CN219132697U - Side-discharge toilet pipeline glazing device - Google Patents

Abstract

The utility model discloses a side-discharge closestool pipeline glazing device which comprises a glaze injection displacement driving mechanism, a glaze injection pipe, a glaze receiving displacement driving mechanism and a glaze receiving cover, wherein the glaze injection pipe and the glaze receiving cover are horizontally arranged; the glaze injection displacement driving mechanism is connected with the glaze injection pipe and is used for driving the glaze injection pipe to move in the horizontal direction; the glaze receiving displacement driving mechanism is connected with the glaze receiving cover and is used for driving the glaze receiving cover to move in the horizontal direction; the front end face of the glaze pouring pipe is provided with a sealing ring, the front end of the glaze receiving cover is provided with a sleeve opening, and the lower part of the glaze receiving cover is provided with a glaze outlet; the front end of the glaze pouring pipe and the sleeve opening face to the same direction. The glazing device can glazing the drainage pipeline of the side drainage closestool, and the glazing reliability is high.

Description

Side-discharge toilet pipeline glazing device

Technical Field

The utility model relates to the technical field of toilet glazing equipment, in particular to a side-discharge toilet pipeline glazing device.

Background

Along with the development of economic life, the matched household facilities such as the closestool are updated faster and faster, the functions are also more and more abundant, the use is more comfortable, and the closestool is more convenient and sanitary. Most of the main bodies of the toilets are ceramic, and after the toilet blank is molded, the inner surface and the outer surface of the blank are glazed and then fired, so that the toilet with a smooth surface is obtained. Because the shape of the closestool is not very regular, the glazing process of the closestool is complicated, the outer surface and the inner surface of the pit of the closestool are normally glazed in a glaze spraying mode, and the drainage pipeline of the closestool is glazed in a glaze immersing mode.

There are two types of water discharge pipelines of the toilet, one is that the outlet of the water discharge pipeline is positioned at the bottom of the toilet and is called a bottom row, and the other is that the outlet of the water discharge pipeline is positioned at the side of the toilet and is called a side row. Currently, the bottom-discharge toilets have larger output and are widely applied in China, while the side-discharge toilets are usually exported to other countries. Current toilet pipe glazing equipment typically enters the pipe from the outlet at the bottom of the toilet and fills the pipe with glaze and then discharges the glaze. However, the outlet of the drainage pipeline of the side-discharge closestool is positioned at the side part of the closestool, and the lifting glaze injection mode can not perform glazing on the drainage pipeline of the side-discharge closestool. In view of the above, it is desirable to provide a glazing device suitable for use with a side-discharge toilet.

Disclosure of Invention

The utility model aims to provide a glazing device for a side-discharge closestool pipeline, which can glazing a drainage pipeline of a side-discharge closestool and has high glazing reliability.

To achieve the purpose, the utility model adopts the following technical scheme:

the glazing device for the side-discharge closestool pipeline comprises a glazing displacement driving mechanism, a glazing pipe, a glazing displacement driving mechanism and a glazing cover, wherein the glazing pipe and the glazing cover are horizontally arranged;

the glaze injection displacement driving mechanism is connected with the glaze injection pipe and is used for driving the glaze injection pipe to move in the horizontal direction;

the glaze receiving displacement driving mechanism is connected with the glaze receiving cover and is used for driving the glaze receiving cover to move in the horizontal direction;

the front end face of the glaze pouring pipe is provided with a sealing ring, the front end of the glaze receiving cover is provided with a sleeve opening, and the lower part of the glaze receiving cover is provided with a glaze outlet; the front end of the glaze pouring pipe and the sleeve opening face to the same direction.

Further, the sealing ring comprises a ring seat, a sealing gasket and a pressing ring, wherein the ring seat is sleeved at the front end of the glaze injection pipe, a connecting ring extends from the edge of the sealing gasket, the pressing ring is used for fixing the connecting ring to the ring seat, and the rear end face of the sealing gasket abuts against the front end face of the glaze injection pipe;

the sealing gasket is provided with a glaze pouring opening corresponding to the glaze pouring pipe opening.

Further, the glaze injection displacement driving mechanism comprises a glaze injection driving piece, a glaze injection connecting seat and a glaze injection guiding piece;

the glaze injection driving piece is in transmission connection with the glaze injection connecting seat, and the glaze injection connecting seat is connected with the glaze injection guide piece;

the glaze injection connecting seat is fixedly connected with the glaze injection pipe.

