CN118031479B - Separation type liquid unidirectional liquid separating device for air cooler of refrigerating system - Google Patents

Abstract

The invention discloses a separated liquid unidirectional liquid separating device for an air cooler of a refrigerating system, in particular to the related technical field of air coolers, which comprises an outer cylinder, wherein the upper side of the inner part of the outer cylinder is provided with an exhaust mechanism, the lower end of the outer cylinder is provided with a discharging cylinder, the middle part of the inner surface and the bottom of the inner surface of the discharging cylinder are respectively provided with a partition plate and a baffle, and a plurality of first water outlet pipes, a plurality of second water outlet pipes and third water outlet pipes which are used for communicating the inner cavity of the outer cylinder and the outer side of the discharging cylinder are jointly arranged between one ends of the partition plate and the baffle, which are close to each other. According to the separated liquid unidirectional liquid separating device for the air cooler of the refrigerating system, after the cooling liquid enters the outer cylinder, the cooling liquid collides with the inclined plate I to be separated, so that air flow and the cooling liquid are separated, and then the cooling liquid can be discharged at the same time at each outlet by utilizing the same distance of the cooling liquid flowing in the water outlet pipe I, the water outlet pipe II and the water outlet pipe III, so that the cooling liquid can be uniformly distributed on each heat exchange pipe.

Description

Separation type liquid unidirectional liquid separating device for air cooler of refrigerating system

Technical Field

The invention relates to the technical field related to air coolers, in particular to a separated liquid unidirectional liquid separating device for an air cooler of a refrigerating system.

Background

The air cooler is also called an air cooler, the refrigerant flows in the heat exchange tubes, and it is important to uniformly distribute the refrigerant in the flow of each heat exchange tube, which has a great influence on the heat exchange efficiency, and the component for realizing the liquid separation function is called a liquid separator or a liquid distributor.

Chinese patent document CN206330334U discloses a separate liquid unidirectional knockout for air cooler of refrigeration system, its technical scheme: including feed liquor pipe, the barrel, distributing head and orifice plate, the lower extreme and the feed liquor union coupling of barrel, the upper end and the distributing head of barrel are connected, the upper end at the distributing head can be dismantled to the orifice plate, be equipped with the mixing chamber in the barrel, be equipped with helical blade in the mixing chamber, be equipped with the filter screen on the helical blade, be equipped with the reposition of redundant personnel cone in the distributing head, the inside partition component chamber of reposition of redundant personnel cone will distribute the head, the lower extreme of reposition of redundant personnel cone can be dismantled and be connected with the reposition of redundant personnel piece, be equipped with the blotter on the reposition of redundant personnel piece, this scheme device promotes the refrigerant feed liquid even, make full use of refrigerant, reduce the waste of the energy, noise and the vibrations that the refrigerant flows produce, improve the stability and the refrigerating effect of air-cooler work, but still exist following not enough:

the device of the scheme can not completely separate the gas-phase coolant and the liquid-phase coolant, has limited separation effect, can not enable each liquid outlet of the orifice plate to spray out the coolant at the same time, and can cause the condition that each heat exchange tube is possibly cooled unevenly.

Disclosure of Invention

The invention mainly aims to provide a separated liquid unidirectional liquid separating device for an air cooler of a refrigerating system, which can effectively solve the problems that a gas phase coolant and a liquid phase coolant cannot be completely separated and the coolants at all outlets are difficult to discharge simultaneously.

In order to achieve the above purpose, the technical scheme adopted by the invention is as follows:

The utility model provides a separate type liquid unidirectional liquid separating device for refrigerating system air-cooler, includes the urceolus, the surface middle part of urceolus and surface upper portion are equipped with inlet tube and outlet duct of intercommunication urceolus inner chamber respectively, the inside upside of urceolus is equipped with exhaust mechanism, the internal surface lower part of urceolus is equipped with the axis of rotation that the level set up, the surface middle part of axis of rotation is equipped with the filter equipment who is used for filtering the coolant liquid, the lower extreme of urceolus is equipped with ejection of compact section of thick bamboo, the internal surface middle part and the internal surface bottom of ejection of compact section of thick bamboo are equipped with division board and baffle respectively, be equipped with a plurality of outlet pipe one, a plurality of outlet pipe two and outlet pipe three that are used for intercommunication urceolus inner chamber and ejection of compact section of thick bamboo outside between the one end that division board and baffle are close to each other jointly, just outlet pipe one, outlet pipe two and outlet pipe three's actual length all equals.

Preferably, the first water outlet pipes are uniformly distributed on the outer sides of the ends of the separation plates and the baffle plates, the second water outlet pipes are uniformly distributed on the inner sides of the ends of the separation plates and the baffle plates, and the third water outlet pipes are positioned in the middle of the ends of the separation plates and the baffle plates.

Preferably, the filtering mechanism comprises a rotating wheel which is rotationally connected to the rotating shaft, a plurality of storage tanks are uniformly arranged on the outer surface of the rotating wheel, a rectangular frame and a rectangular filter plate which is mutually clung to the rectangular frame are respectively arranged on one side, far away from the rotating shaft, of the storage tanks and one side, close to the rotating shaft, of the storage tanks, and springs I are jointly arranged between one ends, close to the rectangular filter plate and the rectangular frame, of the rectangular filter plate.

