CN218507846U

CN218507846U - Heat-resisting stainless steel coil of strip is whole at uniform velocity cooling controlling means

Info

Publication number: CN218507846U
Application number: CN202222721184.3U
Authority: CN
Inventors: 冯旺爵; 肖亮明; 孙玉新
Original assignee: Shandong Shengyang Metal Technology Co Ltd
Current assignee: Shandong Shengyang Metal Technology Co Ltd
Priority date: 2022-10-17
Filing date: 2022-10-17
Publication date: 2023-02-21
Anticipated expiration: 2032-10-17

Abstract

The utility model discloses a heat-resistant stainless steel coil integral uniform cooling control device, which comprises a supporting device, a power device, a cooling device I, a cooling device II and a box body; the power devices are arranged at the top and the bottom of the box body; the cooling devices I are arranged in two groups and are respectively arranged on two sides of the box body; the cooling device II is arranged above the box body; the supporting device is arranged below the box body and is connected with the power device arranged at the bottom of the box body; the supporting devices are provided with two groups and comprise rotating blocks, hoisting blocks, circular hoisting holes, supports, pulleys, central shafts, supporting rollers, connecting rods, connecting blocks I and threaded sleeves. The utility model discloses cooling process to the stainless steel coil of strip is simple, carries out at the uniform velocity cooling to the stainless steel coil of strip, avoids the stainless steel coil of strip to appear by the phenomenon of cold water rapid cooling.

Description

Heat-resisting stainless steel coil of strip is whole at uniform velocity cooling controlling means

Technical Field

The utility model belongs to the technical field of cooling device, in particular to whole at uniform velocity cooling control device of heat-resisting stainless steel coil of strip.

Background

Cooling stainless steel coils in the metallurgical industry comprises air cooling, water curtain and dipping; generally, the steel coil is slowly cooled in an air cooling mode, and the cooling to the temperature required by the upper line takes more than 72 hours; however, for steel coils which are in urgent need of on-line treatment, the air cooling mode cannot meet the requirement of timeliness;

the cooling method adopted at present has the following defects:

1) The water cooling tank is used for cooling, but air cooling is still needed for a period of time before the water cooling tank enters, so that the cooling time is prolonged;

2) If the cooling water is directly used for cooling the stainless steel coil, the stainless steel coil may be quenched by cold water in the cooling process, so that the quality problem of the stainless steel coil occurs;

therefore, a control device for uniform cooling of the whole heat-resistant stainless steel coil is needed, the cooling process of the stainless steel coil is simple and convenient, the stainless steel coil is cooled at a uniform speed, and the phenomenon that the stainless steel coil is quenched by cold water is avoided.

Disclosure of Invention

The utility model aims at overcoming not enough among the prior art, providing a whole at the uniform velocity cooling controlling means of heat-resisting stainless steel coil of strip, the utility model discloses cooling process to the stainless steel coil of strip is simple, carries out the at the uniform velocity cooling to the stainless steel coil of strip, avoids the stainless steel coil of strip to appear by the phenomenon of cold water rapid cooling.

In order to realize the purpose, the utility model discloses a technical scheme be:

a heat-resistant stainless steel coil integral constant-speed cooling control device comprises a supporting device, a power device, a cooling device I, a cooling device II and a box body; the power devices are arranged at the top and the bottom of the box body; the cooling devices I are arranged on two groups and are respectively arranged on two sides of the box body; the cooling device II is arranged above the box body; the supporting device is arranged below the box body and is connected with the power device arranged at the bottom of the box body; the box body comprises an installation box, a sliding groove, a liquid containing box, a supporting rod, a filter screen, a connecting shell, a supporting block and a connecting block II; the mounting box is fixedly connected to the connecting shell, a supporting plate is arranged in the mounting box, and a temperature measuring instrument is arranged between the mounting boxes; the connecting shell is provided with a plurality of supporting blocks, and a connecting block II is arranged above the connecting shell; the sliding groove is fixedly connected to the bottom of the connecting shell; the liquid containing box is arranged between the sliding grooves, and two ends of the supporting rod are fixedly connected with the sliding grooves; the filter screen is matched with the supporting rod and arranged at the top of the liquid containing box;