Further, the glaze injection connecting seat comprises a bottom plate, a first pressing block and a second pressing block;

the first pressing block is fixed on the bottom plate, and the second pressing block is fixedly connected with the top of the first pressing block;

the bottom of first briquetting with the top of second briquetting all has the arc wall, two the arc wall becomes installation space, annotate the glaze pipe and run through installation space.

Further, the glaze injection driving piece is an air cylinder, the air cylinder is positioned below the glaze injection connecting seat, and the air cylinder is connected with the glaze injection connecting seat.

Further, the glaze receiving cover is barrel-shaped, the axis of the glaze receiving cover is in a horizontal state, and the sleeve opening is positioned at the front end sealing plate of the glaze receiving cover.

Further, the rear end of the glaze receiving cover is connected with a transmission rod, and the transmission rod is connected with the glaze receiving displacement driving mechanism.

Further, the glaze connection displacement driving mechanism comprises a glaze connection driving piece, a glaze connection seat and a glaze connection guide piece;

the glaze receiving driving piece is in transmission connection with the glaze receiving connecting seat, and the glaze receiving connecting seat is connected with the glaze receiving guide piece;

the glaze connection seat is fixedly connected with the transmission rod.

Further, the glaze receiving driving piece comprises a motor and a screw rod which are connected, and the screw rod is in threaded connection with the glaze receiving connecting seat.

The technical scheme provided by the utility model can comprise the following beneficial effects:

the glazing device based on the current closestool pipeline is generally a glazing mode that glaze enters the pipeline from an outlet at the bottom of the closestool and the pipeline is full of the glaze, and is not suitable for a drainage pipeline of a side-discharge closestool. The utility model provides a side-discharge closestool pipeline glazing device, which enables a glaze injection pipe and a glaze receiving cover to be in a horizontal direction, wherein the glaze injection pipe can move in the horizontal direction under the drive of a glaze injection displacement driving mechanism, the glaze receiving cover can move in the horizontal direction under the drive of the glaze receiving displacement driving mechanism, the glaze injection pipe and the glaze receiving cover can both correspond to the outlet position of a drainage pipeline of a side-discharge closestool, the glaze injection pipe is used for injecting glaze into the drainage pipeline and discharging the glaze, and the glaze receiving cover is used for receiving residual glaze discharged by the drainage pipeline, so that the glazing of the drainage pipeline of the side-discharge closestool is realized. The glazing device has the characteristics of high glazing reliability and simple equipment structure.

Drawings

FIG. 1 is a schematic illustration of a side-discharge toilet pipe glazing apparatus according to one embodiment of the present utility model;

FIG. 2 is a schematic view of the side-discharge toilet pipe glazing device of FIG. 1 from another perspective;

FIG. 3 is a schematic illustration of the sealing ring mated with the glaze pouring tube;

the glazing displacement driving mechanism 1, the glazing driving piece 11, the glazing connecting seat 12, the bottom plate 121, the first pressing block 122, the second pressing block 123, the glazing guide piece 13, the glazing pipe 2, the sealing ring 21, the ring seat 211, the sealing pad 212, the pressing ring 213, the glazing port 214, the glazing displacement driving mechanism 3, the glazing driving piece 31, the motor 311, the screw rod 312, the glazing connecting seat 32, the glazing guide piece 33, the glazing cover 4, the sleeve port 41, the glazing port 42 and the transmission rod 43.

Detailed Description

Embodiments of the present utility model are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative only and are not to be construed as limiting the utility model.

In the description of the present utility model, it should be understood that the terms "front", "rear", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present utility model and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model. Furthermore, features defining "first", "second" may include one or more such features, either explicitly or implicitly, for distinguishing between the descriptive features, and not sequentially, and not lightly.

In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art.

A side-discharge toilet pipe glazing apparatus according to an embodiment of the present utility model will be described with reference to fig. 1 to 3.

