CN210453148U - Glaze discharging device and system and glazing and glaze discharging device and system - Google Patents

Abstract

The application provides a arrange glaze device and system and glazing porcelain arrange glaze device and system, belongs to squatting pan and makes technical field. The glaze discharging device comprises a gas supply device, a first gas inlet pipe and a second gas inlet pipe. The first air inlet pipe is connected with the air supply device and is provided with a butt joint part for butt joint sealing with the flushing port. The second air inlet pipe is connected with the air supply device and is used for being in butt joint sealing with the opening. The air supply device is configured to supply air to the first intake pipe and the second intake pipe. When the glaze is discharged, after the butt joint part of the first air inlet pipe is in butt joint and sealed with the flushing port of the toilet body, the gas supplied by the gas supply device to the first air inlet pipe directly enters the re-flushing pipeline, so that the pressure in the re-flushing pipeline is improved, more glaze in the re-flushing pipeline is discharged, and the glaze accumulation amount of the pipeline is reduced. In addition, the glaze can be discharged without too high air supply pressure, the flow speed is not large, the flow rate is increased, and the splashing of the glaze accumulation liquid surface of the recoiling pipeline is reduced.

Description

Glaze discharging device and system and glazing and glaze discharging device and system

Technical Field

The application relates to the technical field of toilet bowl manufacturing, in particular to a glazing device and system and a glazing and glazing device and system.

Background

In the manufacturing process of the toilet bowl, a layer of glaze layer needs to be coated on the inner pipeline of the toilet bowl to ensure the smoothness of the inner part of the pipeline, and before the toilet bowl is sintered, glaze in the pipeline of the toilet bowl needs to be discharged through the glaze discharging device. The prior glaze discharging device comprises an air supply device and two air pipes connected with the air supply device, wherein one air pipe is butted with an opening on the seat ring surface of the toilet bowl, and the other air pipe is butted with an opening on the top of a water tank of the toilet bowl during glaze discharging, which is disclosed in the patent with the publication number of CN 207267285U. The glaze discharging device is used for discharging glaze from the pipeline of the toilet, and the sintered pipeline of the toilet has the defects of bubbles, cracks and the like.

SUMMERY OF THE UTILITY MODEL

The embodiment of the application provides a glazing device and system and a glazing and glazing device and system to solve the problem that defects such as bubbles and cracks exist in a pipeline of a sintered toilet.

In a first aspect, an embodiment of the present application provides a glaze discharging device, which is suitable for discharging glaze to a pipeline of a toilet including a toilet body, where the toilet body has a flushing port for flushing water to the interior of the toilet body and an opening arranged on a top seat ring surface, and the glaze discharging device includes a gas supply device, a first gas inlet pipe and a second gas inlet pipe;

the first air inlet pipe is connected with the air supply device and is provided with a butt joint part for butt joint sealing with the flushing port;

the second air inlet pipe is connected with the air supply device and is used for butt-joint sealing with the opening;

wherein the air supply device is configured to supply air to the first intake pipe and the second intake pipe.

Among the above-mentioned technical scheme, the butt joint portion of the first intake pipe among the row of glaze device and the flashing mouth butt joint of closestool body are sealed the back, and air feed pressure need not too big just can realize the discharge to long-pending glaze, and the velocity of flow is big flow grow, reduces the splash to long-pending glaze liquid level of the pipeline of dashing again, can effectively avoid appearing defects such as bubble, crackle in the pipeline of the squatting pan after the sintering.

The inventor finds that: the defects of bubbles, cracks and the like caused by glaze discharging through the conventional glaze discharging device are mainly caused by insufficient pressure and incomplete glaze discharging due to air leakage of a water inlet of a water tank in the glaze discharging process, and the defects of bubbles, cracks and the like caused after sintering; the air supply pressure is increased to improve the airflow of the water outlet, so that the flow rate of the gas entering the backwashing pipeline is increased, the glaze liquid surface of the backwashing pipeline is splashed, the glaze wall is not uniformly hung, and the defects of bubbles, cracks and the like can also occur after sintering.

In addition, the glaze discharging device of the embodiment of the application also has the following additional technical characteristics:

in some embodiments of the present application, the docking portion is a docking joint that matches the size of the flush port.

Among the above-mentioned technical scheme, butt joint portion is with the large and small assorted butt joint of flushing port, and butt joint can realize the quick butt joint intercommunication of first intake pipe and flushing port, guarantees that first intake pipe has fine leakproofness with the flushing port after the butt joint.

In some embodiments of the present application, the glaze discharging device further comprises a frame and a first driving device;

the air supply device is connected to the rack;

the first driving device is configured to drive the first air inlet pipe to vertically move relative to the frame;

the first driving device drives the first air inlet pipe to vertically move downwards relative to the rack, so that the butt joint part and the flushing port can be in butt joint sealing.

Among the above-mentioned technical scheme, can drive first intake pipe vertical movement through first drive arrangement, when first drive arrangement drive first intake pipe vertical downstream relatively the frame, can make first intake pipe and butt joint portion and flushing port butt joint sealed for the butt joint of first intake pipe and flushing port is convenient and fast more.

In some embodiments of the present application, the glaze discharging device further comprises a movable seat and a second driving device;

the movable seat is movably arranged on the machine frame, and the second driving device is configured to drive the movable seat to move transversely relative to the machine frame;

the first air inlet pipe is movably arranged on the movable seat, and the first driving device is configured to drive the first air inlet pipe to vertically move relative to the movable seat.

Among the above-mentioned technical scheme, second drive arrangement can drive the relative frame lateral shifting of sliding seat, and first drive arrangement can drive the relative sliding seat vertical migration of first intake pipe, can make first intake pipe at horizontal and vertical migration promptly through second drive arrangement and second drive arrangement. When the flushing port of the toilet body deviates from the butt joint part of the first air inlet pipe in the transverse direction, the first air inlet pipe can move transversely through the second driving device, so that the butt joint part of the first air inlet pipe is aligned with the flushing port, the first air inlet pipe can move vertically through the first driving device, and the butt joint part of the first air inlet pipe is accurately butted with the flushing port.

In some embodiments of the present application, the movable seat is a plate-shaped member, and the movable seat has a first end and a second end opposite to each other;

the rack is provided with a first sliding groove and a second sliding groove which are opposite and transversely arranged, the first end is movably inserted into the first sliding groove, and the second end is movably inserted into the second sliding groove.

Among the above-mentioned technical scheme, the frame is equipped with transverse arrangement's first spout and second spout, and the first end of sliding seat is movably inserted and is located in the first spout, and the second end of sliding seat is movably inserted and is located in the second spout, and this kind of structure makes the relative frame slip in-process of sliding seat have fine stability.

In some embodiments of the present application, the glaze discharging device further comprises a sealing device;

the sealing device is connected to the frame and used for sealing the second air inlet pipe and the opening.

Among the above-mentioned technical scheme, sealing device's effect is sealed the opening on second intake pipe and the top seat circle face, guarantees the sealing performance between second intake pipe and the opening.