Preferably, the horizontal cross-sectional dimension of the rectangular filter plate is smaller than the outer side dimension of the horizontal cross-section of the rectangular frame, and the horizontal cross-sectional dimension of the rectangular filter plate is larger than the inner side dimension of the horizontal cross-section of the rectangular frame.

Preferably, the part of the rectangular filter plate positioned on the inner side of the rectangular frame is in a pyramid-shaped structure.

Preferably, a second sealing box sleeved outside the rotating shaft is arranged in the middle of the front end of the rotating wheel, one end of the rotating shaft, which is positioned in the second sealing box, is rotationally connected to the inner wall of the second sealing box, the second sealing box and the front part of the rotating shaft both extend to the outer side of the outer cylinder, a first sealing box is arranged on the upper part of the outer surface of the outer cylinder, one end, which is close to the outer cylinder, of the first sealing box extends to the inner cavity of the outer cylinder, a transmission shaft is arranged in the first sealing box, and a transmission belt penetrating through the side walls of the first sealing box and the second sealing box is jointly arranged between the outer surface of the part of the transmission shaft, which is positioned on the outer side of the outer cylinder, and the outer surface of the part of the rotating shaft, which is positioned on the outer side of the outer cylinder;

The part that sealing box lower extreme is located the urceolus is equipped with the dwang that is located the urceolus central line, the upper end of dwang extends to sealing box one in and rotates to be connected on sealing box one's roof, sealing box one's surface is equipped with bevel gear group jointly with the one end that the transmission shaft is close to the dwang, the slope oval annular has been seted up to the lower part in the surface of dwang, the surface lower part of dwang is equipped with the closing plate one that is located exhaust mechanism inboard, the upper end of closing plate one is equipped with L type movable rod one, just the horizontal part sliding connection of L type movable rod one is in the oval annular of slope.

Preferably, the exhaust mechanism comprises a positioning ring fixedly connected to the upper part of the inner surface of the outer cylinder, sliding grooves penetrating through the upper end of the positioning ring are formed in the left part of the inner surface of the positioning ring and the right part of the inner surface of the positioning ring, a ventilation ring groove penetrating through the upper end of the positioning ring is formed in the upper part of the inner surface of the positioning ring, a sealing plate is slidably connected to the inner surface of the positioning ring and the inside of the sliding groove, a concave groove is formed in the lower part of the inner surface of the positioning ring, a regular hexagon groove is formed in the outer side of the bottom wall of the concave groove, and an opening and closing mechanism is arranged in the concave groove.

Preferably, the opening and closing mechanism comprises a rotating ring and six second sealing plates, the rotating ring is rotatably connected to the upper part of the concave groove, the six limiting frames are uniformly arranged on the inner surface of the rotating ring, sliding rods are arranged on one side, close to the rotating ring, of the second sealing plates, and are slidably connected to the inner sides of the limiting frames on the same side, sliding blocks are arranged on the lower ends of the second sealing plates and are slidably connected in the regular hexagon grooves, a rotating pipe is arranged on the left part of the outer surface of the rotating ring, and an L-shaped moving rod II outside the rotating pipe is arranged in the rotating pipe;

The left part of the upper end of the positioning ring is provided with a moving groove, the left part of the upper end of the positioning ring is provided with an L-shaped storage box communicated with the moving groove, the inner side dimension of the horizontal section of the L-shaped storage box is equal to the horizontal section dimension of the moving groove, the middle part and the right part of the bottom wall of the moving groove are respectively provided with a second mounting groove and a first mounting groove, the inside of the second mounting groove is provided with a plurality of sections of telescopic rods and a second spring sleeved outside the plurality of sections of telescopic rods, one ends of the plurality of sections of telescopic rods and the second spring far away from the second mounting groove are jointly provided with an adjusting mechanism which is connected in the moving groove and the L-shaped storage box in a sliding manner and used for controlling the rotating ring to rotate, the inside of the first mounting groove is provided with a second fixed pulley, the left part of the upper end of the positioning ring is provided with a first fixed pulley, and the left part of the upper end of the sealing plate is provided with a pull rope, and one end of the pull rope far away from the first sealing plate bypasses the first fixed pulley and the second fixed pulley and is fixedly connected onto the adjusting mechanism;

the top wall left part of concave groove has seted up the arc wall, the parallelogram groove of intercommunication removal groove has been seted up to the upper portion of arc wall, swivelling joint is intraductal at the arc, the horizontal part of L type removal stick two passes the parallelogram groove and extends to the removal inslot.

Preferably, the adjusting mechanism comprises a moving plate which is slidably connected in the moving groove and the horizontal part of the L-shaped storage box, an L-shaped limiting plate is arranged at the left part of the upper end of the moving plate, an outlet groove penetrating through the upper end and the lower end of the moving plate is formed in the front part of the left end of the moving plate, and a U-shaped limiting plate which is slidably connected at the included angle between the horizontal part and the vertical part of the L-shaped limiting plate is arranged at the rear part of the left part of the upper end of the moving plate.

Compared with the prior art, the invention has the following beneficial effects:

1. According to the invention, the inclined plate I, the inclined plate II and the filtering mechanism are arranged, so that cooling liquid can collide with the inclined plate I to be separated after entering the outer cylinder, air flow and cooling liquid are separated, then the cooling liquid flows into the storage tank under the guidance of the inclined plate I and the inclined plate II to force the filtering mechanism to rotate, the sealing plate I is controlled to move up and down, and air flow below the exhaust mechanism is pumped out.

