CN113532144A

CN113532144A - Industrial circulating cooling water cooling device

Info

Publication number: CN113532144A
Application number: CN202111009223.0A
Authority: CN
Inventors: 张文德; 欧阳军
Original assignee: Anhui Aixin Automatic Machinery Co ltd
Current assignee: Sanhe Tongfei Refrigeration Co ltd
Priority date: 2021-08-31
Filing date: 2021-08-31
Publication date: 2021-10-22
Anticipated expiration: 2041-08-31
Also published as: CN113532144B

Abstract

The invention discloses an industrial circulating cooling water cooling device, and particularly relates to the technical field of cooling water treatment. Utilize the stock solution bucket to store the cooling water temporarily, make inside the cooling water enough intermittent type gets into the cooling tower, make the inside cooling water of cooling tower get into after having new cooling water again by abundant cooling, improved the cool time of cooling water, increased the cooling efficiency of cooling water.

Description

Industrial circulating cooling water cooling device

Technical Field

The invention relates to the technical field of cooling water treatment, in particular to an industrial circulating cooling water cooling device.

Background

The cooling of the circulating water is the result of the combined action of three processes of evaporation heat dissipation, contact heat dissipation and radiation heat dissipation through the contact of water and air. Evaporation and heat dissipation: the water forms big and small water drops or an extremely thin water film in the cooling equipment, the contact area between the water drops or the extremely thin water film and the air is enlarged, the contact time is prolonged, the evaporation of the water is enhanced, and the water vapor takes away the heat required by gasification from the water so as to cool the water; contact heat dissipation: the water is contacted with air with lower temperature, and the temperature difference causes the heat in the hot water to be transferred to the air, so that the water temperature is reduced; radiation heat dissipation: the phenomenon of thermal energy being propagated by a form of electromagnetic waves, without the action of a heat transfer medium. When the existing cooling water is subjected to circulating treatment, the cooling water cannot be in full contact with a filler inside a cooling tower for heat dissipation, the dead time inside the cooling tower is short, the cooling efficiency of the cooling water is low, partial water is discharged along with hot air, and the waste of water resources is caused.

Disclosure of Invention

The present invention is directed to an industrial circulating cooling water cooling device to solve the above problems.

In order to solve the technical problems, the invention adopts the following technical scheme: the industrial circulating cooling water cooling device comprises a discharging assembly, wherein the discharging assembly comprises a fixed support, symmetrical supporting plates are arranged in the fixed support, a liquid storage barrel is arranged at the top end of the supporting plate at the bottom layer, a piston is arranged in the liquid storage barrel in a sliding mode, a screw rod is arranged at the center of the top end of the piston, a threaded barrel is arranged on the screw rod in a threaded mode, a first outer gear is arranged in the middle of the outer ring of the threaded barrel, a side gear is meshed with the first outer gear, and a transmission shaft is arranged at the center of the side gear; the cooling assembly is installed to ejection of compact subassembly one side, the cooling assembly is including the tower body, the inside upper end of tower body is equipped with the fan, the inside middle-end of tower body is equipped with the otter board of symmetry, the symmetry it has filler to fill between the otter board.

Preferably, a liquid inlet pipe is installed on one side of the liquid storage barrel, the liquid inlet pipe penetrates through the fixing support, and the liquid storage barrel is installed between the symmetrical supporting plates.

Preferably, the piston outside is equipped with the rubber layer, the rubber layer contacts with liquid storage barrel inner wall, the symmetrical guide bar is installed at the piston top, spacing piece is all installed at guide bar and screw rod top.

Preferably, a plurality of gas pocket has been seted up to piston top annular, the fixing base of symmetry is installed to the gas pocket bottom, the symmetry install the dead lever of symmetry between the fixing base, it is equipped with the semicircle dish to rotate on the dead lever, extension spring is installed on the semicircle dish top, the round hole of a plurality of symmetry is seted up to piston bottom annular, extension spring slides and sets up inside the round hole, extension spring top and the inside top fixed connection of round hole, the symmetry fixing base fixed mounting is in the piston bottom, the semicircle dish top is laminated with the gas pocket bottom.