In some embodiments of the present application, the sealing device comprises a cover and a third drive;

the second air inlet pipe is connected to the covering piece, and the third driving device is configured to drive the covering piece to vertically move relative to the machine frame;

the third driving device drives the covering piece to vertically move downwards, so that the covering piece can cover and seal the opening, and the second air inlet pipe is communicated with the inside of the toilet seat body.

Among the above-mentioned technical scheme, second intake pipe connection covers the piece, covers the piece through the vertical downstream of third drive arrangement drive relative frame and makes and cover the piece and cover sealedly in the opening, then can realize the sealed between second intake pipe and the opening, but the sealing device of this kind of structure convenient and fast with second intake pipe and opening butt joint seal.

In some embodiments of the present application, the first air intake pipe communicates with the air supply device through a hose.

Among the above-mentioned technical scheme, first intake pipe passes through the hose connection with air feeder, and under the static circumstances of air feeder, first intake pipe is when vertical removal, and the hose can take place bending deformation to guarantee the smooth and easy nature of first intake pipe vertical removal in-process. The hose has bending deformation ability, is difficult for being broken, guarantees to be in the connected state all the time between first intake pipe and the air feeder.

In some embodiments of the present application, the air supply device includes a first air supply unit and a second air supply unit;

the first air supply unit is configured to supply air to the first intake pipe;

the second air supply unit is configured to supply air to the second intake pipe.

Among the above-mentioned technical scheme, the air feeder includes the first air feed unit for the air feed of first intake pipe and the second air feed unit for the air feed of second intake pipe, and first intake pipe and second intake pipe are supplied air by first air feed unit and second air feed unit respectively alone promptly, are convenient for control first intake pipe, second intake pipe air feed alone. When the first air supply unit works independently, the first air inlet pipe can supply air to the flushing port independently; when the second air supply unit works independently, the second air inlet pipe can supply air to the opening on the top seat ring surface independently; when the first air supply unit and the second air supply unit work simultaneously, the first air inlet pipe supplies air to the flushing port, and the second air inlet pipe supplies air to the opening on the top seat ring surface.

In some embodiments of the present application, a first flow regulating device is provided on the first intake pipe.

Among the above-mentioned technical scheme, be equipped with first flow control device on the first intake pipe, first flow control device can adjust the flow of the gas through first intake pipe.

In some embodiments of the present application, a first flow detection device is provided on the first intake pipe, and the first flow adjustment device is responsive to the first flow detection device.

Among the above-mentioned technical scheme, be equipped with first flow detection device on the first intake pipe, first flow detection device can measure the flow of the gas through first intake pipe. The first flow regulating means is responsive to the first flow detecting means, and when the value measured by the first flow detecting means is higher or lower than a preset value, the first flow regulating means will regulate the flow of gas through the first intake pipe to be maintained at the preset value.

In some embodiments of the present application, a second flow regulating device is provided on the second intake pipe.

Among the above-mentioned technical scheme, be equipped with second flow control device on the second intake pipe, second flow control device can adjust the flow of the gas through the second intake pipe.

In some embodiments of the present application, a second flow sensing device is provided in the second intake conduit, and the second flow regulating device is responsive to the second flow sensing device.

Among the above-mentioned technical scheme, be equipped with second flow detection device on the second intake pipe, second flow detection device can measure the flow of the gas through the second intake pipe. The second flow regulating means is responsive to the second flow detecting means, and when the value measured by the second flow detecting means is higher or lower than a preset value, the second flow regulating means will regulate the flow of gas through the second intake pipe to be maintained at the preset value.

In some embodiments of the present application, the glaze discharging device further comprises a main pipe and a shunt adjusting device;

the main pipe is provided with an air inlet end and an air outlet end, and the air inlet end is connected with the air supply device;

the shunt adjusting device is provided with an air inlet, a first air outlet and a second air outlet, the air outlet end is connected to the air inlet, the first air inlet pipe is connected to the first air outlet, and the second air inlet pipe is connected to the second air outlet.

Among the above-mentioned technical scheme, the person in charge who is connected with air feeder is connected with reposition of redundant personnel adjusting device's air inlet, and first intake pipe is connected with reposition of redundant personnel adjusting device's first gas outlet, and the second intake pipe is connected with reposition of redundant personnel adjusting device's second gas outlet, can distribute first intake pipe and second intake pipe as required with the gas that air feeder supplied with the person in charge through reposition of redundant personnel adjusting device.

In some embodiments of the present application, the toilet further includes a water tank connected to the toilet body;

the water tank is provided with a water inlet and a water outlet, and the water outlet is the flushing port.

In the technical scheme, the water outlet of the water tank connected with the water closet body is the flushing port of the water closet body, and after the first air inlet pipe is inserted into the water tank and the butt joint part is in butt joint with the water outlet, the glaze can be discharged by supplying air to the water outlet through the air supply device.

In a second aspect, an embodiment of the application provides a glaze discharging system, which includes a toilet and the glaze discharging device;

the closestool comprises a closestool body, wherein the closestool body is provided with a flushing port for flushing water to the interior of the closestool body and an opening arranged on the top seat ring surface;

the butt joint part of the first air inlet pipe is in butt joint sealing with a flushing port of the toilet body;

the second air inlet pipe is in butt joint sealing with an opening on the top seat ring surface of the toilet seat body.

In the technical scheme, the butt joint part of the first air inlet pipe of the glaze discharging device is in butt joint sealing with the flushing port of the toilet body, the second air inlet pipe is in butt joint sealing with the opening on the top seat ring surface of the toilet body, and the glaze discharging can be realized when the air supply device in the glaze discharging device works. According to the glaze discharging device, the butt joint part of the first air inlet pipe is directly in butt joint and sealed with the flushing port of the toilet body, and the air supplied by the air supply device to the first air inlet pipe directly enters the backwashing pipeline, so that the pressure in the backwashing pipeline is improved, more glaze in the backwashing pipeline is discharged, and the glaze accumulation amount of the pipeline is reduced.

In a third aspect, an embodiment of the present application provides a glazing and glaze discharging device, which includes a glazing device, a conveying device, and the glaze discharging device;

the conveying device is configured to convey the toilet bowl from the glazing position where the glazing device is located to the glazing position where the glazing device is located.

In the technical scheme, the glazing device is used for glazing the pipeline of the toilet bowl positioned on the conveying device. After the glazing device is used for glazing the pipeline of the toilet, the conveying device can be used for conveying the toilet from the position where the glazing device is located to the position where the glaze discharging device is located, and then the glaze discharging device is used for discharging oil in the pipeline of the toilet. When the glaze discharging device discharges glaze to the toilet bowl, the glaze accumulation amount of the re-flushing pipeline can be effectively reduced.

In addition, the glazing and glaze discharging device of the embodiment of the application has the following additional technical characteristics:

in some embodiments of the present application, the glazing device comprises a bracket, a glazing inlet pipe for interfacing with a pipe of a toilet, a movable body, a fourth driving device and a fifth driving device;

the movable body is movably arranged on the bracket;

the fourth driving device is configured to drive the movable body to move transversely relative to the bracket;

the fifth driving device is configured to drive the glaze feeding pipe to vertically move relative to the movable body;

the conveying device is configured to convey the toilet bowl from the glazing position where the glazing device is located to the glazing position where the glazing device is located in the longitudinal direction.