the supporting devices are provided with two groups and comprise rotating blocks, hoisting blocks, circular hoisting holes, supports, pulleys, central shafts, supporting rollers, connecting rods, connecting blocks I and threaded sleeves; the top end of the support is provided with a mounting groove, the bottom of the support is arranged in a sliding groove, the bottom of the support is provided with a plurality of pulleys, and the pulleys play a role in assisting the support to slide in the sliding groove; threaded rods with opposite thread turning directions are arranged at the two ends of the central shaft; the connecting block I is provided with a plurality of bearing seats and is in sliding connection with threaded rods at two ends of the central shaft; the threaded sleeve is arranged between the connecting block I and the rotating block and is in threaded connection with threaded rods at two ends of the central shaft; one end of the connecting rod is rotatably connected with the supporting roller, and the other end of the connecting rod is rotatably connected with a bearing seat on the connecting block I; the turning block is provided with a pair of turning blocks, the turning blocks are fixedly connected to threaded rods at two ends of the central shaft respectively, the turning blocks are connected to the mounting grooves in the top end of the support in a rotating mode, the turning block at one end of the central shaft is provided with a hoisting block, the turning block at the other end of the central shaft is provided with a circular hoisting hole, and one side of the hoisting block is provided with a hexagonal hole.

The power device comprises a motor I, a chain wheel I, a threaded rod II, a motor II, a power roller I and a power roller II; the threaded rod I is rotatably connected with the sliding groove, one end of the threaded rod I is fixedly connected with the output end of the motor I, and the output end of the motor I is provided with a chain wheel I; the threaded rod II is rotatably connected with the sliding groove on the other side, a chain wheel is arranged at one end of the threaded rod II, and the chain wheel I is connected with the chain wheel on the threaded rod II through a chain; the threaded rod I and the threaded rod II are in threaded connection with the bracket; the motor II is fixedly connected above the mounting box, and a chain wheel is arranged at the output end of the motor II; one end of the power roller I penetrates through a through hole in the connecting shell to be fixedly connected with the output end of the motor II, and the other end of the power roller I is rotatably connected with the connecting block II; one end of the power roller II penetrates through a through hole in the connecting shell to be provided with a chain wheel, the other end of the power roller II is rotatably connected with the connecting block II, and the chain wheel at the output end of the motor II is connected with the chain wheel on the power roller II through a chain;

the cooling device I comprises a connecting pipe I, a ventilation fan, a cooling pipeline, a spraying pipe I, an atomizing nozzle and a water inlet pipe I; the ventilation fan is rotationally connected with the supporting plate in the mounting box; the cooling pipeline is arranged between the spray pipe I and the ventilation fan; one end of the water inlet pipe I is connected with a cooling water source, the other end of the water inlet pipe I penetrates through a through hole in the mounting box and is fixedly connected with one end of a cooling pipeline, and the other end of the cooling pipeline is connected with the spraying pipe I through the connecting pipe I; the spraying pipe I is fixed on the inner side of the connecting shell through a supporting block, and a plurality of atomizing nozzles are arranged on the spraying pipe I.

The cooling device II comprises a connecting pipe II, a spraying pipe II, a spray head and a water inlet pipe II; one end of the water inlet pipe II is connected with a cooling water source, and the other end of the water inlet pipe II is connected with the connecting pipe II; one end of the spraying pipe II penetrates through a through hole in the connecting shell to be connected with the connecting pipe II, the other end of the spraying pipe II is movably connected with the connecting shell, and two groups of spray heads are arranged on the spraying pipe II.

Compared with the prior art, the utility model beneficial effect shows:

1) The filter screen plays a role in filtering impurities washed out by cooling water from the stainless steel coil, and the pulley plays a role in sliding the auxiliary support in the sliding groove;

2) The threaded sleeve is matched with threaded rods at two ends of the central shaft to control the supporting roller to be outwards supported or inwards retracted; a circular hoisting hole is formed in the rotating block at the other end of the central shaft, a hexagonal hole is formed in one side of the hoisting block on the rotating block, and the circular hoisting hole in the rotating block and the hexagonal hole in the hoisting block play a role in facilitating hoisting of a crane; the holes in the middle of the stainless steel coil are large and small, the threaded sleeve is kept still, the central shaft is rotated by external power of the hexagonal hole on the hoisting block, so that the supporting roller is controlled to be outwards supported or inwards retracted, the stainless steel coils with different sizes of the middle holes are fixed, the phenomenon that the stainless steel coils are scratched in the inner part to enlarge the heat dissipation area due to displacement of the stainless steel coils is prevented, heat is uniformly dissipated from the inner part and the outer part, and the cooling time is shortened;

