CN219002002U - Tar separation device - Google Patents

Abstract

The utility model discloses a tar separation device, which belongs to the technical field of tar separation and comprises a support base, a hydraulic rod, a support frame A, a support frame B, a distillation tank, a sealing cover A, a material guide opening, a liquid storage tank, a sealing cover B, a material guide groove and a distillation pipe, wherein the hydraulic rod is fixedly arranged at one end of the top of the outer wall of the support base, the support frame A is fixedly arranged at the other end of the top of the outer wall of the hydraulic rod, and the support frame B is fixedly arranged at the left side and the right side of one end of the top of the outer wall of the support base. According to the utility model, when a plurality of grooves and a plurality of convex blocks are inserted and rotated mutually, a worker turns on three electric heating tubes, controls a servo motor matched with an electric roller to drive the electric roller to move on the inner side of a sliding rail so as to drive two electric heating tubes to continuously rotate on the outer side of a distillation tank, and turns on a servo motor B so as to drive an electric heating tube at the bottom of the distillation tank to continuously rotate, so that the interior of the distillation tank is uniformly heated, and a large amount of tar is uniformly contacted with high-temperature heat to generate a large amount of vapor for distillation treatment.

Description

Tar separation device

Technical Field

The utility model belongs to the technical field of tar separation, and particularly relates to a tar separation device.

Background

The tar is black brown viscous liquid generated during carbonization of coal, and is generally used as a raw material for processing and refining to prepare various chemical products, and is relatively commonly used as tar pitch produced by distilling the tar, and the tar is required to be heated uniformly during the distillation of the tar, so that the quality of the tar can be homogenized, and therefore, a tar separation device is required.

According to the search, a coal tar rapid distillation device capable of preventing coking is disclosed, wherein the coal tar rapid distillation device is provided with a mounting rod arranged at the upper ends of two sides of a stirring shaft, a pressing structure and a scraping plate are arranged on one side of the mounting rod, the stirring shaft is driven to rotate by starting a driving motor to stir coal tar in a kettle body, so that the coal tar is heated more uniformly, the distillation rate is improved, a pressing block is driven to move by the elasticity of a pressing spring, the scraping plate can be tightly attached to the inner wall of the kettle body, the mounting rod is driven to rotate by the rotation of the stirring shaft, the scraping plate is further enabled to rotate in the kettle body, the coal tar is prevented from being scraped, the utilization rate of materials is reduced, the smooth operation of distillation is ensured, and the distillation efficiency is improved; the disadvantages are as follows:

this kind of prevent quick distillation plant of coal tar of coking uses at the staff, when carrying out distillation treatment to a large amount of tar, because the interval is great between (mixing) shaft outer wall blade and the distillation plant inner wall, the interval between the blade is great equally, can make can only carry out effective stirring heat treatment to some tar, and the part that surplus stirring can not reach can produce great difference in temperature with can even be heated between the tar part, and cause the distillation efficiency to the tar can be lower, and lead to some tar distillation not to.

Disclosure of Invention

The utility model aims at: in order to solve the problem that the stirring effect of the coal tar rapid distillation device for preventing coking is poor and the distillation effect is poor, the tar separation device is provided.

The technical scheme adopted by the utility model is as follows: the utility model provides a tar separator, includes support base, hydraulic stem, support frame A, support frame B, retort, sealed lid A, the guide opening, liquid storage pot, sealed lid B, baffle box and distillation tube, support base outer wall top one end fixed mounting has the hydraulic stem, hydraulic stem outer wall top other end fixed mounting has support frame A, the equal fixed mounting in left and right sides of support base outer wall top one end has support frame B, all there is the retort through bolted connection between the support frame B outer wall top, support frame A outer wall bottom one end fixed mounting has sealed lid A, and sealed lid A agrees with the slip setting at retort outside top, and the extrusion is provided with the sealing washer between retort and the sealed lid A, sealed lid A outer wall top one end embedding is provided with the guide opening, support base outer wall top other end is provided with the liquid storage pot, the sealed lid B outside top other end embedding is provided with the baffle box, all be connected with the distillation tube through bolt and sealing washer between baffle box and the outer wall top, and the distillation tube is the slope form setting, the distillation tube inboard is provided with can evenly make the high-temperature cooling water cooling mechanism of high-temperature heat the high-speed cooling water and evenly in the high-speed cooling distillation device that the high-temperature water cooling and evenly surrounds the distillation device that carries out the high-speed cooling volume of setting up in the distillation pot.

