CN217330402U - Efficient cooling equipment for cooling desalted water - Google Patents

Abstract

The utility model discloses a high-efficiency cooling device for cooling desalted water, which comprises a cooling box, a water tank, a connecting pipe and a water pump; the connecting pipe is arranged between the cooling tank and the water tank, and a water pump for enabling desalted water to flow is arranged in the connecting pipe; further comprising: the push column is clamped at the inner right lower corner of the water tank in a sliding manner, and the inner right lower corner of the water tank is movably connected with a push rod for pushing the push column; the piston is clamped in the cooling box in a sliding manner, and an inner plug for sealing is movably clamped in the middle of the cooling box; and the rotating rod is fixed at the front end of the water pump shaft, and the rotating rod, the pull column and the connecting column are mutually attached. This a high-efficient cooling device for demineralized water cooling moves and then realizes sealed effect to the right side through the side plug, avoids the demineralized water to connecting pipe inside flow, rotates the demineralized water inside the water tank cooler bin through the push pedal and promotes, avoids appearing cold and hot uneven phenomenon.

Description

Efficient cooling equipment for cooling desalted water

Technical Field

The utility model relates to a demineralized water cooling technical field specifically is a high-efficient cooling device for demineralized water cooling.

Background

The water temperature is about 48 ℃ in summer, the water temperature is high, the cooling requirement of a wet-type composite air cooler in the device cannot be met, the production load of the device and the quality of a tower top product are influenced, and in order to ensure the safe and stable operation of the device, the cooling equipment is very necessary to be added in a desalting water line in an east boundary area, the temperature of the desalting water is reduced through the desalting water, the heat absorption effect of the desalting water is good, the temperature reduction speed is high, and the application in industry is wide, for example, the desalting water cooling device for a power plant disclosed as CN212619576U is disclosed, the desalting water in a desalting water tank enters a main pipe from a first outlet and a first inlet, the desalting water entering the main pipe is shunted to enter a first branch pipe, a refrigerant enters a containing cavity from a third inlet, the refrigerant exchanges heat with the desalting water in the main pipe and the first branch pipe to realize the cooling of the desalting water, and the cooled desalting water enters the desalting water tank from a second outlet and the first inlet, the circulating cooling of the desalted water in the desalted water tank is realized; evenly set up a plurality of first branch pipes in the periphery of being responsible for, a plurality of first branch pipe can improve the cooling effect of demineralized water with the demineralized water reposition of redundant personnel in the main pipe for demineralized water can used repeatedly many times, avoids the demineralized water extravagant, but demineralized water cooling equipment is at the in-process that uses still the problem:

1. the brine after absorbing heat needs a large amount of time for cooling, so that a large amount of time is consumed, and meanwhile, the brine after being cooled cannot be treated in the cooling process;

2. because the gravity of the demineralized water flows into the cooling box, the demineralized water can only cool the substances below, the cooling effect is poor, and the phenomenon of uneven cooling and heating is easy to occur;

therefore, the high-efficiency cooling equipment for cooling the desalted water is provided, and the problems can be well solved.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a be used for the water-cooled high-efficient cooling equipment of demineralized water to need consume a large amount of time and the problem of the uneven phenomenon of cooling appears easily on solving the existing market that proposes in the above-mentioned background art.

In order to achieve the above purpose, the utility model provides a following technical scheme: a high-efficiency cooling device for cooling desalted water comprises a cooling tank, a water tank, a connecting pipe and a water pump;

the connecting pipe is arranged between the cooling tank and the water tank, and a water pump for enabling desalted water to flow is arranged in the connecting pipe;

further comprising:

the push column is clamped at the inner right lower corner of the water tank in a sliding manner, and the inner right lower corner of the water tank is movably connected with a push rod for pushing the push column;

the piston is clamped in the cooling box in a sliding manner, and an inner plug for sealing is movably clamped in the middle of the cooling box;

the rotating rod is fixed at the front end of the water pump shaft, and the rotating rod, the pull column and the connecting column are mutually attached;

the draw-in groove is seted up the inside of cooler bin, and the inner bearing of cooler bin is connected with the push pedal that promotes the demineralized water.