3) When the motor I is started, the threaded rod I rotates, the chain wheel I drives the threaded rod II to rotate, and the threaded rod I and the threaded rod II drive the supporting device to slide in the sliding groove; after the motor II is started, the power roller I rotates, and a chain wheel at the output end of the motor II drives the power roller II to rotate, so that the stainless steel coil in contact with the power roller I and the power roller II rotates, and the stainless steel coil is conveniently and comprehensively cooled;

4) The cooling pipeline plays a role in conveying cooling water to cool air so as to slowly cool the stainless steel coil, the atomizing nozzle plays a role in converting the cooling water into water mist so as to prevent the stainless steel coil from rapidly cooling due to the fact that the stainless steel coil contacts a large amount of cooling water in a high-temperature state, the power supply is switched on to enable the ventilating fan to start rotating, cold air and the water mist are blown to the stainless steel coil, and the stainless steel coil starts to be cooled;

5) Cooling device II cools down stainless steel coil of strip spray cooling water through two sets of shower nozzles, also cools down power roller I and power roller II simultaneously to extension power roller I and power roller II life under the operating condition of high temperature.

Drawings

FIG. 1 is a schematic structural view of the entire uniform cooling control device for heat-resistant stainless steel coils of the present invention;

FIG. 2 is a schematic structural view of a cooling device II and a supporting device shown in FIG. 1;

FIG. 3 is a schematic view of the support device of FIG. 1;

FIG. 4 is a schematic structural diagram of the cooling device I and the box body in FIG. 1;

FIG. 5 is a schematic structural diagram of the power plant of FIG. 1;

FIG. 6 is a schematic structural diagram of the cooling device I in FIG. 1;

FIG. 7 is a schematic diagram of the hoisting of stainless steel coils;

in the figure: 1. a support device; 101. rotating the block; 1011. hoisting the blocks; 1012. a circular hoisting hole; 102. a support; 1021. a pulley; 103. a central shaft; 104. a support roller; 105. a connecting rod; 106. a connecting block I; 1061. a threaded sleeve; 2. a power plant; 201. a motor I; 2011. a chain wheel I; 202. a threaded rod I; 203. a threaded rod II; 204. a motor II; 205. a power roller I; 206. a power roller II; 3. a cooling device I; 301. a connecting pipe I; 302. a ventilator; 303. a cooling duct; 304. a spray pipe I; 3041. an atomizing spray head; 305. a water inlet pipe I; 4. a cooling device II; 401. a connecting pipe II; 402. a spray pipe II; 4021. a spray head; 403. a water inlet pipe II; 5. a box body; 501. mounting a box; 502. a sliding groove; 503. a liquid containing box; 5031. a support bar; 504. a filter screen; 505. a connecting shell; 5051. a support block; 5052. a connecting block II; 6. a stainless steel coil; 7. hoisting frames; 701. a wrench.

Detailed Description

For the convenience of understanding of those skilled in the art, the technical solution of the present invention will be further specifically described with reference to fig. 1 to 7.

A heat-resistant stainless steel coil of strip is whole to cool the controlling device at the uniform velocity, including the supporting device 1, the motive equipment 2, the cooling device I3, the cooling device II 4, the container body 5; the power device 2 is arranged at the top and the bottom of the box body 5; two groups of cooling devices I3 are arranged and are respectively arranged on two sides of the box body 5; the cooling device II 4 is arranged above the box body 5; the supporting device 1 is arranged below the box body 5, and the supporting device 1 is connected with the power device 2 arranged at the bottom of the box body 5; the box body 5 comprises a mounting box 501, a sliding groove 502, a liquid containing box 503, a supporting rod 5031, a filter screen 504, a connecting shell 505, a supporting block 5051 and a connecting block II 5052; the mounting box 501 is fixedly connected to the connecting shell 505, a supporting plate is arranged inside the mounting box 501, and a temperature measuring instrument is arranged between the mounting boxes 501; a plurality of supporting blocks 5051 are arranged on the connecting shell 505, and a connecting block II 5052 is arranged above the connecting shell 505; the sliding groove 502 is fixedly connected to the bottom of the connecting shell 505; the liquid containing box 503 is arranged between the sliding grooves 502, and two ends of the support rod 5031 are fixedly connected with the sliding grooves 502; the filter screen 504 is arranged at the top of the liquid containing box 503 in cooperation with the support rod 5031, and the filter screen 504 plays a role in filtering impurities flushed from the stainless steel coil 6 by the cooling water;

