CN213681312U - Self-flowing cleaning cylinder - Google Patents

Abstract

The utility model discloses a self-flowing cleaning tank, which comprises a tank body, a water inlet mechanism, a main water outlet mechanism and a siphon water outlet mechanism; the cylinder body is internally provided with a first cavity and a second cavity, and the first cavity is positioned above the second cavity; the first chamber is communicated with the second chamber at the left side of the bottom, and a water outlet mechanism mounting wall is arranged at the right side of the bottom; the bottom of the second chamber is provided with a water inlet mechanism mounting wall, and the right side of the second chamber is provided with a connecting wall which is connected with the water outlet mechanism mounting wall and the water inlet mechanism mounting wall; the water inlet mechanism is communicated with the second chamber; the main water outlet mechanism is communicated with the first chamber; the siphon water outlet mechanism is arranged on the connecting wall, the part of the water outlet mechanism mounting wall between the connecting wall and the main water outlet mechanism and the inner part of one side of the main water outlet mechanism close to the connecting wall and is communicated with the second chamber; the utility model provides an automatic flowing automatically washs jar flowing back need not external power, not only energy-conservation, uses manpower sparingly, can not harm operating personnel's health moreover.

Description

Self-flowing cleaning cylinder

All as the field of technology

The utility model relates to an automatic cleaning technical field especially relates to a washing jar flows automatically.

All the above-mentioned background techniques

After the dyeing equipment finishes dyeing, the dyeing equipment generally needs to be cleaned. Traditional dyeing jar degree of automation is low, can not accomplish the washing automatically, needs the manual work to wash, and the in-process workman of clearance can contact the dyestuff inevitable, harm workman's health. The cleaning equipment sold in the market at present adopts an electric mode, utilizes a drainage pump to discharge liquid in a cleaning cylinder or adopts a manual mode, and manually opens a sealing plug arranged on the cleaning cylinder to discharge the liquid in the cleaning cylinder; by adopting an electric mode, although the drainage efficiency is high, once the cleaning equipment is powered off, the residual liquid in the cleaning cylinder cannot be discharged; by adopting a manual mode, although the problem that the liquid cannot be discharged normally due to power failure does not exist, the operation of operators is increased, and the health of the operators can be damaged by corrosive substances in the dye.

All kinds of practical novel contents

The utility model aims at providing a washing jar flows automatically realizes wasing the interior automatic discharge of liquid of jar, need not external power, not only energy-conservation, use manpower sparingly, can not harm operating personnel's health moreover.

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

a self-flowing cleaning cylinder comprises a cylinder body, a water inlet mechanism, a main water outlet mechanism and a siphon water outlet mechanism; the cylinder body is internally provided with a first chamber and a second chamber, and the first chamber is positioned above the second chamber; the first chamber is provided with a communication port communicated with the second chamber at the left side of the bottom, and a water outlet mechanism mounting wall which transversely protrudes out of the second chamber is arranged at the right side of the bottom; the bottom of the second chamber is provided with a water inlet mechanism mounting wall arranged along the transverse direction, and the right side of the second chamber is provided with a connecting wall for connecting the water outlet mechanism mounting wall and the water inlet mechanism mounting wall; the water inlet mechanism is arranged on the water inlet mechanism mounting wall, one end of the water inlet mechanism is used for inputting tap water, and the other end of the water inlet mechanism is communicated with the second chamber; the main water outlet mechanism is arranged on the water outlet mechanism mounting wall, one end of the main water outlet mechanism is communicated with the first cavity, and the other end of the main water outlet mechanism is communicated with the outside; the siphon water outlet mechanism is arranged on the connecting wall, the part of the water outlet mechanism mounting wall between the connecting wall and the main water outlet mechanism and the inside of the main water outlet mechanism close to one side of the connecting wall, one end of the siphon water outlet mechanism is communicated with the second cavity, and the other end of the siphon water outlet mechanism is communicated with the outside.

As a specific embodiment, the water inlet mechanism comprises a water inlet joint and a water inlet; one end of the water inlet joint is communicated with an external water inlet pipeline, and the other end of the water inlet joint is communicated with the water inlet; the water inlet is arranged on the water inlet mechanism mounting wall in an opening mode, longitudinally penetrates through the water inlet mechanism mounting wall, and is communicated with the second chamber.