Wherein, stirring distillation mechanism comprises servo motor A, puddler A, stirring leaf, lug, tooth, slide rail, puddler B, gear, blade, recess, servo motor B, heating frame, electrothermal tube, heating frame two and electronic gyro wheel, servo motor A is fixed mounting in the middle of sealed lid A outer wall top, servo motor A outside bottom has puddler A through output shaft connection, puddler A outer wall bottom fixed mounting has the stirring leaf, stirring leaf has a plurality of, and every two are relative slope form and central symmetry parallel arrangement, two stirring She Waibi opposite face all fixed mounting has the lug, the lug has a plurality of, and is triangle form equidistance parallel arrangement, retort inner wall top fixed mounting has the tooth, the tooth has a plurality of, and is equidistant surrounding arrangement, puddler A outer wall one end is provided with puddler B through the bearing rotation, puddler B outer wall top fixed mounting has the gear, and be tooth interlock transmission setting between a plurality of tooth between tooth, puddler B outer wall bottom fixed mounting has the blade, and every two are in opposite slope form and central symmetry parallel arrangement, and are provided with the outer wall of a plurality of motor, and are close to the outer wall of side by side of a plurality of motor, and are provided with the outer wall of side-by-pass side and are provided with the outer wall of a plurality of bearings, the outer wall of side of the heating frame, and are provided with the outer wall top is provided with the recess, and is provided with the outer side-mounted with a plurality of side by-mounted side, and is provided with the outer wall of the outer wall, and is provided with the outer wall through the outer wall of a base, and is provided with the outer wall of a base through the top is provided with a top with a plurality of the outer side and has the outer wall, and the electric roller is arranged on the inner side of the sliding rail in a fit sliding way, and electric heating pipes are fixedly arranged at the top of the outer wall of the heating frame and one end of the outer wall of the heating frame.

The utility model provides a cooling mechanism, including cooling mechanism, support base outer wall top, sealing block, cooling tube, sealing block, cooling tube, wherein, encircle cooling mechanism comprises rubber clamping, coolant tank, water pump, water-cooling hose, sealing block and water inlet, support base outer wall top other end is provided with coolant tank, coolant tank outer wall front end embedding is provided with the water pump, water pump outer wall other end embedding is provided with water-cooling hose, distillation tube outer wall fixed mounting has the rubber clamping, the rubber clamping has a plurality of, and is the arc form spiral and encircle the range setting, and water-cooling hose is the spiral and encircle and pass a plurality of rubber clamping inboard in proper order, coolant tank outer wall top one end embedding is provided with the water inlet, water-cooling hose outer wall other end fixed mounting has sealing block, and sealing block agrees with the slip setting in the water inlet inboard, and supporting and the extrusion is provided with the sealing washer between sealing block and the water inlet inner wall, pass through bolted connection between sealing block and the water inlet.

In summary, due to the adoption of the technical scheme, the beneficial effects of the utility model are as follows:

this kind of tar separator can make the staff open servo motor A through being provided with stirring leaf and blade, make cooperation between puddler A, stirring leaf, puddler B, gear, tooth, blade, recess and the lug in the tar slowly rotate, the staff opens three electrothermal tube to drive three electrothermal tube respectively through electronic gyro wheel and servo motor B and constantly rotate in the retort outside, evenly heat the retort inside, make a large amount of tar evenly contact high temperature heat produce a large amount of vapor and carry out distillation treatment, improve and constantly stir the tar, make a large amount of tar carry out the effect of even high efficiency distillation treatment that is heated.

Drawings

FIG. 1 is a schematic diagram showing a front perspective view of a separator of the present utility model;

FIG. 2 is a schematic diagram of a front cross-sectional structure of a separator of the present utility model;

FIG. 3 is a schematic diagram showing the schematic diagram of the cross-sectional bottom surface of the distillation tank in the present utility model;

FIG. 4 is a schematic diagram of the enlarged construction of FIG. 2 at A in accordance with the present utility model;

fig. 5 is a schematic diagram of the enlarged structure at B in fig. 2 according to the present utility model.

