CN210252226U - Seawater desalination reverse osmosis antisludging agent preparation reation kettle - Google Patents

Abstract

The utility model discloses a sea water desalination reverse osmosis antisludging agent preparation reation kettle, including the main mixing reaction section of thick bamboo, the observation window has been seted up to the outside limit vertical direction of the main mixing reaction section of thick bamboo, the welding that makes progress perpendicularly of the top surface intermediate position of the main mixing reaction section of thick bamboo has the base support board, the perpendicular bolted connection of top surface of base support board has hybrid motor, the top surface of the main mixing reaction section of thick bamboo is close to the edge position and welds to one side and has throws the material pipeline, throw the material pipeline and cup jointed sealed apron in the one end of keeping away from the main mixing reaction section of thick bamboo, the top surface of the main mixing reaction section of thick bamboo is close to edge position bolted connection and has temperature controller, temperature controller's preceding side is inlayed and is had the display screen, one side that temperature. The utility model discloses equipment design integration for mix more rapid and stable can adjust at any time as required, convenient and fast carries out the inside cleaning process of reation kettle simultaneously.

Description

Seawater desalination reverse osmosis antisludging agent preparation reation kettle

Technical Field

The utility model relates to a sea water desalination technical field especially relates to a sea water desalination reverse osmosis antisludging agent preparation reation kettle.

Background

Along with the development of economy and the increase of population, the demand of human beings on water resources is continuously increased, and in addition, unreasonable exploitation and utilization of the water resources exist, the problem of water shortage of different degrees appears in many countries and regions, and the phenomenon is called water resource shortage. China is a country with serious shortage of water resources, particularly in coastal areas in the north, fresh water resources are scarce, seawater resources are rich, and the shortage of fresh water resources is one of the most water-deficient areas in China and becomes a serious problem for restricting the economic development of China and the improvement of the living standard of people.

Sea water desalination is now more the mode commonly used and is exactly to adopt the reverse osmosis mode, and multiple raw materials mixing need be carried out in traditional reverse osmosis antisludging agent preparation, and also very important to the requirement of temperature, carries out the regulation of temperature and can not carry out the accuracy and cup joint, needs the solitary filtration to collect again when the finished product is discharged simultaneously, and split type adoption makes and carries out the step loaded down with trivial details, still needs the high pressure rifle to wash the inside when wasing reation kettle at last, and the operation is complicated and equipment decentralization.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a sea water desalination reverse osmosis antisludging agent preparation reation kettle, through equipment design integration for mix more rapid and stable can adjust at any time as required, convenient and fast's the inside cleaning process of reation kettle simultaneously.

According to the utility model, an object is to provide a sea water desalination reverse osmosis antisludging agent preparation reation kettle, including the main mixing reaction section of thick bamboo, the outside limit of the main mixing reaction section of thick bamboo vertical direction has seted up observation window, the top surface intermediate position of the main mixing reaction section of thick bamboo welds the base backup pad upwards perpendicularly, the top surface vertical bolt of base backup pad is connected with hybrid motor, the top surface of the main mixing reaction section of thick bamboo is close to the marginal position and has welded the feeding pipeline to one side, the feeding pipeline has cup jointed sealed apron in the one end of keeping away from the main mixing reaction section of thick bamboo, the top surface of the main mixing reaction section of thick bamboo is close to marginal position bolted connection has temperature controller, the front side of temperature controller is inlayed and is had the display screen, the side that the front side of temperature controller is close to the display screen is evenly inlayed and is adjusted the control key, the bottom bracing piece, the bottom middle position of the main mixing reaction cylinder is vertically welded downwards with a discharge pipeline, the bottom end of the discharge pipeline is in threaded connection with a filter joint, one side of the bottom surface of the main mixing reaction cylinder, which is close to the discharge pipeline, is obliquely welded with a water inlet pipeline, the inner side of the main mixing reaction cylinder is sleeved with an isolation heat preservation layer, heating pipelines are uniformly distributed between the inner side of the main mixing reaction cylinder and the isolation heat preservation layer, a bottom stabilizing block is vertically welded downwards at the middle position of the inner bottom surface of the main mixing reaction cylinder, a sleeve bearing is welded at the middle position of the top surface of the bottom stabilizing block, an output rod of a mixing motor extends to the outer side edge of the inner end of the main mixing reaction cylinder, which is close to the bottom end position, is uniformly and vertically welded with an L-shaped stirring rod, and the output rod of the mixing motor extends to the outer side edge, the middle position of the filtering joint is horizontally clamped with a filtering layer.