As a specific implementation mode, the main water outlet mechanism comprises a main water outlet inlet, a main water outlet pipeline and a main water outlet; the main water outlet and inlet is arranged on the water outlet mechanism mounting wall in a hole opening mode, longitudinally penetrates through the water outlet mechanism mounting wall and is communicated with the first chamber; the main water outlet is arranged below the main water outlet inlet; the main water outlet pipeline is communicated with the main water outlet inlet and the main water outlet.

In a specific embodiment, the connecting wall has a connecting inner cavity surface and a connecting outer cavity surface; the part of the water outlet mechanism mounting wall, which is positioned between the connecting wall and the main water outlet mechanism, is provided with a first inner cavity surface and a first outer cavity surface; one side of the main water outlet mechanism, which is close to the connecting wall, is provided with a second inner cavity surface and a second outer cavity surface; the connecting inner cavity surface, the first inner cavity surface and the second inner cavity surface are sequentially connected to form a siphon channel inner cavity surface; the connecting outer cavity surface, the first outer cavity surface and the second outer cavity surface are sequentially connected to form a siphon channel outer cavity surface;

the siphon water outlet mechanism comprises a siphon water inlet, a siphon pipeline and a siphon water outlet; the siphon water inlet is arranged at the bottom of the connecting inner cavity surface in a slotted mode; the siphon water outlet is arranged at the bottom of the wall body between the second inner cavity surface and the second outer cavity surface in an opening mode; the siphon pipeline is arranged in a wall body between the inner cavity surface of the siphon channel and the outer cavity surface of the siphon channel and is communicated with the siphon water inlet and the siphon water outlet; the height of the siphon water inlet is higher than that of the siphon water outlet.

Furthermore, the siphon pipeline starts from the siphon water inlet, bends upwards along the wall body between the inner cavity surface of the siphon channel and the outer cavity surface of the siphon channel, and bends downwards to reach the siphon water outlet.

In order to realize the utility model discloses an aim at, the utility model discloses an another kind of technical scheme as follows:

a self-flowing cleaning cylinder comprises a cylinder body, a water inlet mechanism, a main water outlet mechanism and a siphon water outlet mechanism; the cylinder body is internally provided with a first chamber and a second chamber, and the first chamber is positioned above the second chamber; the first chamber is provided with a communication port communicated with the second chamber at the left side of the bottom, and a water outlet mechanism mounting wall which transversely protrudes out of the second chamber is arranged at the right side of the bottom; the bottom of the second chamber is provided with a water inlet mechanism mounting wall arranged along the transverse direction, and the right side of the second chamber is provided with a connecting wall for connecting the water outlet mechanism mounting wall and the water inlet mechanism mounting wall; the water inlet mechanism is arranged on the water inlet mechanism mounting wall, one end of the water inlet mechanism is used for receiving tap water, and the other end of the water inlet mechanism is communicated with the second chamber; the main water outlet mechanism is downwards arranged on the water outlet mechanism mounting wall, one end of the main water outlet mechanism is communicated with the first cavity, and the other end of the main water outlet mechanism is communicated with the outside; the siphon water outlet mechanism is arranged inside the connecting wall, one end of the siphon water outlet mechanism is communicated with the second cavity, and the other end of the siphon water outlet mechanism is communicated with the outside.

As a specific embodiment, the water inlet mechanism comprises a water inlet joint and a water inlet; one end of the water inlet joint is communicated with an external water inlet pipeline, and the other end of the water inlet joint is communicated with the water inlet; the water inlet is arranged on the water inlet mechanism mounting wall in an opening mode, longitudinally penetrates through the water inlet mechanism mounting wall, and is communicated with the second chamber.

As a specific implementation mode, the main water outlet mechanism comprises a main water outlet inlet, a main water outlet pipeline and a main water outlet; the main water outlet and inlet is arranged on the water outlet mechanism mounting wall in a hole opening mode, longitudinally penetrates through the water outlet mechanism mounting wall and is communicated with the first chamber; the main water outlet is arranged below the main water outlet inlet; the main water outlet pipeline is communicated with the main water outlet inlet and the main water outlet.

In a specific embodiment, the connecting wall has a connecting inner cavity surface and a connecting outer cavity surface; the siphon water outlet mechanism comprises a siphon water inlet, a siphon pipeline and a siphon water outlet; the siphon water inlet is arranged at the bottom of the connecting inner cavity surface in a slotted mode; the siphon water outlet is arranged at the bottom of the connecting wall in an opening mode and longitudinally penetrates through the bottom of the connecting wall; the siphon pipeline is arranged inside the wall body of the connecting wall and is communicated with the siphon water inlet and the siphon water outlet; the height of the siphon water inlet is higher than that of the siphon water outlet.