The utility model provides a side-discharge closestool pipeline glazing device, includes annotates glaze displacement actuating mechanism 1, annotates glaze pipe 2, connects glaze displacement actuating mechanism 3 and connects glaze cover 4, annotates glaze pipe 2 and connects the glaze cover 4 all level setting;

the glaze injection displacement driving mechanism 1 is connected with the glaze injection pipe 2, and the glaze injection displacement driving mechanism 1 is used for driving the glaze injection pipe 2 to move in the horizontal direction;

the glaze receiving displacement driving mechanism 3 is connected with the glaze receiving cover 4, and the glaze receiving displacement driving mechanism 3 is used for driving the glaze receiving cover 4 to move in the horizontal direction;

the front end face of the glaze pouring pipe 2 is provided with a sealing ring 21, the front end of the glaze receiving cover 4 is provided with a sleeve opening 41, and the lower part of the glaze receiving cover 4 is provided with a glaze outlet 42; the front end of the slip casting pipe 2 and the sleeve opening 41 face the same direction.

The glazing device based on the current closestool pipeline is generally a glazing mode that glaze enters the pipeline from an outlet at the bottom of the closestool and the pipeline is full of the glaze, and is not suitable for a drainage pipeline of a side-discharge closestool. The utility model provides a side-discharge closestool pipeline glazing device, which enables a glaze injection pipe 2 and a glaze receiving cover 4 to be in a horizontal direction, wherein the glaze injection pipe 2 can move in the horizontal direction under the drive of a glaze injection displacement driving mechanism 1, the glaze receiving cover 4 can move in the horizontal direction under the drive of a glaze receiving displacement driving mechanism 3, the glaze injection pipe 2 and the glaze receiving cover 4 can both correspond to the outlet position of a drainage pipeline of a side-discharge closestool, the glaze injection pipe 2 is used for injecting glaze into the drainage pipeline and discharging glaze, and the glaze receiving cover 4 is used for receiving residual glaze discharged by the drainage pipeline, so that the glazing of the drainage pipeline of the side-discharge closestool is realized. The glazing device has the characteristics of high glazing reliability and simple equipment structure.

Specifically, the glazing process of the drainage pipeline of the side-discharge closestool comprises the following steps: after the side-discharge toilet bowl blank moves along the conveying line to correspond to the position of the glazing device, the glazing pipe 2 moves towards the side-discharge toilet bowl blank under the drive of the glazing displacement driving mechanism 1, and the sealing ring 21 is abutted against the outlet of the drainage pipeline at the side part of the side-discharge toilet bowl blank; the glaze injection pipe 2 injects glaze into the drainage pipeline, when the drainage pipeline is full of the glaze, the glaze is sucked away by the glaze injection pipe 2, and the glaze is attached to the inner wall of the drainage pipeline; then, the glaze injection pipe 2 is driven by the glaze injection displacement driving mechanism 1 to be far away from the side-discharge toilet bowl blank; the side-discharge toilet bowl blank or the glazing device moves to enable the glaze receiving cover 4 to be opposite to the outlet of the drainage pipeline, the glaze receiving cover 4 moves towards the side-discharge toilet bowl blank under the drive of the glaze receiving displacement driving mechanism 3, and the sleeve opening 41 is sleeved at the outlet of the drainage pipeline; the glaze receiving cover 4 then receives the residual glaze discharged from the outlet of the drainage pipeline, the residual glaze is discharged from the glaze outlet 42 of the glaze receiving cover 4, and the glaze receiving cover 4 also plays a role in transferring the residual glaze to the glaze receiving container.

Based on the setting of the end face sealing ring 21 before the glaze injection pipe 2, the in-process of the glaze injection pipe 2, the sealing ring 21 continuously props against the end face of the outlet of the drainage pipeline, so that the sealing communication between the glaze injection pipe 2 and the drainage pipeline is realized, and the leakage of glaze can be effectively prevented. The sleeve opening 41 of the glaze receiving cover 4 can be sleeved at the outlet of the drainage pipeline, so that the residual glaze discharged from the outlet of the drainage pipeline can be ensured to completely enter the glaze receiving cover 4. It will be appreciated that after the glazing is completed, air is blown towards the drain pipe at the top of the side-discharge toilet bowl, causing the drain pipe to discharge residual and excess glaze, at which point the glaze discharged by the drain pipe is received by the glaze receiving hood 4 and transferred to the glaze receiving receptacle.

