CN216225865U - Automatic cleaning device for water baffle - Google Patents

Automatic cleaning device for water baffle Download PDF

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Publication number
CN216225865U
CN216225865U CN202122020022.2U CN202122020022U CN216225865U CN 216225865 U CN216225865 U CN 216225865U CN 202122020022 U CN202122020022 U CN 202122020022U CN 216225865 U CN216225865 U CN 216225865U
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China
Prior art keywords
water
water baffle
cleaning device
slide rail
automatic cleaning
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CN202122020022.2U
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Chinese (zh)
Inventor
郑红星
李能
汪波
陈建新
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Zhejiang Zhongfu Air Treatment Equipment Co ltd
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Zhejiang Zhongfu Air Treatment Equipment Co ltd
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Abstract

The utility model provides an automatic cleaning device for a water baffle, and belongs to the technical field of air conditioning equipment in a chemical fiber spinning process. It includes the shell body, the shell body in still be equipped with the breakwater of densely covered ventilation hole, the shell body both sides be equipped with two vertical slide rails, sliding connection has horizontal slide rail between two vertical slide rails, the shell body in still be equipped with and drive horizontal slide rail along the gliding lift actuating mechanism of vertical direction, horizontal slide rail on still sliding connection have the nozzle holder. When the double cleaning mechanisms clean the water baffle, compressed gas is blown to the water baffle to blow away floating and sinking of the surface of the water baffle, the water baffle is cleaned in a water spraying mode, the lifting driving mechanism can drive the transverse slide rail to move along the vertical direction, and the translation driving mechanism can drive the nozzle seat to reciprocate along the horizontal direction, so that the double cleaning mechanisms on the nozzle seat can move to each position of the water baffle, and the cleaning of each position of the water baffle can be completed.

