CN212924458U - Condensing device for seawater conversion - Google Patents

Abstract

The utility model discloses a condensing equipment for seawater transformation, include: steam generator, the steam generator right side is equipped with the inside breather pipe that is equipped with of condensation case and condensation case, breather pipe left side inlet end is linked together and the right-hand member of breather pipe is equipped with the outlet with steam generator's output, the breather pipe is horizontal U type structure setting and is the snakelike structure and arranges, the outside of condensation case is equipped with heating panel and distributes in the condensation case both sides, the heating panel includes horizontal backup pad and slant support plate. The utility model discloses set up a plurality of groups and be horizontal U type breather pipe inside the condenser box, and the breather pipe is the snakelike structure and arranges, increased area of contact, improved condensation efficiency greatly, set up heating panel and heating panel internally mounted in the condenser box outside simultaneously and have the cooling tube, the water inlet of cooling tube and delivery port link to each other with the inlet tube and the outlet pipe of condenser box, realize the used circulation of cooling water, effectively practiced thrift the cost.

Description

Condensing device for seawater conversion

Technical Field

The utility model relates to a sea water desalination technical field, more specifically are a condensing equipment for sea water conversion.

Background

Sea water desalination, namely, sea water desalination is utilized to produce fresh water. The open source incremental technology for realizing water resource utilization can increase the total amount of fresh water, is not influenced by time, space and climate, and can ensure stable water supply of coastal resident drinking water, industrial boiler water supplement and the like. The process of obtaining fresh water from seawater is known as seawater desalination. The currently used methods for desalinating seawater include a seawater freezing method, an electrodialysis method, a distillation method, a reverse osmosis method, and an ammonium carbonate ion exchange method, and the currently applied reverse osmosis membrane method and the distillation method are the mainstream in the market. In the world, one hundred or more scientific research institutions of more than ten countries are researching on seawater desalination, and hundreds of seawater desalination facilities with different structures and different capacities are working. A modern large-scale seawater desalination plant can produce thousands, tens of thousands or even millions of tons of fresh water every day. The cost of water is constantly decreasing, and some countries have reduced the price of tap water to almost the same value. The amount of desalinated water in some areas reaches the national and urban water supply scale.

At present, the water generated by an evaporator needs to be regularly condensed into water in the process of desalting seawater, but the existing condenser has the following problems: 1. the existing condenser has large volume and low condensing efficiency, and the recycling of cooling liquid can not be realized in the condensing process; 2. the cooling pipe of current condenser its surface heat can't dispel after long-time the use, and the mount structure is complicated simultaneously, is difficult to dismantle the installation. Therefore, a new technical solution needs to be provided.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a condensing equipment for sea water conversion, this condensing equipment sets up a plurality of groups in that the condensing box is horizontal U type breather pipe, and the breather pipe is the snakelike structure and arranges, area of contact has been increased, condensation efficiency is greatly improved, it has the cooling tube to set up heating panel and heating panel internally mounted simultaneously in the condensing box outside, the water inlet and the delivery port of cooling tube link to each other with the inlet tube and the outlet pipe of cooling box, realize the recycling of cooling water, the cost is effectively practiced thrift, satisfy the practical application demand.

In order to achieve the above object, the utility model provides a following technical scheme: a condensing unit for seawater conversion comprising: the steam generator is characterized in that a condenser box is arranged on the right side of the steam generator, an air vent pipe is arranged in the condenser box, an air inlet end on the left side of the air vent pipe is communicated with an output end of the steam generator, a water outlet is arranged at the right end of the air vent pipe, the air vent pipe is arranged in a transverse U-shaped structure and in a serpentine structure, a heating panel is arranged outside the condenser box and distributed on two sides of the condenser box, the heating panel comprises a transverse support plate and an oblique support plate, the oblique support plate is positioned on two sides of the transverse support plate and is supported in a smooth transition mode, an inner groove and an outer groove are formed between the two adjacent groups of heating panels through the transverse support plate and the oblique support plate, an installation groove with a hexagonal structure is formed between the two adjacent groups of inner grooves, a cooling pipe is arranged in the installation groove and, the cooling tube upper portion is equipped with water inlet and lower part delivery port, the condenser box right side is equipped with the cooler bin, the upper portion of cooler bin is equipped with the inlet tube and the lower part is equipped with the outlet pipe, be linked together between inlet tube and the outlet pipe respectively with between water inlet and the delivery port.