the supporting devices 1 are provided with two groups, and each supporting device 1 comprises a rotating block 101, a hoisting block 1011, a circular hoisting hole 1012, a bracket 102, a pulley 1021, a central shaft 103, a supporting roller 104, a connecting rod 105, a connecting block I106 and a threaded sleeve 1061; the top end of the support 102 is provided with a mounting groove, the bottom of the support 102 is arranged in the sliding groove 502, the bottom of the support 102 is provided with a plurality of pulleys 1021, and the pulleys 1021 play a role in assisting the support 102 to slide in the sliding groove 502; threaded rods with opposite thread turning directions are arranged at the two ends of the central shaft 103; the connecting block I106 is provided with a plurality of bearing blocks, and the connecting block I106 is in sliding connection with threaded rods at two ends of the central shaft 103; the threaded sleeve 1061 is arranged between the connecting block I106 and the rotating block 101, and the threaded sleeve 1061 is in threaded connection with threaded rods at two ends of the central shaft 103; one end of the connecting rod 105 is rotatably connected with the supporting roller 104, and the other end of the connecting rod is rotatably connected with a bearing seat on the connecting block I106; the threaded sleeves 1061 are matched with threaded rods at two ends of the central shaft 103 to control the support rollers 104 to be outwards supported or inwards retracted; the turning blocks 101 are provided with a pair of turning blocks and are respectively fixedly connected to threaded rods at two ends of the central shaft 103, the turning blocks 101 are rotationally connected in mounting grooves at the top ends of the brackets 102, hoisting blocks 1011 are arranged on the turning blocks 101 at one end of the central shaft 103, circular hoisting holes 1012 are arranged on the turning blocks 101 at the other end of the central shaft 103, hexagonal holes are arranged at one sides of the hoisting blocks 1011, and the circular hoisting holes 1012 on the turning blocks 101 and the hexagonal holes on the hoisting blocks 1011 play a role in facilitating hoisting of a crane; hole in the middle of the stainless steel coil of strip 6 has big or small, it is motionless to keep threaded sleeve 1061, make center pin 103 rotate through the external power of hexagonal hole on the hoist and mount piece 1011, thereby control backing roll 104 outwards props up or inwards packs up, in order to reach the effect of the stainless steel coil of strip 6 of fixing the middle hole variation in size, prevent simultaneously that the displacement of stainless steel coil of strip 6 from causing inside fish tail to enlarge heat radiating area, from inside and outside even heat dissipation, shorten the cool time.

The power device 2 comprises a motor I201, a chain wheel I2011, a threaded rod I202, a threaded rod II 203, a motor II 204, a power roller I205 and a power roller II 206; the threaded rod I202 is rotatably connected with the sliding groove 502, one end of the threaded rod I202 is fixedly connected with the output end of the motor I201, and the output end of the motor I201 is provided with a chain wheel I2011; the threaded rod II 203 is rotatably connected with the sliding groove 502 on the other side, a chain wheel is arranged at one end of the threaded rod II 203, and the chain wheel I2011 is connected with the chain wheel on the threaded rod II 203 through a chain; the threaded rod I202 and the threaded rod II 203 are in threaded connection with the support 102, when the motor I201 is started, the threaded rod I202 rotates, the chain wheel I2011 drives the threaded rod II 203 to rotate, and the threaded rod I202 and the threaded rod II 203 drive the supporting device 1 to slide in the sliding groove 502; the motor II 204 is fixedly connected above the mounting box 501, and the output end of the motor II 204 is provided with a chain wheel; one end of the power roller I205 penetrates through a through hole in the connecting shell 505 to be fixedly connected with the output end of the motor II 204, and the other end of the power roller I205 is rotatably connected with the connecting block II 5052; one end of the power roller II 206 penetrates through a through hole in the connecting shell 505 to be provided with a chain wheel, the other end of the power roller II 206 is rotatably connected with the connecting block II 5052, and the chain wheel at the output end of the motor II 204 is connected with the chain wheel on the power roller II 206 through a chain; after the motor II 204 is started, the power roller I205 rotates, and a chain wheel at the output end of the motor II 204 drives the power roller II 206 to rotate, so that the stainless steel coil 6 in contact with the power roller I205 and the power roller II 206 rotates, and the stainless steel coil 6 is conveniently and comprehensively cooled;