Furthermore, the siphon pipeline starts from the siphon water inlet, bends upwards along the wall body of the connecting wall first, bends downwards to reach the siphon water outlet.

The utility model has the advantages that:

the utility model discloses a water inlet mechanism inputs the running water to first cavity and second cavity, through the liquid in the main water outlet mechanism exhaust first cavity, through the liquid in the siphon water outlet mechanism exhaust second cavity, realize wasing the automatic discharge of liquid in the jar, need not external power, energy-conservation, use manpower sparingly, when having solved the adoption electric mode drainage moreover, the problem of the unable work of outage and when adopting manual mode, need the manual problem of opening the sealing plug probably harm operating personnel health. Further, the utility model discloses a with siphon play water mechanism adherence setting in the inside of connecting wall, play water mechanism installation wall and main play water mechanism, saved assembly space.

Description of the drawings

In order to more clearly illustrate the embodiments of the present invention, the drawings used in the embodiments will be briefly described below. The drawings in the following description are only examples of the present invention, and other drawings can be obtained by those skilled in the art without inventive efforts.

Fig. 1 is a perspective view of a self-flowing cleaning tank according to a first embodiment of the present invention;

fig. 2 is a partial sectional view of a self-flowing cleaning cylinder according to an embodiment of the present invention;

description of reference numerals: 100-cylinder body, 110-first chamber, 111-communicating port, 112-water outlet mechanism mounting wall, 1121-first inner cavity surface, 1122-first outer cavity surface, 120-second chamber, 121-water inlet mechanism mounting wall, 122-connecting wall, 1221-connecting inner cavity surface, 1222-connecting outer cavity surface, 200-water inlet mechanism, 210-water inlet connector, 220-water inlet, 300-main water outlet mechanism, 310-main water outlet water inlet, 320-main water outlet pipeline, 321-second inner cavity surface, 322-second outer cavity surface, 330-main water outlet, 410-siphon water inlet, 420-siphon pipeline, and 430-siphon water outlet.

(specific embodiments) in all cases

The technical solution of the present invention will be described in further detail with reference to the following specific embodiments and accompanying drawings, but the scope of protection and the implementation of the present invention are not limited thereto. In the description of the embodiments of the present invention, it should be noted that the terms "front", "back", "upper", "lower", "left", "right", "top", "bottom", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, or orientations or positional relationships that the products of the present invention are usually placed when in use, or are used only for distinguishing the descriptions, and are only used for convenience of description and simplification of the description, but do not indicate or imply that the devices or elements indicated must have a specific orientation, be constructed in a specific orientation, and be operated, and therefore should not be construed as limiting the present invention, nor indicating or implying relative importance.

Example one

As shown in fig. 1 to 2, a self-flowing washing tank includes a tank body 100, a water inlet mechanism 200, a main water outlet mechanism 300, and a siphon water outlet mechanism; the cylinder body 100 is internally provided with a first chamber 110 and a second chamber 120, and the first chamber 110 is positioned above the second chamber 120; the first chamber 110 has a communication port 111 communicating with the second chamber 120 at the bottom left side, and a water outlet mechanism mounting wall 112 projecting out of the second chamber 120 in the lateral direction at the bottom right side; the bottom of the second chamber 120 has a water inlet mechanism mounting wall 121 disposed along the lateral direction, and the right side has a connecting wall 122 connecting the water outlet mechanism mounting wall 112 and the water inlet mechanism mounting wall 121; the water inlet mechanism 200 is installed at the lower part of the water inlet mechanism installation wall 121, one end of the water inlet mechanism is used for receiving tap water, and the other end of the water inlet mechanism is communicated with the second chamber 120; the main water outlet mechanism 300 is arranged at the lower part of the water outlet mechanism mounting wall 112, one end of the main water outlet mechanism is communicated with the first chamber 110, and the other end of the main water outlet mechanism is communicated with the outside; the siphon water outlet mechanism is disposed at the connecting wall 122, the portion of the water outlet mechanism mounting wall 112 between the connecting wall 122 and the main water outlet mechanism 300, and the inside of the main water outlet mechanism 300 near the connecting wall 112, and has one end communicating with the second chamber 120 and the other end communicating with the outside.