As a preferred embodiment of the utility model, the cooling plate surface is equipped with mount and passes through bolt and heating panel fixed connection, the middle part of mount is equipped with the heat dissipation fan and dispels the heat between fan and the heating panel corresponding, the heat dissipation fan sets up by four groups and evenly distributed on the heating panel surface.

As a preferred embodiment of the utility model, the both sides of breather pipe are equipped with and contact each other between heat-conducting plate and the heating panel, the heat-conducting plate is the copper metal sheet that the lamellar structure set up.

As an embodiment of the utility model, the inside fixing bolt and the fixing bolt that are equipped with of outer inslot runs through adjacent two sets of heating panels, and is adjacent two sets of through fixing bolt fixed connection between the heating panel.

As a preferred embodiment of the utility model, the outer tank is isosceles trapezoid structure setting and two liang of relative, the both ends that form louvre and louvre between outer tank and the heating panel communicate with each other.

Compared with the prior art, the beneficial effects of the utility model are as follows:

(1) the utility model discloses set up a plurality of groups and be horizontal U type breather pipe inside the condensing box, and the breather pipe is the snakelike structure and arranges, increased area of contact, improved condensation efficiency greatly, set up heating panel and heating panel internally mounted in the condensing box outside simultaneously and have the cooling tube, the water inlet of cooling tube and delivery port link to each other with the inlet tube and the outlet pipe of cooling box, realize the used circulation of cooling water, effectively practiced thrift the cost.

(2) The utility model discloses the heating panel is by horizontal backup pad and slant backup pad integrated into one piece, the inside groove between two sets of heating panels forms the mounting groove of hexagon structure, and gomphosis between cooling tube and the mounting groove, the stability of cooling tube has been increased, simultaneously through at the inside installation fixing bolt of outer groove, a connection for two sets of heating panels, conveniently install the dismantlement, the outer groove is the axial symmetry distribution and is the isosceles trapezoid structure setting, can be used for the heat dissipation of cooling tube when having guaranteed structural strength, the utilization ratio of heating panel has been improved greatly.

Drawings

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

FIG. 2 is a schematic view of the cross-sectional structure of the condenser box and the heat dissipating plate of the present invention;

FIG. 3 is a schematic diagram of the structure of the heat dissipation plate of the present invention;

fig. 4 is the internal structure diagram of the condensing box of the present invention.

