CN218012930U - Vermicelli waste recycling machine - Google Patents

Abstract

The utility model discloses a vermicelli waste recycling machine, wherein a feed chute is connected with the top of a first shell, a first driving component is arranged in the first shell, and a second driving component is arranged in a second shell; the first driving assembly comprises a first fixed grinding disc, a first movable grinding disc and a first motor, the first motor is used for driving the first movable grinding disc, and the first movable grinding disc is matched with the first fixed grinding disc to crush vermicelli waste; a first discharge hole is formed in one side of the bottom of the first shell, a filter screen connected into the first shell is fixed above the first discharge hole, and the filter screen is positioned below the first movable grinding disc; a material passing hole is formed in the other side of the first shell and is positioned between the first movable grinding disc and the filter screen; the material pore coupling has the material pipeline of crossing, and the aforesaid is crossed the material pipeline and is connected with the second casing, and the second drive assembly in the above-mentioned second casing is used for carrying out the regrinding to the vermicelli waste material after filtering.

Description

Vermicelli waste recycling machine

Technical Field

The utility model relates to a vermicelli production and processing technology field, concretely relates to vermicelli waste material regenerating machine.

Background

The automatic vermicelli production process comprises the steps of adding a starch raw material, fully stirring by a dough mixer, mixing flour, kneading, pumping bubbles, transferring the uniformly stirred dough to a vermicelli machine by a worker, processing the dough by the vermicelli machine, forming by yarn leakage, boiling, gelatinizing, cooling, fishing out the flour, cutting, hanging, condensing, freezing, thawing, drying, and packaging the formed vermicelli briquettes to obtain the finished vermicelli sold in the market. When the vermicelli is cut off, redundant vermicelli waste materials are generated, and the vermicelli waste materials can be processed into finished vermicelli for sale.

The traditional processing method is that a colloid mill is utilized to grind the vermicelli waste into powder, the powder is fully stirred, mixed with powder and kneaded again, bubbles are pumped, the uniformly stirred dough is moved to a vermicelli machine by workers, the vermicelli machine is used for processing the dough and leaking and forming, and the finished vermicelli is formed by boiling, pasting, cooling, fishing out powder, cutting, hanging, condensing, freezing, unfreezing and drying.

At present, a set of fixed grinding disc and a set of movable grinding disc in a colloid mill are matched to grind vermicelli waste, the vermicelli waste is ground only through one grinding process, the grinding quality of vermicelli cannot be guaranteed, a large number of particles exist in the vermicelli waste which is ground into powder, and the quality of vermicelli processed and formed by utilizing the vermicelli waste is poor. The existing solution is that two groups of fixed millstones and movable millstones are used in a matching way, so that the grinding quality of the vermicelli waste is ensured through two grinding procedures, but the method is used for re-grinding the vermicelli waste which is ground into powder, so that the time and the labor are wasted, and the vermicelli waste reprocessing efficiency is low.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that the traditional art adopts two sets of millstones of deciding and moves the cooperation of mill and guarantee the vermicelli waste material quality of grinding, but this kind of method is repeated carries out invalid work, wastes time and energy, and aim at provides a vermicelli waste material regenerator, solves traditional technique and grinds the vermicelli waste material that grinds into powder again, leads to the vermicelli waste material to reprocess the problem of inefficiency.

The utility model discloses a following technical scheme realizes:

a vermicelli waste recycling machine comprises a feeding chute, a first shell, a second shell, a first driving assembly and a second driving assembly;

the feeding groove is communicated with the top of the first shell;

the first driving assembly comprises a first fixed grinding disc, a first movable grinding disc and a first motor, the first fixed grinding disc and the first movable grinding disc are positioned in the first shell, the first motor is used for driving the first movable grinding disc to rotate, and the first movable grinding disc is matched with the first fixed grinding disc to crush vermicelli waste materials;

a first discharge hole is formed in one side of the bottom of the first shell, a filter screen is fixedly arranged in the first shell, and the filter screen is arranged between the first discharge hole and the first fixed grinding disc;

a material passing hole is formed in the other side of the first shell and is positioned between the first movable grinding disc and the filter screen;

the material hole intercommunication has the material pipeline of crossing, and the aforesaid is crossed material pipeline and second casing intercommunication, and the second drive assembly in the above-mentioned second casing is used for carrying out the regrinding to the vermicelli waste material after filtering.

