KR200464108Y1 - Fixed quantity committed system for beab curd making machine - Google Patents

Abstract

The present invention relates to a quantitative feeding device for tofu makers, in which the manufacturing process of tofu is generally soaked in soybeans (both raw, wet and dry soybeans) in water and the soybean is washed during the feeding process of the beans before the crushing process. And the continuous quantitative discharge of the washed beans can be made possible with a single power source, thereby increasing the hygiene as well as the dramatically improved functionality and economy of the device. As a technical means for achieving this, the present invention is connected to the water supply pipe 11 on one side and the drain pipe 12 is connected to the other side of the position lower than the water supply pipe 11, so the bottom of the bean washing discharge hole (13) The formed injection hopper 10 and a plurality of washing blades 21 protrude upward and downward to be washed while being installed inside the input hopper 10 by stirring with water and the input hopper ( 10) the support base 63 through which the blade blade 20 coupled with the hopper shaft 22 having the hopper gear 23 formed at the end thereof and exposed to the outside, and the bean crushing hole 64 connected to the grinding line. A driving motor 60 installed at one side and connected to the hopper gear 23 of the hopper shaft 22 through the motor gear 62 of the motor shaft 61 and the input hopper through the bean outlet 31. The soybeans are connected to the bean washing and draining holes 13 of the bean through the movement control of the opening and closing protrusion 32. The opening and closing cylinder 30 for opening and closing the outlet 31 and the beans introduced by washing through the input hopper 10 are quantitatively distributed and discharged into the bean crushing hole 64 of the support base 63. A plurality of fixed quantity compartment blades 52 are formed at a predetermined interval in the horizontal direction so as to protrude, and the fixed quantity metering shaft 51 protrudes from the fixed quantity discharge unit 50 which is power-connected to the drive gear 62 of the drive motor 60, and the longitudinal direction. Through the discharge outlet binding hole 42 of the soybean outlet 31 is connected while the metering discharger 50 is rotatably inserted through the quantitative binding hole 41 in the transverse direction inserted block 40 It is configured to include a technical feature.

Description

Fixed quantity committed system for tofu makers {Fixed quantity committed system for beab curd making machine}

The present invention relates to a quantitative feeding device for a tofu maker which can wash and feed soybeans as a single power source. More specifically, the manufacturing process of tofu is usually called soybeans (both raw beans, wet beans and dried beans) in water The present invention relates to a quantitative feeding device for tofu makers, which enables the washing operation of the beans and the continuous quantitative discharge of the washed beans in the feeding process of the beans prior to the crushing process.

In general, in preparing tofu, foreign substances such as stones included in the raw soybean juice are removed and washed cleanly, and it is usually called with water for about 7-17 hours, and then grind through millstone, or raw beans (including dried beans) In addition, the first grinding through the grinder to crush the second mill through the mill again to make soybean. In particular, the finer the soybeans, the more delicious and delicious the tofu can be.

The soybeans made in this way are separated from the soybeans using ordinary manual work or a mechanical device such as a centrifuge or a soymilk separator.The pure soybeans from which the soybeans are separated are called soymilk, which is the raw material of tofu, It will be used for the purpose.

And the soy milk, which is the raw material of tofu, is collected in a pot or a pressure tank, and is usually stopped at a constant temperature by using steam. A coagulant is added to the boiled soy milk and solidified with pure tofu. The cured soft tofu is pressed into a certain shape to complete the tofu.

That is, the manufacturing process of tofu is obtained by a soybean (raw bean, wet soybean, dried soybean), which is called water, and then pulverized, a filtration process to filter bean curd from soybean water obtained through the crushing process, and the filtration process. It is common to consist of a steaming process of boiling soybean water, a coagulation process of adding softened water (coagulant role) to steamed soybean water, and a forming process of pressing the coagulated soft tofu to form tofu.

By the way, most of the tofu manufacturing apparatus introduced so far, in the process of adding and washing the beans before the grinding process and sending them to the grinding device of the grinding process, the step of adding the beans to the input hopper and watering the input beans The feeding and washing steps were separated, and there was a need to stir and wash water and beans supplied through a separate power source for the beans to be injected.