Further, the sealing ring 21 comprises a ring seat 211, a sealing gasket 212 and a pressing ring 213, wherein the ring seat 211 is sleeved at the front end of the glaze pouring pipe 2, a connecting ring extends from the edge of the sealing gasket 212, the pressing ring 213 is used for fixing the connecting ring to the ring seat 211, and the rear end face of the sealing gasket 212 abuts against the front end face of the glaze pouring pipe 2;

the sealing pad 212 is provided with a glaze pouring opening 214 corresponding to the opening of the glaze pouring pipe 2.

Based on the front end of the glaze pouring pipe 2 sleeved by the ring seat 211, the diameter of the ring seat 211 is larger than that of the glaze pouring pipe 2, so that the diameter of the sealing gasket 212 is larger than that of the glaze pouring pipe 2, and the diameter of the glaze pouring opening 214 is smaller than that of the glaze pouring pipe 2, so that the sealing gasket 212 can be propped against the end face of the glaze pouring pipe 2. Meanwhile, the edge of the sealing gasket 212 is fixed on the ring seat 211 by the pressing ring 213, so that enough pressure exists between the sealing gasket 212 and the end face of the glaze pouring pipe 2, and the sealing effect of the contact position of the sealing gasket 212 and the glaze pouring pipe 2 is ensured. In addition, the edge of the sealing pad 212 extends outwards to form a connecting ring, the pressing ring 213 presses the connecting ring on the ring seat 211, so as to achieve the effect of firm installation of the sealing pad 212, and the sealing pad 212 can have a larger thickness, so as to provide enough deformation amount for the sealing pad 212 to prop against the outlet of the drainage pipeline.

In order to ensure the stable movement of the glaze pouring pipe 2, further, the glaze pouring displacement driving mechanism 1 comprises a glaze pouring driving piece 11, a glaze pouring connecting seat 12 and a glaze pouring guide piece 13; the glaze injection driving piece 11 is in transmission connection with the glaze injection connecting seat 12, and the glaze injection connecting seat 12 is connected with the glaze injection guide piece 13; the glaze injection connecting seat 12 is fixedly connected with the glaze injection pipe 2.

When the side-discharge toilet blank moves to correspond to the position of the glaze injection pipe 2, the glaze injection driving piece 11 enables the glaze injection connecting seat 12 to move along the glaze injection guide piece 13, the glaze injection pipe 2 moves towards the side-discharge toilet blank, when the sealing ring 21 abuts against the outlet of the drainage pipe, the glaze injection pipe 2 stops moving, and after the glaze injection pipe 2 completes the glaze injection and the glaze discharge actions, the glaze injection driving piece 11 enables the glaze injection connecting seat 12 to move along the glaze injection guide piece 13 again, and the glaze injection pipe 2 is far away from the side-discharge toilet blank. The smooth movement of the glaze pouring pipe 2 is ensured based on the positioning function of the glaze pouring connecting seat 12 and the guiding function of the glaze pouring guide 13.

Illustratively, the grouting guide 13 includes a grouting guide rail and a grouting slider, the grouting slider is slidably mounted on the grouting guide rail, the grouting slider is fixed at the bottom of the grouting connecting seat 12, and the grouting driving piece 11 can drive the grouting connecting seat 12 to move along the grouting guide rail.

The glaze pouring pipe 2 is a long straight pipeline with a certain diameter, and in order to ensure that the glaze pouring pipe 2 is not deformed and achieves the effect of being firmly installed on the glaze pouring connecting seat 12, the glaze pouring connecting seat 12 further comprises a bottom plate 121, a first pressing block 122 and a second pressing block 123; the first pressing block 122 is fixed on the bottom plate 121, and the second pressing block 123 is fixedly connected with the top of the first pressing block 122; the bottom of first briquetting 122 and the top of second briquetting 123 all have the arc wall, and installation space is become to two arc wall, and slip casting pipe 2 runs through the installation space. After the glaze injection pipe 2 is fixed on the glaze injection connecting seat 12, the inner wall of the arc-shaped groove is tightly attached to the outer wall of the glaze injection pipe 2, so that the first pressing block 122 and the second pressing block 123 have larger contact areas with the glaze injection pipe 2, the installation stability of the glaze injection pipe 2 can be improved, and the deformation of the glaze injection pipe 2 can be avoided. Specifically, the first pressing block 122 is fixedly mounted on the bottom plate 121 through a screw, the second pressing block 123 is fixedly connected with the first pressing block 122 through a screw, and the first pressing block 122 and the second pressing block 123 are provided with two groups.

