KR940007042Y1 - Cleaning apparatus for the pipe line of milking device - Google Patents

Abstract

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Description

Pipeline Washer of Milking Machine

1 is a flow chart of the milk during milking.

2 is an intravascular flow chart of washing water during washing.

3 is an enlarged perspective view of the present invention.

4 is an enlarged cross-sectional view of the solenoid valve in the injector of the present invention.

* Explanation of symbols for main parts of the drawings

2: pipeline 3: milking unit

4: pipe 6: auxiliary jar

8: cleaning sensor 10: milking sensor

12: collection jar 14: discharge pipe

16: discharge pipe 18: milk pump discharge pipe

20: milk pump 24: control box

26: water tank 27: milking unit

28: washing line 30: solenoid valve

32: time card 34: air injector

36,38: Sensor line 40: Switching valve

42: cooler 44: pipe

46: vacuum pump 48: vacuum tank

The present invention attaches an air injector (air injector) to the pipeline of the milking machine and attaches different types of sensors to the inside of the collecting jar mounted on the milking machine to a washing apparatus that can completely clean the inside of the pipeline and the inside of the collecting jar. It is about.

Conventionally, when milking is finished, fill the water tank with the washing water as shown in FIG. 2, connect the milking unit to the washing pipe, close the switching valve, operate the vacuum pump to form a vacuum in the collecting jar and the pipe, and then through the water tank. Since the water is circulated in the pipe and used to clean it, even if the water is circulated in the vacuum and the pipe, the water is not filled in the entire collection jar and the inside of the pipe and water is not always in contact with a certain area. In other words, because it remains as a non-cleaning site, remains attached to this site has been attached to the stone has been an unsanitary factor to breed bacteria.

The present invention solves the above-mentioned defects and installs a device that can periodically supply / block air to the pipeline during cleaning, and installs two sensors (washing sensor and milking sensor) in the collecting jar to control box. It is an object of the present invention to provide a device in which the top of the sump jar is cleanly cleaned without the formation of stalactites inside the pipe by connecting to the pipe.

Hereinafter, the present invention will be described based on the accompanying drawings.

A float is inserted in the inside, and pipes (2) and (4) are attached to the upper end, and an upper end of the collecting jar (12) and the auxiliary jar (6) to which the discharge pipe (16) is attached is connected to the pipe (4). The lower discharge pipe 14 of the auxiliary jar 6 and the lower discharge pipe 16 of the collection jar 12 communicate with the milk pump 20, and the upper discharge pipe 18 and the cooler of the milk pump 20. In the milking machine pipeline cleaning device in which a pipe 44 is connected between the pipes 42 and a vacuum pump 46 is connected to one side of the pipeline 2, the cleaning sensor 8 is disposed inside the collecting jar 12. And the milking sensor 10 is inserted into the control box 24 and the air injector 34 equipped with the time card 32 and the solenoid valve 30 is connected to a known vacuum pump 46. It has a structure provided on one side of the line 2.

Referring to the effect of the present invention configured as described above are as follows.

Fill the water tank (26) with water, connect the milking unit (3) to the washing line (28), and operate the vacuum pump (46) with the switch valve (40) closed. When the vacuum is made, water contained in the water tank 26 flows through the washing line 28 and the milking unit 27 and flows in a constant direction through the inside of the vacuum pipeline 2. At this time, the water circulating in the pipeline 2 is not filled with water over the entire area, even in a vacuum state, in the cross-sectional view of the pipeline 2, and the upper side always remains as a predetermined area. The reason is that the inside of the pipeline cannot maintain 100% vacuum).

Therefore, the milk remaining in the upper portion of the inside of the pipeline (2) that does not reach the water is left unwashed, so it changes to the stone over time, which is a factor of bacterial propagation.

To prevent this from happening, the power is periodically turned on / off in the time card 32 (for example, the air supply is about 7 seconds, the air cutoff is about 4 seconds, etc.) and when the power is "on". When the solenoid valve 30 blocking the hole 50 of the pipeline 2 is opened, the outside air is sucked into the inside of the pipeline 2 through the hole 50 and the supply of the washing water is stopped. After a few seconds, the power is turned off and the hole 50 is closed by the solenoid valve 30 to cut off the air supply from the outside. Pockets and air pockets are formed in the process of circulating the inside of the pipeline (2) is a natural phenomenon that the water pocket and the air pocket is mixed. That is, since bubbles are generated in the washing water and the washing water circulates inside the pipeline 2, vortices (swirl) are formed inside the pipeline 2.

Due to the vortex, the inside of the pipeline 2 is washed over the entire area, and the washing water circulating through the pipeline 2 is intermittently introduced into the collection jar 12 through the pipeline 2, so that the air pocket and The washing water pocket is maintained in the collecting jar 12, the vortex is maintained as it is to be easily washed to the upper portion of the collecting jar 12, and even to the auxiliary jar (6) placed in a vacuum state by the vortex phenomenon.

In addition, two sensors connected to the control box 24, that is, the washing sensor 8 and the milking sensor 10 are inserted in the collecting jar 12, and the length of the washing sensor 8 is short and the milking sensor 10 is installed. ) Length is long, so that it can be cleaned by the vortex to the upper part of the collecting jar 12, that is to say the washing water is detected by the washing sensor (about 3/4 level).

Therefore, when the washing water is filled to a certain level in the collecting jar 12, the washing sensor 8 is detected, and the detected signal is transmitted to the control box 24.

The control box 24 applies power to the milk pump 20 and transmits the milk pump 20 by the transmitted signal, thereby washing water inside the collecting jar 12 and the auxiliary jar 6 through the pipe 44. Drained to the tank 26 and the above process is repeated again.

By using the apparatus according to the present invention as described above, hygienic washing is possible without the formation of petroleum in the pipeline (2). In the case of the collecting jar 12, the water level inside the collecting jar 12 during milking or washing is conventionally constant. It is possible to wash more than that to open the lid of the collecting jar 12, the worker had to wipe the inside of the collecting jar 12 by hand, but by inserting a short washing sensor (8) to the top of the collecting jar 12 There is an effect that can be easily washed.

Claims (1)

A float is inserted in the inside, and pipes (2) and (4) are attached to the upper end, and an upper end of the collecting jar (12) and the auxiliary jar (6) to which the discharge pipe (16) is attached to the lower part is a pipe (4). Is connected, the lower discharge pipe 14 of the auxiliary jar (6) and the lower discharge pipe 16 of the jar 12 is in communication with the milk pump 20, the upper discharge pipe 18 and the cooler of the milk pump 20 In the milking machine pipeline washing apparatus in which a pipe 44 is connected between the pipes 42 and a vacuum pump 46 is connected to one side of the pipeline 2, the washing sensor 8 is disposed inside the collecting jar 12. And the milking sensor 10 is inserted into the control box 24, and the air injector 34 equipped with the time card 32 and the solenoid valve 30 is connected to a known vacuum pump 46. Pipeline washing apparatus of the milking machine, characterized in that the structure installed on one side of the line (2).