In the scheme, collected vermicelli waste is poured into a feeding groove, the feeding groove is communicated with a first shell, the vermicelli waste enters the first shell, a first fixed grinding disc and a first movable grinding disc are connected in the first shell, the first movable grinding disc is connected with a first motor, the first motor drives a first movable grinding disc, the first movable grinding disc and the first fixed grinding disc which rotate are matched for grinding the vermicelli waste, a filter screen is connected in the first shell and used for filtering the ground vermicelli waste, if the ground vermicelli waste passes through the filter screen, the ground vermicelli waste reaches a qualified standard, and the qualified ground vermicelli waste flows out of a first discharging hole and is used for reprocessing to form finished vermicelli;

if the ground vermicelli waste cannot pass through the filter screen, the ground vermicelli waste does not reach the qualified standard, the non-qualified vermicelli waste enters the second shell through the material passing pipeline, the second driving assembly is installed in the second shell, and the second driving assembly is used for carrying out secondary grinding on the vermicelli waste which is not qualified in the primary grinding.

The first driving assembly filters unqualified vermicelli waste materials ground for the first time to the second shell after being ground through the screen leakage, and the second driving assembly in the second shell is reused to reprocess the unqualified vermicelli waste materials ground for the first time, so that the problem of low efficiency of vermicelli processing caused by secondary processing of all the vermicelli waste materials by using two sets of movable grinding discs and fixed grinding discs in the traditional vermicelli waste material processing is solved.

In some implementations, the filter screen is clamped to the first housing in an inclined manner, and a lower end of the filter screen is located below the material passing hole.

In this scheme, above-mentioned filter screen slope joint is inside first casing, and is close to one side in punishment in advance hole low, guarantees the bean noodles waste material and grinds and filter screen filtration back through first drive assembly, screens out the unqualified bean noodles waste material that first drive assembly ground the back powder matter not fine enough, utilizes the filter screen slope to place, guarantees that unqualified bean noodles waste material in time gets into the punishment pipeline, prevents that unqualified bean noodles waste material from spreading filter screen surface, leads to the filter screen can not carry out normal work.

In some practical solutions, a vermicelli waste recycling machine, the second driving assembly includes a second fixed grinding disc, a second movable grinding disc and a second motor;

a second discharge hole is formed in the second shell and is positioned below the second movable grinding disc;

the material passing pipeline is connected with the top of the second shell, the second motor is used for driving a second movable grinding disc in the second shell, and the second movable grinding disc is matched with a second fixed grinding disc to crush vermicelli waste again.

In the scheme, the second movable grinding disc is connected with a second motor, the second motor drives the second movable grinding disc, and the second movable grinding disc and the second fixed grinding disc which rotate are matched for carrying out secondary processing on unqualified vermicelli waste materials screened out by the screen.

In some implementations, a breadstick waste recycler, said first drive assembly further comprises a first drive shaft;

the first motor is connected with the bottom of the first driving shaft and is used for driving the first driving shaft to rotate;

the first movable grinding disc is sleeved outside the first driving shaft and fixedly connected with the first driving shaft, and the first driving shaft is used for driving the first movable grinding disc to rotate.

In the scheme, the first motor is connected with the bottom of the first driving shaft, the first motor drives the first driving shaft, the top of the first driving shaft is fixedly connected with the bottom of the first movable grinding disc, and the first movable grinding disc and the first driving shaft rotate in the same direction and at the same speed.

In some embodiments, the second drive assembly further comprises a second drive shaft;

the second motor is connected with the bottom of the second driving shaft and used for driving the second driving shaft to rotate;

the second movable grinding disc is sleeved outside the second driving shaft and is fixedly connected with the second driving shaft, and the second driving shaft is used for driving the second movable grinding disc to rotate.

In the scheme, the second motor is connected with the bottom of the second driving shaft, the second motor drives the second driving shaft, the top of the second driving shaft is fixedly connected with the bottom of the second movable grinding disc, and the second movable grinding disc and the second driving shaft rotate in the same direction and at the same speed.

In some practical solutions, the first motor is a speed-adjustable motor, and a first regulator for regulating the rotation speed of the first motor is disposed on the first motor.