Description

Automatic cleaning device for water baffle
Technical Field
The utility model belongs to the technical field of air conditioning equipment in a chemical fiber spinning process, and relates to an automatic cleaning device for a water baffle.
Background
The spinning air conditioning humidification section generally adopts a spray humidification mode because of large air supply quantity and high process air supply humidity requirement, a spray water tank is arranged at the spray section at the lower part of the unit, and a water baffle is arranged at the side of the water tank close to a fan; the chemical fiber spinning air conditioner has high requirements on process air, particularly higher requirements on air supply humidity due to the chemical fiber process, and the air conditioning unit operates for years. Therefore, the air conditioner spraying also runs for a long time, and the spraying water baffle cannot be cleaned in time due to the long-term running of the unit, so that the resistance of the water baffle is increased, the frequency of the fan is increased, and the energy consumption of the air conditioner is obviously improved. The safe operation of the unit is also influenced to a certain extent. Traditional spraying cleaning can only wait until the factory overhauls and shuts down, just can get into the air conditioner inside and do the cleaning work, shuts down the washing and can cause certain influence to production.
In order to overcome the defects of the prior art, people continuously explore and propose various solutions, for example, chinese patent discloses a ball collecting and driving device for an online cleaning system of a central air-conditioning condenser [ application number: 201020191388.5], including a ball suction port, a water discharge port, a venturi tube as a mixed ball water pressurizing device, a ball stopping chamber for holding the cleaning ball, a sight glass for loading the cleaning ball into the online cleaning system, a water return chamber, and a ball injection port.
SUMMERY OF THE UTILITY MODEL
The utility model aims to solve the problems and provides an automatic cleaning device for a water baffle.
In order to achieve the purpose, the utility model adopts the following technical scheme:
the utility model provides a breakwater self-cleaning device, includes the shell body, the shell body in still be equipped with the breakwater of densely covered ventilation hole, the shell body both sides be equipped with two vertical slide rails, sliding connection has horizontal slide rail between two vertical slide rails, the shell body in still be equipped with and drive horizontal slide rail along the gliding lift actuating mechanism of vertical direction, horizontal slide rail on still sliding connection have a nozzle base, nozzle base on be equipped with dual wiper mechanism, horizontal slide rail on still be equipped with and drive nozzle base along the reciprocating sliding's of horizontal slide rail translation actuating mechanism.
In the above automatic cleaning device for the water baffle, the double cleaning mechanism comprises two splitter plates connected with the nozzle seat through a connecting pipe, three high-pressure water nozzles and three compressed air nozzles are respectively arranged on the two splitter plates, and the high-pressure water nozzles are arranged on the upper side of the compressed air nozzles.
In the automatic cleaning device for the water baffle, the nozzle seat is internally provided with a water inlet channel connected with the high-pressure water nozzle and an air inlet channel connected with the compressed air nozzle, and the water inlet channel and the air inlet channel are respectively connected with cleaning water and compressed air through hoses.
In the above automatic cleaning device for the water baffle, the water inlet channel and the air inlet channel are respectively provided with a water inlet electromagnetic valve and an air inlet electromagnetic valve.
In the automatic cleaning device for the water baffle, two sides of the water baffle are respectively provided with an air pressure sensor.
In the above automatic cleaning device for the water baffle, the lifting driving mechanism comprises fixed pulleys arranged on the upper sides of the two vertical slide rails, driving wheels connected with the circumferential driver are arranged on the lower sides of the vertical slide rails, and steel wire ropes are fixedly wound on the driving wheels and penetrate through the fixed pulleys and are fixedly connected with the tops of the transverse slide rails.
In the automatic cleaning device for the water baffle, the vertical slide rail is provided with a vertically arranged first slide groove, the transverse slide rail is inserted into the first slide groove, and the bottom of the first slide groove is fixedly connected with the lower baffle.
In the automatic cleaning device for the water baffle, a second sliding groove is horizontally arranged in the transverse sliding rail, and the nozzle base is inserted into the second sliding groove and is in sliding connection with the second sliding groove.
In the above automatic cleaning device for the water baffle, the translation driving mechanism comprises a translation driver arranged on one side of the second sliding groove, the translation driver is provided with an output shaft capable of rotating along the circumferential direction, the end part of the output shaft of the translation driver is fixedly connected with a translation screw rod, and the translation screw rod is horizontally arranged in the second sliding groove and is in threaded connection with the bottom of the spray head seat.
In the automatic cleaning device for the water baffle, the high-pressure water spray head and the compressed air spray head can be horizontally arranged or obliquely arranged.
Compared with the prior art, the utility model has the advantages that:
1. when the double cleaning mechanisms clean the water baffle, compressed gas is blown to the water baffle to blow away floating and sinking of the surface of the water baffle, the water baffle is cleaned in a water spraying mode, the lifting driving mechanism can drive the transverse slide rail to move along the vertical direction, and the translation driving mechanism can drive the nozzle seat to reciprocate along the horizontal direction, so that the double cleaning mechanisms on the nozzle seat can move to each position of the water baffle, and the cleaning of each position of the water baffle can be completed.