In this embodiment, the tap water enters the second chamber 120 from the water inlet mechanism 200, and after the second chamber 120 is filled with the liquid, the liquid enters the first chamber 110 through the communication port 111; after the tap water stops being input into the water inlet mechanism 200, the liquid entering the first chamber 110 can be discharged from the first chamber 110 through the main water outlet mechanism 300; after the liquid in the first chamber 110 is discharged through the main water outlet mechanism 300, the liquid in the second chamber 120 is discharged from the second chamber 120 through the suction force generated by the siphon action of the siphon water outlet mechanism, so that the liquid in the cleaning cylinder is automatically discharged without external power, energy and manpower are saved, and the health of operators is not damaged.

As shown in fig. 2, the water inlet mechanism 200 includes a water inlet joint 210 and a water inlet 220, one end of the water inlet joint 210 is communicated with an external water inlet pipeline for inputting tap water, and the other end is communicated with the water inlet 220; the water inlet 220 is arranged on the water inlet mechanism mounting wall 121 in an opening manner, longitudinally penetrates through the water inlet mechanism mounting wall 121 and is communicated with the second chamber 120; the main water outlet mechanism 300 comprises a main water outlet inlet 310, a main water outlet pipe 320 and a main water outlet 330, wherein the main water outlet inlet 310 is arranged on the water outlet mechanism mounting wall 112 in a hole-opening manner, longitudinally penetrates through the water outlet mechanism mounting wall 112 and is communicated with the first chamber 110; the main outlet pipe 320 is disposed in the longitudinal direction to communicate the main outlet inlet 310 and the main outlet 330.

As shown in fig. 2, the connecting wall 122 has a connecting inner cavity surface 1221 and a connecting outer cavity surface 1222, and a portion of the outlet mechanism mounting wall 112 between the connecting wall 122 and the main outlet mechanism 300 has a first inner cavity surface 1121 and a first outer cavity surface 1122; the main outlet conduit 320 has a second inner cavity surface 321 and a second outer cavity surface 322 on a side thereof adjacent to the connecting wall 122; the connecting inner cavity surface 1221, the first inner cavity surface 1121, and the second inner cavity surface 321 are connected in sequence to form a siphon channel inner cavity surface; the connecting outer cavity surface 1222, the first outer cavity surface 1122 and the second outer cavity surface 322 are sequentially connected to form a siphon channel outer cavity surface; the siphon water outlet mechanism comprises a siphon water inlet 410, a siphon pipeline 420 and a siphon water outlet 430, wherein the siphon water inlet 410 is arranged at the bottom of the connecting inner cavity surface 1221 in a slotted mode, the siphon water outlet 430 is arranged at the bottom of a wall body between the second inner cavity surface 321 and the second outer cavity surface 322 in a hole-opening mode, and the siphon pipeline 420 is arranged inside the wall body between the inner cavity surface of the siphon channel and the outer cavity surface of the siphon channel to communicate the siphon water inlet 410 and the siphon water outlet 430.

In this embodiment, the bottom of the second chamber 120 and the bottom of the main water outlet mechanism 300 are at the same height; the siphon pipe 420 is bent upward along the wall body between the inner cavity surface and the outer cavity surface of the siphon channel from the siphon water inlet 410, and then bent downward to reach the siphon water outlet 430; the height of the siphon water inlet 410 is higher than that of the siphon water outlet 430; in other embodiments, the bottom of the second chamber 120 is higher than the bottom of the main outlet 300.

The essence of siphon is that the power of work is produced to the utilization gravity and molecule cohesion, makes the liquid of the intraductal peak of siphon move toward low level mouth of pipe department under the effect of gravity, produces the negative pressure intraductally, leads to orificial liquid to be inhaled the peak to make liquid constantly flow into low position container, be applied to the utility model discloses in, siphon pipeline 420 constitutes the siphon, forms the negative pressure in siphon water inlet 410 department, is mingled with the sewage of dyestuff, constantly flows into siphon pipeline 420, takes out from siphon delivery port 430.

In this embodiment, the main water outlet mechanism 300 and the siphon water outlet mechanism form a total water outlet mechanism for respectively discharging the liquid in the first chamber 110 and the second chamber 120, so as to realize the automatic discharge of the liquid in the cleaning tank without external power, thereby saving energy and manpower, and not damaging the health of operators; the main water outlet 330 and the siphon water outlet 430 constitute a total water outlet for respectively outputting the liquid in the first chamber 110 and the second chamber 120.

