CN216482353U - Condenser assembly with efficient heat dissipation and cooling functions - Google Patents

Abstract

The utility model discloses a high-efficient heat dissipation refrigerated condenser subassembly, it relates to the field of laboratory paraphernalia, it absorbs a large amount of heat temperature rising to aim at solving the water-cooling liquid after the condenser uses for a long time, lead to the condensation effect to descend, influence the result of use's of condenser problem, its technical scheme main points are that the condenser body is equipped with inlet opening and apopore, apopore pipeline intercommunication has the backwash pump of pumping water-cooling liquid, backwash pump pipeline intercommunication reduces the evaporation cooling jar of water-cooling liquid temperature, evaporation cooling jar is higher than the condenser body setting along direction of gravity, evaporation cooling jar pipeline intercommunication inlet opening, the effect of condenser condensation efficiency is guaranteed to effective cooling water-cooling liquid has been reached.

Description

Condenser assembly with efficient heat dissipation and cooling functions

Technical Field

The utility model belongs to the technical field of the technique of laboratory paraphernalia and specifically relates to a high-efficient heat dissipation refrigerated condenser subassembly is related to.

Background

At present, along with the development of scientific technology, the frequency of scientific experiments is also gradually increased, in the existing experiments and production processes, a Condenser (Condenser) which is a component of a refrigeration system and belongs to a heat exchanger can be frequently used, gas or vapor can be converted into liquid, heat in a condensation pipe is transferred to air near the condensation pipe in an extremely fast mode, and therefore the liquefaction and collection of gas are realized, the working process of the Condenser is a heat release process, and the temperature of the Condenser is high.

The existing condenser usually adopts water cooling liquid to replace air as a heat absorbing medium for condensation in order to improve the cooling efficiency, and a circulating water system is usually adopted for cooling in consideration of environmental protection and space occupation.

The above prior art solutions have the following drawbacks: the condenser adopts circulated water-cooling liquid to carry out the condensation, and the water-cooling liquid absorbs a large amount of heats after long-time use the back temperature and rises thereupon, can lead to the condensation effect to descend, influences the result of use of condenser.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a high-efficient heat dissipation refrigerated condenser subassembly.

In order to achieve the above purpose, the utility model provides a following technical scheme:

including the condenser body, the inside a plurality of water-cooling liquids that are provided with of condenser body, the condenser body is equipped with inlet opening and apopore, apopore pipeline intercommunication has the backwash pump of pumping water-cooling liquid, backwash pump pipeline intercommunication reduces the evaporation and cooling jar of water-cooling liquid temperature, evaporation and cooling jar is higher than the condenser body setting along direction of gravity, evaporation and cooling jar pipeline intercommunication inlet opening.

Through adopting above-mentioned technical scheme, evaporation cooling jar can continuously reduce the water-cooling liquid temperature of recycling, makes it be in a lower operating temperature, improves the condensation effect of condenser.

Further, evaporation cooling jar is including a jar body and baffle, the baffle is the evaporation cavity of evaporating the cooling of water-cooling liquid and the stock solution cavity of storing cooling back water-cooling liquid with jar body partition, the baffle is equipped with the through-hole of intercommunication evaporation cavity and stock solution cavity, evaporation cavity pipeline intercommunication backwash pump, stock solution cavity pipeline intercommunication inlet opening.

Through adopting above-mentioned technical scheme, the water-cooling liquid that the backwash pump sent flows into the stock solution cavity after the evaporation cavity cooling, flows into the condenser from the stock solution cavity again, and water-cooling liquid has formed a circulation, repeatedly usable, and is energy-concerving and environment-protective.

Further, evaporation cavity inner wall is provided with the gondola water faucet head, gondola water faucet head pipeline intercommunication backwash pump, the fixed evaporation support that is provided with a plurality of co-altitude of evaporation cavity inner wall, the evaporation support is equipped with the loose evaporating plate in a plurality of surfaces along the detachable frame in gravity direction top, the cooperation evaporating support's block groove is seted up to the one side that the evaporating plate is close to the evaporation support, the evaporating plate sets up under the gondola water faucet head.

Through adopting above-mentioned technical scheme, the gondola water faucet head can be effectively evenly spread the water-cooling liquid and carry out evaporation cooling on the evaporating plate, and the loose surface structure of evaporating plate can also adsorb a certain amount of moisture, makes one of them directly be in efficient evaporation cooling state, and detachable evaporating plate can also conveniently wash the change, guarantees evaporation cooling's effect, and the water-cooling liquid can obtain effectual cooling.

Further, the evaporating plate comprises a left half plate and a right half plate, wherein the left half plate is distributed in a right inclined shape at equal intervals, the right half plate is distributed in a left inclined shape at equal intervals, and the left half plate and the right half plate are distributed in a staggered mode at equal intervals.

Through adopting above-mentioned technical scheme, the water-cooling liquid can flow on left half board and right half board surface long-distance ground for a long time, and the increase water-cooling liquid has improved the evaporation rate of water-cooling liquid with external area of contact, and the water-cooling liquid cooling effect reinforcing.