Preferably, the threaded cylinder is rotatably arranged on the fixed bracket and the bearing plate at the top layer through a bearing, and the transmission shaft is rotatably arranged on the fixed bracket through a bearing.

Preferably, a second external gear is arranged on the transmission shaft, a rack is meshed with the second external gear, a gear ring is installed on one side, away from the gear teeth, of the rack, symmetrical limiting strips are installed on one side, away from the liquid storage barrel, of the gear ring, symmetrical limiting blocks are installed on the limiting strips, the gear ring and the limiting blocks can slide on the fixed support and the supporting plate on the top layer, and the rack penetrates through the fixed support and the supporting plate on the top layer.

Preferably, the ring gear internal gearing has half face gear, half face gear center department installs the drive shaft, the drive shaft passes through the bearing and rotates the setting on the fixed bolster, the one end that the liquid storage bucket was kept away from to the drive shaft is installed the third external gear, the meshing of third external gear has the fourth external gear, servo motor is installed in the fixed bolster outside, servo motor output and fourth external gear center department fixed connection.

Preferably, the ring is installed to the fan below, ring outer lane and tower body inner wall fixed connection, the inside distribution of ring has a plurality of wave plate, a plurality of the reposition of redundant personnel pipeline is installed to wave plate below, reposition of redundant personnel pipeline bottom ring shape distributes and has a plurality of nozzle, reposition of redundant personnel pipeline top center department installs the connecting tube, the inside intercommunication of connecting tube, reposition of redundant personnel pipeline and nozzle, the connecting tube runs through a plurality of wave plate and tower body, the one end that the tower body was kept away from to the connecting tube runs through the bearing plate and the stock solution barrel bottom of bottom, and with the inside intercommunication of stock solution barrel.

Preferably, the symmetry the otter board outer lane and tower body inner wall fixed connection, pack inside the storing space that forms between the otter board of tower body and symmetry, the symmetry the nozzle below that a plurality of annular distributes is installed to the otter board, the cone funnel is installed to the tower body bottom, the air inlet is installed to tower body outer lane lower extreme, air inlet and the inside intercommunication of tower body, the air inlet is installed between the otter board and the cone funnel of bottom.

The invention uses the liquid storage barrel to temporarily store the cooling water, so that the cooling water can intermittently enter the cooling tower, and new cooling water can enter the cooling tower after the cooling water in the cooling tower is fully cooled, thereby improving the cooling time of the cooling water and increasing the cooling efficiency of the cooling water.

The invention uses the servo motor to rotate the driving shaft, the driving shaft rotates to drive the transmission shaft to rotate in a reciprocating way, the transmission shaft rotates in a reciprocating way to drive the screw rod to lift in a reciprocating way, and the piston is driven to move in a reciprocating way by the lifting of the screw rod and intermittently extrude cooling water to enable the cooling water to flow into the interior of the tower body from the connecting pipeline.

The invention utilizes the water film formed between the cooling water and the filler to contact with the cold air entering from the air inlet, so that the water film is formed into water drops to fall to the conical funnel for recycling, the water in the rising hot air is removed by the corrugated plate, and the hot air passing through the corrugated plate is exhausted from the tower body by the fan.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic front view of the present invention.

FIG. 2 is a schematic cross-sectional view of a discharging assembly according to the present invention.

FIG. 3 is a cross-sectional view of a cooling module according to the present invention.

FIG. 4 is an enlarged view of the structure at A in FIG. 2 according to the present invention.

FIG. 5 is an enlarged view of the structure at B in FIG. 2 according to the present invention.

FIG. 6 is an enlarged view of the structure at C in FIG. 2 according to the present invention.

FIG. 7 is an enlarged view of the structure shown at D in FIG. 3 according to the present invention.