2. The spray head seat can let in compressed gas to the flow distribution plate through the connecting pipe, thereby can get rid of the heavy float on the breakwater from the blowout in the compressed gas shower nozzle after the flow distribution plate reposition of redundant personnel, and the back is got rid of to heavy float, and the spray head seat can carry water to the flow distribution plate that links to each other with high-pressure water shower nozzle in through another connecting pipe, thereby can wash the breakwater through three high-pressure water shower nozzles water spray to the breakwater simultaneously behind the flow distribution plate reposition of redundant personnel.
3. The air pressure sensors on the two sides of the water baffle can detect air pressure on the two sides of the water baffle, when the water baffle is blocked, air pressure difference can be formed on the two sides of the water baffle, and when the air pressure difference exceeds a preset air pressure difference value, the double cleaning mechanism works to clean the water baffle until the air pressure difference on the two sides of the water baffle is recovered to be smaller than a preset value.
Additional advantages, objects, and features of the utility model will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the utility model.
Drawings
FIG. 1 is a schematic view of a partial structure of the present invention;
FIG. 2 is a schematic cross-sectional view of the present invention;
fig. 3 is a schematic structural view of a nozzle base;
FIG. 4 is an enlarged schematic view at A in FIG. 1;
fig. 5 is an enlarged schematic view at B in fig. 2.
In the figure: the device comprises an outer shell 1, a water baffle 2, a vertical slide rail 3, a transverse slide rail 4, a lifting driving mechanism 5, a nozzle seat 6, a double cleaning mechanism 7, a translation driving mechanism 8, a connecting pipe 9, a flow dividing plate 10, a high-pressure water nozzle 11, a compressed air nozzle 12, a water inlet flow channel 13, an air inlet flow channel 14, a hose 15, a water inlet electromagnetic valve 16, an air inlet electromagnetic valve 17, an air pressure sensor 18, a fixed pulley 19, a circumferential driver 20, a driving wheel 21, a steel wire rope 22, a first sliding groove 23, a lower baffle 25, a second sliding groove 26, a translation driver 27 and a translation screw 28.
Detailed Description
As shown in fig. 1-5, an automatic cleaning device for water baffles comprises an outer shell 1, the outer shell 1 is internally provided with water baffles 2 densely distributed with ventilation holes, two vertical slide rails 3 are arranged on two sides of the outer shell 1, a transverse slide rail 4 is connected between the two vertical slide rails 3 in a sliding manner, the outer shell 1 is internally provided with a lifting driving mechanism 5 capable of driving the transverse slide rail 4 to slide along the vertical direction, the transverse slide rail 4 is further connected with a nozzle seat 6 in a sliding manner, the nozzle seat 6 is provided with a double cleaning mechanism 7, and the transverse slide rail 4 is further provided with a translation driving mechanism 8 capable of driving the nozzle seat 6 to slide along the transverse slide rail 4 in a reciprocating manner.
In this embodiment, when dual wiper mechanism washd the breakwater, blow compressed gas earlier to the breakwater and blow away the sinking and floating of breakwater surface, the mode of rethread water spray washs the breakwater, lifting drive mechanism 5 can drive horizontal slide rail 4 and move along vertical direction, translation actuating mechanism 8 can drive nozzle seat 6 along horizontal direction reciprocating motion to can make dual wiper mechanism on the nozzle seat remove to each position of breakwater, can accomplish the washing to each position of breakwater.
Specifically, as shown in fig. 1 to 5, the double cleaning mechanism 7 includes two splitter plates 10 connected to the nozzle seat 6 through a connecting pipe 9, three high pressure water nozzles 11 and three compressed air nozzles 12 are respectively disposed on the two splitter plates 10, and the high pressure water nozzles 11 are disposed on the upper side of the compressed air nozzles 12. The nozzle seat can let in compressed gas to the flow distribution plate through the connecting pipe, thereby can get rid of the heavy float on the breakwater from the blowout in the compressed gas shower nozzle after the flow distribution plate reposition of redundant personnel, and after the heavy float is got rid of, the nozzle seat can carry water to the flow distribution plate that links to each other with high pressure water nozzle 11 in through another connecting pipe, thereby can wash the breakwater through three high pressure water nozzles 11 water spray to the breakwater simultaneously behind the flow distribution plate reposition of redundant personnel.
Specifically, as shown in fig. 1 to 5, the nozzle seat 6 is further provided with a water inlet channel 13 connected to the high pressure water nozzle 11 and an air inlet channel 14 connected to the compressed air nozzle 12, and the water inlet channel 13 and the air inlet channel 14 are respectively connected to the cleaning water and the compressed air through hoses 15. The cleaning water and the compressed air are input into the water inlet flow passage 13 and the air inlet flow passage 14 through the hoses and then input into the two splitter plates through the connecting pipes.
Specifically, as shown in fig. 1 to 5, a water inlet solenoid valve 16 and an air inlet solenoid valve 17 are respectively disposed in the water inlet flow passage 13 and the air inlet flow passage 14. The water inlet electromagnetic valve 16 and the air inlet electromagnetic valve 17 can control the high-pressure water spray head 11 and the three compressed air spray heads 12 to spray water and air.
Specifically, as shown in fig. 1-5, two air pressure sensors 18 are respectively disposed on two sides of the water guard 2. The air pressure sensors 18 on the two sides of the water baffle can detect the air pressure on the two sides of the water baffle, when the water baffle is blocked, the two sides of the water baffle can form air pressure difference, and when the air pressure difference exceeds a preset air pressure difference value, the double cleaning mechanism works to clean the water baffle until the air pressure difference on the two sides of the water baffle is recovered to be less than a preset value.
It will be appreciated by those skilled in the art that the air pressure sensor may be a product of the prior art.