the cooling device I3 comprises a connecting pipe I301, a ventilation fan 302, a cooling pipeline 303, a spraying pipe I304, an atomizing nozzle 3041 and a water inlet pipe I305; the ventilator 302 is rotatably connected with a support plate in the mounting box 501; the cooling pipeline 303 is arranged between the spray pipe I304 and the ventilation fan 302; one end of the water inlet pipe I305 is connected with a cooling water source, the other end of the water inlet pipe I passes through a through hole in the mounting box 501 to be fixedly connected with one end of the cooling pipeline 303, the cooling pipeline 303 plays a role in conveying cooling water to cool the stainless steel coil 6 slowly, and the other end of the cooling pipeline 303 is connected with the spraying pipe I304 through a connecting pipe I301; the spray pipe I304 is fixed on the inner side of the connecting shell 505 through the supporting block 5051, the spray pipe I304 is provided with a plurality of atomizing nozzles 3041, the atomizing nozzles 3041 are used for converting cooling water into water mist, and the phenomenon that the stainless steel coil 6 is quenched due to the fact that the stainless steel coil 6 contacts a large amount of cooling water in a high-temperature state is prevented; and the power supply is switched on to enable the ventilation fan 302 to start rotating, cold air and water mist are blown to the stainless steel coil 6, and the stainless steel coil 6 starts to be cooled.

The cooling device II 4 comprises a connecting pipe II 401, a spray pipe II 402, a spray head 4021 and a water inlet pipe II 403; one end of the water inlet pipe II 403 is connected with a cooling water source, and the other end of the water inlet pipe II 403 is connected with the connecting pipe II 401; one end of the spray pipe II 402 penetrates through a through hole in the connecting shell 505 to be connected with the connecting pipe II 401, the other end of the spray pipe II 402 is movably connected with the connecting shell 505, and two groups of spray heads 4021 are arranged on the spray pipe II 402; the stainless steel coil 6 is cooled by spraying cooling water through the two groups of spray nozzles 4021, and meanwhile, the power roller I205 and the power roller II 206 are also cooled, so that the service life of the power roller I205 and the power roller II 206 under the high-temperature working condition is prolonged.

The utility model provides a heat-resisting stainless steel coil of strip is whole at uniform velocity cooling controlling means, the working process as follows:

as shown in fig. 7, one side of the hoisting frame 7 is inserted into the circular hoisting hole 1012 on the rotating block 101 through a pin shaft, and the hexagonal shaft at one end of the wrench 701 is inserted into the hexagonal hole on the hoisting block 1011 at the other side, so that the central shaft 103 can be detached from the mounting groove on the bracket 102 by using the hoisting frame 7; the dismounted central shaft 103 penetrates through a hole in the middle of the stainless steel coil 6, the central shaft 103 is controlled to rotate through the rotating wrench 701, so that the supporting roller 104 is supported, and the central shaft 103 is mounted back to the mounting groove in the top end of the support 102 by using the hoisting frame 7 after the supporting roller 104 is tightly attached to the stainless steel coil 6; starting a motor I201 to move the bracket 102 into the connecting shell 505; starting the motor II 204 to rotate the stainless steel coil 6, and simultaneously starting the cooling device I3 to cool the stainless steel coil 6; when the temperature measuring instrument arranged between the mounting boxes 501 detects that the cooling device I3 reduces the temperature of the stainless steel coil 6 to a range in which the stainless steel coil 6 can be directly washed and cooled by using cooling water, the temperature measuring instrument sends a signal to enable the cooling device II 4 to start cooling the stainless steel coil 6; two groups of supporting devices 1 are arranged, after one group enters the connecting shell 505, the other group of supporting devices 1 outside the connecting shell 505 can begin to repeat the hoisting process of the stainless steel coil 6, and another group of stainless steel coils to be cooled is hoisted; after the stainless steel coil 6 in the connecting shell 505 is cooled, the motor i 201 is started, the cooled stainless steel coil 6 is moved out of the connecting shell 505, and the uncooled stainless steel coils 6 on the other group of brackets 102 are moved into the connecting shell 505 to start cooling; the hoisting frame 7 unloads the cooled stainless steel coil 6 for storage in a warehouse, and then hoists a new uncooled stainless steel coil 6 on the bracket 102 for waiting for cooling.