Among the above-mentioned technical scheme, can drive the relative support lateral shifting of activity body through fourth drive arrangement, realize advancing the lateral shifting of glaze pipe promptly, can drive into the vertical removal of glaze pipe relative activity body through fifth drive arrangement to realize advancing the vertical removal of glaze pipe. Before glazing, when the conveying device conveys the toilet bowl to the position of the glazing device along the longitudinal direction, the fourth driving device can drive the glaze inlet pipe to move transversely so as to align the glaze inlet pipe with the bottom outlet of the pipeline of the toilet bowl, and the fifth driving device drives the glaze inlet pipe to move vertically upwards so as to butt-joint and seal the glaze inlet pipe with the bottom outlet of the pipeline of the toilet bowl, so that the pipeline of the toilet bowl is conveniently glazed. The glazing device can be quickly butted with a pipeline of a toilet and glazing is carried out.

In some embodiments of the present application, the glazing device further comprises a jacket;

the clamping sleeve is movably arranged on the movable body and clamped on the outer side of the glaze inlet pipe, and the fifth driving device is configured to drive the clamping sleeve to vertically move relative to the movable body.

Among the above-mentioned technical scheme, press from both sides the cover and movably set up in the movable body, press from both sides the cover and press from both sides in the outside of advancing the glaze pipe, the setting of pressing from both sides the cover is convenient for advance the dismouting of glaze pipe, is convenient for change into the glaze pipe.

In a fourth aspect, an embodiment of the present application provides a glazing and glaze discharging system, which includes a toilet bowl and the above glazing and glaze discharging device, where the toilet bowl is placed on the conveying device.

In the technical scheme, the glazing and glaze discharging system comprises a toilet and a glazing and glaze discharging device, and the glazing and glaze discharging device can be used for glazing and discharging glaze for the toilet. In the glaze discharging process, the glaze accumulation amount of the repeated punching pipeline can be effectively reduced.

The beneficial effect of this application includes:

the glaze discharging device and system and glaze applying and glaze discharging device and system that this application embodiment provided, first intake pipe have be used for with the butt joint portion of the flushing port butt joint of toilet body, reduced the long-pending glaze volume of pipeline, improved the wall built-up homogeneity of frit, reduced the defect rate of finished product pipeline after the sintering.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present application and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained from the drawings without inventive effort.

FIG. 1 is a schematic diagram of a toilet in the prior art;

fig. 2 is a schematic structural diagram of a glaze discharging device according to an embodiment of the present application;

FIG. 3 is a schematic diagram illustrating a first possible configuration of a first intake pipe and a second intake pipe connected to an air supply device according to another embodiment of the present disclosure;

FIG. 4 is a schematic diagram illustrating a second possible configuration of a first intake pipe and a second intake pipe connected to an air supply device according to another embodiment of the present disclosure;

FIG. 5 is a partial view of the glaze discharging device shown in FIG. 2;

FIG. 6 is a schematic structural diagram of a glaze discharging system according to an embodiment of the present application;

fig. 7 is a schematic structural diagram of a glazing and glaze discharging device provided in the embodiment of the present application;

FIG. 8 is a schematic structural view of the glazing apparatus shown in FIG. 7 at a first viewing angle;

fig. 9 is a schematic structural view of the glazing device shown in fig. 7 under a second viewing angle.

Icon: 100-glaze discharging device; 10-a gas supply device; 11-a first air supply unit; 12-a second air supply unit; 20-a first inlet pipe; 21-a docking station; 22-a hose; 30-a second air inlet pipe; 40-main pipe; 41-air inlet end; 42-air outlet end; 43-a split flow regulating device; 431-air inlet; 432-first outlet port; 433 — a second air outlet; 50-a frame; 51-a first runner; 52-a second runner; 60-a first drive; 70-a movable seat; 80-a second drive; 90-sealing means; 91-a cover; 92-a third drive; 200-a toilet bowl; 210-a toilet body; 2101-top race face; 2102-flush space; 2103-an opening; 2104-water ring; 2105-recoiling the pipeline; 2106-a water outlet pipe; 2107-socket; 2108-a flushing port; 220-a water tank; 2201-water inlet; 2202-water outlet; 300-glaze discharging system; 400-glazing and glaze discharging device; 410-glazing device; 411-a scaffold; 4111-a top plate; 4112-a strip groove; 412-a glaze inlet pipe; 4121-a first tube section; 4122-a second tube section; 4123-a third tube section; 413-a movable body; 4131-a first connection plate; 4132-a second connecting plate; 4133-a third connecting plate; 4134-a fourth connecting plate; 414 — a fourth drive; 415-fifth driving means; 416-a jacket; 420-a conveying device; a-vertical direction; b-transverse direction; c-longitudinal direction.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some embodiments of the present application, but not all embodiments. The components of the embodiments of the present application, generally described and illustrated in the figures herein, can be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present application, presented in the accompanying drawings, is not intended to limit the scope of the claimed application, but is merely representative of selected embodiments of the application. 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 application.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

In the description of the embodiments of the present application, it should be noted that the indication of orientation or positional relationship is based on the orientation or positional relationship shown in the drawings, or the orientation or positional relationship which is usually placed when the product of the application is used, or the orientation or positional relationship which is usually understood by those skilled in the art, or the orientation or positional relationship which is usually placed when the product of the application is used, and is only for the convenience of describing the application and simplifying the description, but does not indicate or imply that the indicated device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the application. Furthermore, the terms "first," "second," "third," and the like are used solely to distinguish one from another and are not to be construed as indicating or implying relative importance.

In the description of the embodiments of the present application, it should also be noted that the terms "disposed" and "connected" are to be interpreted broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected, unless explicitly stated or limited otherwise; may be directly connected or indirectly connected through an intermediate. The specific meaning of the above terms in the present application can be understood in a specific case by those of ordinary skill in the art.

Examples

Generally, as shown in fig. 1, the bidet 200 includes a bidet body 210 and a water tank 220, and the water tank 220 is provided at the top of the bidet body 210. The water tank 220 has a water inlet 2201 and a water outlet 2202. The toilet body 210 has a top rim surface 2101, and the toilet body 210 has a flush space 2102, a water ring 2104 and a pipe inside, the water ring 2104 being close to the top rim surface 2101. Wherein, the top ring surface 2101 is provided with an opening 2103 communicated with the flushing space 2102; the toilet body 210 is provided with a flushing port 2108, the flushing port 2108 is a drainage port 2202 of the water tank 220, and the flushing port 2108 is communicated with the water ring 2104; the pipeline comprises a re-flushing pipeline 2105 and a water outlet pipeline 2106, one end of the re-flushing pipeline 2105 is communicated with the water ring 2104, one end of the water outlet pipeline 2106 penetrates through the bottom of the toilet body 210, the other end of the re-flushing pipeline 2105 and the other end of the water outlet pipeline 2106 are converged at the bottom of the flushing space 2102, and a socket port 2107 is formed at the convergence position of the re-flushing pipeline 2105, the water outlet pipeline 2106 and the flushing space 2102.