2. According to the invention, through arranging the structures of the first water outlet pipe, the second water outlet pipe, the third water outlet pipe and the like, the cooling liquid can be discharged at the same time at each outlet by utilizing the same distance of the cooling liquid flowing in the first water outlet pipe, the second water outlet pipe and the third water outlet pipe, so that the cooling liquid is uniformly distributed.

Drawings

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

FIG. 2 is a schematic view of the internal structure of the outer cylinder and the discharge cylinder of the present invention;

FIG. 3 is a schematic view of a filter mechanism according to the present invention;

FIG. 4 is another perspective cross-sectional view of the outer cartridge and the discharge cartridge of the present invention;

FIG. 5 is a schematic view of the exhaust mechanism of the present invention;

FIG. 6 is a cross-sectional view of a retaining ring of the present invention;

FIG. 7 is a schematic view of the inner structure of the positioning ring of the present invention;

FIG. 8 is a schematic view of the opening and closing mechanism of the present invention;

FIG. 9 is a schematic view of the operating state of FIG. 7;

Fig. 10 is a schematic structural view of the adjusting mechanism of the present invention.

In the figure: 1. an outer cylinder; 11. a water inlet pipe; 12. an air outlet pipe; 13. sealing the first box; 131. a transmission shaft; 132. a bevel gear set; 14. sealing the second box; 141. a rotating shaft; 15. an inclined plate I; 151. an air outlet; 16. an inclined plate II; 17. a transmission belt; 2. a discharging cylinder; 21. a partition plate; 22. a baffle; 23. a first water outlet pipe; 24. a second water outlet pipe; 25. a third water outlet pipe; 3. an exhaust mechanism; 31. a fixed pulley I; 32. a positioning ring; 321. a chute; 322. a ventilation ring groove; 33. a moving groove; 34. a pull rope; 35. a concave groove; 351. a regular hexagonal groove; 36. a first mounting groove; 361. a fixed pulley II; 37. a second mounting groove; 371. a second spring; 372. a multi-section telescopic rod; 38. an arc-shaped groove; 381. a parallelogram groove; 4. an L-shaped storage box; 5. a filtering mechanism; 51. a rotating wheel; 52. a storage tank; 53. a rectangular frame; 54. a rectangular filter plate; 6. a rotating lever; 61. inclined elliptical ring grooves; 62. an L-shaped movable rod I; 63. a first sealing plate; 7. an opening and closing mechanism; 71. a rotating ring; 72. a limit frame; 74. a rotary tube; 741. an L-shaped movable rod II; 75. a second sealing plate; 76. a slide block; 77. a slide bar; 8. an adjusting mechanism; 81. a moving plate; 82. an L-shaped limiting plate; 83. a U-shaped limiting plate; 84. an outlet slot.

Detailed Description

The invention is further described in connection with the following detailed description, in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the invention easy to understand.

Example 1

As shown in fig. 1-4, the embodiment discloses a separate liquid unidirectional liquid separating device for an air cooler of a refrigerating system, which comprises an outer cylinder 1, wherein a water inlet pipe 11 and a water outlet pipe 12 which are communicated with an inner cavity of the outer cylinder 1 are respectively arranged in the middle of the outer surface of the outer cylinder 1 and on the upper part of the outer surface of the outer cylinder, and the water inlet pipe 11 and the water outlet pipe 12 are respectively positioned on the upper side and the lower side of an air exhausting mechanism 3 in the same vertical plane, so that the air exhausting mechanism 3 is convenient to make a part of the outer cylinder 1 for circulating cooling liquid in a sealing state all the time in the air exchanging process, the air exhausting mechanism 3 is arranged on the upper side of the inner part of the outer cylinder 1, a discharging cylinder 2 is arranged at the lower end of the outer cylinder 1, and the top diameter and the bottom diameter of the discharging cylinder 2 are both greater than the middle and upper diameter of the discharging cylinder 2, so that the cooling liquid leaving speed is increased by changing the inlet and outlet size of the discharging cylinder 2;

Specifically, referring to fig. 2, a partition plate 21 and a baffle 22 are respectively disposed in the middle of the inner surface and at the bottom of the inner surface of the discharge cylinder 2, a plurality of first outlet pipes 23, a plurality of second outlet pipes 24 and third outlet pipes 25 for communicating the inner cavity of the outer cylinder 1 and the outer side of the discharge cylinder 2 are disposed between the ends of the partition plate 21 and the baffle 22, which are close to each other, the first outlet pipe 23 is a straight pipe, the second outlet pipe 24 is a pipe which is locally curved, the third outlet pipe 25 is a pipe which is spirally twisted, and the actual lengths of the first outlet pipe 23, the second outlet pipe 24 and the third outlet pipe 25 are equal, i.e. the flowing distances of the cooling liquid in the first outlet pipe 23, the second outlet pipe 24 and the third outlet pipe 25 are equal, so that the cooling liquid can be uniformly dispersed and flowed out, uneven distribution is avoided, excessive branching refrigerants are caused, the heat exchange pipes are frosted, incomplete evaporation is caused, the liquid flows out of the heat exchange pipes, and the branching refrigerants are too little, the heat transfer area of the heat exchange pipes is not fully utilized, the refrigerating capacity is reduced, and the suction liquid is possibly caused, and reliability and practicability of the air cooler are affected;

