CN217635986U - High-efficiency energy-saving cooling device - Google Patents

Abstract

The utility model relates to a heat sink especially relates to a high-efficient energy-saving heat sink. The high-efficiency energy-saving cooling device can conduct the saline water quickly, so that the cooling efficiency is improved. The utility model provides an energy-efficient heat sink, including the agitator tank, a servo motor, the stirring frame, the cooling tank, a feeding section of thick bamboo, the cooling tube, atomizer and water conservancy diversion mechanism, there is a servo motor at the agitator tank top through bolted connection, be connected with the stirring frame on the first servo motor output shaft, the agitator tank right side is connected with the cooling tank, agitator tank and cooling tank right side all are connected with a feeding section of thick bamboo, be connected with the cooling tube between agitator tank and the cooling tank bottom, the cooling tube bottom is connected with atomizer, all be equipped with water conservancy diversion mechanism in the feeding letter. The utility model discloses a second servo motor output shaft drives the dwang and rotates to make the rotation paddle all begin to rotate, and then realize the effect of quick water conservancy diversion, make the cooling more high-efficient.

Description

High-efficiency energy-saving cooling device

Technical Field

The utility model relates to a heat sink especially relates to a high-efficient energy-saving heat sink.

Background

Along with the rapid development of industrial technology, the speed of urban industrialization is increased, the average temperature in cities can be gradually increased, especially in hot summer, the temperature in cities is very uncomfortable, the air conditioner becomes an important tool for relieving summer heat for many people, but the air conditioner cannot be installed and used in a partially open occasion, so that physical spraying cooling is needed, in order to further realize the purposes of energy conservation and emission reduction, the conventional device generally cools and cools saline water through a condensing pipe, and then sprays the ice saline water through atomization spraying, thereby realizing the effect of rapid cooling, but in the process of introducing the saline water, the required saline water amount is large, the saline water can be difficultly ensured to rapidly enter the condensing pipe for condensation treatment, and therefore the cooling efficiency can be reduced.

Therefore, a high-efficiency energy-saving cooling device which can quickly guide and guide the saline water so as to improve the cooling efficiency is developed.

SUMMERY OF THE UTILITY MODEL

In order to overcome current device at salt water import in-process, because the salt water volume that needs is great, be difficult to guarantee that salt water can be quick get into the condenser pipe in carry out condensation treatment's shortcoming, technical problem is: the high-efficiency energy-saving cooling device can conduct the saline water quickly, so that the cooling efficiency is improved.

The technical scheme is as follows: the utility model provides an energy-efficient heat sink, including the agitator tank, a servo motor, the stirring frame, the cooling tank, the feeding letter, the cooling tube, atomizer and water conservancy diversion mechanism, there is a servo motor at the agitator tank top through bolted connection, be connected with the stirring frame on the output shaft of a servo motor, the agitator tank right side is connected with the cooling tank, intercommunication between agitator tank and the cooling tank top, agitator tank and cooling tank right side all are connected with the feeding letter, be connected with the cooling tube between agitator tank and the cooling tank bottom, the cooling tube bottom is connected with atomizer, all be equipped with the water conservancy diversion mechanism that is used for the reposition of redundant personnel drainage in the feeding letter.

Further, the water conservancy diversion mechanism is including second servo motor, and the feeding section of thick bamboo top all has second servo motor through bolted connection.

Further, water conservancy diversion mechanism still is connected with the dwang on the second servo motor output shaft including dwang and rotation paddle, all is connected with the rotation paddle on the dwang.

Furthermore, the collecting mechanism further comprises a connecting frame and a collecting tank, the cooling pipe is connected with the connecting frame in bilateral symmetry, and the collecting tank is connected between one sides, close to each other, of the connecting frame.

Furthermore, the collecting mechanism also comprises a fan, and the fan is connected in the collecting tank in a rotating mode.