Preferably, the inside of water tank is provided with and drives winding plate pivoted motor, and runs through in the middle of the motor shaft and is fixed with the winding plate that makes the connection rope winding to be fixed with between winding plate and the piston and carry out the connection rope that stimulates to the piston, rotate through the winding plate and make the connection rope winding, and then make the piston rebound drive the demineralized water rebound after the cooling.

Preferably, the inside of water tank is provided with the side stopper that makes the connecting pipe sealed, and is fixed with the rope between the right-hand member of side stopper and the pushing ram to be fixed with the rope that the offside stopper was drawed between the left end of side stopper and the fixed rope, through the rope draw the offside stopper, and then realize the jam to the connecting pipe.

Preferably, the lower right corner of the interior of the water tank is movably connected with a pressure lever, a fixing rope for pulling the push rod is fixed between the pressure lever and the push rod, and the pressure lever and the push rod are rotated under the connection action of the fixing rope.

Preferably, the front side of the connecting pipe is slidably clamped with a pull column, the rear side of the pull column is clamped with an L-shaped connecting column, pull ropes are fixed between the upper side and the lower side of the pull column and the push plate, the push plate is pulled through the pull ropes, and then the internal desalted water flows upwards.

Preferably, the moving distance of the side plug is greater than the distance between the left end of the side plug and the inner side of the water tank, the moving distance of the side plug is greater than the shortest distance between the push rod and the push column, the push rod is rotated through the movement of the push column, and then the side plug is pulled.

Compared with the prior art, the beneficial effects of the utility model are that: make demineralized water rebound through piston rebound, move and then realize sealed effect to the right side through the side plug, avoid demineralized water to connecting pipe inside flow, rotate the demineralized water inside the water tank cooler bin through the push pedal and promote, and then make demineralized water upflow, avoid appearing cold and hot uneven phenomenon, concrete content is as follows:

1. the piston moves upwards to enable the cooled desalted water to move upwards, and the side plug moves towards the right side, so that the connecting pipe is blocked, the desalted water is prevented from flowing towards the inside of the connecting pipe, and the desalted water above the piston completely enters the upper part of the inside of the water tank;

2. stimulate the push pedal through the stay cord, and then make the push pedal remove in the inside of draw-in groove, make the demineralized water flow upwards, realize cooling down to the material of top, avoid appearing cold and hot uneven phenomenon, improve the cooling effect.

Drawings

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

FIG. 2 is a schematic view of the main sectional structure of the present invention;

FIG. 3 is a schematic view of the main sectional structure of the water tank of the present invention;

fig. 4 is an enlarged schematic view of a in fig. 3 according to the present invention;

fig. 5 is an enlarged schematic view of the structure at b in fig. 2 according to the present invention.

In the figure: 1. a cooling tank; 2. a water tank; 3. a push rod; 4. pushing the column; 5. a connecting pipe; 6. a water pump; 7. a rotating rod; 8. pulling the column; 9. connecting columns; 10. pulling a rope; 11. pushing the plate; 12. a card slot; 13. a motor; 14. a winding plate; 15. a piston; 16. connecting ropes; 17. an inner plug; 18. a side plug; 19. a rope; 20. a pressure lever; 21. and (5) fixing the rope.