The marks in the figure: 1. a support base; 101. a hydraulic rod; 102. a supporting frame A; 103. a support B; 2. a distillation pot; 201. sealing cover A; 202. a servo motor A; 203. a stirring rod A; 204. stirring the leaves; 205. a bump; 206. teeth; 207. a slide rail; 208. a material guiding port; 3. a stirring rod B; 301. a gear; 302. a blade; 303. a groove; 4. a servo motor B; 401. a heating rack; 402. an electric heating tube; 5. a second heating frame; 501. an electric roller; 6. a liquid storage tank; 601. sealing cover B; 602. a guide groove; 7. a distillation tube; 701. a rubber clip; 8. a cooling water tank; 801. a water pump; 802. a water-cooled hose; 803. a sealing block; 804. and a water inlet.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

In the utility model, the following components are added:

referring to figures 1-5, a tar separation device comprises a support base 1, a hydraulic rod 101, a support frame A102, a support frame B103, a distillation tank 2, a sealing cover A201, a material guide port 208, a liquid storage tank 6, a sealing cover B601, a material guide groove 602 and a distillation tube 7, wherein the hydraulic rod 101 is fixedly arranged at one end of the top of the outer wall of the support base 1, the support frame A102 is fixedly arranged at the other end of the top of the outer wall of the hydraulic rod 101, the support frame B103 is fixedly arranged at the left side and the right side of one end of the top of the outer wall of the support base 1, the distillation tank 2 is connected between the tops of the outer walls of the support frame B103 through bolts, the sealing cover A201 is fixedly arranged at one end of the bottom of the outer wall of the support frame A102, the sealing cover A201 is in fit sliding arrangement at the top outside the distillation tank 2, a sealing ring is arranged between the distillation tank 2 and the sealing cover A201 in an extrusion manner, the embedded guide port 208 that is provided with in sealed lid A201 outer wall top one end, the support base 1 outer wall top other end is provided with liquid storage pot 6, the outside top of liquid storage pot 6 is connected with sealed lid B601 through bolt and sealing washer, sealed outside top other end embedding of lid B601 is provided with baffle box 602, all be connected with distillation tube 7 through bolt and sealing washer between guide port 208 and the baffle box 602 outer wall top, and distillation tube 7 is the slope form setting, distillation pot 2 inboard is provided with can stir the liquid tar in the high temperature heating distillation and make a large amount of tar and the even stirring distillation mechanism of contact of high temperature in the distillation pot, the distillation tube 7 outside is provided with and carries out the surrounding cooling mechanism of rapid cooling condensation water droplet collection treatment to the vapor that a large amount of distillation produced.

Referring to fig. 2 to 4, further, the stirring and distilling mechanism is composed of a servo motor a202, a stirring rod a203, a stirring blade 204, a convex block 205, teeth 206, a sliding rail 207, a stirring rod B3, a gear 301, a blade 302, a groove 303, a servo motor B4, a heating frame 401, an electric heating tube 402, a heating frame two 5 and an electric roller 501;