Furthermore, each rotating rod is connected with three rotating blades, so that the flowing speed of the brine ice can be increased.

The utility model has the advantages that: 1. the utility model discloses a second servo motor output shaft drives the dwang and rotates to make the rotation paddle all begin to rotate, and then realize the effect of quick water conservancy diversion, make the cooling more high-efficient.

2. The utility model discloses a fan blows, blows away the brine ice fog after the atomizing, has enlarged cooling area, has improved the effect of cooling, and the drip brine ice can be accomodate to the holding vessel simultaneously, avoids the too much waste of resource.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a first cross-sectional view of the present invention.

Fig. 3 is a second cross-sectional view of the present invention.

Fig. 4 is an enlarged view of the part a of the present invention.

Fig. 5 is a schematic diagram of a partial three-dimensional structure of the present invention.

Part names and serial numbers in the figure: 1_ agitator tank, 2_ first servo motor, 3_ agitator frame, 4_ cooling tank, 5_ feeding letter, 6_ cooling tube, 7_ atomizer, 8_ water conservancy diversion mechanism, 81_ second servo motor, 82_ dwang, 83_ rotating blade, 9_ collection mechanism, 91_ link, 92_ accumulator tank, 93_ fan.

Detailed Description

The preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The utility model provides a high-efficient energy-conserving heat sink, as shown in figure 1 and figure 2, including agitator tank 1, first servo motor 2, agitator frame 3, cooling tank 4, feeding letter 5, cooling tube 6, atomizer 7 and water conservancy diversion mechanism 8, there is first servo motor 2 agitator tank 1 top through bolted connection, be connected with agitator frame 3 on the 2 output shafts of first servo motor, agitator frame 3 can carry out intensive mixing to the ice salt water, agitator tank 1 right side is connected with cooling tank 4, cooling tank 4 can carry out quick cooling to the ice salt water, communicate between agitator tank 1 and the cooling tank 4 top, agitator tank 1 and the cooling tank 4 right side all are connected with feeding letter 5, be connected with cooling tube 6 between agitator tank 1 and the cooling tank 4 bottom, be used for exporting the ice salt water after the cooling, cooling tube 6 bottom is connected with atomizer 7, be used for atomizing the ice salt water blowout, all be equipped with the water conservancy diversion mechanism 8 that is used for shunting the drainage in the feed tank 5.

As shown in fig. 1-4, the diversion mechanism 8 includes a second servo motor 81, the top of the feeding barrel 5 is connected with the second servo motor 81 through bolts, and the second servo motor 81 can provide power.

As shown in fig. 1 to 4, the diversion mechanism 8 further includes a rotation rod 82 and rotation paddles 83, the output shafts of the second servo motors 81 are connected with the rotation rods 82, the rotation rods 82 are connected with the rotation paddles 83, and each rotation rod 82 is connected with three rotation paddles 83, so that the flow speed of the brine ice can be increased.

When the region needs to be cooled down in hot weather, the device can be used, the feeding sleeve 5 is communicated with the raw material pool, then the second servo motor 81 is started along with the input of the brine ice, the output shaft of the second servo motor 81 drives the rotating rod 82 to rotate, so that the rotating blades 83 rotate, the effect that the brine ice can flow into the cooling tank 4 and the stirring tank 1 quickly after entering the feeding sleeve 5 is achieved, the brine ice entering the cooling tank 4 can be cooled quickly, and cold air can rise to enter the stirring tank 1;

meanwhile, start first servo motor 2, 2 output shafts of first servo motor drive stirring frame 3 and rotate, thereby make the brine ice in agitator tank 1 can fuse with air conditioning fast, reach rapid cooling's effect, the brine ice in agitator tank 1 and the cooling tank 4 all can flow out through cooling tube 6, reach atomizer 7 department at last, the atomizing through atomizer 7 is sprayed, atomize the stock ice, thereby realize the effect of high-efficient cooling in the region, after the cooling, close first servo motor 2 and second servo motor 81 can, to sum up, it rotates to drive dwang 82 through second servo motor 81 output shaft, thereby make and rotate paddle 83 and all begin to rotate, and then realize the effect of quick water conservancy diversion, make the cooling more high-efficient.