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. 1-5, the present invention provides a technical solution: a high-efficiency cooling device for cooling desalted water comprises a cooling tank 1, a water tank 2, a connecting pipe 5 and a water pump 6;

a connection pipe 5 installed between the cooling tank 1 and the water tank 2, and a water pump 6 for flowing demineralized water is installed inside the connection pipe 5;

as shown in fig. 1, the connection pipe 5 is provided to allow the demineralized water to flow through the cooling tank 1 and the water tank 2, and the water pump 6 is operated to allow the demineralized water to flow; further comprising: the push column 4 is clamped at the inner lower right corner of the water tank 2 in a sliding manner, and the inner lower right corner of the water tank 2 is movably connected with a push rod 3 for pushing the push column 4; a motor 13 for driving a winding plate 14 to rotate is arranged in the water tank 2, the winding plate 14 for winding a connecting rope 16 is fixedly penetrated in the middle of the shaft of the motor 13, and the connecting rope 16 for pulling the piston 15 is fixedly arranged between the winding plate 14 and the piston 15; a piston 15 slidably engaged with the inside of the cooling tank 1, and an inner plug 17 movably engaged with the inside of the cooling tank 1 for sealing;

referring to fig. 2, after water cooling is performed on the lower portion inside the water tank 2, a power supply of the motor 13 is connected, the motor 13 drives the winding plate 14 to rotate, when the winding plate 14 rotates in the forward direction, the winding plate 14 rotates to enable the connecting rope 16 to be pulled, the connecting rope 16 pulls the piston 15 to move upwards, the piston 15 moves upwards to synchronously move the desalted water above, the piston 15 moves upwards to drive the inner plug 17 to synchronously move upwards, the inner plug 17 is further separated from the cooling tank 1, the desalted water moves upwards through the gap, the piston 15 moves upwards to extrude the push pillar 4, and the push pillar 4 further moves outwards;

a side plug 18 for sealing the connecting pipe 5 is arranged in the water tank 2, a rope 19 is fixed between the right end of the side plug 18 and the push column 4, and a rope 19 for pulling the side plug 18 is fixed between the left end of the side plug 18 and a fixed rope 21; a pressure lever 20 is movably connected to the right lower corner inside the water tank 2, and a fixing rope 21 for pulling the push rod 3 is fixed between the pressure lever 20 and the push rod 3; the moving distance of the side plug 18 is greater than the distance between the left end of the side plug 18 and the inner side of the water tank 2, and the moving distance of the side plug 18 is greater than the shortest distance between the push rod 3 and the push column 4;

the pushing column 4 moves to pull the rope 19 on the right side, the rope 19 pulls the side plug 18 to move towards the right side, the side plug 18 moves towards the right side to block the connecting pipe 5, and therefore demineralized water is prevented from entering the inside of the connecting pipe 5, the pushing column 4 moves to push the pushing rod 3, the pushing rod 3 rotates and is pulled through the fixing rope 21, so that the fixing rope 21 pulls the pressing rod 20, the pressing rod 20 rotates towards the upper side, when the motor 13 rotates reversely, the winding plate 14 is made to reverse to enable the connecting rope 16 below to be in a winding state, the piston 15 moves downwards, when the piston 15 moves downwards, the pressing rod 20 is extruded, so that the pressing rod 20 rotates towards the left side, the pressing rod 20 rotates to pull the pushing rod 3 through the fixing rope 21, and the pushing rod 3 rotates towards the left side to push the pushing column 4;

the rotating rod 7 is fixed at the front end of the shaft of the water pump 6, and the rotating rod 7, the pull column 8 and the connecting column 9 are mutually attached; the clamping groove 12 is formed in the cooling box 1, and the inner bearing of the cooling box 1 is connected with the push plate 11 for pushing the desalted water; a pull column 8 is clamped on the front side of the connecting pipe 5 in a sliding manner, a connecting column 9 in an L shape is clamped on the rear side of the pull column 8, and pull ropes 10 are fixed between the upper side and the lower side of the pull column 8 and the push plate 11;

referring to fig. 2 and 5, when the left water pump 6 rotates, the rotating rod 7 is driven to rotate, when the rotating rod 7 rotates and contacts with the pull column 8, the rotating rod 7 rotates and pulls the pull column 8, and then the pull column 8 moves upwards, the pull column 8 moves upwards to pull the pull rope 10 below, the pull rope 10 pulls the push plate 11 to move upwards, and then the push plate 11 rotates and pushes the top demineralized water to flow, and then the demineralized water flows upwards, so that the material above is cooled, when the rotating rod 7 rotates and contacts with the connecting column 9, the rotating rod 7 rotates and pushes the connecting column 9, and then the connecting column 9 moves downwards, and then the pull rope 10 above is pulled, and then the push plate 11 rotates upwards.