In this embodiment, the tap water enters the water inlet 220 from the water inlet joint 210, enters the second chamber 120 from the water inlet 430, and after the second chamber 120 is filled with the liquid, the liquid enters the first chamber 110 through the communication port 111; after the tap water stops being input into the water inlet joint 210, the liquid entering the first chamber 110 sequentially passes through the main water outlet inlet 310 and the main water outlet pipeline 320 and is discharged from the main water outlet 330; when the liquid in the first chamber 110 is discharged, the liquid in the second chamber 120 is sucked in from the siphon inlet 410, passes through the siphon pipe 420, and is discharged from the siphon outlet 430.

In this embodiment, when the washing cylinder is in the washing stage, the water inlet 220 and the general water outlet can be fastened by a band or a clamp to prevent leakage.

Example two

The difference between this embodiment and the first embodiment is: the siphon water outlet mechanism is arranged inside the connecting wall 122; the connecting wall 122 has a connecting inner cavity surface and a connecting outer cavity surface; the siphon water outlet 430 is arranged at the bottom of the connecting wall 122 in an opening mode and longitudinally penetrates through the bottom of the connecting wall 122; the siphon pipe 420 is arranged inside the wall body of the connecting wall 122 and is communicated with the siphon water inlet 410 and the siphon water outlet 430; the siphon pipe 420 starts from the siphon inlet 410, is bent upward along the wall of the connecting wall 122, and is bent downward to reach the siphon outlet 430.

It is only above the preferred embodiment of the utility model, the utility model discloses a scope of protection does not only confine above-mentioned embodiment, the all belongings to the utility model discloses a technical scheme under the thinking all belongs to the utility model discloses a scope of protection. It should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (10)

1. A self-flowing cleaning cylinder is characterized in that: comprises a cylinder body, a water inlet mechanism, a main water outlet mechanism and a siphon water outlet mechanism; the cylinder body is internally provided with a first chamber and a second chamber, and the first chamber is positioned above the second chamber; the left side of the bottom of the first chamber is provided with a communication port communicated with the second chamber, and the right side of the bottom is provided with a water outlet mechanism mounting wall which transversely protrudes out of the second chamber; the bottom of the second chamber is provided with a water inlet mechanism mounting wall arranged along the transverse direction, and the right side of the second chamber is provided with a connecting wall for connecting the water outlet mechanism mounting wall and the water inlet mechanism mounting wall; the water inlet mechanism is arranged on the water inlet mechanism mounting wall, one end of the water inlet mechanism is used for receiving tap water, and the other end of the water inlet mechanism is communicated with the second chamber; the main water outlet mechanism is arranged on the water outlet mechanism mounting wall, one end of the main water outlet mechanism is communicated with the first cavity, and the other end of the main water outlet mechanism is communicated with the outside; the siphon water outlet mechanism is arranged on the connecting wall, the part of the water outlet mechanism mounting wall between the connecting wall and the main water outlet mechanism and the inside of the main water outlet mechanism close to one side of the connecting wall, one end of the siphon water outlet mechanism is communicated with the second cavity, and the other end of the siphon water outlet mechanism is communicated with the outside.

2. The gravity flow wash cylinder according to claim 1, wherein: the water inlet mechanism comprises a water inlet joint and a water inlet; one end of the water inlet joint is communicated with an external water inlet pipeline, and the other end of the water inlet joint is communicated with the water inlet; the water inlet is arranged on the water inlet mechanism mounting wall in an opening mode, longitudinally penetrates through the water inlet mechanism mounting wall, and is communicated with the second chamber.

3. The gravity flow wash cylinder according to claim 1, wherein: the main water outlet mechanism comprises a main water outlet inlet, a main water outlet pipeline and a main water outlet; the main water outlet and inlet is arranged on the water outlet mechanism mounting wall in a hole opening mode, longitudinally penetrates through the water outlet mechanism mounting wall and is communicated with the first chamber; the main water outlet is arranged below the main water outlet inlet; the main water outlet pipeline is communicated with the main water outlet inlet and the main water outlet.