a servo motor A202 is fixedly arranged in the middle of the top of the outer wall of the sealing cover A201, a stirring rod A203 is connected to the bottom of the outer side of the servo motor A202 through an output shaft, stirring blades 204 are fixedly arranged at the bottom of the outer wall of the stirring rod A203, a plurality of stirring blades 204 are arranged in a symmetrical and parallel mode in a center, bumps 205 are fixedly arranged on the opposite surfaces of the outer walls of the two stirring blades 204, a plurality of bumps 205 are arranged in a triangular equidistant and parallel mode, teeth 206 are fixedly arranged at the top of the inner wall of the distillation pot 2, a plurality of teeth 206 are arranged at the top of the inner wall of the distillation pot, the equidistant and surrounding arrangement are realized, a stirring rod B3 is arranged at one end of the outer wall of the stirring rod A203 through bearing rotation, a gear 301 is fixedly arranged at the top of the outer wall of the stirring rod B3, a plurality of teeth 302 are arranged between teeth matched with the outer wall of the gear 301 in a tooth meshing transmission mode, a plurality of blades 302 are fixedly arranged at the bottom of the outer wall of the stirring rod B3, the outer wall of the blade 302 is embedded with a groove 303, the grooves 303 are provided with a plurality of grooves, the grooves are equidistantly arranged in parallel, an electric heating tube 402 is fixedly arranged between the top of the outer wall of the supporting base 1 and the bottom of the outer wall of the heating frame 401, the top of the outer wall of the heating frame 207 is fixedly arranged on the top of the outer wall of the heating frame 207, a heating frame 5 is arranged at two ends of the bottom of the outer side of the heating frame 207, electric rollers 501 are arranged at the left end and the right end of the top of the outer wall of the heating frame 5 in a rotating manner through bearings, the electric heating tube 402 is fixedly arranged at one end of the outer wall of the heating frame 401 and one end of the outer wall of the heating frame 5, when a large amount of tar is required to be distilled and separated by a worker, the worker carries a large amount of tar to a work place, after the hydraulic rod 101 is controlled to lift the support frame A102 to drive the sealing cover A201 to open from the top of the outer side of the distillation tank 2, a large amount of tar is led into the distillation tank 2 by a worker, after the hydraulic rod 101 is controlled to descend the support frame A102 to drive the sealing cover A201 to cover back to the top surface of the distillation tank 2 to seal, when the worker opens the servo motor A202 to drive the stirring blades 204 on the outer side of the stirring rod A203 to rotate slowly in the tar, teeth matched with the outer wall gear 301 of one end stirring rod B3 of the stirring rod A203 are meshed with the teeth 206 to drive the stirring rod B3 to rotate through a bearing, the outer wall grooves 303 of the blades 302 are driven to rotate slowly in the tar, the three electric heating tubes 402 are opened by the worker while the grooves 303 and the bumps 205 are mutually penetrated and rotated, the servo motor matched with the electric roller 501 is controlled to drive the electric roller 501 to move inside the sliding rail 207, the two electric heating tubes 402 are continuously rotated outside the distillation tank 2, and then the servo motor B4 is opened to drive the electric heating tubes 402 on the bottom of the distillation tank 2 to continuously rotate, so that the interior of the distillation tank 2 is uniformly heated, and a large amount of tar is contacted with a large amount of high temperature heat to uniformly heat the distillation steam vapor to treat the water.

Referring to fig. 1, 2 and 5, further, the surrounding cooling mechanism is composed of a rubber clip 701, a cooling water tank 8, a water pump 801, a water-cooling hose 802, a sealing block 803 and a water inlet 804;

the other end of the top of the outer wall of the supporting base 1 is provided with a cooling water tank 8, the front end of the outer wall of the cooling water tank 8 is embedded with a water pump 801, the other end of the outer wall of the water pump 801 is embedded with a water cooling hose 802, the outer wall of the distillation tube 7 is fixedly provided with a plurality of rubber clamps 701, the rubber clamps 701 are arranged in an arc-shaped spiral surrounding arrangement, the water cooling hose 802 passes through the inner sides of the plurality of rubber clamps 701 in sequence in a spiral surrounding manner, one end of the top of the outer wall of the cooling water tank 8 is embedded with a water inlet 804, the other end of the outer wall of the water cooling hose 802 is fixedly provided with a sealing block 803, the sealing block 803 is arranged on the inner side of the water inlet 804 in a fit sliding manner, a sealing ring is matched and extruded between the sealing block 803 and the inner wall of the water inlet 804, the sealing block 803 and the water inlet 804 are connected through bolts, when a large amount of tar evenly contacts high-temperature heat to generate a large amount of water vapor for distillation treatment, when a large amount of water vapor enters the distillation tube 7 through the material guide hole 208, a worker opens the cooling water tank 8 and the water pump 801 to guide a large amount of water cooling liquid into the water cooling hose 802 to flow around the distillation tube 7 so that a large amount of low-temperature air is generated around the water cooling hose 802 to cool the distillation tube 7, and the water cooling hose 802 is guided back to the inner side of the cooling water tank 8 along the other end of the water cooling hose to circularly cool the distillation tube 7, a large amount of water vapor guided into the distillation tube 7 is quickly cooled and condensed into water drops, the water drops are guided into the liquid storage tank 6 from the other end of the distillation tube 7 to collect distilled light oil, phenol oil, tar, wash oil and anthracene oil, after residual asphalt products are distilled, the worker screws out bolts between the distillation tube 7 and the material guide groove 602, the worker controls the hydraulic rod 101 to lift the support frame A102 so that the sealing cover A201 is opened from the top of the outer side of the distillation tank 2, and after the liquid storage tank 6 is taken down, the bolts between the support frame B103 and the distillation tank 2 are screwed out, and after the distillation tank 2 is taken down from the surface of the support frame B103, workers carry asphalt and other distilled products to other processing sites for processing.