In the figure, a steam generator-1, a condenser box-2, a heat dissipation plate-3, a fixed frame-4, a heat dissipation fan-5, a water inlet pipe-6, a water outlet pipe-7, a cooling box-8, a transverse supporting plate-9, an oblique supporting plate-10, an outer groove-11, an inner groove-12, a fixing bolt-13, a water inlet-14, a water outlet-15, a heat dissipation hole-16, a cooling pipe-17, a heat conduction plate-18, a vent pipe-19 and a water outlet-20.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides a technical solution: a condensing unit for seawater conversion comprising: the steam generator 1, the right side of the steam generator 1 is provided with a condenser box 2 and the inside of the condenser box 2 is provided with a vent pipe 19, the left side air inlet end of the vent pipe 19 is communicated with the output end of the steam generator 1 and the right end of the vent pipe 19 is provided with a water outlet 20, the vent pipe 19 is arranged in a horizontal U-shaped structure and is arranged in a serpentine structure, the vent pipe 19 is connected with the output end of the steam generator 1, the vent pipe 19 is arranged in the condenser box 2 in a horizontal U-shaped structure and is arranged in a serpentine structure, the condensation time of steam is increased, the contact area of the vent pipe 19 is enlarged, the condensation effect is improved, the outside of the condenser box 2 is provided with a heat dissipation plate 3, the heat dissipation plate 3 is distributed at two sides of the condenser box 2, the heat dissipation plate 3 comprises a horizontal support plate 9 and an oblique support plate 10, the oblique support plate 10 is positioned at two sides, the cooling plates 3 are distributed in axial symmetry between two adjacent groups of the cooling plates 3, a mounting groove with a hexagonal structure is formed between two adjacent groups of the inner grooves 12, the cooling pipes 17 are arranged in the mounting groove and are U-shaped pipes transversely arranged, the cooling pipes 17 are arranged in a serpentine structure and correspond to the air pipes 19, the cooling plates 3 are arranged outside the condenser box 2 and are smoothly and integrally formed by a transverse support plate 9 and an inclined support plate 10, the inner side and the outer side of the cooling pipes form the inner grooves 12 and an outer groove 11, a mounting groove with a hexagonal structure is formed between the two groups of the inner grooves 12, the mounting groove of the cooling pipes 17 is arranged in the mounting groove, the stability of the cooling pipes 17 is ensured, meanwhile, a protection function is provided, the cooling pipes 17 are also inserted in the mounting groove and are arranged in a serpentine structure and correspond to the air pipes 19, the contact area, the upper portion of the cooling pipe 17 is provided with a water inlet 14 and a water outlet 15 at the lower portion, the right side of the condensation box 2 is provided with a cooling box 8, the upper portion of the cooling box 8 is provided with a water inlet pipe 6 and a water outlet pipe 7 at the lower portion, the water inlet pipe 6 and the water outlet pipe 7 are communicated with the water inlet 14 and the water outlet 15 respectively, the water inlet 14 and the water outlet 15 of the cooling pipe 17 are communicated with the water inlet pipe 6 and the water outlet pipe 7 of the cooling box, recycling of cooling liquid is achieved, and cost is effectively saved.

Further improved, as shown in fig. 1: 3 surfaces of heating panel are equipped with mount 4 and pass through bolt and heating panel 3 fixed connection, the middle part of mount 4 is equipped with that the heat dissipation fans 5 and heat dissipation fan 5 and heating panel 3 between corresponding, heat dissipation fan 5 sets up by four groups and evenly distributed at heating panel 3 surfaces, and the heat dissipation fan 5 and the heating panel 3 of the inside setting of mount 4 between correspond each other, can be with the not complete refrigerated heat of cooling tube 17, discharge fast, reduce the temperature on heating panel 3 surfaces.

In a further improvement, as shown in fig. 3: the both sides of breather pipe 19 are equipped with and contact each other between heat-conducting plate 18 and the heating panel 3, heat-conducting plate 18 is the copper metal sheet that the sheet structure set up, and heat-conducting plate 18 is the copper that the sheet structure set up, utilizes the poor performance of its heat conductivity, makes heat transmit to the surface fast, conveniently and take place heat transfer reaction between the cooling tube 17.

Further improved, as shown in fig. 2: outer 11 insides of groove are equipped with fixing bolt 13 and run through adjacent two sets of heating panel 3, and adjacent two sets of through fixing bolt 13 fixed connection between the heating panel 3, it is fixed through the fixing bolt 13 of 11 insides of outer groove between the heating panel 3, make things convenient for the installation and the dismantlement of cooling tube 17.

In a further improvement, as shown in fig. 3: the outer grooves 11 are arranged in an isosceles trapezoid structure and are opposite to each other in pairs, heat dissipation holes 16 are formed between the outer grooves 11 and the heat dissipation plate 3, two ends of each heat dissipation hole 16 are communicated with each other, the two groups of outer grooves 11 are arranged oppositely, and two ends of each outer groove are communicated with each other, so that a heat dissipation hole 16 structure is formed, and heat dissipation is facilitated.