In addition, even in the discharge and supply of the washed beans to the crusher of the grinding process, it was difficult to perform the uniform quantitative discharge operation smoothly, and the washing step of the beans and the uniform quantitative discharge operation of the washed beans were used as separate power sources. Through the transmission operation, structural complexity and unnecessary power source was wasted. Especially, the complicated structure of the power transmission structure makes it difficult to clean the device and even discharge of beans is difficult. There was considerable inconvenience.

In order to solve the above problems, the present invention seeks to provide an entirely new quantitative input device for tofu makers capable of washing and feeding beans as a single power source. Particularly, the manufacturing process of tofu is a grinding process for washed beans. Soybean washing is performed with the input of beans in the same space without being limited to the conditions (state) of the previous beans, and at the same time, it is possible to discharge the beans evenly with the same power source. And power source for the discharge operation can be linked to one operation structure, so that the simplification of the device can be achieved structurally and functionally, and the new manufacturing structure and function of the tofu maker can dramatically improve the hygiene. The purpose is to provide an input device.

In order to solve this problem, the quantitative input device for a tofu maker, an input hopper having a bean washing discharge hole formed at the bottom while the water supply pipe is connected to one side and a drain pipe is connected to the other side of the lower position than the water supply pipe, and the input The washing blade shaft is coupled to the hopper shaft formed with a hopper gear formed at the end of the plurality of washing blades protruded upward and downward and exposed to the outside of the input hopper so that the beans are introduced into the hopper can be stirred with water and washed. A driving motor is installed at one side of the support base through which the bean crushing hole connected to the crushing line is penetrated, and is connected to the hopper gear of the hopper shaft through the motor gear of the motor shaft, and connected to the bean washing outlet of the hopper through the bean outlet. And opening and closing cylinder for opening and closing the bean outlet through the movement control of the opening and closing projections, the input Soybeans washed and cleaned through the fur are distributed in a fixed quantity, so that a plurality of fixed intervals are formed at regular intervals so that the beans can be discharged into the bean crushing holes of the support base, and the protruding fixed shaft is fixedly connected to the motor gear of the driving motor. Technical features are characterized in that the device is configured to include an ejector, and an input block through which the bean discharge outlet is connected through a longitudinally penetrated outlet binding hole, and the metering discharger is rotatably inserted and inserted through a horizontally penetrated metering hole. .

In particular, the fixed quantity discharge machine has a plurality of fixed quantity compartment blades 52 formed in the transverse direction at regular intervals so as to be discharged into the bean grinding hole of the support base connected to the grinding line. Positioning, it is preferable to include a support bushing and a sealed binding ring to be integrally coupled with the motor gear of the motor shaft according to the operation of the drive motor to be rotated in a power-connected state.

The quantitative feeding device for the tofu maker of the present invention having the technical features of such a construction means, the beans that are washed together with the input and washing of the beans in the grinding process before the grinding process of grinding the washed beans into the grinding device after The uniform quantitative discharge of soybeans can be precisely linked to a single power source, so that a simple, single power transmission structure ensures that the soybean's cleansing and quantitative emissions can be provided structurally and reliably. It is possible to reliably solve all the problems such as unsanitary pollution of the discharge line, which could be caused by the discharge of uneven soybeans due to the quantitative discharge of soybeans. Improved workability due to improved functionality, workability, economy, and integration and miniaturization of equipment It is expected to be able to improve.

1 is a perspective view of a separated state of the metering device for a tofu maker according to the present invention.
Figure 2 is a perspective view of the main portion of the quantitative injection device for tofu maker according to the present invention.
Figure 3 is a structural view of the operation state of the metering device for tofu production according to the present invention.

Hereinafter, with reference to the drawings of the preferred embodiment attached to the specific configuration relationship and the operating principle exerted through the quantitative injection device for tofu maker of the present invention will be described in detail.