Referring to fig. 1 and 2, further, the hydraulic rod 101 is electrically connected with the storage battery through a hydraulic pump and a control panel, the electric roller 501 is electrically connected with the storage battery through a matched servo motor and control panel, and the servo motor a202, the servo motor B4, the electric heating tube 402, the cooling water tank 8 and the water pump 801 are electrically connected with the storage battery through the control panel.

Working principle: firstly, when a worker needs to distill and separate a large amount of tar out of asphalt, the worker carries the large amount of tar to a working site, controls the hydraulic rod 101 to lift the support frame A102 to drive the sealing cover A201 to open from the top of the outer side of the distillation tank 2, guides the large amount of tar into the distillation tank 2, controls the hydraulic rod 101 to descend the support frame A102 to drive the sealing cover A201 to cover back to the top surface of the distillation tank 2 to seal, and then opens the servo motor A202 to drive the stirring blades 204 on the outer side of the stirring rod A203 to rotate slowly in the tar, the teeth matched with the outer side of the outer wall gear 301 of the stirring rod B3 at one end of the stirring rod A203 are meshed with the teeth 206 to drive the outer wall grooves 303 of the blades 302 to rotate slowly in the tar when the stirring rod B3 is driven to rotate through a bearing, so that the grooves 303 and the bumps 205 are mutually inserted and rotated, the worker opens three electric heating pipes 402, controls a servo motor matched with the electric roller 501 to drive the electric roller 501 to move on the inner side of the sliding rail 207 to drive two electric heating pipes 402 to continuously rotate on the outer side of the distillation tank 2, then opens a servo motor B4 to drive the electric heating pipes 402 on the bottom of the distillation tank 2 to continuously rotate, uniformly heats the interior of the distillation tank 2, enables a large amount of tar to uniformly contact high-temperature heat to generate a large amount of water vapor for distillation treatment, then passes through the material guide opening 208 to enter the distillation pipe 7, at the moment, the worker opens the cooling water tank 8 and the water pump 801 to guide a large amount of water cooling liquid into the water cooling hose 802 to flow around the distillation pipe 7 to enable a large amount of low-temperature air to be generated around the water cooling hose 802 to cool the distillation pipe 7, and guides the other end of the water cooling hose 802 back to the inner side of the cooling water tank 8 to circularly cool the distillation pipe 7, and finally, after a worker screws out the bolts between the distillation tube 7 and the guide chute 602, the worker controls the hydraulic rod 101 to lift the support frame A102 to drive the sealing cover A201 to open from the top outside the distillation tank 2, and after the liquid storage tank 6 is taken down, the bolts between the support frame B103 and the distillation tank 2 are screwed out, and after the distillation tank 2 is taken down from the surface of the support frame B103, the worker carries asphalt and distilled other products to other processing sites for processing.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.

Claims (6)

1. The utility model provides a tar separator, includes support base (1), hydraulic stem (101), support frame A (102), support frame B (103), retort (2), sealed lid A (201), guide mouth (208), reservoir (6), sealed lid B (601), baffle box (602) and distillation tube (7), support base (1) outer wall top one end fixed mounting has hydraulic stem (101), hydraulic stem (101) outer wall top other end fixed mounting has support frame A (102), support base (1) outer wall top one end's left and right sides all fixed mounting has support frame B (103), all there is retort (2) through bolted connection between support frame B (103) outer wall top, support frame A (102) outer wall bottom one end fixed mounting has sealed lid A (201), and sealed lid A (201) agree with the slip setting in retort (2) outside top, and the extrusion is provided with the sealing washer between sealed lid A (201), sealed lid A (201) outer wall top one end embedding is provided with guide mouth (208), support base (1) outer wall top other end is provided with reservoir (6), sealed lid A (6) outside through bolted connection with sealed lid B (601), the sealing cover B (601) is characterized in that a guide groove (602) is embedded in the other end of the outer top of the sealing cover B, a distillation pipe (7) is connected between the guide opening (208) and the top of the outer wall of the guide groove (602) through bolts and sealing rings, and the distillation pipe (7) is obliquely arranged: the inside of the distillation pot (2) is provided with a stirring distillation mechanism which can stir liquid tar in high-temperature heating distillation to ensure that a large amount of tar is uniformly contacted with high-temperature heat in the distillation pot, and the outside of the distillation pipe (7) is provided with a surrounding cooling mechanism which can rapidly cool condensed water drops rapidly to collect and treat water vapor generated by a large amount of distillation.