In the figure: 1. a discharge assembly; 101. fixing a bracket; 102. a liquid storage barrel; 103. a liquid inlet pipe; 104. a support plate; 105. a piston; 106. air holes; 107. a fixed seat; 108. fixing the rod; 109. a semicircular disc; 110. an extension spring; 111. a guide bar; 112. a screw; 113. a threaded barrel; 114. a first external gear; 115. a side gear; 116. a drive shaft; 117. a second external gear; 118. a rack; 119. a toothed ring; 120. a limiting strip; 121. a half-face gear; 122. a drive shaft; 123. a third external gear; 124. a fourth external gear; 125. a servo motor; 2. a cooling assembly; 201. a tower body; 202. a fan; 203. a circular ring; 204. a corrugated plate; 205. a diversion pipeline; 206. a nozzle; 207. connecting a pipeline; 208. a screen plate; 209. a filler; 210. a conical funnel; 211. an air inlet.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example (b): as shown in fig. 1-7, the present invention provides an industrial circulating cooling water cooling device, which comprises a discharging assembly 1, wherein the discharging assembly 1 comprises a fixing support 101, symmetrical support plates 104 are installed inside the fixing support 101, a liquid storage barrel 102 is installed on the top end of the bottom support plate 104, the liquid storage barrel 102 is used for temporarily storing cooling water, a liquid inlet pipe 103 is installed on one side of the liquid storage barrel 102, the liquid inlet pipe 103 penetrates through the fixing support 101, the liquid inlet pipe 103 is used for enabling the cooling water to enter the liquid storage barrel 102, the liquid storage barrel 102 is installed between the symmetrical support plates 104, and the liquid storage barrel 102 is supported by the support plates 104.

A piston 105 is arranged in the liquid storage barrel 102 in a sliding manner, cooling water in the liquid storage barrel 102 is extruded by the lifting of the piston 105, a plurality of air holes 106 are annularly formed in the top end of the piston 105, when the piston 105 is lifted by the air holes 106, air can enter the lower part of the piston through the air holes 106, symmetrical fixing seats 107 are arranged at the bottom end of the air holes 106, symmetrical fixing rods 108 are arranged between the symmetrical fixing seats 107, a semicircular disc 109 is rotatably arranged on the fixing rods 108, so that the semicircular disc 109 can deflect around the fixing rods 108, an extension spring 110 is arranged at the top end of the semicircular disc 109, a plurality of symmetrical round holes are annularly formed in the bottom end of the piston 105, the extension spring 110 is arranged in the round holes in a sliding manner, the top end of the extension spring 110 is fixedly connected with the top end in the round holes, the extension spring 110 is used for assisting the return of the semicircular disc 109, the symmetrical fixing seats 107 are fixedly arranged at the bottom end of the piston 105, and the top end of the semicircular disc 109 is attached to the bottom end of the air holes 106, so that the half disc 109 can seal the process of lowering the piston 105.

Piston 105 top center department is equipped with screw rod 112, and the piston 105 outside is equipped with the rubber layer, and the rubber layer contacts with liquid storage barrel 102 inner wall, utilizes the rubber layer to carry out sealedly to piston 105 moving process, and the guide bar 111 of symmetry is installed on piston 105 top, utilizes guide bar 111 to carry on spacingly to piston 105 lift process, and spacing piece is all installed on guide bar 111 and screw rod 112 top, utilizes spacing piece to carry on spacingly to guide bar 111 and screw rod 112 moving process.

The screw 112 is provided with a thread cylinder 113 in a threaded manner, the screw 112 is lifted and lowered by rotating the thread cylinder 113, the middle of the outer ring of the thread cylinder 113 is provided with a first external gear 114, the first external gear 114 is engaged with a side gear 115, a transmission shaft 116 is arranged at the center of the side gear 115, the thread cylinder 113 can be rotated by rotating the transmission shaft 116, the thread cylinder 113 is rotatably arranged on the fixed support 101 and the supporting plate 104 at the top layer through a bearing, and the transmission shaft 116 is rotatably arranged on the fixed support 101 through a bearing, so that the thread cylinder 113 and the transmission shaft 116 can be rotated.

