CN217636282U - Efficient oil cooling type evaporative condenser - Google Patents

Abstract

The utility model discloses a high-efficient oil cooling formula evaporative condenser relates to the cold technical field of oil, including evaporative cooler, cooling head, protection lasso and supporting leg, the fixedly connected with cooling head on evaporative cooler's the top surface, the fixed protection lasso that has cup jointed on evaporative cooler's the surface, fixedly connected with supporting leg on the surface of protection lasso, fixedly connected with oil pipe on evaporative cooler's the left and right sides surface, fixedly connected with semicircle cover on oil pipe's the surface. The utility model discloses a circulator guides hot oil, leads oil pipe through one end and guides hot oil, and cooperation cooling post is irrigated with hot oil's inside, and the cooperation fan carries out rapid cooling to the inside excessive heat that comes of cooling post, utilizes the cooling cylinder to discharge away the heat, has possessed to carry out cooling down's characteristics to hot oil, and the problem that later stage cooling efficiency reduces can be caused to the heat of solution oil is too high to reach the effect of cooling down to the heat of oil.

Description

Efficient oil cooling type evaporative condenser

Technical Field

The utility model relates to an oil cooling technical field, concretely relates to high-efficient oil cooling formula evaporative condenser.

Background

The condenser is a machine of a refrigeration system, belongs to a heat exchanger, can convert gas or steam into liquid, transfers heat in a pipe to air nearby the pipe in a quick mode, and is a heat releasing process in the working process, so that the temperature of the condenser is high. The following problems exist in the prior art:

1. the working process of the condenser is a heat release process, the higher the temperature of liquid in the condenser is, the higher the heat release efficiency is, and if the temperature in the condenser is insufficient, the problem that the heat conversion speed of oil is reduced is caused;

2. after a large amount of high-temperature heat is absorbed by the oil in the condenser, if the heat is not timely discharged, the problem of reduced later-stage cooling efficiency can be caused.

SUMMERY OF THE UTILITY MODEL

The utility model provides a high-efficiency oil cooling type evaporative condenser, one of which aims to absorb the residual heat in an oil pipe to heat a water source and solve the problem that the insufficient internal temperature can reduce the heat conversion speed of oil; wherein another purpose is if not timely discharge in order to solve the inside heat of oil, can cause the problem that later stage cooling efficiency reduces to reach the effect of cooling down to the inside heat of oil.

In order to solve the technical problem, the utility model discloses the technical scheme who adopts is:

the utility model provides a high-efficient oil cooling formula evaporative condenser, includes evaporative cooler, cooling head, protection lasso and supporting leg, fixedly connected with cooling head on evaporative cooler's the top surface, the fixed cover has connect the protection lasso on evaporative cooler's the surface, fixedly connected with supporting leg on the surface of protection lasso.

And the outer surfaces of the left side and the right side of the evaporative cooler are fixedly connected with oil pipes, and the outer surfaces of the oil pipes are fixedly connected with semicircular sleeves.

The utility model discloses technical scheme's further improvement lies in: the oil pipe is characterized in that the semicircular sleeves are uniformly distributed on the top surface of the oil pipe, the lower surfaces of the semicircular sleeves are fixedly connected with connecting plates, the bottom surfaces of the connecting plates are fixedly connected with connecting rods, heat conducting ports are formed in the top ends of the semicircular sleeves, and exhaust fans are rotatably connected inside the semicircular sleeves.

The utility model discloses technical scheme's further improvement lies in: the improved cooling device is characterized in that an inner connecting plate is fixedly connected to the inner wall surface of the cooling head, a circulator is fixedly connected to the inner wall surface of the bottom of the cooling head, oil guide pipes are fixedly connected to the left end and the right end of the circulator, a cooling cylinder is fixedly connected to the top surface of the oil guide pipes, a cooling column is arranged at the bottom of the inner wall surface of the cooling cylinder, one end of the cooling column is communicated with the inside of the oil guide pipes, a fan is arranged in the middle of the inner wall surface of the cooling cylinder, a fixing block is fixedly connected to the lower surface of the oil guide pipes, one end of the fixing block is fixedly connected to the outer surface of the inner connecting plate, and an oil port is formed in the lower surface of the circulator.