In the existing glaze discharging device, two air pipes connected with an air supply device are directly abutted with an opening 2103 on a top ring surface 2101 of a toilet seat body 210 and an opening 2103 on the top of a water tank 220, however, because the water tank 220 is provided with a water inlet 2201 and a water outlet 2202, a large part of air entering the water tank 220 leaks outside from the water inlet 2201, only a small part of air can enter a re-flushing pipeline 2105 from the water outlet 2202 of the water tank 220, and the pressure of the re-flushing pipeline 2105 is reduced, so that the glaze accumulation in the re-flushing pipeline 2105 is serious. At present, the airflow of the water outlet 2202 is generally improved by increasing the pressure, so that the flow rate of the gas entering the re-flushing pipeline 2105 is increased, the glaze liquid surface of the re-flushing pipeline 2105 is splashed, the glaze wall is unevenly hung, and the defects of bubbles, cracks and the like are caused after sintering.

The embodiment of the first aspect of the present application provides a glaze discharging device 100 to effectively reduce glaze accumulation in the backwashing pipeline 2105.

As shown in fig. 2, the glaze discharging device 100 includes a gas supply device 10, a first gas inlet pipe 20, and a second gas inlet pipe 30. The first air inlet pipe 20 is connected to the air supply device 10, and the first air inlet pipe 20 has an abutting portion 21 for abutting and sealing with the flush port 2108 of the toilet body 210. The second air inlet pipe 30 is connected to the air supply device 10, and the second air inlet pipe 30 is used for butt-sealing with the opening 2103 on the top ring face 2101 of the toilet seat body 210. The air supply device 10 is configured to supply air to the first intake pipe 20 and the second intake pipe 30.

The first air inlet pipe 20 in the glaze discharging device 100 is provided with the butt joint part 21 for butt joint with the flushing port 2108 of the toilet body 210, when glaze is discharged, after the butt joint part 21 of the first air inlet pipe 20 is in butt joint and sealed with the flushing port 2108 of the toilet body 210, air provided by the air supply device 10 to the first air inlet pipe 20 directly enters the backwashing pipeline 2105, so that the pressure in the backwashing pipeline 2105 is improved, more glaze in the backwashing pipeline 2105 is discharged, and the glaze accumulation amount of the pipeline is reduced. In addition, the glaze can be discharged without too large air supply pressure, the flow speed is not large, the splashing of the glaze accumulation liquid surface of the backwashing pipeline 2105 is reduced, and the defects of bubbles, cracks and the like in the pipeline of the sintered toilet 200 can be effectively avoided.

When the glaze discharging device 100 discharges glaze to the pipe of the toilet 200, if only the toilet body 210 is provided in the toilet 200 and the water tank 220 is not provided, the abutting portion 21 of the first air inlet pipe 20 is directly abutted and sealed with the flush port 2108 of the toilet body 210; if the toilet body 210 is provided with both the toilet body 210 and the water tank 220, the water outlet 2202 of the water tank 220 is the flushing port 2108 of the toilet body 210, and the abutting portion 21 of the first water inlet pipe enters the water tank 220 from the top of the water tank 220 and abuts and seals the water outlet 2202.

Wherein, the gas supply device 10 is used for supplying gas with certain pressure to the first water inlet pipe and the second water inlet pipe.

With continued reference to fig. 1, in the present embodiment, the air supply device 10 includes a first air supply unit 11 and a second air supply unit 12, the first air supply unit 11 being configured to supply air to the first air intake duct 20, and the second air supply unit 12 being configured to supply air to the second air intake duct 30.

The first air inlet pipe 20 and the second air inlet pipe 30 are respectively and independently supplied with air by the first air supply unit 11 and the second air supply unit 12, so that the independent air supply of the first air inlet pipe 20 and the second air inlet pipe 30 is conveniently controlled. When the first air supply unit 11 works alone, the first air inlet pipe 20 can supply air to the flushing port 2108 alone; when the second air supply unit 12 operates alone, the second air inlet pipe 30 can supply air to the opening 2103 on the top race surface 2101 alone; when the first air supply unit 11 and the second air supply unit 12 are simultaneously operated, the first air intake duct 20 supplies air to the flush port 2108, and the second air intake duct 30 supplies air to the opening 2103 of the top retainer surface 2101.

In this embodiment, the docking portion 21 is a docking adapter that matches the size of the flush port 2108. The butt joint can realize the quick butt joint intercommunication of first intake pipe 20 and flushing port 2108, guarantees that first intake pipe 20 has fine leakproofness with the flushing port 2108 after the butt joint.

It should be noted that, when the flushing port 2108 is a hole opened on the toilet body 210, the size matching of the docking connector and the flushing port 2108 can be understood as matching of the outer diameter of the docking connector and the inner diameter of the hole, and the docking connector is inserted into the hole to realize sealing and docking; when the flushing port 2108 protrudes from the small section of pipe of the toilet body 210, the size of the butt joint is matched with that of the flushing port 2108, that is, the inner diameter of the butt joint is matched with the outer diameter of the small section of pipe, and the butt joint is sleeved outside the small section of pipe to realize sealing butt joint.

In other embodiments, the abutting portion 21 may have other structures, for example, the abutting portion 21 is a sealing ring on the outer circumference of the first air inlet tube 20, and the abutting portion 21 can also be sealed after abutting against the flushing port 2108.

The first air supply unit 11 is used for supplying air to the first air inlet pipe 20, the second air supply unit 12 is used for supplying air to the first air inlet pipe 20, the first air supply unit 11 and the second air supply unit 12 may be a fan, an air pump, a compressed air storage tank, or the like, and for example, both the first air supply unit 11 and the second air supply unit 12 are fans.

The first air inlet pipe 20 and the first air supply unit 11 may be directly connected or indirectly connected; the second intake pipe 30 and the second air supply unit 12 may be directly connected or indirectly connected. If the first air inlet pipe 20 and the second air inlet pipe 30 are made of soft materials, the first air inlet pipe 20 and the second air inlet pipe 30 can be directly connected with the first air supply unit 11 and the second air supply unit 12 respectively; if the first air inlet pipe 20 and the second air inlet pipe 30 are made of hard materials, the first air inlet pipe 20 and the first air supply unit 11 can be indirectly connected through the hose 22, and the second air inlet pipe 30 and the second air supply unit 12 can also be indirectly connected through the hose 22. In this embodiment, the first air inlet duct 20 is made of a hard material, the second air inlet duct 30 is made of a soft material, the first air inlet duct 20 and the first air supply unit 11 are connected by the hose 22, and the second air inlet duct 30 and the second air supply unit 12 are directly connected.

Further, the first air inlet pipe 20 is provided with a first flow adjusting device, and the first flow adjusting device can adjust the flow of the air passing through the first air inlet pipe 20, so as to adjust the flow of the air passing through the first air inlet pipe 20 according to requirements. The first flow regulating device may be an electromagnetic flow valve, a manual flow valve, or the like.