In some practical schemes, the vermicelli waste recycling machine is provided with the second motor which is a speed-regulating motor, and the second motor is provided with a second regulator for regulating the rotating speed of the second motor;

the first motor and the second motor rotate in opposite directions.

In the scheme, the vermicelli waste is processed by the first motor and the second motor which rotate in opposite directions, so that the success rate of grinding the vermicelli waste into qualified reprocessed powder is improved.

In some practical schemes, the top of the first shell is provided with a first water inlet hole used for communicating with a water inlet pipeline;

and a second water inlet hole communicated with the water inlet pipeline is formed in the top of the second shell.

In this scheme, above-mentioned first movable mill and first certain mill can produce a large amount of heats when mutually supporting the grinding vermicelli, at first drive assembly during operation, utilize first inlet opening constantly to the interior inflow cold water of first casing, are favorable to the vermicelli to grind on the one hand, and on the other hand is favorable to cooling first drive assembly.

The second movable grinding disc and the second fixed grinding disc can generate a large amount of heat when being matched with each other to grind vermicelli, and when the second driving assembly works, cold water continuously flows into the second shell through the second water inlet hole, so that the vermicelli grinding is facilitated on one hand, and the second driving assembly is facilitated on the other hand to be cooled.

In some embodiments, the feed chute is a funnel-shaped structure with a diameter at the top greater than the diameter at the bottom.

In this scheme, the vermicelli waste material that helps putting into the feed chute flows into first casing through the slope of chute waste fast.

In some practical schemes, the vermicelli waste regenerator is provided with a through hole on the feeding groove, and the through hole is used for clamping and connecting the water inlet pipeline.

In this scheme, above-mentioned through-hole joint water pipe, the feed chute is gone into to the rivers of lead-through pipe, is favorable to putting into the vermicelli waste material of feed chute and gets into first casing, and some vermicelli waste materials glue the feed chute inner wall easily, and the flowing water in the lead-through pipe will glue the vermicelli waste material at the feed chute inner wall and wash into first casing.

Compared with the prior art, the utility model, following advantage and beneficial effect have:

pouring collected vermicelli waste into a feeding groove, wherein the feeding groove is communicated with a first shell, the vermicelli waste enters the first shell, a first fixed grinding disc and a first movable grinding disc are connected in the first shell, the first movable grinding disc is connected with a first motor, the first motor drives the first movable grinding disc, the first movable grinding disc and the first fixed grinding disc which rotate are matched for crushing the vermicelli waste, a filter screen is connected in the first shell and used for filtering the crushed vermicelli waste, if the ground vermicelli waste passes through the filter screen, the ground vermicelli waste reaches a qualified standard, and the qualified ground vermicelli waste flows out of a first discharging hole and is used for being reprocessed to form finished vermicelli;

if the ground vermicelli waste cannot pass through the filter screen, the ground vermicelli waste does not reach the qualified standard, the non-qualified vermicelli waste enters the second shell through the material passing pipeline, the second driving assembly is installed in the second shell, and the second driving assembly is used for carrying out secondary grinding on the first-time ground unqualified vermicelli waste.

The first driving assembly filters unqualified vermicelli waste materials ground for the first time to the second shell after being ground through the screen leakage, and the second driving assembly in the second shell is reused to reprocess the unqualified vermicelli waste materials ground for the first time, so that the problem of low efficiency of vermicelli processing caused by secondary processing of all the vermicelli waste materials by using two sets of movable grinding discs and fixed grinding discs in the traditional vermicelli waste material processing is solved.

Drawings

The accompanying drawings, which are included to provide a further understanding of the embodiments of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the principles of the invention. In the drawings:

FIG. 1 is a sectional view of a noodle scrap recycling machine according to example 1;

FIG. 2 is a cross-sectional view of embodiment 1 providing a first drive assembly mounted to a first housing;

FIG. 3 is a sectional view of embodiment 1 providing a second drive assembly mounted to a second housing;

fig. 4 is a schematic plan view of a first motor provided in embodiment 1;

fig. 5 provides a schematic plan view of a second motor of embodiment 1.