The transmission shaft 116 is provided with a second external gear 117, the second external gear 117 is meshed with a rack 118, one side of the rack 118, which is far away from the gear teeth, is provided with a gear ring 119, so that the gear ring 119 can move to drive the second external gear 117 to rotate, one side of the gear ring 119, which is far away from the liquid storage barrel 102, is provided with symmetrical limiting strips 120, symmetrical limiting blocks are arranged on the limiting strips 120, the gear ring 119 and the limiting blocks can slide on the fixed support 101 and the supporting plate 104 on the top layer, the rack 118 penetrates through the fixed support 101 and the supporting plate 104 on the top layer, so that the gear ring 119 can slide on the fixed support 101 and the supporting plate 104 on the top layer.

The inside meshing of ring gear 119 has half face gear 121, half face gear 121 installs drive shaft 122 in the center department, drive shaft 122 passes through the bearing and rotates the setting on fixed bolster 101, the one end that drive shaft 122 kept away from liquid storage barrel 102 installs third external gear 123, third external gear 123 meshes has fourth external gear 124, servo motor 125 is installed in the fixed bolster 101 outside, servo motor 125 output and fourth external gear 124 center department fixed connection, make servo motor 125 can drive half face gear 121 on the drive shaft 122 and rotate.

A cooling component 2 is arranged at one side of the discharging component 1, the cooling component 2 comprises a tower body 201, a fan 202 is arranged at the upper end in the tower body 201, the fan 202 is used for cooling steam formed by cooling water to discharge hot air, a circular ring 203 is arranged below the fan 202, the outer ring of the circular ring 203 is fixedly connected with the inner wall of the tower body 201, a plurality of corrugated plates 204 are distributed in the circular ring 203, moisture in the rising hot air is removed by the corrugated plates 204, a shunt pipeline 205 is arranged below the plurality of corrugated plates 204, a plurality of nozzles 206 are distributed at the bottom end of the shunt pipeline 205 in an annular mode to ensure that the cooling water can be uniformly sprayed out from the nozzles 206, a connecting pipeline 207 is arranged at the center of the top end of the shunt pipeline 205, the connecting pipeline 207, the shunt pipeline 205 and the nozzles 206 are communicated with each other, the connecting pipeline 207 penetrates through the plurality of corrugated plates 204 and the tower body 201, one end, far away from the tower body 201, of the connecting pipeline 207 penetrates through the bottom end of the liquid storage barrel 102, and is communicated with the interior of the liquid storage barrel 102, so that the cooling water in the liquid storage barrel 102 can flow into the tower body 201 through the connecting pipeline 207.

Symmetrical screen plates 208 are arranged at the middle end in the tower body 201, fillers 209 are filled between the symmetrical screen plates 208, a water layer is formed by the fillers 209 and cooling water, heat in the cooling water can float upwards, the outer rings of the symmetrical screen plates 208 are fixedly connected with the inner wall of the tower body 201, the fillers 209 are filled in storage spaces formed between the tower body 201 and the symmetrical screen plates 208, the symmetrical screen plates 208 are installed below a plurality of nozzles 206 which are distributed annularly, a conical funnel 210 is installed at the bottom end of the tower body 201, an air inlet 211 is installed at the lower end of the outer ring of the tower body 201, the air inlet 211 is communicated with the inside of the tower body 201, the air inlet 211 is installed between the bottom screen plates 208 and the conical funnel 210, cold air can enter the tower body 201 from the air inlet 211, the fillers 209 are cooled, and water vapor can be formed and left.