Specifically, as shown in fig. 1 to 5, the lifting driving mechanism 5 includes a fixed pulley 19 disposed on the upper side of the two vertical slide rails 3, a driving wheel 21 connected to a circumferential driver 20 is disposed on the lower side of the vertical slide rails 3, a steel wire rope 22 is fixedly wound on the driving wheel 21, and the steel wire rope 22 passes through the fixed pulley 19 and is fixedly connected to the top of the transverse slide rail 4. The circumferential driver 20 can drive the driving wheel 21 to rotate, and the driving wheel can drive the steel wire rope to move so as to drive the transverse sliding rail to lift along the vertical direction, so that the height of the nozzle base can be adjusted.
Those skilled in the art will appreciate that the circumferential drive may be a rotary cylinder or motor, or the like.
Specifically, as shown in fig. 1 to 5, a first sliding groove 23 is vertically arranged on the vertical sliding rail 3, the horizontal sliding rail is inserted into the first sliding groove 23, and a lower baffle 25 is fixedly connected to the bottom of the first sliding groove 23. First spout 23 can carry on spacingly to horizontal slide rail, and lower baffle can prevent that horizontal slide rail from taking place to collide with the drive wheel when descending.
Specifically, as shown in fig. 1 to 5, a second sliding groove 26 is horizontally disposed in the transverse sliding rail 4, and the nozzle seat 6 is inserted into the second sliding groove 26 and is slidably connected with the second sliding groove 26. The second sliding groove can limit the nozzle seat.
Specifically, as shown in fig. 1 to 5, the translational driving mechanism 8 includes a translational driver 27 disposed on one side of the second sliding chute 26, the translational driver 27 has an output shaft capable of rotating along the circumferential direction, the end of the output shaft of the translational driver 27 is fixedly connected with a translational screw 28, and the translational screw 28 is horizontally disposed in the second sliding chute 26 and is screwed with the bottom of the nozzle seat 6. The translation driver can drive the translation screw rod to rotate, and the translation screw rod can drive the nozzle seat to reciprocate along the second sliding groove.
It will be appreciated by those skilled in the art that the translation actuator 27 may be a rotary cylinder or motor, or the like.
Specifically, as shown in fig. 1 to 5, the high-pressure water jet 11 and the compressed air jet 12 may be disposed horizontally or obliquely. When installed, the angles of the high pressure water jet 11 and the compressed air jet 12 may be manually adjusted.
The working principle of the utility model is as follows: when the double cleaning mechanism cleans the water baffle, compressed gas is blown to the water baffle to blow away the floating and sinking of the surface of the water baffle, and then the water baffle is cleaned in a water spraying mode, the lifting driving mechanism 5 can drive the transverse slide rail 4 to move along the vertical direction, and the translation driving mechanism 8 can drive the nozzle seat 6 to reciprocate along the horizontal direction, so that the double cleaning mechanism on the nozzle seat can move to each position of the water baffle, and the cleaning of each position of the water baffle can be completed;
the spray head seat can introduce compressed gas into the splitter plate through the connecting pipe, the compressed gas is sprayed out from the compressed gas spray head after being split by the splitter plate so as to remove the floating and sinking on the water baffle plate, after the floating and sinking are removed, the spray head seat can convey water into the splitter plate connected with the high-pressure water spray head 11 through another connecting pipe, the water is sprayed to the water baffle plate through three high-pressure water spray heads 11 simultaneously after being split by the splitter plate so as to clean the water baffle plate, cleaning water and compressed air are input into the water inlet channel 13 and the air inlet channel 14 through the hoses and are input into the two splitter plates through the connecting pipes, the water inlet electromagnetic valve 16 and the air inlet electromagnetic valve 17 can control the high-pressure water spray head 11 and the three compressed air spray heads 12 to spray water and spray air, the air pressure sensors 18 on the two sides of the water baffle plate can detect the air pressure on the two sides of the water baffle plate, when the water baffle plate is blocked, the air pressure difference can be formed on the two sides of the water baffle plate, when the air pressure difference exceeds a preset air pressure difference value, the double cleaning mechanism works to clean the water baffle until the air pressure difference at the two sides of the water baffle is recovered to be less than the preset value;
the circumference driver 20 can drive the drive wheel 21 and rotate, thereby the drive wheel rotates and can drive the action of wire rope and can drive horizontal slide rail and go up and down along vertical direction, highly adjusting the nozzle base, spout 23 can carry on spacingly to horizontal slide rail, the baffle can prevent down that horizontal slide rail from taking place to collide with the drive wheel when descending, No. two spouts can carry on spacingly to the nozzle base, the translation driver can drive the translation screw rod and rotate, the translation screw rod rotates and can drive nozzle base along No. two spout reciprocating motion, when the installation, but the angle of manual regulation high pressure water shower nozzle 11 and compressed air shower nozzle 12.
The specific embodiments described herein are merely illustrative of the spirit of the utility model. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the utility model as defined in the appended claims.
Although the outer case 1, the water guard 2, the vertical slide rail 3, the lateral slide rail 4, the elevating driving mechanism 5, the nozzle seat 6, the double cleaning mechanism 7, the translational driving mechanism 8, the connecting pipe 9, the flow dividing plate 10, the high pressure water nozzle 11, the compressed air nozzle 12, the water inlet flow passage 13, the air inlet flow passage 14, the hose 15, the water inlet solenoid valve 16, the air inlet solenoid valve 17, the air pressure sensor 18, the fixed pulley 19, the circumferential driver 20, the driving wheel 21, the steel wire rope 22, the first slide groove 23, the lower baffle 25, the second slide groove 26, the translational driver 27, the translational screw 28, etc. are more used herein, these terms are used only for convenience of describing and explaining the essence of the present invention; they are to be construed as being without limitation to any additional limitations that may be imposed by the spirit of the present invention.