Reference numbers and corresponding part names in the drawings:

1-a feed chute, 11-a through hole, 2-a first shell, 21-a first discharge hole, 22-a passing hole, 23-a first water inlet hole, 3-a second shell, 31-a second water inlet hole, 4-a first driving assembly, 41-a first fixed grinding disc, 42-a first movable grinding disc, 43-a first motor, 431-a first adjuster, 32-a second discharge hole, 5-a second driving assembly, 51-a second fixed grinding disc, 52-a second movable grinding disc, 53-a second motor, 531-a second adjuster, 6-a filter screen, 7-a passing pipeline, 8-a first driving shaft, 9-a second driving shaft.

Detailed Description

To make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail below with reference to the following examples and drawings, and the exemplary embodiments and descriptions thereof of the present invention are only used for explaining the present invention, and are not intended as limitations of the present invention.

Example 1

As shown in fig. 1-5, the present embodiment 1 provides a vermicelli waste recycling machine, which comprises a feeding chute 1, a first casing 2, a second casing 3, a first driving assembly 4 and a second driving assembly 5;

the feeding groove 1 is communicated with the top of the first shell 2;

the first driving assembly 4 comprises a first fixed grinding disc 41, a first movable grinding disc 42 and a first motor 43, the first fixed grinding disc 41 and the first movable grinding disc 42 are positioned in the first housing 2, the first motor 43 is used for driving the first movable grinding disc 42, and the first movable grinding disc 42 is matched with the first fixed grinding disc 41 to crush the vermicelli waste;

a first discharge hole 21 is formed at one side of the bottom of the first casing 2, a filter screen 6 is fixedly arranged in the first casing 2, and the filter screen 6 is arranged between the first discharge hole 21 and the first fixed grinding disc 41;

the other side of the first shell 2 is provided with a material passing hole 22, and the material passing hole 22 is positioned between the first movable grinding disc 42 and the filter screen 6;

the material passing hole 22 is communicated with a material passing pipeline 7, the material passing pipeline 7 is communicated with the second shell 3, and the second driving assembly 5 in the second shell 3 is used for secondarily crushing the filtered vermicelli waste.

In a specific embodiment, collected vermicelli waste is poured into a feeding chute 1, the feeding chute 1 is communicated with a first shell 2, the vermicelli waste enters the first shell 2, a first fixed grinding disc 41 and a first movable grinding disc 42 are connected in the first shell 2, the first movable grinding disc 42 is connected with a first motor 43, the first motor 43 drives the first movable grinding disc 42, the first movable grinding disc 42 and the first fixed grinding disc 41 which rotate are matched for crushing the vermicelli waste, a filter screen 6 is connected in the first shell 2, the filter screen 6 is used for filtering the crushed vermicelli waste, if the ground vermicelli waste passes through the filter screen 6, the ground vermicelli waste reaches a qualified standard, and the qualified ground vermicelli waste flows out from a first discharging hole 21 for reprocessing to form finished vermicelli;

if the ground vermicelli waste cannot pass through the filter screen 6, the ground vermicelli waste does not reach the qualified standard, the unqualified vermicelli waste enters the second shell 3 through the material passing pipeline 7, the second driving assembly 5 is installed in the second shell 3, and the second driving assembly 5 is used for carrying out secondary grinding on the vermicelli waste which is not ground for the first time.

In a specific embodiment, the filter screen 6 is obliquely clamped on the first casing 2, and a lower end of the filter screen 6 is located below the material passing hole 22.

Above-mentioned filter screen 6 slope joint is on first casing 2, and one side near punishment in advance hole 22 is low, guarantee the vermicelli waste material through first drive assembly 4 grind with filter screen 6 filtration back, sieve out the unqualified vermicelli waste material that the powder quality is not fine enough after first drive assembly 4 grinds, utilize filter screen 6 slope to place, guarantee that unqualified vermicelli waste material in time gets into punishment in advance pipeline 7, prevent that unqualified vermicelli waste material from being covered with filter screen 6 surface, lead to filter screen 6 can not carry out normal work.

In a specific embodiment, the second driving assembly 5 includes a second fixed grinding disc 51, a second movable grinding disc 52 and a second motor 53;

a second discharge hole 32 is formed in the second housing 3, and the second discharge hole 32 is located below the second movable grinding disc 52;

the material passing pipe 7 is connected with the top of the second housing 3, the second motor 53 is used for driving the second movable grinding disc 52 in the second housing 3, and the second movable grinding disc 52 cooperates with the second fixed grinding disc 51 to grind the vermicelli waste again.