Specifically, the first water outlet pipes 23 are uniformly distributed outside one end of the partition plate 21 and the baffle 22, the second water outlet pipes 24 are uniformly distributed inside one end of the partition plate 21 and the baffle 22, the third water outlet pipe 25 is positioned in the middle of one end of the partition plate 21 and the baffle 22, i.e. the first water outlet pipes 23, the second water outlet pipes 24 and the third water outlet pipes 25 are uniformly placed between the partition plate 21 and the baffle 22 in sequence from outside to inside;

Specifically, referring to fig. 2-3, a rotating shaft 141 is horizontally arranged at the lower part of the inner surface of the outer cylinder 1, a filtering mechanism 5 for filtering the cooling liquid is arranged in the middle of the outer surface of the rotating shaft 141, the filtering mechanism 5 comprises a rotating wheel 51 rotatably connected to the rotating shaft 141, the rotating wheel 51 vertically rotates in the outer cylinder 1 so as to conveniently receive the cooling liquid sprayed from the water inlet pipe 11, a plurality of storage tanks 52 are uniformly arranged on the outer surface of the rotating wheel 51, a rectangular frame 53 and a rectangular filter plate 54 mutually clung to the rectangular frame 53 are respectively arranged at one side of the storage tanks 52 far from the rotating shaft 141 and one side close to the rotating shaft 141, a first spring is commonly arranged between one end of the rectangular filter plate 54 mutually close to the rectangular frame 53, and the first spring is fixedly connected to four included angles of the rectangular filter plate 54;

Specifically, the horizontal cross section size of the rectangular filter plate 54 is smaller than the outer side size of the horizontal cross section of the rectangular frame 53, the horizontal cross section size of the rectangular filter plate 54 is larger than the inner side size of the horizontal cross section of the rectangular frame 53, dust particles in air and lubricating oil with poor oxidation resistance work to generate carbon deposition and jelly which can enter an air cooler system to cause blockage of the device, so the rectangular frame 53 and the rectangular filter plate 54 are arranged, cooling liquid can immediately flow into the storage tank 52 after entering the outer cylinder 1, the rectangular frame 53 and the rectangular filter plate 54 are separated by the impact force of the cooling liquid, so that part of the cooling liquid together with impurities flows into the storage tank 52, after the storage tank 52 at the position leaves the current position, the cooling liquid can flow out again through the rectangular filter plate 54, and the impurities are intercepted in the storage tank 52 by the rectangular filter plate 54, so that the impurities in the device are removed as much as possible, and the blockage to the first water outlet pipe 23, the second water outlet pipe 24 and the third water outlet pipe 25 is avoided;

Specifically, the portion of the rectangular filter plate 54 located inside the rectangular frame 53 has a pyramid-shaped structure so that the impurities can quickly pass through the gap between the rectangular frame 53 and the rectangular filter plate 54 to the storage tank 52 following the cooling liquid;

Further, referring to fig. 2 and 4, the left part of the inner surface of the outer cylinder 1 and the left part of the lower end of the exhaust mechanism 3 are respectively provided with a second inclined plate 16 and a first inclined plate 15, the first inclined plate 15 and the second inclined plate 16 are respectively positioned at the upper side and the lower side of the water inlet pipe 11, and a part of the first inclined plate 15 and a part of the second inclined plate 16 far away from the water inlet pipe 11 are both directed to one of the storage tanks 52, so that after entering the outer cylinder 1, the cooling liquid directly floods into the storage tanks 52 under the guidance of the first inclined plate 15 and the second inclined plate 16 to impact the rectangular filter plate 54;

Further, the front and rear parts of the first inclined plate 15 are respectively provided with the air outlets 151, and the two air outlets 151 are respectively positioned at the front side and the rear side of the water inlet pipe 11 in the same horizontal plane, so that the cooling liquid can not leave from the air outlets 151, but the cooling liquid can be baffled and separated when leaving the water inlet pipe 11 and hitting the first inclined plate 15, and the gas can be baffled and removed if the gas is blocked and the liquid continues to have a forward speed due to inertia when the liquid and the gas are mixed together due to different specific gravity of the gas and the liquid, and finally the forward liquid is gathered downwards under the action of gravity.

Therefore, the specific implementation manner of this embodiment is as follows:

After the cooling liquid is poured into the outer cylinder 1 through the water inlet pipe 11, the cooling liquid firstly collides on the first inclined plate 15, so that the air flow in the cooling liquid is separated, the rest cooling liquid flows to the storage tank 52 under the guidance of the first inclined plate 15 and the second inclined plate 16, impacts the rectangular filter plate 54, forces the rectangular filter plate 54 to continuously move back and forth in the storage tank 52, so that impurities can enter the storage tank 52 along with the cooling liquid, the rotating wheel 51 is pushed to rotate, and when the storage tank 52 for storing the cooling liquid rotates to the lower part of the rotating wheel 51, the cooling liquid flows out through the rectangular filter plate 54 again, and the impurities are reserved in the storage tank 52, so that the impurities in the cooling liquid are reduced as much as possible, the blocking of the impurities to the first water outlet pipe 23, the second water outlet pipe 24 and the third water outlet pipe 25 is avoided, and finally the cooling liquid is uniformly distributed out through the plurality of the first water outlet pipes 23, the second water outlet pipes 24 and the third water outlet pipes 25, and the heat exchange pipes are cooled.