Furthermore, the outer side wall of the evaporation cavity is provided with an air inlet and an air outlet which are communicated with the evaporation cavity, and the air inlet and the air outlet are covered with a fan.

Through adopting above-mentioned technical scheme, the water-cooling liquid on the evaporating plate can contact with external dry low temperature air continuously, has greatly improved the evaporation effect, reduces the temperature of water-cooling liquid effectively.

Furthermore, a plurality of ice blocks are placed in the liquid storage cavity.

Through adopting above-mentioned technical scheme, the ice-cube can directly reduce the temperature of water-cooling liquid, improves the condensation effect of condenser.

Further, the feed inlet of intercommunication stock solution cavity is seted up to stock solution cavity lateral wall, stock solution cavity outer wall articulates there is the apron that covers the feed inlet.

Through adopting above-mentioned technical scheme, the charge door has made things convenient for the joining of water and ice-cube, has guaranteed that the water-cooling liquid keeps a sufficient volume, avoids the water-cooling liquid to influence the condensation effect of condenser because of the evaporation back stock is too little, and the apron can also effectively protect external foul to get into the stock solution cavity, thereby has avoided the water-cooling liquid to receive external pollution to a certain extent and has influenced condenser work.

To sum up, the utility model discloses a beneficial technological effect does:

1. the reflux pump and the evaporation cooling tank are adopted, so that the effects of continuously reducing the temperature of the water-cooling liquid and improving the condensation effect of the condenser are achieved.

2. The water cooling liquid on the evaporating plate can be continuously contacted with the external dry low-temperature air, so that the evaporating effect is greatly improved, and the temperature of the water cooling liquid is effectively reduced.

3. The charge door has made things convenient for the joining of water and ice-cube, has guaranteed that the water-cooling liquid keeps a sufficient volume, avoids the water-cooling liquid because of the evaporation back stock is too little to influence the condensation effect of condenser, and the apron can also effectively protect external foul to get into the stock solution cavity, thereby has avoided the water-cooling liquid to receive external pollution to a certain extent and has influenced condenser work.

Drawings

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

FIG. 2 is a schematic cross-sectional view of a condenser body;

FIG. 3 is a schematic view of the overall structure of the evaporative cooling tank;

FIG. 4 is a schematic sectional view of the evaporative cooling tank;

fig. 5 is an enlarged view of the part a in fig. 4.

In the figure, 1, a condenser body; 11. a water inlet hole; 12. a water outlet hole; 2. a reflux pump; 3. an evaporation cooling tank; 31. a tank body; 32. a partition plate; 321. a through hole; 33. an evaporation cavity; 331. a shower head; 332. evaporating the support; 333. an evaporation plate; 334. a clamping groove; 335. a left half plate; 336. a right half plate; 337. an air inlet; 338. an air outlet; 339. a fan; 34. a liquid storage cavity; 341. ice cubes; 342. a feed inlet; 343. and (7) a cover plate.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1 and 2, for the utility model discloses a high-efficient heat dissipation refrigerated condenser subassembly, including condenser body 1, 1 inside a plurality of water-cooling liquid that are provided with of condenser body, condenser body 1 is equipped with inlet opening 11 and apopore 12, apopore 12 pipeline intercommunication has backwash pump 2 of pumping water-cooling liquid, 2 pipeline intercommunications of backwash pump reduce the evaporation cooling jar 3 of water-cooling liquid temperature, evaporation cooling jar 3 is higher than condenser body 1 setting along the direction of gravity, 3 pipeline intercommunications inlet openings 11 of evaporation cooling jar, evaporation cooling jar 3 can continuously reduce the water-cooling liquid temperature of circulated use, make it be in a lower operating temperature, improve the condensation effect of condenser.

Referring to fig. 3 and 4, the evaporation cooling tank 3 comprises a tank body 31 and a partition plate 32, the partition plate 32 divides the tank body 31 into an evaporation cavity 33 for evaporating the water-cooling liquid for cooling and a liquid storage cavity 34 for storing the cooled water-cooling liquid, the partition plate 32 is provided with a through hole 321 for communicating the evaporation cavity 33 with the liquid storage cavity 34, the evaporation cavity 33 is communicated with the reflux pump 2 through a pipeline, the liquid storage cavity 34 is communicated with the water inlet hole 11 through a pipeline, the water-cooling liquid pumped by the reflux pump 2 flows into the liquid storage cavity 34 after being cooled by the evaporation cavity 33, the liquid storage cavity 34 flows into the condenser, and the water-cooling liquid forms a recycling effect, so that the energy-saving and environment-friendly effects are achieved.