The utility model discloses technical scheme's further improvement lies in: the rotary motor is fixedly connected to the top surface of the evaporation cooler, the rotary column is fixedly connected to the output end of the rotary motor, one end of the rotary column is fixedly connected to the bottom of the inner wall surface of the cooling head, the stirring page is fixedly connected to the outer surface of the rotary column, the heat conducting pipe is fixedly connected to the inner wall surface of the cooling head, and two ends of the heat conducting pipe extend to the outer surfaces of the upper end and the lower end of the evaporation cooler.

The utility model discloses technical scheme's further improvement lies in: the protective sleeve ring is characterized in that a circular buffer block is fixedly connected to the inner wall surface of the protective sleeve ring, a movable plate is movably lapped on the outer surface of the circular buffer block, the movable plate is movably lapped on the inner wall surface of the protective sleeve ring, and a semicircular soft block is fixedly connected to the outer surface of the movable plate.

The utility model discloses technical scheme's further improvement lies in: the lower surface of the supporting leg is fixedly connected with a supporting column, and one end of the supporting column is fixedly connected with a disc foot.

Owing to adopted above-mentioned technical scheme, the utility model discloses relative prior art, the technological progress who gains is:

1. the utility model provides a high-efficient oil cooling formula evaporative condenser, adopt oil pipe, the connecting rod, the semicircle cover, cooperation between exhaust fan and the heat conduction mouth, guide the hot oil after the heat absorption through oil pipe, the cooperation connecting rod stretches into the inside of hot oil and carries out thermal absorption, the cooperation exhaust fan rotates in the inside of semicircle cover, utilize the heat conduction mouth to absorb the heat that comes with the exhaust fan and guide away, possess and absorb the inside residual heat of oil pipe, come to carry out the characteristics of heating to the water source, solve the problem that inside temperature can lead to the heat conversion speed of oil to be reduced inadequately, reached and guided the inside effect that increases the inside temperature of water source with the residual heat.

2. The utility model provides a high-efficient oil cooling formula evaporative condenser, adopt the circulator, lead oil pipe, the cooling cylinder, cooperation between cooling post and the fan, guide hot oil through the circulator, lead oil pipe through one end and guide hot oil, the cooperation is cooled down the post and is irrigated with the inside of hot oil, the cooperation fan carries out rapid cooling to the inside excessive heat that comes of cooling post, utilize the cooling cylinder to discharge out the heat, possessed and carried out cooling down's characteristics to hot oil, solve the inside heat of oil if untimely discharge, can cause the problem that later stage cooling efficiency reduces, in order to reach the effect of cooling down to the inside heat of oil.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the evaporative cooler of the present invention;

FIG. 3 is a schematic view of the oil pipe structure of the present invention;

FIG. 4 is a schematic view of a cooling head structure according to the present invention;

fig. 5 is a schematic view of the structure of the protection ring of the present invention.

In the figure: 1. an evaporative cooler; 11. a rotation motor 12, a rotation column; 13. agitating the sheet; 14. a heat conducting pipe; 15. an oil pipe; 151. a semicircular sleeve; 152. a connecting rod; 153. a heat conducting port; 154. an exhaust fan;

2. a cooling head; 21. an inner connecting plate; 22. a circulator; 23. an oil guide pipe; 24. a cooling cylinder; 25. a cooling column; 26. a fan;

3. a protective ferrule; 31. a circular buffer block; 32. a movable plate; 33. a semicircular soft block;

4. supporting legs; 41. a support pillar; 42. a disc foot.

Detailed Description

The present invention will be described in further detail with reference to the following examples:

example 1

As shown in fig. 1-5, the utility model provides a high-efficient oil cooling formula evaporative condenser, including evaporative cooler 1, cooling head 2, protection lasso 3 and supporting leg 4, fixedly connected with cooling head 2 on evaporative cooler 1's the top surface, the fixed cover of having connect on evaporative cooler 1's the surface has protection lasso 3, fixedly connected with supporting leg 4 on protection lasso 3's the surface.