Example two

In the embodiment, on the basis of the first embodiment, by adding the exhaust mechanism 3 and the rotating rod 6 so as to exhaust redundant gas in the outer cylinder 1, the situation that the redundant gas and the cooling liquid flow out together is avoided, so that the distribution of all the branched cooling liquids is uneven is avoided, as shown in fig. 4-10, a second sealing box 14 sleeved outside the rotating shaft 141 is arranged in the middle of the front end of the rotating wheel 51, one end of the rotating shaft 141 positioned in the second sealing box 14 is rotationally connected to the inner wall of the second sealing box 14, the front parts of the second sealing box 14 and the rotating shaft 141 extend to the outer side of the outer cylinder 1, a first sealing box 13 is arranged at the upper part of the outer surface of the outer cylinder 1, one end of the first sealing box 13 close to the outer cylinder 1 extends to the inner cavity of the outer cylinder 1, a transmission shaft 131 is arranged in the inner part of the first sealing box 13, and a transmission belt 17 penetrating through the side walls of the first sealing box 13 and the second sealing box 14 is jointly arranged between the part of the outer surface of the outer cylinder 1 and the transmission shaft 141 positioned outside the outer cylinder 1, namely the transmission belt 17 is positioned outside the outer cylinder 1, so that the rotating wheel 51 rotates under the pushing of the cooling liquid and drives the transmission shaft 141 and the transmission belt 17 to rotate together;

Specifically, a part of the lower end of the first sealing box 13 positioned in the outer cylinder 1 is provided with a rotating rod 6 positioned on the central line of the outer cylinder 1, the upper end of the rotating rod 6 extends into the first sealing box 13 and is rotationally connected to the top wall of the first sealing box 13, the outer surface of the first sealing box 13 and one end of a transmission shaft 131 close to the rotating rod 6 are jointly provided with a bevel gear set 132, the bevel gear set 132 consists of two bevel gears, so that the rotating rod 6 can rotate along with the transmission shaft 131, the middle lower part of the outer surface of the rotating rod 6 is provided with an inclined elliptical ring groove 61, the lower part of the outer surface of the rotating rod 6 is provided with a first sealing plate 63 positioned on the inner side of the exhaust mechanism 3, the left part of the upper end of the first sealing plate 63 is provided with a unidirectional circulation mechanism, the unidirectional circulation mechanism consists of a sealing gasket, a circulation port and a spring, and the first sealing plate 63 moves upwards, the unidirectional circulation mechanism is in a closed state, the air flow below the exhaust mechanism 3 cannot flow above the exhaust mechanism 3, but when the first sealing plate 63 moves downwards, the inner side of the positioning ring 32 is in a closed state, the unidirectional circulation mechanism is opened, so that redundant air on the inner side of the positioning ring 32 leaves through the unidirectional circulation mechanism, the structure is similar to a unidirectional valve, and the circulation of media is completed by utilizing the pressure difference on two sides, so that the unidirectional circulation mechanism is regarded as a simple prior art, and is not excessively displayed, therefore, in the actual use process, the unidirectional circulation mechanism can be replaced by the unidirectional valve for use, the upper end of the first sealing plate 63 is provided with the first L-shaped movable rod 62, the horizontal part of the first L-shaped movable rod 62 is connected in the inclined elliptical groove 61 in a sliding way, so that the first sealing plate 63 can slide in the inclined elliptical ring groove 61 by the first L-shaped moving rod 62 to move the first sealing plate 63 up and down by the rotation of the rotating rod 6;

From this, it can be seen that when the rotating wheel 51 is impacted by the cooling liquid to rotate, the rotating shaft 141 is driven to rotate together, then the rotating shaft 141 drives the rotating rod 6 to rotate through the driving belt 17, the driving shaft 131 and the bevel gear set 132, and the first sealing plate 63 is controlled to move up and down on the inner side of the exhaust mechanism 3, so that the gas flowing into the outer cylinder 1 together with the cooling liquid is pumped away;

Referring to fig. 5-7, the exhaust mechanism 3 includes a positioning ring 32 fixedly connected to an upper portion of an inner surface of the outer cylinder 1, a sliding groove 321 penetrating an upper end of the positioning ring 32 is formed in both a left portion of the inner surface and a right portion of the inner surface of the positioning ring 32, a ventilation ring groove 322 penetrating an upper end of the positioning ring 32 is formed in an upper portion of the inner surface of the positioning ring 32, when the first sealing plate 63 moves within a range of the ventilation ring groove 322, air flow inside the positioning ring 32 flows out from a gap between the first sealing plate 63 and an inner wall of the ventilation ring groove 322, the first sealing plate 63 is slidably connected to an inner surface of the positioning ring 32 and an inner portion of the sliding groove 321, the first sealing plate 63 can only move up and down under a limit of the sliding groove 321 and cannot rotate along with the rotating rod 6, a concave groove 35 is formed in a lower portion of the inner surface of the positioning ring 32, a regular hexagonal groove 351 is formed in an outer side of a bottom wall of the concave groove 35, and the opening and closing mechanism 7 is formed inside the concave groove 35;

Referring to fig. 7-8, the opening and closing mechanism 7 includes a rotating ring 71 rotatably connected to an upper portion of the concave groove 35 and six second sealing plates 75 located at a lower portion of the concave groove 35, six limiting frames 72 are uniformly disposed on an inner surface of the rotating ring 71, a sliding rod 77 slidably connected to an inner side of the limiting frame 72 located at the same side is disposed at an upper end of the second sealing plates 75, and a sliding block 76 slidably connected to the regular hexagonal groove 351 is disposed at a lower end of the second sealing plates 75, so that the limiting frames 72 push the sliding rod 77 through rotation of the rotating ring 71, and then the limitation of the regular hexagonal groove 351 to the sliding block 76 is utilized to enable the six second sealing plates 75 to move and open simultaneously or move and close simultaneously, so that the inner side of the positioning ring 32 is conveniently blocked, the air flow in the outer cylinder 1 is prevented from directly flowing out, the air pressure in the outer cylinder 1 is reduced, and the injection of the cooling liquid is affected;