1 and 2 as shown in the separation state of the quantitative injection device for the tofu maker of the present invention shown in Fig. 1, basically, the present invention basically conditions of the beans before the grinding process for the washed beans ( For example, raw beans, wet beans, dry soybeans) state is not limited to washing the beans and the quantitative discharge operation of the washed beans is configured to operate as a single power source, the input hopper 10 is first soybean is introduced The water supply pipe 11 is connected so that water is supplied from the outside to the input hopper 10 from one side to the outside, and the water washing the beans to the other side of the position lower than the water supply pipe 11 is discharged to the outside. The drain pipe 12 is connected so that, the one side of the bottom of the drain pipe 12 is formed soybean discharge hole 13 so that the washed beans can be discharged toward the metering discharger (50).

In particular, the input hopper 10 is a plurality of washing blades 21 protrudes upward and downward side so that the introduced beans are stirred with water introduced through the water supply pipe 11 and the outside of the input hopper 10 Exposed to the washing blade shaft 20 is coupled to the hopper shaft 22 is formed hopper gear 23 at the end is terminated in the middle.

In addition, the driving blade 60 is connected to the end of the motor shaft 61 of the drive motor 60 so that the washing blade shaft 20 can be rotated in accordance with the drive of the drive motor 60 which is a single power source. A motor gear 62 is formed to be power-connected with the hopper gear 23 of the hopper shaft 22 integrally connected to the washing blade shaft 20 in the form of a bevel gear, and the drive motor 60 is a crushing line (crusher). The illustration of the drawing is omitted) is installed on one side of the support base 63 through which the soybean crushing hole 64 is connected.

In addition, the bean washing outlet 13 of the input hopper 10 is connected to the bean outlet 31 penetrated in the longitudinal direction, and is opened and closed while being connected to the bean washing outlet 13 through the bean outlet 31 Opening and closing the cylinder 30 for opening and closing the bean outlet 31 through the movement control of the projection 32 is configured. In particular, the opening and closing projections 32 which are moved and operated by the opening and closing cylinder 30 normally seal the open passage in the middle of the bean outlet 31, while the beans washed during the washing operation of the beans have a fixed quantity discharger 50 below. It is configured to be reciprocated by the power of the opening and closing cylinder 30 so as to be discharged to the grinding line through a closed operation.

In addition, the quantitative discharger 50 is configured such that the beans being stirred and washed by the washing blade 21 of the input hopper 10 are continuously and evenly distributed so that the quantitative control can be discharged toward the grinding line. 60 is connected to the power, the metering discharger 50 is formed in the transverse direction a plurality of fixed volume section blades 52 at regular intervals to the outside of the cylindrical body, the motor shaft 61 according to the operation of the drive motor 60 The motor gear 62 and the metering shaft 51 of the motor unit are integrally coupled to each other so as to be powered.

In particular, as the washing blade 21 of the input hopper 10 is rotated as a single power source of the driving motor 60, the washing operation of the beans is performed, and at the same time, the washed beans are quantitatively distributed while the metering discharger 50 is rotated. The metering shaft 51 of the metering discharger 50 is connected to the motor shaft 61 of the driving motor 60 so that the metering shaft 51 of the metering discharger 50 can be discharged toward the grinding line through the bean grinding hole 64 of the support base 63. It is integrally coupled via a motor gear 62 to be connected to the power, and the metering discharger 50 is connected to the bean crushing hole 64 of the bean outlet 31 and the support base 63 under the input hopper 10. The input block 40 is installed at the same line position, and the fixed quantity discharger 50 is rotatably installed on the input block 40 so that the input hopper 10 is driven by a single drive motor 60 power source. The washing and quantitative distribution of the beans is operated while the metering dispenser 50 is rotated together with the washing blade 20. Can.

That is, the input block 40, which is configured to bind the metering discharger 50, is connected to the bean outlet 31 at the bottom of the input hopper 10 through the discharge outlet binding hole 42 in the longitudinal direction, and is penetrated in the horizontal direction. As the metering hole 41, the metering discharger 50 is rotatably inserted and installed, and in particular, the metering discharger 50 installed and installed in the input block 40 is equally quantitatively distributed so that the washed beans are supported. Numerical section blades 52 are formed in the transverse direction at regular intervals so as to be discharged into the bean crushing injection hole 64 of (63).