The second movable grinding disc 52 is connected with a second motor 53, the second motor 53 drives the second movable grinding disc 52, and the second movable grinding disc 52 and the second fixed grinding disc 51 which rotate are matched for performing secondary processing on unqualified vermicelli waste materials screened out by the filter screen 6.

In a specific embodiment, the first driving assembly 4 further comprises a first driving shaft 8;

the first motor 43 is connected with the bottom of the first driving shaft 8, and the first motor 43 is used for driving the first driving shaft 8 to rotate;

the first movable grinding disc 42 is sleeved outside the first driving shaft 8, the first movable grinding disc 42 is fixedly connected with the first driving shaft 8, and the first driving shaft 8 is used for driving the first movable grinding disc 42 to rotate.

The first motor 43 is connected with the bottom of the first driving shaft 8, the first motor 43 drives the first driving shaft 8, the top of the first driving shaft 8 is fixedly connected with the bottom of the first movable grinding disc 42, and the first movable grinding disc 42 and the first driving shaft 8 rotate in the same direction and at the same speed.

In a specific embodiment, the second driving assembly 5 further comprises a second driving shaft 9;

the second motor 53 is connected with the bottom of the second driving shaft 9, and the second motor 53 is used for driving the second driving shaft 9 to rotate;

the second movable grinding disc 52 is sleeved outside the second driving shaft 9, the second movable grinding disc 52 is fixedly connected with the second driving shaft 9, and the second driving shaft 9 is used for driving the second movable grinding disc 52 to rotate.

The second motor 53 is connected with the bottom of the second driving shaft 9, the second motor 53 drives the second driving shaft 9, the top of the second driving shaft 9 is fixedly connected with the bottom of the second movable grinding disc 52, and the second movable grinding disc 52 and the second driving shaft 9 rotate in the same direction and at the same speed.

In a specific embodiment, the first motor 43 is a speed-adjustable motor, and the first motor 43 is provided with a first regulator 431 for regulating the rotation speed of the first motor 43.

In a specific embodiment, the second motor 53 is a speed-adjustable motor, and the second motor 53 is provided with a second regulator 531 for regulating the rotation speed of the second motor 53;

the first motor 43 and the second motor 53 rotate in opposite directions.

The first motor 43 and the second motor 53 which rotate in opposite directions are used for processing the vermicelli waste, so that the success rate of grinding the vermicelli waste into qualified reprocessed powder is improved.

In a specific embodiment, a first water inlet hole 23 for communicating with a water inlet pipeline is formed in the top of the first shell 2;

the top of the second shell 3 is provided with a second water inlet hole 31 for communicating with a water inlet pipeline.

In this scheme, a large amount of heat can be produced when the first movable grinding disc 42 and the first fixed grinding disc 41 are matched with each other to grind vermicelli, and when the first driving assembly 4 works, cold water continuously flows into the first shell 2 through the first water inlet hole 23, so that on one hand, vermicelli grinding is facilitated, and on the other hand, cooling of the first driving assembly 4 is facilitated.

The second movable grinding disc 52 and the second fixed grinding disc 51 generate a large amount of heat when being matched with each other to grind vermicelli, and when the second driving assembly 5 works, cold water continuously flows into the second shell 3 through the second water inlet hole 31, so that the vermicelli grinding is facilitated on one hand, and the second driving assembly 5 is cooled on the other hand.

In a specific embodiment, the feeding chute 1 has a funnel-shaped structure with a diameter of the top larger than that of the bottom.

The waste vermicelli material, which is put into the feed chute 1, is rapidly flowed into the first housing 2 through the slope of the waste chute.

In a specific embodiment, the feeding chute 1 is provided with a through hole 11, and the through hole 11 is used for clamping a water inlet pipeline.

Above-mentioned 11 joint water pipes of through-hole, the rivers that lead to the water pipe go into feed chute 1, are favorable to putting into the vermicelli waste material of feed chute 1 and get into first casing 2, and some vermicelli waste materials glue easily at 1 inner wall of feed chute, through the flowing water in the water pipe, will glue the vermicelli waste material at 1 inner wall of feed chute and wash into first casing 2.