Further, the glaze injection driving piece 11 is a cylinder, the cylinder is located below the glaze injection connecting seat 12, and the cylinder is connected with the glaze injection connecting seat 12. The sealing ring 21 at the front end of the glaze injection pipe 2 can prevent the glaze from leaking only by being pressed against the outlet of the drainage pipeline with a certain force, the limiting of the force of the sealing ring 21 pressed against the outlet of the drainage pipeline can be realized by setting the gas path pressure of the cylinder, and when the sealing ring 21 is pressed against the outlet of the drainage pipeline, the piston rod of the cylinder can stop extending.

Further, the glaze receiving cover 4 is barrel-shaped, the axis of the glaze receiving cover 4 is in a horizontal state, and the sleeve opening 41 is positioned at the front end sealing plate of the glaze receiving cover 4. The inner wall of the barrel-shaped glaze receiving cover 4 is arc-shaped, and meanwhile, based on the fact that the axis of the glaze receiving cover 4 is in a horizontal state, residual glaze discharged into the glaze receiving cover 4 can be smoothly discharged from the glaze outlet 42 so as to be convenient for receiving residual glaze discharged from a next side-discharge toilet blank after glaze injection is completed.

In order to facilitate the glaze receiving displacement driving mechanism 3 to drive the glaze receiving cover 4 to move, further, the rear end of the glaze receiving cover 4 is connected with a transmission rod 43, and the transmission rod 43 is connected with the glaze receiving displacement driving mechanism 3. Since the length of the glaze receiving cover 4 is smaller, the glaze receiving cover 4 is connected with the glaze receiving displacement driving mechanism 3 by the transmission rod 43, and the glaze receiving displacement driving mechanism 3 can drive the glaze receiving cover 4 to move through the transmission rod 43. Specifically, the tail end of the glaze receiving cover 4 is fixed with a connecting plate, the front end of the transmission rod 43 is fixedly connected with the connecting plate through a screw, and the tail end of the transmission rod 43 is connected with the glaze receiving displacement driving mechanism 3.

In order to ensure the smooth movement of the glaze receiving cover 4, the glaze receiving displacement driving mechanism 3 further comprises a glaze receiving driving piece 31, a glaze receiving connecting seat 32 and a glaze receiving guide piece 33; the glaze receiving driving piece 31 is in transmission connection with the glaze receiving connecting seat 32, and the glaze receiving connecting seat 32 is connected with the glaze receiving guide piece 33; the glaze connection seat 32 is fixedly connected with the transmission rod 43. When the pouring pipe 2 finishes pouring and discharging the glaze to the drainage pipe, the side-discharge toilet bowl blank or the glazing device moves, so that the glaze receiving cover 4 is opposite to the outlet of the drainage pipe, the glaze receiving driving piece 31 enables the glaze receiving connecting seat 32 to move along the glaze receiving guide piece 33, so that the glaze receiving cover 4 moves towards the side-discharge toilet bowl blank, when the sleeve opening 41 is sleeved at the outlet of the drainage pipe, the glaze receiving cover 4 stops moving, the glaze receiving cover 4 receives residual glaze discharged from the outlet of the drainage pipe, the residual glaze is discharged from the glaze outlet 42 of the glaze receiving cover 4, and after the glaze receiving cover 4 finishes discharging the glaze, the glaze receiving driving piece 31 enables the glaze receiving connecting seat 32 to move along the glaze receiving guide piece 33 again, and the glaze receiving cover 4 is far away from the side-discharge toilet bowl blank. The smooth movement of the glaze cover 4 is ensured based on the positioning action of the glaze connection seat 32 and the guiding action of the glaze guide 33.

In order to make the moving distance of the glaze receiving cover 4 more accurate, further, the glaze receiving driving member 31 comprises a motor 311 and a screw rod 312 which are connected, and the screw rod 312 is in threaded connection with the glaze receiving connecting seat 32. The outlet of the drainage pipeline is positioned at the side part of the closestool, the part of the drainage pipeline extends out of the side wall of the closestool, and the sleeve opening 41 of the glaze receiving cover 4 is sleeved at the end part of the drainage pipeline to ensure that the residual glaze in the drainage pipeline enters the glaze receiving cover 4. The motor 311 and the screw rod 312 are used for driving the glaze connection seat 32, so that the stroke of the glaze connection seat 32 can be accurately controlled, the glaze receiving cover 4 can be accurately sleeved at the outlet of the drainage pipeline, and a certain distance is kept between the glaze receiving cover 4 and the side wall of the toilet bowl blank.