In addition, the metering discharger 50 is integrally connected to the motor shaft 61 according to the operation of the drive motor 60 via the motor gear 62 to be rotated in a power-connected state. It is preferable that the sealing binding ring 54 is configured so that the sealing binding with the lateral metering unit binding hole 41 of the injection block 40 together with the bushing 53 is maintained so that foreign matter intrusion from the outside can be suppressed.

The present invention of such a configuration, as shown in the operating structure of Figure 3, the input of the bean and the water supply pipe 11 through the input hopper 10, the upper side is opened in the input process of the bean before the grinding process to crush the washed beans. Water flowing through the) is made together, and the washing blade shaft 20 is driven by rotating the washing blade shaft 20 is connected to the motor gear 62 of the drive motor 60 by a single power source drive motor (60). By the washing blade 21 of the washing operation of the beans can be surely performed.

At the same time, the metered discharger 50, which is connected to the motor shaft 61 of the driving motor 60, is also rotated through the injection block 40, so that the washed beans of the injection hopper 10 are opened by the opening / closing cylinder 30. Soybean discharged to the discharge port 31, the beans flowing into the quantitative discharger 50 in accordance with the rotation operation of the quantitative compartment 52 of the quantitative discharger 50 is continuously and evenly distributed quantitatively support ( 63) can be quantitatively controlled and discharged to the grinding line through the bean grinding hole 64, which is simple as a single power source without being limited to the conditions (states) of the beans before the grinding process for the washed beans. In addition, an accurate quantitative discharge of the washed beans can be carried out with the washing operation of the beans accurately.

10: injection hopper 11: water supply pipe
12: drain pipe 13: soybean draining
20: washing blade 21: washing blade
22: hopper shaft 23: hopper gear
30: opening and closing cylinder 31: bean outlet
32: opening and closing protrusion 40: closing block
41: fixed quantity binding hole 42: outlet binding hole
43: support bottom 50: metering dispenser
51: Quantitative Axis 52: Quantitative Compartment Blade
53: support bushing 54: sealed binding ring
60: drive motor 61: motor shaft
62: motor gear 63: support base
64: bean grinding hole

Claims (2)

One side is connected to the water supply pipe 11 and the drain pipe 12 is connected to the other side of the position relatively lower than the water supply pipe 11, the bottom of the input hopper 10 formed with a bean washing discharge hole (13),
The plurality of washing blades 21 protrude upward and downward side and exposed to the outside of the input hopper 10 so that the beans introduced while being installed inside the input hopper 10 may be stirred with water to be washed. The washing blade shaft 20 is coupled to the hopper shaft 22 formed with the gear 23,
Soybean crushing hole (64) connected to the grinding line is installed on one side of the support base 63 through which the hopper gear (23) of the hopper shaft 22 through the motor gear 62 of the motor shaft (61) Drive motor 60 is connected to the power,
Opening and closing cylinder 30 for opening and closing the bean outlet 31 through the movement control of the opening and closing projection 32 while being connected to the bean washing outlet 13 of the input hopper 10 through the bean outlet 31 ,
The quantitative compartment 52 at a predetermined interval in the horizontal direction is discharged so as to be discharged to the soybean crushing hole 64 of the support base 63 while the beans introduced by washing through the input hopper 10 are quantitatively distributed. A number of formed and protruding metering shaft 51 is a metering discharger (50) that is power connected to the motor gear 62 of the drive motor (60),
The bean discharge port 31 is connected to the discharge outlet binding hole 42 in a longitudinal direction while the metering discharger 50 is rotatably inserted and inserted through the transverse metering hole binding hole 41 in the horizontal direction ( Metering input device for tofu makers, characterized in that comprises a 40). The method according to claim 1,
The metering discharger 50 is formed in the horizontal direction at regular intervals, so that the fixed quantity of the cutting edge 52 to be discharged to the soybean grinding hole 64 of the support base 63 is connected to the grinding line support base 63 The discharge hole binding hole 42 in the longitudinal direction is located in the bean crushing injection hole 64 of the), and is integrally connected with the motor gear 62 of the motor shaft 61 according to the operation of the driving motor 60 to be connected to the power source. A fixed quantity injection device for a tofu maker, characterized in that the support bushing 53 and the closed binding ring 54 are configured to be rotated.

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