Further, a second flow regulating device is arranged on the second air inlet pipe 30, and the second flow regulating device can regulate the flow of the gas passing through the second air inlet pipe 30, so that the flow of the gas passing through the second air inlet pipe 30 can be regulated according to requirements. By way of example, the second flow regulating device may be an electromagnetic flow valve, a manual flow valve, or the like.

Optionally, the first air inlet pipe 20 is provided with a first flow rate detecting device, and the first flow rate adjusting device responds to the first flow rate detecting device.

The first flow regulating device is responsive to the first flow detecting device, it being understood that both the first flow regulating device and the first flow detecting device are connected to the controller. As an example, the first flow detecting device is a flow meter, and the first adjusting device is a solenoid flow valve.

The first flow detecting means may measure the flow rate of the gas passing through the first intake pipe 20, and when the value measured by the first flow detecting means is higher or lower than a preset value, the first flow adjusting means will adjust the flow rate of the gas passing through the first intake pipe 20 under the action of the controller to be maintained at the preset value.

Optionally, a second flow detecting device is disposed on the second air inlet pipe 30, and the second flow adjusting device responds to the second flow detecting device.

The second flow regulating device is responsive to the second flow sensing device, it being understood that both the second flow regulating device and the second flow sensing device are connected to the controller. As an example, the first flow rate detecting means is a flow meter and the second adjusting means is a solenoid flow valve.

The second flow detecting means may measure the flow rate of the gas passing through the second intake pipe 30, and when the value measured by the second flow detecting means is higher or lower than a preset value, the second flow adjusting means will adjust the flow rate of the gas passing through the first intake pipe 20 under the action of the controller to be maintained at the preset value.

Of course, in other embodiments, a pressure detection device and a pressure adjustment device may be provided in the first intake pipe 20 and the second intake pipe 30. The pressure detection device on the first air inlet pipe 20 is used for detecting the pressure of the air in the first air inlet pipe 20, and the pressure regulation device on the first air inlet pipe 20 is used for regulating the pressure of the air in the first air inlet pipe 20; pressure detecting means on the second intake pipe 30 is for detecting the pressure of the gas in the second intake pipe 30, and pressure adjusting means on the second intake pipe 30 is for adjusting the pressure of the gas in the second intake pipe 30.

In the present embodiment, the first air intake duct 20 and the second air intake duct 30 are supplied with air by the first air supply unit 11 and the second air supply unit 12, respectively. In other embodiments, the first air inlet pipe 20 and the second air inlet pipe 30 may also be supplied by the same air supply device 10, for example, as shown in fig. 3, the main pipe 40 is connected to the air supply device 10, and the first air inlet pipe 20 and the second air inlet pipe 30 are both connected to the main pipe 40, so that the first air inlet pipe 20, the second air inlet pipe 30 and the main pipe 40 form a Y-pipe, and after the air supply device 10 supplies air to the main pipe 40, the air in the main pipe 40 is divided into the first air inlet pipe 20 and the second air inlet pipe 30, where the air supply device 10 may be a blower, an air pump, a compressed air storage tank, or the like. Of course, the first air inlet pipe 20 and the second air inlet pipe 30 may also be indirectly connected to the main pipe 40, for example, as shown in fig. 4, the first air inlet pipe 20 and the second air inlet pipe 30 are connected to the main pipe 40 through a flow dividing adjusting device 43, the main pipe 40 has an air inlet end 41 and an air outlet end 42, the air inlet end 41 is connected to the air supply device 10, the flow dividing adjusting device 43 has an air inlet 431, a first air outlet 432 and a second air outlet 433, the air outlet end 42 is connected to the air inlet 431, the first air inlet pipe 20 is connected to the first air outlet 432, and the second air inlet pipe 30 is connected to the second air. The gas supplied from the gas supply device 10 to the main pipe 40 can be distributed to the first and second gas inlet pipes 20 and 30 as needed by the flow dividing adjustment device 43. As an example, the split flow adjusting device 43 is a three-way valve.

Further, as shown in fig. 5, in the present embodiment, the glaze discharging device 100 further includes a frame 50 and a first driving device 60, the air supply device 10 is connected to the frame 50, the first driving device 60 is configured to drive the first air inlet pipe 20 to move vertically a relative to the frame 50, and the first driving device 60 drives the first air inlet pipe 20 to move vertically a relative to the frame 50 to enable the abutting portion 21 to be in abutting seal with the flushing port 2108.

When the first driving device 60 drives the first air inlet pipe 20 to move downwards relative to the vertical direction a of the frame 50, the first air inlet pipe 20 and the butt joint part 21 can be in butt joint sealing with the flushing port 2108, so that the butt joint of the first air inlet pipe 20 and the flushing port 2108 is more convenient and faster.

Wherein, the first air supply unit 11 and the second air supply unit 12 of the air supply device 10 are both fixed on the frame 50, and the first air inlet pipe 20 is arranged vertically a.

In addition, since the first air inlet pipe 20 is connected to the first air supply unit 11 of the air supply device 10 through the hose 22, when the first air inlet pipe 20 moves in the vertical direction a, the hose 22 can be bent and deformed, so as to ensure the smoothness of the first air inlet pipe 20 during the movement in the vertical direction a. The flexible tube 22 has a bending deformation capability and is not easily broken, so as to ensure that the first air inlet tube 20 and the first air supply device 10 are always in a communication state.

Optionally, the glaze discharging device 100 further comprises a movable seat 70 and a second driving device 80. The movable seat 70 is movably disposed on the frame 50, and the second driving device 80 is configured to drive the movable seat 70 to move in the transverse direction B relative to the frame 50. The first air inlet pipe 20 is movably disposed on the movable seat 70, and the first driving device 60 is configured to drive the first air inlet pipe 20 to move in the vertical direction a relative to the movable seat 70.

The first air intake duct 20 is movable in the vertical direction a and the lateral direction B by the first driving device 60 and the second driving device 80. When the flush port 2108 of the toilet body 210 is deviated from the abutting portion 21 of the first air inlet pipe 20 in the transverse direction B, the first air inlet pipe 20 can be moved in the transverse direction B by the second driving device 80, so that the abutting portion 21 of the first air inlet pipe 20 is aligned with the flush port 2108, and then the first air inlet pipe 20 is moved in the vertical direction a by the first driving device 60, so that the abutting portion 21 of the first air inlet pipe 20 is accurately abutted with the flush port 2108.

The frame 50 mainly serves to connect and support various components, and the structure may be various, and the frame 50 is a frame structure as an example. The movable seat 70 may have various structures, and the movable seat 70 is exemplified as a plate-shaped structure.