The left part of the outer surface of the rotating ring 71 is provided with a rotating tube 74, the inside of the rotating tube 74 is provided with a second L-shaped moving rod 741 outside the rotating tube 74, and lubricating oil is smeared between the vertical part of the second L-shaped moving rod 741 and the inner surface of the rotating tube 74, so that the second L-shaped moving rod 741 can slide down independently under the action of no external force;

Specifically, the left part of the upper end of the positioning ring 32 is provided with a moving groove 33, the left part of the upper end of the positioning ring 32 is provided with an L-shaped storage box 4 communicated with the moving groove 33, the inner side dimension of the horizontal section of the L-shaped storage box 4 is equal to the horizontal section dimension of the moving groove 33, the moving plate 81 is convenient to move into the L-shaped storage box 4, the middle part and the right part of the bottom wall of the moving groove 33 are respectively provided with a second mounting groove 37 and a first mounting groove 36, the inside of the second mounting groove 37 is provided with a plurality of telescopic rods 372 and a second spring 371 sleeved outside the plurality of telescopic rods 372, one end of the plurality of telescopic rods 372 and the second spring 371 far from the second mounting groove 37 is jointly provided with an adjusting mechanism 8 which is connected with the moving groove 33 and the L-shaped storage box 4 in a sliding way and is used for controlling the rotation of the rotating ring 71, the inside of the first mounting groove 36 is provided with a second fixed pulley 361, the left part of the upper end of the positioning ring 32 is provided with a first fixed pulley 31, the fixed pulley 31 is arranged in the first fixed pulley 361, the fixed pulley 31 and the fixed pulley 361 is arranged in order to guide the pull rope 34, friction resistance when the pull rope 34 moves is reduced, thereby wear of the pull rope 34 is reduced, the service life of the first sealing plate 31 is prolonged, the upper end of the first sealing plate 63 is far from the fixed pulley 63, and the second end of the fixed pulley 63 is far from the fixed pulley 63 is connected with the fixed pulley sealing plate 8;

Therefore, when the first sealing plate 63 moves up, the pull rope 34 is in a releasing state, and then the adjusting mechanism 8 pulls the pull rope 34 to move up under the action of the second spring 371, so that the pull rope 34 is in a tightening state at any time, and when the first sealing plate 63 moves down, the adjusting mechanism 8 can be pulled to move down by pulling the pull rope 34, so as to control the opening and closing state of the opening and closing mechanism 7;

Specifically, referring to fig. 6 and 9-10, an arc groove 38 is formed in the left portion of the top wall of the concave groove 35, a parallelogram groove 381 for communicating with the moving groove 33 is formed in the upper portion of the arc groove 38, the top wall and the bottom wall of the parallelogram groove 381 are inclined surfaces with high front and low rear, the height of the parallelogram groove 381 is larger than the diameter of the horizontal portion of the L-shaped moving stick two 741, the rotating tube 74 is slidably connected in the arc groove 38, and the horizontal portion of the L-shaped moving stick two 741 passes through the parallelogram groove 381 and extends into the moving groove 33;

Specifically, adjustment mechanism 8 includes sliding connection's movable plate 81 in the horizontal portion of movable groove 33 and L type receiver 4, the upper end left portion of movable plate 81 is equipped with L type limiting plate 82, make things convenient for L type limiting plate 82 to extrude L type movable rod two 741 and carry out the back-movement along the slope diapire of parallelogram slot 381 when moving down, the exit slot 84 that runs through the upper and lower both ends of movable plate 81 has been seted up at the left end front portion of movable plate 81, the upper end left portion rear portion of movable plate 81 is equipped with the U type limiting plate 83 of sliding connection in L type limiting plate 82 horizontal portion and vertical portion contained angle department, make adjustment mechanism 8 when moving up-and-down, can be through carrying L type movable rod two 741 and remove the opening and shutting of control mechanism 7 together.

Therefore, the specific implementation manner of this embodiment is as follows:

When the rotating wheel 51 rotates, the rotating rod 6 is controlled to rotate through the rotating shaft 141, the transmission belt 17, the transmission shaft 131 and the bevel gear group 132, then the rotating rod 6 controls the sealing plate I63 to move up and down through the inclined elliptical ring groove 61 and the L-shaped moving rod I62, redundant air flow below the air exhausting mechanism 3 is extracted, the air pressure in the outer cylinder 1 is prevented from continuously increasing, the outer cylinder 1 is prevented from being damaged, when the sealing plate I63 moves upwards, the pulling of the pull rope 34 is released, the limitation on the regulating mechanism 8 is relieved, and then the regulating mechanism 8 moves upwards under the rebound action of the spring II 371;