In this embodiment, absorb the heat of inside through evaporative cooler 1, the cooperation cooling head 2 cools off hot oil and discharges away, and rethread protection ring 3 protects evaporative cooler 1's surface, and cooperation supporting leg 4 supports protection ring 3.

As shown in fig. 1 to 5, in the present embodiment, preferably, a circular buffer block 31 is fixedly connected to an inner wall surface of the protection ferrule 3, a movable plate 32 is movably lapped on an outer surface of the circular buffer block 31, the movable plate 32 is movably lapped on the inner wall surface of the protection ferrule 3, a semicircular soft block 33 is fixedly connected to an outer surface of the movable plate 32, a support column 41 is fixedly connected to a lower surface of the support leg 4, a disc foot 42 is fixedly connected to one end of the support column 41, the semicircular soft block 33 is attached to an outer surface of the evaporative cooler 1, the movable plate 32 is matched to buffer shaking of the evaporative cooler 1, the circular buffer block 31 is matched to buffer pressing of the movable plate 32, and the protection ferrule 3 is supported by the support column 41.

Example 2

As shown in fig. 1-5, on the basis of embodiment 1, the utility model provides a technical solution: preferably, the outer surfaces of the left and right sides of the evaporative cooler 1 are fixedly connected with oil pipes 15, the outer surface of the oil pipe 15 is fixedly connected with a semicircular sleeve 151, the semicircular sleeve 151 is uniformly distributed on the top surface of the oil pipe 15, the lower surface of the semicircular sleeve 151 is fixedly connected with a connecting plate, the bottom surface of the connecting plate is fixedly connected with a connecting rod 152, the top end of the semicircular sleeve 151 is provided with a heat conducting port 153, and the interior of the semicircular sleeve 151 is rotatably connected with an exhaust fan 154.

In this embodiment, the oil pipe 15 guides the heat-absorbed hot oil, the connecting rod 152 is matched to extend into the hot oil to absorb heat, the exhaust fan 154 is matched to rotate inside the semicircular sleeve 151, the heat absorbed by the exhaust fan 154 is guided out by the heat conduction port 153, and the effect of increasing the internal temperature of the water source by guiding the residual temperature into the water source is achieved.

Example 3

As shown in fig. 1-5, on the basis of embodiment 1, the utility model provides a technical solution: preferably, an inner connection plate 21 is fixedly connected to the inner wall surface of the cooling head 2, a circulator 22 is fixedly connected to the inner wall surface of the bottom of the cooling head 2, oil guide pipes 23 are fixedly connected to the left end and the right end of the circulator 22, a cooling cylinder 24 is fixedly connected to the top surface of the oil guide pipes 23, a cooling column 25 is arranged at the bottom of the inner wall surface of the cooling cylinder 24, one end of the cooling column 25 is communicated with the inside of the oil guide pipes 23, a fan 26 is arranged in the middle of the inner wall surface of the cooling cylinder 24, a fixing block is fixedly connected to the lower surface of the oil guide pipes 23, one end of the fixing block is fixedly connected to the outer surface of the inner connection plate 21, and an oil port is formed in the lower surface of the circulator 22.

In this embodiment, guide hot oil through circulator 22, lead oil pipe 23 through one end and guide hot oil, the cooperation cooling post 25 is irrigated with the inside of hot oil, and cooperation fan 26 carries out rapid cooling to the inside heat of spilling out of cooling post 25, utilizes cooling cylinder 24 to discharge away the heat to reach the effect of cooling to the heat of oil inside.

Example 4

As shown in fig. 1-5, on the basis of embodiment 1, the utility model provides a technical solution: preferably, a rotary motor 11 is fixedly connected to the top surface of the evaporative cooler 1, a rotary column 12 is fixedly connected to the output end of the rotary motor 11, one end of the rotary column 12 is fixedly connected to the bottom of the inner wall surface of the cooling head 2, a stirring blade 13 is fixedly connected to the outer surface of the rotary column 12, a heat pipe 14 is fixedly connected to the inner wall surface of the cooling head 2, and both ends of the heat pipe 14 extend to the outer surfaces of the upper and lower ends of the evaporative cooler 1.