The first driving device 60 is used for driving the first air inlet pipe 20 to move vertically a relative to the movable seat 70, and the first driving device 60 can be of various structures. In this embodiment, first drive arrangement 60 is the cylinder, and the cylinder is vertical to be arranged, the cylinder body and the sliding seat 70 fixed connection of cylinder, and the piston rod of cylinder is connected with the connecting plate, and the vertical A of first intake pipe 20 is fixed in on the connecting plate, and the piston rod of cylinder is flexible then can make connecting plate vertical movement relative to the cylinder body to drive first intake pipe 20 and remove. Of course, there may be one cylinder or a plurality of cylinders (including two cylinders), and as an example, there are two cylinders. In other embodiments, the first driving device 60 may have other structures, for example, the first driving device 60 is a hydraulic cylinder.

It should be noted that, when the portion of the first air inlet pipe 20 other than the butt joint may also be soft, the butt joint may be fixed to the connecting plate, and the piston rod of the air cylinder extends and retracts relative to the cylinder body to move the connecting plate, so as to drive the butt joint of the first air inlet pipe 20 to move vertically.

The second driving device 80 is used for driving the movable seat 70 to move transversely B relative to the frame 50, and the second driving device 80 may have various structures. In this embodiment, the second driving device 80 includes a first motor and a first lead screw, the first motor is fixed on the frame 50, an output shaft of the first motor is connected to the first lead screw, the movable seat 70 is screwed to an outer side of the first lead screw to form a first lead screw nut pair, and when the first motor drives the first lead screw to rotate, the movable seat 70 moves laterally B with respect to the frame 50. In other embodiments, the second driving device 80 may also have other structures, for example, the second driving device 80 is an air cylinder, and the lateral movement B of the movable seat 70 is realized by the expansion and contraction of the air cylinder.

There are various connection forms of the movable seat 70 and the frame 50. In this embodiment, the movable seat 70 is a plate-shaped member, and the movable seat 70 has a first end and a second end opposite to each other. The frame 50 is provided with a first sliding slot 51 and a second sliding slot 52 which are opposite and arranged along the transverse direction B, wherein a first end is movably inserted into the first sliding slot 51, and a second end is movably inserted into the second sliding slot 52.

The rack 50 is provided with a first sliding groove 51 and a second sliding groove 52 which are arranged transversely B, a first end of the movable seat 70 is movably inserted into the first sliding groove 51, a second end of the movable seat 70 is movably inserted into the second sliding groove 52, and the structure enables the movable seat 70 to have good stability in the sliding process relative to the rack 50.

Wherein the notch of the first slide groove 51 faces the notch of the second slide groove 52.

In other embodiments, the movable seat 70 and the base frame may have other connection forms to realize the movement of the movable seat 70. For example, two T-shaped blocks are disposed at the bottom of the movable seat 70 at intervals, two T-shaped slots are disposed on the frame 50 at intervals, and the two T-shaped blocks are movably disposed in the two T-shaped slots respectively.

Further, as shown in fig. 1, the glaze discharging device 100 further includes a sealing device 90, the sealing device 90 is connected to the frame 50, and the sealing device 90 is used for sealing the second air inlet pipe 30 and the opening 2103. The sealing device 90 is used for sealing the second air inlet pipe 30 and the opening 2103 on the top ring surface 2101, and ensuring the sealing performance between the second air inlet pipe 30 and the opening 2103.

Here, the sealing device 90 may have various structures as long as the sealing device 90 can seal the second intake pipe 30 and the top ring surface 2101.

In the present embodiment, the sealing device 90 includes a covering member 91 and a third driving device 92. The second air intake duct 30 is connected to the cover 91, and the third drive device 92 is configured to drive the cover 91 to move in the vertical direction a relative to the frame 50. The third driving device 92 drives the cover 91 to move downwards along the vertical direction a, so that the cover 91 covers and seals the opening 2103, and the second air inlet pipe 30 is communicated with the inside of the toilet seat body 210.

Among the above-mentioned technical scheme, second intake pipe 30 is connected in covering 91, and through the vertical A of third drive arrangement 92 drive covering 91 relative frame 50 move down and make covering 91 cover sealed in opening 2103, then can realize the sealed between second intake pipe 30 and the opening 2103, but sealing device 90 of this kind of structure convenient and fast with second intake pipe 30 and opening 2103 butt joint sealing.

Wherein, covering 91 is the plate, is equipped with the through-hole that runs through the gas upper and lower surface on covering 91, and in second intake pipe 30 extended to the through-hole, the outer wall of intake pipe was sealed with the pore wall of through-hole. During the downward movement of the cover 91 in the vertical direction a driven by the third driving means 92, the cover 91 will eventually seal the cover on the top rim surface 2101 of the toilet body 210, so that the second air inlet pipe 30 is now sealed in abutment with the opening 2103.

Wherein the third driving device 92 is used for driving the covering member 91 to move in the vertical direction a relative to the frame 50, and the third driving device 92 can be of various structures. In this embodiment, the third driving device 92 is a cylinder, a cylinder body of the cylinder is fixedly connected to the base frame, and a piston rod of the cylinder is fixedly connected to the covering member 91. Of course, there may be one or more (including two) cylinders, and as an example, there are four cylinders, and the four cylinders are respectively located at four corners of the rectangle. In other embodiments, the third driving device 92 may have other structures, for example, the third driving device 92 is a hydraulic cylinder.

As shown in fig. 6, a glazing discharging system 300 according to a second aspect of the present application includes a toilet 200 and the glazing discharging apparatus 100 of the above embodiments. The abutting portion 21 of the first air inlet pipe 20 is in abutting seal with the flushing port 2108 of the toilet body 210, and the second air inlet pipe 30 is in abutting seal with the opening 2103 on the top ring surface 2101 of the toilet body 210.

The abutting part 21 of the first air inlet pipe 20 of the glaze discharging device 100 is in abutting sealing with the flushing port 2108 of the toilet seat body 210, the second air inlet pipe 30 is in abutting sealing with the opening 2103 on the top ring surface 2101 of the toilet seat body 210, and the air supply device 10 in the glaze discharging device 100 can work to discharge glaze. Because the butt joint part 21 of the first air inlet pipe 20 is directly in butt joint and sealing with the flushing port 2108 of the toilet seat body 210, the air supplied to the first air inlet pipe 20 by the air supply device 10 directly enters the backwashing pipeline 2105, the pressure in the backwashing pipeline 2105 is improved, more glaze in the backwashing pipeline 2105 is discharged, and the glaze accumulation amount of the pipeline is reduced.

As shown in fig. 7, the third aspect of the present application provides a glazing and discharging device 400, which includes a glazing device 410, a conveying device 420 and the discharging device 100 in the above embodiments, wherein the conveying device 420 is configured to convey the toilet 200 from the glazing position where the glazing device 410 is located to the discharging position where the discharging device 100 is located.

The glazing unit 410 is used to glaze the pipe of the toilet 200 located on the conveyor 420. After the pipe of the toilet bowl 200 is glazed by the glazing device 410, the toilet bowl 200 may be transported from the position where the glazing device 410 is located to the position where the glaze discharging device 100 is located by the transporting device 420, and the oil in the pipe of the toilet bowl 200 may be discharged by the glaze discharging device 100. When the glaze discharging device 100 discharges the glaze to the toilet 200, the glaze accumulation amount of the backwashing pipeline 2105 can be effectively reduced.