Furthermore, the observation window penetrates through the outer side edge of the main mixing reaction cylinder and extends to the inside, and a transparent isolation plate is vertically embedded in the inner side edge of the observation window.

Furthermore, the output end of the mixing motor penetrates through the top surface of the base support plate and extends into the main mixing reaction cylinder, and the interior of the feeding pipeline is communicated with the interior of the main mixing reaction cylinder.

Furthermore, the number of the bottom support rods is three, and the bottom support rods are vertically arranged at the bottom end of the main mixing reaction cylinder in a triangular shape.

Further, one end of the heating pipeline is electrically connected with the inside of the temperature controller, the heating pipeline is vertically and uniformly laid around, and the output rod of the mixing motor extends to the top surface of the main mixing reaction cylinder, which is in butt joint with the bottom stabilizing block, and is sleeved inside the bearing.

Furthermore, the output rod of the mixing motor is of a hollow structure, the water inlet pipeline is inserted into the inner end of the main mixing reaction cylinder and extends through the bottom surface of the bottom stabilizing block, and one end of the bottom stabilizing block extends into the mixing motor output rod.

Compared with the prior art, the utility model beneficial effect who has is:

1. the raw materials are fed into the main mixing reaction cylinder from a feeding pipeline on the top surface of the main mixing reaction cylinder under the action of opening a sealing cover plate, then a mixing motor is electrified, so that an output rod in the main mixing reaction cylinder rotates, the raw materials entering the main mixing reaction cylinder are uniformly mixed under the stirring action of an L-shaped stirring rod, the rotation is not influenced by the resistance under the butt joint of a sleeve bearing, meanwhile, the recording of the internal condition can be visually carried out under the action of an observation window, and the heating pipeline on the outer side of an isolation heat-preservation layer is heated under the control action of a temperature controller when the temperature is required to be controlled,

2. through the observation regulation and control that makes inside temperature can be better under the effect at adjustment control key and display screen, the finished product material that mixes is after when the one end that stews, the bottom position of stabilizing the piece from the end flows into during the ejection of compact pipeline, then make under the effect of the inside filter layer of filter joint filter, when carrying out the inside washing of main section of thick bamboo, connect the water pipe to the inlet channel, make water enter into mixing motor's output pole inside, then spout through high pressure nozzle again and make and wash the inboard side of main mixing reaction section of thick bamboo, equipment design integration, make the more rapid and stable of mixing adjust at any time as required, convenient and fast's the inside cleaning process of reation kettle that carries on simultaneously.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic view of a three-dimensional structure of a reaction kettle for manufacturing a reverse osmosis scale inhibitor for seawater desalination according to the present invention;

FIG. 2 is a schematic view of the detailed structure of the inside of a reaction kettle for manufacturing a reverse osmosis scale inhibitor for seawater desalination in front view;

FIG. 3 is a schematic view of the arrangement structure of the front-view heating pipeline of the reaction kettle for manufacturing the reverse osmosis scale inhibitor for seawater desalination;

fig. 4 is a schematic diagram of a detailed structure of a filter joint of a reaction kettle for manufacturing a reverse osmosis scale inhibitor for seawater desalination in a front view.

In the figure: 1-main mixing reaction cylinder, 2-observation window, 3-base support plate, 4-mixing motor, 5-feeding pipeline, 6-sealing cover plate, 7-temperature controller, 8-display screen, 9-adjusting control key, 10-bottom support rod, 11-discharging pipeline, 12-filtering joint, 13-water inlet pipeline, 14-isolating heat-insulating layer, 15-heating pipeline, 16-bottom stabilizing block, 17-sleeve bearing, 18-L type stirring rod, 19-high pressure spray head and 20-filtering layer.