The foregoing is merely exemplary and illustrative of the structure of the invention, and various modifications, additions and substitutions as described in the detailed description may be made by those skilled in the art without departing from the structure or exceeding the scope of the invention as defined in the claims.

Claims

1. A heat-resistant stainless steel coil integral constant-speed cooling control device comprises a supporting device, a power device, a cooling device I, a cooling device II and a box body; it is characterized in that the power device is arranged at the top and the bottom of the box body; the cooling devices I are arranged on two groups and are respectively arranged on two sides of the box body; the cooling device II is arranged above the box body; the supporting device is arranged below the box body and is connected with the power device arranged at the bottom of the box body;

2. The device for controlling the integral uniform cooling of the heat-resistant stainless steel coil as claimed in claim 1, wherein the power device comprises a motor I, a chain wheel I, a threaded rod II, a motor II, a power roller I and a power roller II; the threaded rod I is rotatably connected with the sliding groove, one end of the threaded rod I is fixedly connected with the output end of the motor I, and the output end of the motor I is provided with a chain wheel I; the threaded rod II is rotatably connected with the sliding groove on the other side, a chain wheel is arranged at one end of the threaded rod II, and the chain wheel I is connected with the chain wheel on the threaded rod II through a chain; the threaded rod I and the threaded rod II are in threaded connection with the bracket; the motor II is fixedly connected above the mounting box, and a chain wheel is arranged at the output end of the motor II; one end of the power roller I penetrates through a through hole in the connecting shell to be fixedly connected with the output end of the motor II, and the other end of the power roller I is rotatably connected with the connecting block II; and one end of the power roller II penetrates through a through hole in the connecting shell to be provided with a chain wheel, the other end of the power roller II is rotatably connected with the connecting block II, and the chain wheel at the output end of the motor II is connected with the chain wheel on the power roller II through a chain.

3. The device for controlling the integral uniform cooling of the heat-resistant stainless steel coil as claimed in claim 1, wherein the cooling device I comprises a connecting pipe I, a ventilation fan, a cooling pipeline, a spraying pipe I, an atomizing nozzle and a water inlet pipe I; the ventilating fan is rotationally connected with the supporting plate in the mounting box; the cooling pipeline is arranged between the spray pipe I and the ventilation fan; one end of the water inlet pipe I is connected with a cooling water source, the other end of the water inlet pipe I penetrates through a through hole in the mounting box and is fixedly connected with one end of a cooling pipeline, and the other end of the cooling pipeline is connected with the spraying pipe I through a connecting pipe I; the spraying pipe I is fixed on the inner side of the connecting shell through a supporting block, and a plurality of atomizing nozzles are arranged on the spraying pipe I.

4. The device for controlling the integral uniform cooling of the heat-resistant stainless steel coil as claimed in claim 1, wherein the cooling device II comprises a connecting pipe II, a spray head and a water inlet pipe II; one end of the water inlet pipe II is connected with a cooling water source, and the other end of the water inlet pipe II is connected with the connecting pipe II; one end of the spraying pipe II penetrates through a through hole in the connecting shell to be connected with the connecting pipe II, the other end of the spraying pipe II is movably connected with the connecting shell, and two groups of spray heads are arranged on the spraying pipe II.

5. The device for controlling the integral uniform cooling of the heat-resistant stainless steel coil as claimed in claim 1, wherein the box body comprises a mounting box, a sliding groove, a liquid containing box, a support rod, a filter screen, a connecting shell, a support block and a connecting block II; the mounting box is fixedly connected to the connecting shell, a supporting plate is arranged inside the mounting box, and a temperature measuring instrument is arranged between the mounting boxes; the connecting shell is provided with a plurality of supporting blocks, and a connecting block II is arranged above the connecting shell; the sliding groove is fixedly connected to the bottom of the connecting shell; the liquid containing box is arranged between the sliding grooves, and two ends of the supporting rod are fixedly connected with the sliding grooves; the filter screen is matched with the supporting rod and is arranged at the top of the liquid containing box.