The working principle is as follows: when using this a high-efficient cooling device for demineralized water cooling, combine shown in fig. 1-5, rotate through push pedal 11 and promote the demineralized water of top, and then make the demineralized water upwards flow, realize cooling the material of top, avoid inside material uneven phenomenon to appear, piston 15 moves up and promotes the demineralized water of top, and then makes the demineralized water upwards flow, the demineralized water after cooling recycles, move to the right side through pushing column 4 and stimulate lateral plug 18, and then make connecting pipe 5 be in the state of blockking up, avoid the demineralized water to enter into the inside of connecting pipe 5, the content that does not make detailed description in this specification belongs to the well-known prior art of skilled person in the art.

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 or portions thereof without departing from the spirit and scope of the invention.

Claims (6)

1. A high-efficiency cooling device for cooling desalted water comprises a cooling box (1), a water tank (2), a connecting pipe (5) and a water pump (6);

a connecting pipe (5) which is arranged between the cooling tank (1) and the water tank (2), and a water pump (6) which enables the desalted water to flow is arranged in the connecting pipe (5);

it is characterized by also comprising:

the push column (4) is clamped at the inner right lower corner of the water tank (2) in a sliding manner, and the inner right lower corner of the water tank (2) is movably connected with a push rod (3) for pushing the push column (4);

a piston (15) which is slidably engaged with the inside of the cooling tank (1), and an inner plug (17) which is movably engaged with the middle of the inside of the cooling tank (1) for sealing;

the rotating rod (7) is fixed at the front end of the water pump (6) shaft, and the rotating rod (7), the pull column (8) and the connecting column (9) are mutually attached;

the clamping groove (12) is formed in the cooling box (1), and the inner bearing of the cooling box (1) is connected with a push plate (11) for pushing the desalted water.

2. The high-efficiency cooling device for cooling demineralized water according to claim 1, characterized in that: the inside of water tank (2) is provided with drives winding plate (14) pivoted motor (13), and runs through in the middle of motor (13) axle and is fixed with and makes connection rope (16) winding plate (14) to be fixed with between winding plate (14) and piston (15) and carry out the connection rope (16) that stimulate piston (15).

3. The high-efficiency cooling device for cooling demineralized water according to claim 1, characterized in that: a side plug (18) for sealing the connecting pipe (5) is arranged in the water tank (2), a rope (19) is fixed between the right end of the side plug (18) and the push column (4), and a rope (19) for pulling the side plug (18) is fixed between the left end of the side plug (18) and the fixed rope (21).

4. The high-efficiency cooling device for cooling demineralized water according to claim 1, characterized in that: the lower right corner of the interior of the water tank (2) is movably connected with a pressure lever (20), and a fixing rope (21) for pulling the push rod (3) is fixed between the pressure lever (20) and the push rod (3).

5. The high-efficiency cooling device for cooling demineralized water according to claim 1, characterized in that: the front side of the connecting pipe (5) is slidably clamped with a pull column (8), the rear side of the pull column (8) is clamped with a connecting column (9) in an L shape, and pull ropes (10) are fixed between the upper side and the lower side of the pull column (8) and the push plate (11).

6. The high-efficiency cooling device for demineralized water cooling of claim 3, wherein: the moving distance of the side plug (18) is greater than the distance between the left end of the side plug (18) and the inner side of the water tank (2), and the moving distance of the side plug (18) is greater than the shortest distance between the push rod (3) and the push column (4).

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