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, a reaction kettle for preparing a reverse osmosis scale inhibitor for seawater desalination comprises a main mixing reaction cylinder 1, wherein an observation window 2 is vertically arranged on the outer side edge of the main mixing reaction cylinder 1, the observation window 2 penetrates through the outer side edge of the main mixing reaction cylinder 1 and extends into the main mixing reaction cylinder 1, a transparent partition plate is vertically embedded in the inner side edge of the observation window 2, a base support plate 3 is vertically welded upwards in the middle position of the top surface of the main mixing reaction cylinder 1, a mixing motor 4 is vertically bolted on the top surface of the base support plate 3, the output end of the mixing motor 4 penetrates through the top surface of the base support plate 3 and extends into the main mixing reaction cylinder 1, the interior of a feeding pipeline 5 is communicated with the interior of the main mixing reaction cylinder 1, a feeding pipeline 5 is obliquely welded on the top surface of the main mixing reaction cylinder 1 close to the edge, and a sealing cover plate 6 is sleeved on one end of the feeding pipeline 5 far, the top surface of the main mixing reaction cylinder 1 is connected with a temperature controller 7 by bolts close to the edge position, the front side edge of the temperature controller 7 is inlaid with a display screen 8, the side edge of the front side edge of the temperature controller 7 close to the display screen 8 is evenly inlaid with an adjusting control key 9, the bottom end of the main mixing reaction cylinder 1 close to the edge position is vertically welded with bottom support rods 10 downwards, the number of the bottom support rods 10 is three, the three bottom support rods are vertically arranged at the bottom end position of the main mixing reaction cylinder 1 in a triangular manner, the middle position of the bottom end of the main mixing reaction cylinder 1 is vertically welded with a discharge pipeline 11 downwards, the bottom end of the discharge pipeline 11 is connected with a filtering joint 12 by screw threads, one side edge of the bottom surface of the main mixing reaction cylinder 1 close to the discharge pipeline 11 is obliquely welded with a water inlet pipeline 13, the inner side edge of the main mixing reaction cylinder 1 is sleeved with an isolating and insulating layer, one end of the heating pipeline 15 is electrically connected with the inside of the temperature controller 7, and the heating pipeline 15 is vertically and uniformly laid around the ring, the output rod of the mixing motor 4 extends to the inside end of the main mixing reaction cylinder 1 and is butted inside the top surface of the bottom stabilizing block 16 in a sleeved mode, the bottom stabilizing block 16 is vertically and downwardly welded at the middle position of the inner bottom surface of the main mixing reaction cylinder 1, the output rod of the mixing motor 4 is of a hollow structure, the water inlet pipeline 13 is spliced at the inner end of the main mixing reaction cylinder 1 and extends through the bottom surface of the bottom stabilizing block 16, one end of the bottom stabilizing block 16 extends to the inside of the output rod of the mixing motor 4, the sleeved bearing 17 is welded at the middle position of the top surface of the bottom stabilizing block 16, the output rod of the mixing motor 4 extends to the outer side of the inner end of the main mixing reaction cylinder 1 and is uniformly and vertically welded with the L-shaped stirring rod 18 close to the bottom end, and the output rod of the mixing motor 4 extends to the outer side of the The middle position of the filter joint 12 is horizontally clamped with a filter layer 20.

When in use, the raw materials are put into the main mixing reaction cylinder 1 from the feeding pipeline 5 on the top surface of the main mixing reaction cylinder under the action of opening the sealing cover plate 6, then the mixing motor 4 is electrified, so that the output rod in the main mixing reaction cylinder 1 rotates, the raw materials entering the main mixing reaction cylinder 1 are uniformly mixed under the stirring action of the L-shaped stirring rod 18, the rotation is not influenced by the resistance under the butt joint of the sleeve bearing 17, meanwhile, the recording of the internal situation can be visually carried out under the action of the observation window 2, the heating pipeline 15 on the outer side of the isolation heat-preservation layer 14 is heated under the control action of the temperature controller 7 when the temperature control is needed, the internal temperature can be better observed, regulated and controlled under the action of the adjusting control key 9 and the display screen 8, and the mixed finished product is placed at one end, from the bottom position of end steady piece 16 flow into ejection of compact pipeline 11 in, then make under the effect of the inside filter layer 20 of filter joint 12 and filter, when carrying out the inside washing of a main section of thick bamboo, connect the water pipe to inlet channel 13 for inside water enters into the output pole of hybrid electric machine 4, then spout through high pressure nozzle 19 again and make and wash the inboard side of main mixed reaction section of thick bamboo 1.