In this embodiment, as shown in fig. 8, the glazing device 410 includes a bracket 411, a glaze inlet pipe 412 for interfacing with a pipe of the toilet 200, a movable body 413, a fourth driving device 414, and a fifth driving device 415. The movable body 413 is movably disposed to the bracket 411, and the fourth driving device 414 is configured to drive the movable body 413 to move in the lateral direction B with respect to the bracket 411. A fifth drive 415 is configured to drive the glaze inlet pipe 412 in a vertical direction a relative to the movable body 413. The conveying device 420 is configured to convey the toilet 200 in the longitudinal direction C from the glazing position where the glazing device 410 is located to the glazing position where the glazing device 100 is located.

The movable body 413 can be driven by the fourth driving device 414 to move transversely B relative to the bracket 411, namely, the transverse B movement of the glaze inlet pipe 412 is realized, and the glaze inlet pipe 412 can be driven by the fifth driving device 415 to move vertically A relative to the movable body 413, so that the vertical A movement of the glaze inlet pipe 412 is realized. Before glazing, when the conveying device 420 conveys the toilet bowl 200 to the position of the glazing device 410 along the longitudinal direction C, the fourth driving device 414 can drive the glaze inlet pipe 412 to move transversely B so that the glaze inlet pipe 412 is aligned with the bottom outlet of the pipeline of the toilet bowl 200, and then the fifth driving device 415 drives the glaze inlet pipe 412 to move vertically a upwards so that the glaze inlet pipe 412 is in butt joint with the bottom outlet of the pipeline of the toilet bowl 200 for sealing, so that glazing is conveniently performed on the pipeline of the toilet bowl 200, and the bottom outlet of the pipeline of the toilet bowl 200 is the end of the recoil pipeline 2105 away from the socket 2107. The glazing device 410 can be quickly butted with the pipeline of the toilet 200 and glazed.

As shown in fig. 9, the bracket 411 mainly serves to support and connect various components, the bracket 411 may have various structures, for example, the bracket 411 has a rectangular frame structure, and a top plate 4111 is disposed on the bracket 411.

The movable body 413 is a rectangular frame, and the movable body 413 includes a first connection plate 4131, a second connection plate 4132, a third connection plate 4133, and a fourth connection plate 4134, which are sequentially connected end to end. Be equipped with two bar grooves 4112 on the roof 4111 of support 411, first connecting plate 4131 and the vertical A of third connecting portion arrange and insert respectively and locate two bar grooves 4112 in, first connecting plate 4131 and third connecting plate 4133 can slide respectively in two bar grooves 4112, and second connecting plate 4132 is located the top of roof 4111, and fourth connecting plate 4134 is located the below of roof 4111.

The fourth driving device 414 is used for driving the movable body 413 to move transversely B relative to the bracket 411, and the fourth driving device 414 can be of various structures. In this embodiment, the fourth driving device 414 includes a second motor and a second lead screw, the second motor is fixed on the bracket 411, an output shaft of the second motor is connected to the second lead screw, the movable body 413 is screwed to an outer side of the second lead screw to form a lead screw nut pair, and when the second motor drives the second lead screw to rotate, the movable body 413 moves along the transverse direction B with respect to the bracket 411. Wherein, the second connection plate 4132 of the movable body 413 is screwed with the screw rod. In other embodiments, the fourth driving device 414 may have other structures, for example, the fourth driving device 414 is a cylinder, and the lateral movement B of the movable body 413 is realized by the expansion and contraction of the cylinder.

Further, as shown in fig. 8, the glazing device 410 further includes a jacket 416, the jacket 416 is movably disposed on the movable body 413, the jacket 416 is clamped on the outer side of the glaze inlet pipe 412, and the fifth driving device 415 is configured to drive the jacket 416 to move in the vertical direction a relative to the movable body 413. The jacket 416 is provided to facilitate the disassembly and assembly of the glaze inlet pipe 412 and the replacement of the glaze inlet pipe 412.

Wherein, the cross section of jacket 416 is C-shaped, and glaze inlet pipe 412 is blocked in the C-shaped bayonet of jacket 416.

The fifth driving device 415 is used for driving the glaze inlet pipe 412 to move vertically a, and the fifth driving device 415 can be in various structures. In this embodiment, the fifth driving device 415 is an air cylinder, a cylinder body of the air cylinder is fixedly connected to the fourth connecting plate 4134 of the movable body 413, and the jacket 416 is located between the first connecting plate 4131 and the second connecting plate 4132 and fixedly connected to a piston rod of the air cylinder.

In this embodiment, the glaze inlet pipe 412 is a Z-shaped structure, the glaze inlet pipe 412 includes a first pipe segment 4121, a second pipe segment 4122 and a third pipe segment 4123 which are connected in sequence, the first pipe segment 4121 and the third pipe segment 4123 are both perpendicular to the second pipe segment 4122, the jacket 416 is clamped on the outer side of the second pipe segment 4122, the second pipe segment 4122 extends along the longitudinal direction C, the first pipe segment 4121 extends upward from the vertical direction a of the second pipe segment 4122, and the third pipe segment 4123 extends downward from the vertical direction a of the second pipe segment 4122.

Wherein, the end of the first tube segment 4121 far away from the second tube segment 4122 is provided with a butt joint for butt sealing with the outlet pipe 2106 of the pipe of the toilet 200.

The conveying device 420 is used for conveying the toilet bowl 200 from the position of the glazing device 410 to the position of the glazing device 100 along the longitudinal direction C. The conveyor belt of the conveyor 420, the conveyor 420 being arranged in a longitudinal direction C, i.e. the conveying direction of the conveyor 420 is the longitudinal direction C.

It should be noted that the vertical direction a, the horizontal direction B and the longitudinal direction C are perpendicular to each other, but the perpendicular direction is not necessarily absolute.

The glazing and glaze discharging system comprises a toilet bowl 200 and the glazing and glaze discharging device 400 of the fourth embodiment, wherein the toilet bowl 200 is placed on a conveying device 420.

The glazing and glaze discharging system comprises a toilet bowl 200 and a glazing and glaze discharging device 400, wherein the glazing and glaze discharging device 400 can be used for glazing and glaze discharging on the toilet bowl 200. In the glaze discharging process, the glaze accumulation amount of the re-flushing pipeline 2105 can be effectively reduced.

The fifth aspect of the present application provides a glaze discharging method, which is suitable for the glaze discharging device 100, the glaze discharging system 300, the glaze applying and discharging device 400 and the glaze applying and discharging system of the foregoing embodiments, and the glaze discharging method includes the following steps:

the butting part 21 of the first air inlet pipe 20 is butted and sealed with the flushing port 2108 of the closestool body 210;

the second air inlet pipe 30 is butt-sealed with an opening 2103 on the top ring face 2101 of the toilet body 210;

the air supply device 10 supplies air to the first intake pipe 20 and the second intake pipe 30.