The outer side wall of the evaporation cavity 33 is provided with an air inlet 337 and an air outlet 338 which are communicated with the evaporation cavity 33, the air inlet 337 and the air outlet 338 are covered by a fan 339, the water-cooling liquid on the evaporation plate 333 can be continuously contacted with the external dry low-temperature air, the evaporation effect is greatly improved, the temperature of the water-cooling liquid is effectively reduced, a plurality of ice cubes 341 are placed inside the liquid storage cavity 34, the temperature of the water-cooling liquid can be directly reduced by the ice cubes 341, the condensation effect of the condenser is improved, the outer side wall of the liquid storage cavity 34 is provided with a feed opening 342 which is communicated with the liquid storage cavity 34, the outer wall of the liquid storage cavity 34 is hinged with a cover plate 343 which covers the feed opening 342, the materials such as the water-cooling liquid and the ice cubes 341 can be conveniently added into the liquid storage cavity 34 from the feed opening 342, the sufficient amount of the water-cooling liquid is ensured, the phenomenon that the condensation effect of the condenser is influenced by too little stock after evaporation is avoided, the cover plate 343 can also effectively protect the external dirt from entering the liquid storage cavity 34, the condenser is prevented from being affected by external pollution to a certain extent.

Referring to fig. 4 and 5, a shower head 331 is arranged on the inner wall of the evaporation cavity 33, the shower head 331 is communicated with the reflux pump 2 through a pipeline, a plurality of evaporation brackets 332 with different heights are fixedly arranged on the inner wall of the evaporation cavity 33, a plurality of evaporation plates 333 with loose surfaces are detachably erected on the evaporation brackets 332 along the gravity direction, a clamping groove 334 matched with the evaporation brackets 332 is formed in one surface of each evaporation plate 333, which is close to the evaporation brackets 332, and the evaporation plates 333 are arranged under the shower head 331.

Shower head 331 can be effectively with the water-cooling liquid evenly spread evaporation cooling on evaporating plate 333, the loose surface structure of evaporating plate 333 can also adsorb a certain amount of moisture, make it be in efficient evaporation cooling state all the time, detachable evaporating plate 333 can also conveniently wash the change, guarantee evaporation cooling's effect, green is high-efficient, the water-cooling liquid can obtain effectual cooling, evaporating plate 333 includes left half board 335 and right half board 336, left half board 335 is the equidistant distribution of right-sloping form, right half board 336 is the equidistant distribution of left-sloping form, left half board 335 and right half board 336 equidistant staggered distribution, the water-cooling liquid can flow on left half board 335 and right half board 336 surface for a long time long distance, the increase water-cooling liquid with external area of contact, the evaporation rate of water-cooling liquid has been improved, the water-cooling liquid cooling effect reinforcing.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (7)

1. The utility model provides a high-efficient heat dissipation refrigerated condenser subassembly, includes condenser body (1), condenser body (1) inside is provided with a plurality of water-cooling liquid, its characterized in that: condenser body (1) is equipped with inlet opening (11) and apopore (12), apopore (12) pipeline intercommunication has backwash pump (2) of pumping water-cooling liquid, backwash pump (2) pipeline intercommunication reduces evaporative cooling jar (3) of water-cooling liquid temperature, evaporative cooling jar (3) are higher than condenser body (1) setting along the direction of gravity, evaporative cooling jar (3) pipeline intercommunication inlet opening (11).

2. A condenser assembly with high efficiency heat rejection cooling as set forth in claim 1 wherein: evaporation cooling jar (3) are including a jar body (31) and baffle (32), baffle (32) separate the evaporation cavity (33) for the evaporation water-cooling liquid cooling and stock solution cavity (34) of storing cooling back water-cooling liquid with jar body (31), baffle (32) are equipped with through-hole (321) that communicate evaporation cavity (33) and stock solution cavity (34), evaporation cavity (33) pipeline intercommunication backwash pump (2), stock solution cavity (34) pipeline intercommunication inlet opening (11).

3. A condenser assembly with high efficiency heat rejection cooling as set forth in claim 2 wherein: evaporation cavity (33) inner wall is provided with gondola water faucet head (331), gondola water faucet head (331) pipeline intercommunication backwash pump (2), evaporation cavity (33) inner wall is fixed and is provided with a plurality of not co-altitude evaporation support (332), evaporation support (332) are followed the removable evaporating plate (333) of putting up a plurality of surface looseness in gravity direction top, the block groove (334) of cooperation evaporation support (332) are seted up to the one side that evaporating plate (333) are close to evaporation support (332), evaporating plate (333) set up under gondola water faucet head (331).

4. A condenser assembly with high efficiency heat rejection cooling as set forth in claim 3 wherein: evaporating plate (333) includes left half board (335) and right half board (336), left side half board (335) are right sloping form equidistant distribution, right side half board (336) are left sloping form equidistant distribution, left side half board (335) and right half board (336) equidistant staggered distribution.

5. A condenser assembly with high efficiency heat rejection cooling as set forth in claim 3 wherein: the outer side wall of the evaporation cavity (33) is provided with an air inlet (337) and an air outlet (338) which are communicated with the evaporation cavity (33), and the air inlet (337) and the air outlet (338) are covered with a fan (339).

6. A condenser assembly with high efficiency heat rejection cooling as set forth in claim 2 wherein: a plurality of ice blocks (341) are placed in the liquid storage cavity (34).

7. A condenser assembly with efficient heat rejection cooling as set forth in claim 6 wherein: the feed inlet (342) of intercommunication stock solution cavity (34) is seted up to stock solution cavity (34) lateral wall, stock solution cavity (34) outer wall articulates there is apron (343) that covers feed inlet (342).

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