The details of the present invention are well known to those skilled in the art.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a sea water desalination reverse osmosis antisludging agent preparation reation kettle, includes main mixed reaction section of thick bamboo (1), its characterized in that: observation window (2) have been seted up to the outside limit of main hybrid reaction section of thick bamboo (1) is vertical, the perpendicular upwards welding in top surface intermediate position of main hybrid reaction section of thick bamboo (1) has base backup pad (3), the perpendicular bolted connection in top surface of base backup pad (3) has hybrid motor (4), the top surface of main hybrid reaction section of thick bamboo (1) is close to marginal position oblique welding and has throwed material pipeline (5), throw material pipeline (5) and cup jointed sealed apron (6) in the one end of keeping away from main hybrid reaction section of thick bamboo (1), the top surface of main hybrid reaction section of thick bamboo (1) is close to marginal position bolted connection and has temperature controller (7), the preceding side of temperature controller (7) is inlayed and is had display screen (8), the side that the preceding side of temperature controller (7) is close to display screen (8) is evenly inlayed and is had regulation control key (9), the bottom of main hybrid reaction section of thick bamboo (1) is close to marginal position perpendicular welding end support pole ) The bottom end middle position of the main mixed reaction cylinder (1) is vertically welded downwards with a discharge pipeline (11), the bottom end of the discharge pipeline (11) is connected with a filter joint (12) in a threaded manner, one side of the bottom surface of the main mixed reaction cylinder (1) close to the discharge pipeline (11) is obliquely welded with a water inlet pipeline (13), the inner side of the main mixed reaction cylinder (1) is sleeved with an isolation heat-insulation layer (14), heating pipelines (15) are uniformly distributed between the inner side of the main mixed reaction cylinder (1) and the isolation heat-insulation layer (14), the bottom stabilizing block (16) is vertically welded downwards at the middle position of the inner bottom surface of the main mixed reaction cylinder (1), a sleeve bearing (17) is welded at the middle position of the top surface of the bottom stabilizing block (16), the output rod of the mixing motor (4) extends to the outer side of the inner end of the main mixed reaction cylinder (1) and is uniformly welded with an L-shaped stirring rod (18) close to the, the output rod of hybrid motor (4) extends to the inside end outside limit of main mixed reaction section of thick bamboo (1) and has vertically welded high pressure nozzle (19), the horizontal joint of intermediate position of filter joint (12) has filter layer (20).

2. The reactor for preparing the scale inhibitor for seawater desalination reverse osmosis according to claim 1, which is characterized in that: the outer side edge of the observation window (2) penetrating through the main mixing reaction cylinder (1) extends to the inside, and a transparent isolation plate is vertically embedded in the inner side edge of the observation window (2).

3. The reactor for preparing the scale inhibitor for seawater desalination reverse osmosis according to claim 1, which is characterized in that: the output end of the mixing motor (4) penetrates through the top surface of the base support plate (3) and extends into the main mixing reaction cylinder (1), and the interior of the feeding pipeline (5) is communicated with the interior of the main mixing reaction cylinder (1).

4. The reactor for preparing the scale inhibitor for seawater desalination reverse osmosis according to claim 1, which is characterized in that: the number of the bottom support rods (10) is three, and the bottom support rods are vertically arranged at the bottom end of the main mixing reaction cylinder (1) in a triangular shape.

5. The reactor for preparing the scale inhibitor for seawater desalination reverse osmosis according to claim 1, which is characterized in that: one end of the heating pipeline (15) is electrically connected with the inside of the temperature controller (7), the heating pipeline (15) is vertically and uniformly laid around, and the output rod of the mixing motor (4) extends to the top surface of the main mixing reaction cylinder (1) and is butted with the bottom stabilizing block (16) to be sleeved with the bearing (17).

6. The reactor for preparing the scale inhibitor for seawater desalination reverse osmosis according to claim 1, which is characterized in that: the output rod of the mixing motor (4) is of a hollow structure, a water inlet pipeline (13) is inserted into the inner end of the main mixing reaction cylinder (1) and extends through the bottom surface of the bottom stabilizing block (16), and one end of the water inlet pipeline, which penetrates through the bottom stabilizing block (16), extends into the inner part of the output rod of the mixing motor (4).

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