The working principle is as follows: when the cooling device is used, cooling water for cooling can enter the liquid storage barrel 102 by using the liquid inlet pipe 103, the cooling water is temporarily stored in the liquid storage barrel 102, the fourth external gear 124 is driven to rotate by using the rotation of the servo motor 125, the fourth external gear 124 is meshed with the third external gear 123, the third external gear 123 rotates along with the third external gear 123, the driving shaft 122 is driven to rotate on the fixed bracket 101 by the rotation of the third external gear 123, the half-face gear 121 is driven to rotate by the rotation of the driving shaft 122, the half-face gear 121 rotates the toothed ring 119 to reciprocate, and the toothed ring 119 slides on the fixed bracket 101 and the supporting plate 104 on the top layer by using the limiting strip 120 and the toothed ring 119, so that the toothed ring 119 can slide on the fixed bracket 101 and the supporting plate 104 on the top layer and cannot fall off;

the rack 118 is driven to reciprocate by the reciprocating lifting of the toothed ring 119, the rack 118 is meshed with the second external gear 117, so that the second external gear 117 rotates in a reciprocating manner, the second external gear 117 rotates to drive the transmission shaft 116 at the center of the second external gear to rotate in a reciprocating manner, the transmission shaft 116 rotates in a reciprocating manner to drive the side gear 115 to rotate in a reciprocating manner, the side gear 115 is meshed with the first external gear 114, so that the first external gear 114 rotates in a reciprocating manner, the first external gear 114 rotates to drive the threaded cylinder 113 at the center of the first external gear to rotate in a reciprocating manner, and the threaded cylinder 113 rotates to drive the screw rod 112 to reciprocate;

when the screw 112 descends, the piston 105 is driven to move downwards on the symmetrical guide rods 111, the piston 105 moves downwards to extrude cooling water, the cooling water flows into a diversion pipeline 205 inside the tower body 201 from a connecting pipeline 207 and is uniformly sprayed out from a nozzle 206, when the piston 105 ascends, the semicircular disc 109 can deflect around the fixing rod 108 by utilizing the air pressure difference inside and outside the liquid storage barrel 102, the air hole 106 can be opened, air enters the liquid storage barrel 102, the cooling water is initially cooled by utilizing the air, the cooling water can quickly enter the liquid storage barrel 102, and the semicircular disc 109 and the air hole 106 can be closed by utilizing the extension spring 110;

after the cooling water is sprayed from the nozzle 206, the cooling water forms a water film between the mesh plate 208 and the filler 209, at this time, the cold air enters the filler 209 through the air inlet 211, the water film is cooled, the water film drops to the conical funnel 210, the water is recycled, the water in the rising hot air is removed by the corrugated plate 204, and the hot air passing through the corrugated plate 204 is discharged from the tower body 201 by the fan 202.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims

1. The utility model provides an industrial cycle cooling water cooling device, includes ejection of compact subassembly (1), its characterized in that: the discharging assembly (1) comprises a fixed support (101), symmetrical supporting plates (104) are installed inside the fixed support (101), a liquid storage barrel (102) is installed at the top end of the supporting plate (104) at the bottom layer, a piston (105) is arranged inside the liquid storage barrel (102) in a sliding mode, a screw rod (112) is arranged at the center of the top end of the piston (105), a threaded barrel (113) is arranged on the screw rod (112) in a threaded mode, a first outer gear (114) is arranged in the middle of the outer ring of the threaded barrel (113), a side gear (115) is meshed with the first outer gear (114), and a transmission shaft (116) is arranged at the center of the side gear (115);

cooling module (2) are installed to ejection of compact subassembly (1) one side, cooling module (2) are including tower body (201), the inside upper end of tower body (201) is equipped with fan (202), the inside middle-end of tower body (201) is equipped with otter board (208) of symmetry, the symmetry it has filler (209) to fill between otter board (208).

2. The cooling water device for industrial circulating cooling water as claimed in claim 1, wherein a liquid inlet pipe (103) is installed at one side of the liquid storage barrel (102), the liquid inlet pipe (103) penetrates through a fixed bracket (101), and the liquid storage barrel (102) is installed between symmetrical supporting plates (104).

3. The industrial circulating cooling water cooling device as claimed in claim 1, wherein a rubber layer is arranged on the outer side of the piston (105), the rubber layer is in contact with the inner wall of the liquid storage barrel (102), symmetrical guide rods (111) are installed at the top end of the piston (105), and limiting pieces are installed at the top ends of the guide rods (111) and the screw rod (112).