The above-mentioned embodiments, further detailed description of the objects, technical solutions and advantages of the present invention, it should be understood that the above-mentioned embodiments are only specific embodiments of the present invention, and are not intended to limit the scope of the present invention, and any modifications, equivalent substitutions, improvements and the like made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (10)

1. A vermicelli waste recycling machine is characterized by comprising a feeding chute (1), a first shell (2), a second shell (3), a first driving assembly (4) and a second driving assembly (5);

the feeding groove (1) is communicated with the top of the first shell (2);

the first driving assembly (4) comprises a first fixed grinding disc (41), a first movable grinding disc (42) and a first motor (43), the first fixed grinding disc (41) and the first movable grinding disc (42) are positioned in the first shell (2), the first motor (43) is used for driving the first movable grinding disc (42) to rotate, and the first movable grinding disc (42) is matched with the first fixed grinding disc (41) to crush vermicelli waste;

a first discharging hole (21) is formed in one side of the bottom of the first shell (2), a filter screen (6) is fixedly arranged in the first shell (2), and the filter screen (6) is arranged between the first discharging hole (21) and the first fixing grinding disc (41);

a material passing hole (22) is formed in the other side of the first shell (2), and the material passing hole (22) is located between the first movable grinding disc (42) and the filter screen (6);

the material passing hole (22) is communicated with a material passing pipeline (7), the material passing pipeline (7) is communicated with the second shell (3), and a second driving assembly (5) in the second shell (3) is used for secondarily crushing the filtered vermicelli waste.

2. The vermicelli waste recycling machine according to claim 1, wherein said screen (6) is obliquely clamped to said first housing (2), and a lower end of said screen (6) is located below said passing hole (22).

3. The vermicelli waste recycling machine according to claim 2, wherein said second driving assembly (5) comprises a second fixed grinding disc (51), a second movable grinding disc (52) and a second motor (53);

a second discharge hole (32) is formed in the second shell (3), and the second discharge hole (32) is located below the second movable grinding disc (52);

the material passing pipeline (7) is connected with the top of the second shell (3), the second motor (53) is used for driving a second movable grinding disc (52) in the second shell (3), and the second movable grinding disc (52) is matched with the second fixed grinding disc (51) to crush vermicelli waste again.

4. The breadstick waste recycler of claim 3, wherein said first drive assembly (4) further comprises a first drive shaft (8);

the first motor (43) is connected with the bottom of the first driving shaft (8), and the first motor (43) is used for driving the first driving shaft (8) to rotate;

the first movable grinding disc (42) is sleeved outside the first driving shaft (8), and the first movable grinding disc (42) is fixedly connected with the first driving shaft (8).

5. The breadstick waste recycler of claim 4 wherein said second drive assembly (5) further comprises a second drive shaft (9);

the second motor (53) is connected with the bottom of the second driving shaft (9), and the second motor (53) is used for driving the second driving shaft (9) to rotate;

the second movable grinding disc (52) is sleeved outside the second driving shaft (9), the second movable grinding disc (52) is fixedly connected with the second driving shaft (9), and the second driving shaft (9) is used for driving the second movable grinding disc (52) to rotate.

6. The vermicelli scrap recycling machine according to claim 5, wherein said first motor (43) is a speed-adjustable motor, and said first motor (43) is provided with a first regulator (431) for regulating the rotation speed of said first motor (43).

7. The vermicelli scrap recycling machine according to claim 6, wherein said second motor (53) is a speed-adjustable motor, and said second motor (53) is provided with a second regulator (531) for regulating the rotation speed of said second motor (53);

the first motor (43) and the second motor (53) rotate in opposite directions.

8. The vermicelli scrap recycling machine according to claim 7, wherein said first housing (2) is provided at the top with a first water inlet hole (23) for communicating with a water inlet pipe;

and a second water inlet hole (31) communicated with a water inlet pipeline is formed in the top of the second shell (3).

9. The vermicelli scrap recycling machine according to claim 1, wherein said feed chute (1) has a funnel-like structure with a diameter at the top greater than the diameter at the bottom.

10. The vermicelli scrap recycling machine according to claim 9, wherein said feed chute (1) is provided with a through hole (11), said through hole (11) being adapted to engage with a water inlet pipe.

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