after will filtering through water pump 32 at last flows back to cooling water tank 4 in through filtering outlet pipe 27, realize the high-efficient comdenstion water that filters, convenient follow-up recycle.

The working principle of the utility model is as follows:

the comdenstion water delivery port of two condensers in with the double-effect concentrator through mechanism 3 that converges is connected, the comdenstion water that produces the double-effect concentrator converges to 4 departments of cooling water pool, draw through first circulation mechanism 5 water in the cooling water pool 4 and arrange back in the cooling water pool 4 after filtering to 6 departments of filter, draw the cooling water in the cooling water pool 4 to use in the double-effect concentrator through second circulation mechanism 7, make the comdenstion water that the double-effect concentrator produced by recycle, avoid the water resource to be consumed by the waste.

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 various changes in the embodiments and/or modifications of the utility model can be made, and equivalents and modifications of some features of the utility model can be made without departing from the spirit and scope of the utility model.

Claims (7)

1. The utility model provides a double-effect concentration ware comdenstion water recovery cyclic utilization device which characterized in that: include mechanism (3) of converging that is connected with the exit of first effect condenser (1) and two effect condenser (2), the below of mechanism (3) of converging is provided with cooling water pool (4), one end intermediate position department that cooling water pool (4) are close to mechanism (3) of converging offers inside sunken cooling water pool fluting (17), the one end of cooling water pool (4) is provided with second circulation mechanism (7), one side that second circulation mechanism (7) were kept away from to the one end of cooling water pool (4) is provided with first circulation mechanism (5), one side that second circulation mechanism (7) were kept away from in first circulation mechanism (5) is connected with filter (6), the structure of first circulation mechanism (5) and second circulation mechanism (7) is the same.

2. The condensate recycling device of the double-effect concentrator of claim 1, wherein: cooling water tank (4) are close to one side lower extreme intermediate position department of second circulating mechanism (7) and offer total outlet opening (10) that link up, the one end that cooling water tank (4) were kept away from in total outlet opening (10) is connected with total outlet valve (11), one side upper end intermediate position department that cooling water tank (4) are close to filter (6) has seted up total inlet opening (8) that link up, the one end that cooling water tank (4) were kept away from in total inlet opening (8) is connected with total water intaking valve (9).

3. The condensate recycling device of the double-effect concentrator of claim 1, wherein: the cooling water tank (4) is located and is offered transport opening (12) that link up at the position of second circulation mechanism (7), the one end that cooling water tank (4) were kept away from in transport opening (12) is connected with delivery valve (13), delivery valve (13) are connected with second circulation mechanism (7), one side upper end department that cooling water tank (4) were kept away from second circulation mechanism (7) offers input opening (14) that link up, the one end that cooling water tank (4) were kept away from in input opening (14) is connected with input tube (15), the one end that cooling water tank (4) were kept away from in input tube (15) is connected with input valve (16).

4. The condensate recycling device of the double-effect concentrator of claim 1, wherein: the cooling water tank (4) is provided with a through filtering opening (18) at the position of the first circulating mechanism (5), one end of the filtering opening (18) far away from the cooling water tank (4) is connected with a switch valve (19), the switch valve (19) is connected with the first circulating mechanism (5), the upper end of the first circulating mechanism (5) is connected with a filtering water inlet pipe (26), and one end of the filtering water inlet pipe (26) far away from the first circulating mechanism (5) is connected with a filter (6).

5. The dual purpose concentrator condensate water recycling device of claim 4, wherein: filter (6) are in the position department of filtering inlet tube (26) seted up filter inlet opening (24) that link up, filter outlet opening (25) that link up are seted up to one side that the upper end of filter (6) is close to cooling water pool (4), filter outlet opening (25) in-connection has filtration outlet pipe (27), filter outlet pipe (27) keep away from the one end suspension of filter (6) and place in cooling water pool (4) top, filter outlet pipe (27) intermediate position department installs filtration outlet valve (28).

6. The condensate recycling device of the double-effect concentrator of claim 1, wherein: first circulation mechanism (5) and second circulation mechanism (7) all include circulating motor (20), the transmission end of circulating motor (20) is connected with circulation pump head (21), the upper end of circulation pump head (21) is connected with circulation output tube (22), the one end that circulation pump head (21) were kept away from in circulation output tube (22) is connected with circulation output valve (23).

7. The condensate recycling device of the double-effect concentrator of claim 1, wherein: mechanism (3) converge includes collector pipe (29), the both ends of collector pipe (29) are connected with the comdenstion water exit of an effect condenser (1) and two effect condenser (2) respectively, the intermediate position department of collector pipe (29) is connected with discharge pipe (30), the one end that collector pipe (29) were kept away from in discharge pipe (30) is connected with confluence valve (31), confluence valve (31) suspension is in cooling water pond (4) top.

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