4. The industrial circulating cooling water cooling device as claimed in claim 1, wherein a plurality of air holes (106) are annularly formed in the top end of the piston (105), symmetrical fixing seats (107) are installed at the bottom end of the air holes (106), symmetrical fixing rods (108) are installed between the symmetrical fixing seats (107), a half disc (109) is rotatably arranged on the fixing rods (108), an extension spring (110) is installed at the top end of the half disc (109), a plurality of symmetrical round holes are annularly formed in the bottom end of the piston (105), the extension spring (110) is slidably arranged inside the round holes, the top end of the extension spring (110) is fixedly connected with the top end inside the round holes, the symmetrical fixing seats (107) are fixedly installed at the bottom end of the piston (105), and the top end of the half disc (109) is attached to the bottom end of the air hole (106).

5. The cooling water device for industrial circulation cooling water as claimed in claim 1, wherein the threaded cylinder (113) is rotatably mounted on the fixed bracket (101) and the top supporting plate (104) through bearings, and the transmission shaft (116) is rotatably mounted on the fixed bracket (101) through bearings.

6. The industrial circulating cooling water cooling device as claimed in claim 1, wherein a second external gear (117) is arranged on the transmission shaft (116), a rack (118) is engaged with the second external gear (117), a toothed ring (119) is arranged on one side of the rack (118) far away from the gear teeth, symmetrical limiting strips (120) are arranged on one side of the toothed ring (119) far away from the liquid storage barrel (102), symmetrical limiting blocks are arranged on the limiting strips (120), the toothed ring (119) and the limiting blocks can slide on the fixed bracket (101) and the supporting plate (104) on the top layer, and the rack (118) penetrates through the fixed bracket (101) and the supporting plate (104) on the top layer.

7. The industrial circulating cooling water cooling device as claimed in claim 6, wherein a half face gear (121) is engaged inside the gear ring (119), a driving shaft (122) is installed at the center of the half face gear (121), the driving shaft (122) is rotatably arranged on the fixed bracket (101) through a bearing, a third external gear (123) is installed at one end of the driving shaft (122) far away from the liquid storage barrel (102), a fourth external gear (124) is engaged with the third external gear (123), a servo motor (125) is installed outside the fixed bracket (101), and the output end of the servo motor (125) is fixedly connected with the center of the fourth external gear (124).

8. The industrial circulating cooling water cooling device as claimed in claim 1, wherein a ring (203) is installed below the fan (202), the outer ring of the ring (203) is fixedly connected with the inner wall of the tower body (201), a plurality of corrugated plates (204) are distributed inside the ring (203), a plurality of flow dividing pipes (205) are installed below the corrugated plates (204), a plurality of nozzles (206) are distributed at the bottom end of the flow dividing pipes (205) in an annular manner, a connecting pipe (207) is installed at the center of the top end of the flow dividing pipe (205), the connecting pipe (207), the flow dividing pipe (205) and the nozzles (206) are communicated internally, the connecting pipe (207) penetrates through the plurality of corrugated plates (204) and the tower body (201), and one end of the connecting pipe (207), which is far away from the tower body (201), penetrates through the bottom end of the bottom supporting plate (104) and the bottom end of the liquid storage barrel (102), and is communicated with the interior of the liquid storage barrel (102).

9. The industrial circulating cooling water cooling device as claimed in claim 8, wherein the symmetrical outer ring of the mesh plate (208) is fixedly connected with the inner wall of the tower body (201), the filler (209) is filled in the storage space formed between the tower body (201) and the symmetrical mesh plate (208), the symmetrical mesh plate (208) is installed below a plurality of annularly distributed nozzles (206), the bottom end of the tower body (201) is provided with a conical funnel (210), the lower end of the outer ring of the tower body (201) is provided with an air inlet (211), the air inlet (211) is communicated with the interior of the tower body (201), and the air inlet (211) is installed between the mesh plate (208) and the conical funnel (210) at the bottom layer.