Claims (10)

1. The utility model provides a breakwater self-cleaning device, includes shell body (1), shell body (1) in still be equipped with breakwater (2) of densely covered ventilation hole, a serial communication port, shell body (1) both sides be equipped with two vertical slide rails (3), sliding connection has horizontal slide rail (4) between two vertical slide rails (3), shell body (1) in still be equipped with and drive horizontal slide rail (4) along the gliding lifting drive mechanism of vertical direction (5), horizontal slide rail (4) on still sliding connection have nozzle seat (6), nozzle seat (6) on be equipped with dual wiper mechanism (7), horizontal slide rail (4) on still be equipped with and drive nozzle seat (6) along horizontal slide rail (4) reciprocating sliding's translation actuating mechanism (8).
2. The automatic cleaning device for the water deflector according to claim 1, wherein the double cleaning mechanism (7) comprises two splitter plates (10) connected with the nozzle seat (6) through a connecting pipe (9), three high-pressure water nozzles (11) and three compressed air nozzles (12) are respectively arranged on the two splitter plates (10), and the high-pressure water nozzles (11) are arranged on the upper sides of the compressed air nozzles (12).
3. The automatic cleaning device for the water deflector according to claim 2, characterized in that a water inlet channel (13) connected with the high-pressure water nozzle (11) and an air inlet channel (14) connected with the compressed air nozzle (12) are further arranged in the nozzle seat (6), and the water inlet channel (13) and the air inlet channel (14) are respectively connected with cleaning water and compressed air through a hose (15).
4. The automatic cleaning device for the water baffle plate as claimed in claim 3, wherein a water inlet electromagnetic valve (16) and an air inlet electromagnetic valve (17) are respectively arranged in the water inlet flow passage (13) and the air inlet flow passage (14).
5. The automatic cleaning device for the water deflector according to any one of claims 1-4, characterized in that an air pressure sensor (18) is respectively arranged on both sides of the water deflector (2).
6. The automatic cleaning device for the water deflector according to any one of claims 1 to 4, characterized in that the lifting driving mechanism (5) comprises a fixed pulley (19) arranged at the upper side of the two vertical sliding rails (3), a driving wheel (21) connected with a circumferential driver (20) is arranged at the lower side of the vertical sliding rails (3), a steel wire rope (22) is fixedly wound on the driving wheel (21), and the steel wire rope (22) penetrates through the fixed pulley (19) and is fixedly connected with the top of the transverse sliding rail (4).
7. The automatic cleaning device for the water baffle plate as claimed in claim 6, wherein a first sliding groove (23) is vertically arranged on the vertical sliding rail (3), the transverse sliding rail is inserted into the first sliding groove (23), and a lower baffle plate (25) is fixedly connected to the bottom of the first sliding groove (23).
8. The automatic cleaning device for the water deflector according to any one of claims 1 to 4, wherein a second sliding groove (26) is horizontally arranged in the transverse sliding rail (4), and the nozzle seat (6) is inserted into the second sliding groove (26) and is slidably connected with the second sliding groove (26).
9. The automatic cleaning device for the water baffle plate as claimed in claim 8, wherein the translation driving mechanism (8) comprises a translation driver (27) arranged on one side of the second sliding groove (26), the translation driver (27) is provided with an output shaft which can rotate along the circumferential direction, the end part of the output shaft of the translation driver (27) is fixedly connected with a translation screw rod (28), and the translation screw rod (28) is horizontally arranged in the second sliding groove (26) and is in threaded connection with the bottom of the spray head seat (6).
10. The automatic wash system for breakwaters according to any of claims 2 to 4, characterized in that said high-pressure water jets (11) and said compressed air jets (12) are arranged horizontally or inclined.
CN202122020022.2U 2021-08-25 2021-08-25 Automatic cleaning device for water baffle Active CN216225865U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202122020022.2U CN216225865U (en) 2021-08-25 2021-08-25 Automatic cleaning device for water baffle

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202122020022.2U CN216225865U (en) 2021-08-25 2021-08-25 Automatic cleaning device for water baffle

Publications (1)

Publication Number Publication Date
CN216225865U true CN216225865U (en) 2022-04-08

Family

ID=80981937

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202122020022.2U Active CN216225865U (en) 2021-08-25 2021-08-25 Automatic cleaning device for water baffle

Country Status (1)

Country Link
CN (1) CN216225865U (en)

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