Because the butt joint part 21 of the first air inlet pipe 20 is in butt joint sealing with the flushing port 2108 of the toilet seat body 210 directly, the air supplied to the first air inlet pipe 20 by the air supply device 10 directly enters the backwashing pipeline 2105, the pressure in the backwashing pipeline 2105 is improved, more glaze in the backwashing pipeline 2105 is discharged, and the glaze accumulation amount of the pipeline is reduced.

The step of supplying air from the air supply device 10 to the first air inlet pipe 20 and the second air inlet pipe 30 includes:

s1 the air supply device 10 simultaneously supplies air to the first intake pipe 20 and the second intake pipe 30;

s2 stops supplying air to the first intake pipe 20 and the second intake pipe 30;

s3 the air supply device 10 supplies air to the first intake pipe 20;

s4 stopping supplying air to the first intake pipe 20;

s5 the air supply device 10 supplies air to the second intake pipe 30;

s6 stops supplying air to the second intake pipe 30.

That is, the first air supply unit 11 and the second air supply unit 12 supply air to the first air inlet pipe 20 and the second air inlet pipe 30 simultaneously, a part of the glaze in the backwashing pipe 2105 is discharged, the first air supply device 10 supplies air to the first air inlet pipe 20, the glaze in the backwashing pipe 2105 is discharged from the water outlet pipe 2106, and finally the second air supply unit 12 supplies air to the second air inlet pipe 30, so that the glaze in the socket port 2107 is discharged from the water outlet pipe 2106, and the glaze in the pipe of the toilet 200 is discharged more completely.

The above description is only a preferred embodiment of the present application and is not intended to limit the present application, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application shall be included in the protection scope of the present application.

Claims (20)

1. A glaze discharging device suitable for discharging glaze to a pipe of a toilet bowl including a toilet bowl body having a flushing port for flushing water to the inside thereof and an opening provided on a top rim face, comprising:

a gas supply device;

the first air inlet pipe is connected with the air supply device and is provided with a butt joint part for butt joint sealing with the flushing port; and

the second air inlet pipe is connected with the air supply device and is used for butt-joint sealing with the opening;

wherein the air supply device is configured to supply air to the first intake pipe and the second intake pipe.

2. A glaze discharging device according to claim 1, wherein the abutting portion is an abutting joint matched with the size of the flushing port.

3. The glaze discharging device of claim 1, wherein said glaze discharging device further comprises a frame and a first driving device;

the air supply device is connected to the rack;

the first driving device is configured to drive the first air inlet pipe to vertically move relative to the frame;

the first driving device drives the first air inlet pipe to vertically move downwards relative to the rack, so that the butt joint part and the flushing port can be in butt joint sealing.

4. The glaze discharging device of claim 3, wherein the glaze discharging device further comprises a movable seat and a second driving device;

the movable seat is movably arranged on the machine frame, and the second driving device is configured to drive the movable seat to move transversely relative to the machine frame;

the first air inlet pipe is movably arranged on the movable seat, and the first driving device is configured to drive the first air inlet pipe to vertically move relative to the movable seat.

5. A glaze discharging device according to claim 4, wherein the movable seat is a plate-shaped member having opposite first and second ends;

the rack is provided with a first sliding groove and a second sliding groove which are opposite and transversely arranged, the first end is movably inserted into the first sliding groove, and the second end is movably inserted into the second sliding groove.

6. A glaze discharging device according to claim 3, wherein the glaze discharging device further comprises a sealing device;

the sealing device is connected to the frame and used for sealing the second air inlet pipe and the opening.

7. A glaze discharging device according to claim 6, wherein the sealing device comprises a cover member and a third driving device;

the second air inlet pipe is connected to the covering piece, and the third driving device is configured to drive the covering piece to vertically move relative to the machine frame;

the third driving device drives the covering piece to vertically move downwards, so that the covering piece can cover and seal the opening, and the second air inlet pipe is communicated with the inside of the toilet seat body.

8. A glaze discharging device according to any one of claims 3 to 7, wherein the first air inlet pipe is communicated with the air supply device through a hose.

9. The glaze discharging device according to claim 1, wherein the gas supply device includes a first gas supply unit and a second gas supply unit;

the first air supply unit is configured to supply air to the first intake pipe;

the second air supply unit is configured to supply air to the second intake pipe.

10. A glaze discharging device according to claim 1, wherein a first flow regulating device is provided on the first air inlet pipe.

11. A glaze discharging device according to claim 10, wherein a first flow detecting device is provided on the first air inlet pipe, and the first flow adjusting device is responsive to the first flow detecting device.

12. A glaze discharging device according to claim 1, 10 or 11, wherein a second flow regulating device is arranged on the second air inlet pipe.

13. A glaze discharging device according to claim 12, wherein a second flow detecting device is provided on the second air inlet pipe, and the second flow adjusting device is responsive to the second flow detecting device.

14. The glaze discharging device of claim 1, wherein the glaze discharging device further comprises a main pipe and a shunt regulator;

the main pipe is provided with an air inlet end and an air outlet end, and the air inlet end is connected with the air supply device;

the shunt adjusting device is provided with an air inlet, a first air outlet and a second air outlet, the air outlet end is connected to the air inlet, the first air inlet pipe is connected to the first air outlet, and the second air inlet pipe is connected to the second air outlet.

15. The glaze discharging device of claim 1, wherein the toilet bowl further comprises a water tank connected to the toilet bowl body;

the water tank is provided with a water inlet and a water outlet, and the water outlet is the flushing port.

16. A glaze discharging system, comprising a toilet bowl and a glaze discharging device according to any one of claims 1 to 15;

the closestool comprises a closestool body, wherein the closestool body is provided with a flushing port for flushing water to the interior of the closestool body and an opening arranged on the top seat ring surface;

the butt joint part of the first air inlet pipe is in butt joint sealing with a flushing port of the toilet body;

the second air inlet pipe is in butt joint sealing with an opening on the top seat ring surface of the toilet seat body.

17. A glazing and glaze discharging device, characterized by comprising a glazing device, a conveying device and a glaze discharging device according to any one of claims 1 to 15;

the conveying device is configured to convey the toilet bowl from the glazing position where the glazing device is located to the glazing position where the glazing device is located.

18. The glazing and glaze discharging device according to claim 17, wherein the glazing device comprises:

a support;

a glaze inlet pipe for butt joint with the pipeline of the toilet;

the movable body is movably arranged on the bracket;

a fourth driving device configured to drive the movable body to move laterally relative to the bracket; and

a fifth driving device configured to drive the glaze inlet pipe to move vertically relative to the movable body;

the conveying device is configured to convey the toilet bowl from the glazing position where the glazing device is located to the glazing position where the glazing device is located in the longitudinal direction.

19. The glazing and glaze discharging device of claim 18, wherein said glazing device further comprises a jacket;

the clamping sleeve is movably arranged on the movable body and clamped on the outer side of the glaze inlet pipe, and the fifth driving device is configured to drive the clamping sleeve to vertically move relative to the movable body.

20. A glazing and stripping system comprising a toilet bowl and a glazing and stripping device according to any of claims 17 to 19, the toilet bowl being placed on the conveyor.

Images