The utility model discloses breather pipe 19 links to each other with steam generator 1's output, and breather pipe 19 is the U type structure of horizontal setting in condensing box 2, and be snakelike range, the condensation time of steam has been increased and the area of contact of breather pipe 19 has been enlarged, the condensation effect has been improved, set up heating panel 3 and heating panel 3 by horizontal backup pad 9 and slant support plate 10 smooth transition integrated into one piece in condensing box 2 outside, its inboard and outside form inside groove 12 and kerve 11, form the mounting groove of hexagon structure between two sets of inside grooves 12, the cooling tube 17 mounting groove is in the mounting groove, the stability of cooling tube 17 has been guaranteed, the safeguard function is provided simultaneously, and cooling tube 17 alternates equally and be snakelike structure range in the mounting groove, and be corresponding between breather pipe 19, the area of contact of heating panel 3 with condensing box 2 has been increased, the condensation effect has been improved, mutual between water inlet 14 of cooling tube 17 and delivery port 15 and inlet tube 6 and the outlet pipe 7 of The communication realizes the recycling of the cooling liquid and effectively saves the cost.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (5)

1. A condensing unit for seawater conversion, characterized in that: the method comprises the following steps: steam generator (1), steam generator (1) right side is equipped with condensing box (2) and condensing box (2) inside and is equipped with breather pipe (19), breather pipe (19) left side inlet end is linked together and breather pipe (19)'s right-hand member is equipped with outlet (20) with steam generator (1)'s output, breather pipe (19) are horizontal U type structure setting and are the snakelike structure and arrange, the outside of condensing box (2) is equipped with heating panel (3) and heating panel (3) distribute in condensing box (2) both sides, heating panel (3) include horizontal backup pad (9) and slant backup pad (10), slant backup pad (10) are located horizontal backup pad (9) both sides and smooth transition and integrative and prop, heating panel (3) form inside groove (12) and outer slot (11) through horizontal backup pad (9) and slant backup pad (10), it is adjacent two sets of be axial symmetric distribution and adjacent two sets of between heating panel (3) form the mounting groove of hexagon structure between inside groove (12), the inside U type pipe that is equipped with cooling tube (17) and is horizontal setting of mounting groove, cooling tube (17) are serpentine structure and arrange and with breather pipe (19) between corresponding, cooling tube (17) upper portion is equipped with water inlet (14) and lower part delivery port (15), condenser box (2) right side is equipped with cooler bin (8), the upper portion of cooler bin (8) is equipped with inlet tube (6) and lower part and is equipped with outlet pipe (7), be linked together between inlet tube (6) and outlet pipe (7) respectively with between water inlet (14) and delivery port (15).

2. A condensing unit for seawater conversion according to claim 1, wherein: heating panel (3) surface is equipped with mount (4) and passes through bolt and heating panel (3) fixed connection, the middle part of mount (4) is equipped with between heat dissipation fan (5) and heating panel (3) corresponding, heat dissipation fan (5) set up by four groups and evenly distributed on heating panel (3) surface.

3. A condensing unit for seawater conversion according to claim 2, wherein: the both sides of breather pipe (19) are equipped with heat-conducting plate (18) and heat-dissipating board (3) between contact each other, heat-conducting plate (18) are the copper metal sheet that the lamellar structure set up.

4. A condensing unit for seawater conversion according to claim 3, wherein: the heat dissipation plate is characterized in that fixing bolts (13) are arranged inside the outer groove (11), the fixing bolts (13) penetrate through the two adjacent groups of heat dissipation plates (3), and the two adjacent groups of heat dissipation plates (3) are fixedly connected through the fixing bolts (13).

5. A condensing unit for seawater conversion according to claim 4, characterized in that: the outer groove (11) is in an isosceles trapezoid structure and is opposite to each other in pairs, heat dissipation holes (16) are formed between the outer groove (11) and the heat dissipation plate (3), and two ends of each heat dissipation hole (16) are communicated with each other.

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