In this embodiment, oil is introduced through the oil pipe 15 in a circulating manner, the oil absorbs the temperature of the surface of the heat conducting pipe 14, the rotating column 12 rotates in cooperation with the rotating motor 11, the hot oil at the top is pushed downwards in cooperation with the stirring blade 13 during rotation, and the stirring blade 13 is used for promoting the up-and-down circulation of the hot oil inside the evaporative cooler 1.

The working principle of the high-efficiency oil-cooled evaporative condenser will be described in detail below.

As shown in fig. 1-5, oil is introduced through the oil pipe 15 in a circulating manner, the oil absorbs the temperature of the surface of the heat conducting pipe 14, the rotating column 12 rotates in cooperation with the rotating motor 11, the hot oil at the top is pushed downwards by the stirring blade 13, the heat inside is primarily absorbed through the oil pipe 15, and then the remaining hot oil in the cooling head 2 is cooled.

The present invention has been described in general terms, but it will be apparent to those skilled in the art that modifications and improvements can be made based on the present invention. Therefore, modifications or improvements without departing from the spirit of the invention are within the scope of the invention.

Claims (6)

1. The utility model provides a high-efficient oil cooling formula evaporative condenser, includes evaporative cooler (1), cooling head (2), protection lasso (3) and supporting leg (4), its characterized in that: the top surface of the evaporative cooler (1) is fixedly connected with a cooling head (2), the outer surface of the evaporative cooler (1) is fixedly sleeved with a protection ring (3), and the outer surface of the protection ring (3) is fixedly connected with support legs (4);

fixedly connected with oil pipe (15) on the surface of the left and right sides of evaporative cooler (1), fixedly connected with semicircle cover (151) on the surface of oil pipe (15).

2. A high efficiency oil cooled evaporative condenser as set forth in claim 1, wherein: semicircle cover (151) even distribution is on the top surface of oil pipe (15), fixedly connected with linkage plate on the lower surface of semicircle cover (151), fixedly connected with connecting rod (152) on the basal surface of linkage plate, be provided with heat conduction mouth (153) on the top of semicircle cover (151), the inside rotation of semicircle cover (151) is connected with exhaust fan (154).

3. A high-efficiency oil-cooled evaporative condenser, as set forth in claim 1, wherein: fixedly connected with fishplate bar (21) on the internal face of cooling head (2), fixedly connected with circulator (22) on the bottom internal face of cooling head (2), fixedly connected with leads oil pipe (23) on the both ends about circulator (22), lead fixedly connected with cooling cylinder (24) on the top surface of oil pipe (23), the bottom of the internal face of cooling cylinder (24) is provided with cooling post (25), the one end of cooling post (25) is linked together with the inside of leading oil pipe (23), the internal face middle part of cooling cylinder (24) is provided with fan (26), fixedly connected with fixed block on the lower surface of leading oil pipe (23), on the surface of fishplate bar (21) is including the one end fixed connection of fixed block, be provided with the hydraulic fluid port on the lower surface of circulator (22).

4. A high efficiency oil cooled evaporative condenser as set forth in claim 1, wherein: fixedly connected with rotation motor (11) on the top surface of evaporation cooler (1), fixedly connected with rotates post (12) on the output of rotation motor (11), the one end fixed connection of rotation post (12) is in the internal face bottom of cooling head (2), fixedly connected with stirs page or leaf (13) on the surface of rotation post (12), the internal face fixedly connected with heat pipe (14) of cooling head (2), the both ends of heat pipe (14) extend to on the upper and lower both ends surface of evaporation cooler (1).

5. A high-efficiency oil-cooled evaporative condenser, as set forth in claim 1, wherein: the protective ring is characterized in that a circular buffer block (31) is fixedly connected to the inner wall surface of the protective ring (3), a movable plate (32) is movably lapped on the outer surface of the circular buffer block (31), the movable plate (32) is movably lapped on the inner wall surface of the protective ring (3), and a semicircular soft block (33) is fixedly connected to the outer surface of the movable plate (32).

6. A high efficiency oil cooled evaporative condenser as set forth in claim 1, wherein: fixedly connected with support column (41) on the lower surface of supporting leg (4), fixedly connected with disc foot (42) are served to one of support column (41).

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