4. The gravity flow wash cylinder according to claim 1, wherein: the connecting wall is provided with a connecting inner cavity surface and a connecting outer cavity surface; the part of the water outlet mechanism mounting wall, which is positioned between the connecting wall and the main water outlet mechanism, is provided with a first inner cavity surface and a first outer cavity surface; one side of the main water outlet mechanism, which is close to the connecting wall, is provided with a second inner cavity surface and a second outer cavity surface; the connecting inner cavity surface, the first inner cavity surface and the second inner cavity surface are sequentially connected to form a siphon channel inner cavity surface; the connecting outer cavity surface, the first outer cavity surface and the second outer cavity surface are sequentially connected to form a siphon channel outer cavity surface;

the siphon water outlet mechanism comprises a siphon water inlet, a siphon pipeline and a siphon water outlet; the siphon water inlet is arranged at the bottom of the connecting inner cavity surface in a slotted mode; the siphon water outlet is arranged at the bottom of the wall body between the second inner cavity surface and the second outer cavity surface in an opening mode; the siphon pipeline is arranged in a wall body between the inner cavity surface of the siphon channel and the outer cavity surface of the siphon channel and is communicated with the siphon water inlet and the siphon water outlet; the height of the siphon water inlet is higher than that of the siphon water outlet.

5. The gravity flow wash cylinder according to claim 4, wherein: the siphon pipeline starts from the siphon water inlet, upwards bends along the wall body between siphon passageway inner chamber face and the siphon passageway outer chamber face earlier, and the backward bends down and reaches the siphon delivery port.

6. A self-flowing cleaning cylinder is characterized in that: comprises a cylinder body, a water inlet mechanism, a main water outlet mechanism and a siphon water outlet mechanism; the cylinder body is internally provided with a first chamber and a second chamber, and the first chamber is positioned above the second chamber; the first chamber is provided with a communication port communicated with the second chamber at the left side of the bottom, and a water outlet mechanism mounting wall which transversely protrudes out of the second chamber is arranged at the right side of the bottom; the bottom of the second chamber is provided with a water inlet mechanism mounting wall arranged along the transverse direction, and the right side of the second chamber is provided with a connecting wall for connecting the water outlet mechanism mounting wall and the water inlet mechanism mounting wall; the water inlet mechanism is arranged on the water inlet mechanism mounting wall, one end of the water inlet mechanism is used for receiving tap water, and the other end of the water inlet mechanism is communicated with the second chamber; the main water outlet mechanism is arranged on the water outlet mechanism mounting wall, one end of the main water outlet mechanism is communicated with the first cavity, and the other end of the main water outlet mechanism is communicated with the outside; the siphon water outlet mechanism is arranged inside the connecting wall, one end of the siphon water outlet mechanism is communicated with the second cavity, and the other end of the siphon water outlet mechanism is communicated with the outside.

7. The gravity flow wash cylinder according to claim 6, wherein: the water inlet mechanism comprises a water inlet joint and a water inlet; one end of the water inlet joint is communicated with an external water inlet pipeline, and the other end of the water inlet joint is communicated with the water inlet; the water inlet is arranged on the water inlet mechanism mounting wall in an opening mode, longitudinally penetrates through the water inlet mechanism mounting wall, and is communicated with the second chamber.

8. The gravity flow wash cylinder according to claim 6, wherein: the main water outlet mechanism comprises a main water outlet inlet, a main water outlet pipeline and a main water outlet; the main water outlet and inlet is arranged on the water outlet mechanism mounting wall in a hole opening mode, longitudinally penetrates through the water outlet mechanism mounting wall and is communicated with the first chamber; the main water outlet is arranged below the main water outlet inlet; the main water outlet pipeline is communicated with the main water outlet inlet and the main water outlet.

9. The gravity flow wash cylinder according to claim 6, wherein: the connecting wall is provided with a connecting inner cavity surface and a connecting outer cavity surface; the siphon water outlet mechanism comprises a siphon water inlet, a siphon pipeline and a siphon water outlet; the siphon water inlet is arranged at the bottom of the connecting inner cavity surface in a slotted mode; the siphon water outlet is arranged at the bottom of the connecting wall in an opening mode and longitudinally penetrates through the bottom of the connecting wall; the siphon pipeline is arranged inside the wall body of the connecting wall and is communicated with the siphon water inlet and the siphon water outlet; the height of the siphon water inlet is higher than that of the siphon water outlet.

10. The gravity flow washing tank according to claim 9, wherein: the siphon pipeline begins from the siphon water inlet, upwards buckles along the wall body of connecting wall earlier, and the backward bends down and reaches the siphon delivery port.

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