After the regulating mechanism 8 moves upwards for a certain distance, the horizontal part of the L-shaped movable rod II 741 enters the U-shaped limiting plate 83 positioned at the rear side of the left part of the movable plate 81, then the movable plate 81 and the U-shaped limiting plate 83 drive the L-shaped movable rod II 741 to move upwards together, when the L-shaped movable rod II 741 touches the top wall of the parallelogram groove 381, the upper end surface of the sealing plate I63 and the bottom wall of the ventilation groove 322 are positioned at the same horizontal height, then the regulating mechanism 8 continues to move upwards, the L-shaped movable rod II 741 is moved forwards by utilizing the inclined top wall of the parallelogram groove 381, then the L-shaped movable rod II 741 drags the rotating ring 71 to rotate through the rotating tube 74, so that the opening and closing mechanism 7 is closed slowly, the inner side of the positioning ring 32 is blocked, when the L-shaped movable rod II 741 moves to the front part of the top wall of the parallelogram groove 381, the lower end of the sealing plate I63 and the bottom wall of the ventilation groove 322 are positioned in the same horizontal plane, and the opening and closing mechanism 7 is completely closed, and simultaneously the U-shaped limiting plate 83 moves to the upper part of the outlet groove 84, so that the L-shaped movable rod II can slide down to the bottom wall of the parallelogram groove 381 automatically under the action of the L-shaped movable rod 741 and the action of the U-shaped limiting plate 83 to pass through the front wall 84;

The first sealing plate 63 continues to move upwards, so that the air flow below the exhaust mechanism 3 which is just extracted can pass through the gap between the first sealing plate 63 and the inner wall of the vent ring groove 322, flow to the upper part of the exhaust mechanism 3, and finally leave through the air outlet pipe 12;

After that, the first sealing plate 63 moves downwards, the adjusting mechanism 8 is pulled to move downwards together through the pull rope 34, when the first sealing plate 63 moves back to the inner side of the positioning ring 32 again, the opening and closing mechanism 7 is still in a closed state, then the air flow between the first sealing plate 63 and the opening and closing mechanism 7 is discharged through the unidirectional circulation mechanism, when the first sealing plate 63 moves to the bottom of the inner side of the positioning ring 32, the horizontal part of the second L-shaped moving rod 741 enters the U-shaped limiting plate 83 again through the outlet groove 84, then the inclined bottom wall of the parallelogram groove 381 moves in the inclined downward direction along the rear side under the pushing of the L-shaped limiting plate 82, the rotating tube 74 is dragged to rotate reversely, and the opening and closing mechanism 7 is controlled to be opened again, so that the follow-up repeated work is facilitated, and the reliability of the device is improved.

The foregoing has shown and described the basic principles and main features of the present invention and the advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined in the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (7)

1. The utility model provides a separation type liquid unidirectional liquid separation device for a refrigerating system air cooler, comprises an outer cylinder (1), and is characterized in that: the inner surface middle part and the outer surface upper part of the outer cylinder (1) are respectively provided with a water inlet pipe (11) and an air outlet pipe (12) which are communicated with the inner cavity of the outer cylinder (1), the upper side of the inner part of the outer cylinder (1) is provided with an exhaust mechanism (3), the lower part of the inner surface of the outer cylinder (1) is provided with a horizontally arranged rotating shaft (141), the outer surface middle part of the rotating shaft (141) is provided with a filtering mechanism (5) for filtering cooling liquid, the lower end of the outer cylinder (1) is provided with a discharging cylinder (2), the inner surface middle part and the inner surface bottom of the discharging cylinder (2) are respectively provided with a partition plate (21) and a baffle (22), a plurality of first water outlet pipes (23), a plurality of second water outlet pipes (24) and third water outlet pipes (25) which are used for communicating the inner cavity of the outer cylinder (1) and the outer side of the discharging cylinder (2) are jointly arranged between one ends of the partition plate (21) and the baffle (22), and the actual lengths of the first water outlet pipes (23), the second water outlet pipes (24) and the third water outlet pipes (25) are equal;

The filtering mechanism (5) comprises a rotating wheel (51) which is rotatably connected to the rotating shaft (141), a plurality of storage tanks (52) are uniformly formed on the outer surface of the rotating wheel (51), a rectangular frame (53) and a rectangular filter plate (54) which is mutually clung to the rectangular frame (53) are respectively arranged on one side, far away from the rotating shaft (141), and one side, close to the rotating shaft (141), of the storage tanks (52), and a first spring is commonly arranged between one end, close to the rectangular frame (53), of the rectangular filter plate (54);

The exhaust mechanism (3) comprises a positioning ring (32) fixedly connected to the upper portion of the inner surface of the outer cylinder (1), a chute (321) penetrating through the upper end of the positioning ring (32) is formed in the left portion of the inner surface and the right portion of the inner surface of the positioning ring (32), a ventilation ring groove (322) penetrating through the upper end of the positioning ring (32) is formed in the upper portion of the inner surface of the positioning ring (32), a sealing plate I (63) is slidably connected to the inner surface of the positioning ring (32) and the inside of the chute (321), a concave groove (35) is formed in the lower portion of the inner surface of the positioning ring (32), a regular hexagon groove (351) is formed in the outer side of the bottom wall of the concave groove (35), and an opening and closing mechanism (7) is arranged in the concave groove (35).

2. The split liquid unidirectional liquid separation device for a refrigeration system air cooler of claim 1, wherein: the first water outlet pipes (23) are uniformly distributed on the outer side of one end, close to each other, of the partition plate (21) and the baffle (22), the second water outlet pipes (24) are uniformly distributed on the inner side of one end, close to each other, of the partition plate (21) and the baffle (22), and the third water outlet pipes (25) are located in the middle of one end, close to each other, of the partition plate (21) and the baffle (22).