As shown in fig. 1, 2 and 5, the collecting mechanism 9 further includes a connecting frame 91 and a collecting tank 92, the cooling pipe 6 is connected with the connecting frame 91 in bilateral symmetry, and the collecting tank 92 is connected between the adjacent sides of the connecting frame 91 for collecting the dropping brine ice.

As shown in fig. 1, 2 and 5, the collecting mechanism 9 further includes a fan 93, and the collecting tank 92 is rotatably connected with the fan 93 for diffusing the atomized brine ice to realize a cooling effect.

Along with the brine ice is derived by cooling tube 6, people need start fan 93, begin the atomizing when the brine ice and spray the back, fan 93 can blow away the brine ice after the atomizing to make cooling zone region increase, improved the cooling effect, simultaneously the brine ice of drippage can be collected by collection tank 92, avoids too much brine ice extravagant, after the cooling end close fan 93 can, to sum up, blow through fan 93, blow away the brine ice fog after the atomizing, enlarged cooling zone region, improved the effect of cooling, the brine ice of drippage can be accomodate to collection tank 92 simultaneously, avoids the too much waste of resource.

Although the present invention has been described in detail with reference to the above embodiments, it will be apparent to those skilled in the art from this disclosure that various changes or modifications can be made therein without departing from the spirit and scope of the invention as defined in the appended claims. Therefore, the detailed description of the embodiments of the present disclosure is to be construed as merely illustrative, and not limitative of the present disclosure, but rather to limit the scope thereof by the appended claims.

Claims (6)

1. The utility model provides a high-efficient energy-conserving heat sink, characterized by, including agitator tank (1), first servo motor (2), stirring frame (3), cooling tank (4), a feed cylinder (5), cooling tube (6), atomizer (7) and water conservancy diversion mechanism (8), there is first servo motor (2) agitator tank (1) top through bolted connection, be connected with stirring frame (3) on first servo motor (2) output shaft, agitator tank (1) right side is connected with cooling tank (4), communicate between agitator tank (1) and cooling tank (4) top, agitator tank (1) and cooling tank (4) right side all are connected with feed cylinder (5), be connected with between agitator tank (1) and cooling tank (4) bottom cooling tube (6), cooling tube (6) bottom is connected with atomizer (7), all be equipped with water conservancy diversion mechanism (8) that are used for shunting the drainage in feed cylinder (5).

2. A high efficiency energy saving temperature reducing device as claimed in claim 1, wherein the flow guiding mechanism (8) comprises a second servo motor (81), and the top of the feeding cylinder (5) is connected with the second servo motor (81) through bolts.

3. A high efficiency energy saving temperature reducing device as claimed in claim 2, wherein the guiding mechanism (8) further comprises a rotating rod (82) and rotating paddles (83), the rotating rod (82) is connected to the output shaft of the second servo motor (81), and the rotating paddles (83) are connected to the rotating rod (82).

4. A high-efficiency energy-saving temperature-reducing device as claimed in claim 3, wherein the collecting mechanism (9) further comprises a connecting frame (91) and a collecting tank (92), the cooling pipe (6) is connected with the connecting frame (91) which is symmetrical left and right, and the collecting tank (92) is connected between the mutually adjacent sides of the connecting frame (91).

5. A high efficiency energy saving temperature reducing device as claimed in claim 4, wherein the collecting mechanism (9) further comprises a fan (93), and the collecting tank (92) is rotatably connected with the fan (93).

6. An energy-efficient cooling device as claimed in claim 5, wherein each rotating rod (82) is connected with three rotating blades (83) for accelerating the flow rate of the brine ice.

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