2. The tar separator device as defined in claim 1, wherein: the stirring distillation mechanism consists of a servo motor A (202), a stirring rod A (203), stirring blades (204), a lug (205), teeth (206), a sliding rail (207), a stirring rod B (3), a gear (301), blades (302), a groove (303), a servo motor B (4), a heating frame (401), an electric heating tube (402), a heating frame II (5) and an electric roller (501);

the utility model discloses a sealed lid A (201) outer wall top centre fixed mounting has servo motor A (202), servo motor A (202) outside bottom is through output shaft connection has puddler A (203), puddler A (203) outer wall bottom fixed mounting has puddler (204), two equal fixed mounting in opposite face of puddler (204) outer wall has lug (205), retort (2) inner wall top fixed mounting has tooth (206), puddler A (203) outer wall one end is provided with puddler B (3) through the bearing rotation, puddler B (3) outer wall top fixed mounting has gear (301), puddler B (3) outer wall bottom fixed mounting has blade (302), blade (302) outer wall embedding is provided with recess (303), support base (1) outer wall top is close to retort (2) outside bottom fixed mounting has servo motor B (4), servo motor B (4) outer side top is provided with heating rack (401) through the output shaft connection, retort (2) outer wall top fixed mounting has slide rail (207), slide rail (207) bottom (5) both ends are provided with electric roller (5) both ends and are all set up through electric roller (5), and electronic gyro wheel (501) fit sliding setting is inboard at slide rail (207), heating frame (401) outer wall top and heating frame two (5) outer wall one end all fixed mounting have electrothermal tube (402).

3. The tar separator device as defined in claim 1, wherein: the surrounding cooling mechanism consists of a rubber clamp (701), a cooling water tank (8), a water pump (801), a water cooling hose (802), a sealing block (803) and a water inlet (804);

the novel water cooling device is characterized in that a cooling water tank (8) is arranged at the other end of the top of the outer wall of the supporting base (1), a water pump (801) is embedded in the front end of the outer wall of the cooling water tank (8), a water cooling hose (802) is embedded in the other end of the outer wall of the water pump (801), a rubber clamp (701) is fixedly arranged on the outer wall of the distillation tube (7), a water inlet (804) is embedded in one end of the top of the outer wall of the cooling water tank (8), and a sealing block (803) is fixedly arranged at the other end of the outer wall of the water cooling hose (802).

4. The tar separator device as defined in claim 2, wherein: the stirring blades (204) are in a plurality, every two stirring blades are in a relative inclined shape and are arranged in parallel in a central symmetry mode, and the protruding blocks (205) are in a plurality and are arranged in parallel in a triangle shape at equal intervals.

5. The tar separator device as defined in claim 2, wherein: tooth (206) have a plurality of, and are the equidistance and encircle the setting, and be tooth interlock transmission setting between tooth and a plurality of tooth (206) that gear (301) outer wall is supporting, blade (302) have a plurality of, and are the equidistance and encircle the setting side by side, recess (303) have a plurality of, and are the equidistance and set up side by side, and be fit slip setting between lug (205) and recess (303).

6. A tar separator device as defined in claim 3, wherein: the sealing device is characterized in that a plurality of rubber clamps (701) are arranged in an arc-shaped spiral surrounding mode, a water-cooling hose (802) penetrates through the inner sides of the rubber clamps (701) in a spiral surrounding mode sequentially, a sealing block (803) is arranged on the inner side of a water inlet (804) in a matched sliding mode, a sealing ring is matched between the sealing block (803) and the inner wall of the water inlet (804) in an extrusion mode, and the sealing ring is connected between the sealing block (803) and the water inlet (804) through bolts.

Images