It will be appreciated that the connection structure of the glaze connection holder 32 and the transmission rod 43 is the same as the connection structure of the glaze injection connection holder 12 and the glaze injection pipe 2.

Other constructions, etc., and operation of a side-discharge toilet pipe glazing device according to embodiments of the present utility model are known to those of ordinary skill in the art and will not be described in detail herein.

In the description herein, reference to the term "embodiment," "example," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the utility model. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

While embodiments of the present utility model have been shown and described, it will be understood by those of ordinary skill in the art that: many changes, modifications, substitutions and variations may be made to the embodiments without departing from the spirit and principles of the utility model, the scope of which is defined by the claims and their equivalents.

Claims (9)

1. The side-discharge closestool pipeline glazing device is characterized by comprising a glaze injection displacement driving mechanism, a glaze injection pipe, a glaze receiving displacement driving mechanism and a glaze receiving cover, wherein the glaze injection pipe and the glaze receiving cover are horizontally arranged;

the glaze injection displacement driving mechanism is connected with the glaze injection pipe and is used for driving the glaze injection pipe to move in the horizontal direction;

the glaze receiving displacement driving mechanism is connected with the glaze receiving cover and is used for driving the glaze receiving cover to move in the horizontal direction;

the front end face of the glaze pouring pipe is provided with a sealing ring, the front end of the glaze receiving cover is provided with a sleeve opening, and the lower part of the glaze receiving cover is provided with a glaze outlet; the front end of the glaze pouring pipe and the sleeve opening face to the same direction.

2. The side-discharge toilet pipeline glazing device according to claim 1, wherein the sealing ring comprises a ring seat, a sealing pad and a pressing ring, the ring seat is sleeved at the front end of the glaze injection pipe, a connecting ring extends from the edge of the sealing pad, the pressing ring is used for fixing the connecting ring to the ring seat, and the rear end face of the sealing pad abuts against the front end face of the glaze injection pipe;

the sealing gasket is provided with a glaze pouring opening corresponding to the glaze pouring pipe opening.

3. The side-discharge toilet pipe glazing device of claim 1, wherein the glazing displacement driving mechanism comprises a glazing driving member, a glazing connecting seat and a glazing guide member;

the glaze injection driving piece is in transmission connection with the glaze injection connecting seat, and the glaze injection connecting seat is connected with the glaze injection guide piece;

the glaze injection connecting seat is fixedly connected with the glaze injection pipe.

4. The side-discharge toilet pipe glazing device of claim 3, wherein the glazing connection seat comprises a base plate, a first press block and a second press block;

the first pressing block is fixed on the bottom plate, and the second pressing block is fixedly connected with the top of the first pressing block;

the bottom of first briquetting with the top of second briquetting all has the arc wall, two the arc wall becomes installation space, annotate the glaze pipe and run through installation space.

5. A side-discharge toilet pipe glazing device according to claim 3, wherein the glazing driver is a cylinder, the cylinder being located below the glazing connection and the cylinder being connected to the glazing connection.

6. The side-discharge toilet pipeline glazing device according to claim 1, wherein the glaze receiving cover is barrel-shaped, the axis of the glaze receiving cover is in a horizontal state, and the sleeve opening is positioned at a front end sealing plate of the glaze receiving cover.

7. The side-discharge toilet pipeline glazing device according to claim 1, wherein the rear end of the glaze receiving cover is connected with a transmission rod, and the transmission rod is connected with the glaze receiving displacement driving mechanism.

8. The side-discharge toilet pipe glazing device of claim 7, wherein the glaze-receiving displacement drive mechanism comprises a glaze-receiving drive, a glaze-receiving connection base, and a glaze-receiving guide;

the glaze receiving driving piece is in transmission connection with the glaze receiving connecting seat, and the glaze receiving connecting seat is connected with the glaze receiving guide piece;

the glaze connection seat is fixedly connected with the transmission rod.

9. The side-discharge toilet pipe glazing device of claim 8, wherein the glaze receiving driving member comprises a motor and a screw rod connected, the screw rod being threadedly connected to the glaze receiving connection seat.

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