3. The split liquid unidirectional liquid separation device for a refrigeration system air cooler of claim 1, wherein: the horizontal section size of the rectangular filter plate (54) is smaller than the outer side size of the horizontal section of the rectangular frame (53), and the horizontal section size of the rectangular filter plate (54) is larger than the inner side size of the horizontal section of the rectangular frame (53).

4. A split liquid unidirectional liquid separation device for a refrigeration system air cooler as claimed in claim 3, wherein: the rectangular filter plate (54) is in a pyramid-shaped structure at a part positioned inside the rectangular frame (53).

5. The split liquid unidirectional liquid separation device for a refrigeration system air cooler of claim 1, wherein: the middle part of the front end of the rotating wheel (51) is provided with a second sealing box (14) sleeved on the outer side of the rotating shaft (141), one end of the rotating shaft (141) positioned in the second sealing box (14) is rotationally connected to the inner wall of the second sealing box (14), the front parts of the second sealing box (14) and the rotating shaft (141) both extend to the outer side of the outer cylinder (1), the upper part of the outer surface of the outer cylinder (1) is provided with a first sealing box (13), one end of the first sealing box (13) close to the outer cylinder (1) extends to the inner cavity of the outer cylinder (1), the inside of the first sealing box (13) is provided with a transmission shaft (131), and a transmission belt (17) penetrating through the side walls of the first sealing box (13) and the second sealing box (14) is jointly arranged between the part of the outer surface of the outer side of the outer cylinder (1) and the part of the rotating shaft (141) positioned on the outer side of the outer cylinder (1).

The part that sealed box one (13) lower extreme is located urceolus (1) is equipped with dwang (6) that are located urceolus (1) central line, the upper end of dwang (6) extends to sealed box one (13) in and rotates to be connected on the roof of sealed box one (13), the surface of sealed box one (13) is equipped with bevel gear group (132) jointly with the one end that transmission shaft (131) is close to dwang (6), inclined oval annular groove (61) has been seted up to the surface middle lower part of dwang (6), the surface lower part of dwang (6) is equipped with sealing plate one (63) that are located exhaust mechanism (3) inboard, the upper end of sealing plate one (63) is equipped with L type movable rod one (62), just the horizontal part sliding connection of L type movable rod one (62) is in inclined oval annular groove (61).

6. The separation type liquid unidirectional liquid separation device for a refrigeration system air cooler of claim 5, wherein: the opening and closing mechanism (7) comprises a rotating ring (71) which is rotatably connected to the upper part of the concave groove (35) and six second sealing plates (75) which are positioned at the lower part of the concave groove (35), six limiting frames (72) are uniformly arranged on the inner surface of the rotating ring (71), sliding rods (77) which are slidably connected to the inner sides of the limiting frames (72) positioned on the same side are arranged on one side, which is close to the rotating ring (71), of the upper end of each second sealing plate (75), sliding blocks (76) which are slidably connected to the inner sides of the regular hexagonal grooves (351) are arranged at the lower end of each second sealing plate (75), rotating pipes (74) are arranged on the left part of the outer surface of each rotating ring (71), and L-shaped second moving rods (741) which are arranged on the outer sides of the rotating pipes (74) are arranged inside the rotating pipes;

The left part of the upper end of the positioning ring (32) is provided with a moving groove (33), the left part of the upper end of the positioning ring (32) is provided with an L-shaped storage box (4) communicated with the moving groove (33), the inner side dimension of the horizontal section of the L-shaped storage box (4) is equal to the horizontal section dimension of the moving groove (33), the middle part and the right part of the bottom wall of the moving groove (33) are respectively provided with a second mounting groove (37) and a first mounting groove (36), the inside of the second mounting groove (37) is provided with a plurality of telescopic rods (372) and a second spring (371) sleeved outside the plurality of telescopic rods (372), the multi-section telescopic rod (372) and the spring II (371) are provided with an adjusting mechanism (8) which is connected in the moving groove (33) and the L-shaped storage box (4) in a sliding way and used for controlling the rotating ring (71) to rotate at one end far away from the mounting groove II (37), a fixed pulley II (361) is arranged in the mounting groove I (36), a fixed pulley I (31) is arranged at the left part of the upper end of the positioning ring (32), a pull rope (34) is arranged at the left part of the upper end of the sealing plate I (63), and one end of the pull rope (34) far away from the sealing plate I (63) bypasses the fixed pulley I (31) and the fixed pulley II (361) and is fixedly connected to the adjusting mechanism (8);

An arc groove (38) is formed in the left portion of the top wall of the concave groove (35), a parallelogram groove (381) communicated with the moving groove (33) is formed in the upper portion of the arc groove (38), the rotating tube (74) is slidably connected in the arc groove (38), and the horizontal portion of the L-shaped moving rod II (741) penetrates through the parallelogram groove (381) and extends into the moving groove (33).

7. The separation type liquid unidirectional liquid separation device for a refrigeration system air cooler of claim 6, wherein: adjustment mechanism (8) are including sliding connection at movable trough (33) and L type receiver (4) horizontal portion in movable plate (81), the upper end left part of movable plate (81) is equipped with L type limiting plate (82), the export groove (84) that runs through movable plate (81) upper and lower both ends are seted up at the left end front portion of movable plate (81), the upper end left portion rear portion of movable plate (81) is equipped with U type limiting plate (83) of sliding connection in L type limiting plate (82) horizontal portion and vertical portion contained angle department.