KR20210129963A - Bread fermenter - Google Patents

Abstract

The purpose of the present invention is to provide a bread fermenting apparatus shortening fermentation time by evaporating and supplying water in a short time when the proper moisture for fermentation inside the fermenting apparatus is insufficient. The present invention is to provide a bread fermenting apparatus which comprises: a controller box (150) having a built-in controller formed on an outer surface of a ceiling of a main body (100); a steam generating device installed on an upper surface on an outer side of the main body (100) and electrically heating and evaporating water when the water is supplied to generate steam; and a discharge pipe (240) discharging the discharged steam to an internal accommodation space of the main body.

Description

Bread fermenter

The present invention relates to a bread fermenting apparatus, and more particularly, to a bread fermenting apparatus capable of maintaining optimal fermentation conditions by supplying steam appropriately and quickly when supplying vaporized moisture to a receiving space on which kneaded bread is placed. will be.

Fermentation of bread changes the physical properties of the bread, giving it flavor and improving its texture. That is, the palatability is improved. Yeast and lactic acid bacteria generate carbon dioxide during the fermentation of bread to inflate the dough and acidify the dough by the produced by-products, and improve the physical properties of the dough and the biological value of proteins by the action of enzymes. In addition, it produces organic acids such as lactic acid and acetic acid to extend the shelf life of products, inhibit the growth of pathogenic bacteria, and contribute to disease prevention.

Proper temperature and proper humidity are the most important for fermenting bread. In order to meet these temperature and humidity conditions, a bread fermenting device has been developed that can store bread inside and display bread.

A steam generator as shown in FIG. 1 is provided inside the fermentation apparatus, and a heating wire is installed in a small water storage tank and water storage container. Adjust the humidity required for fermentation by quickly supplying it to the internal space of the fermentation device using

However, the fermentation time or quality of fermentation varies depending on the state of moisture required for fermentation. The shorter the fermentation time, the greater the productivity is, so it is economically meaningful.

It is known that supplying moisture in the form of steam has the best effect on the quality of fermentation. It is also known that while supplying in the form of steam, the lower the ratio of water in the granular state in the steam, the better the quality of fermentation can be obtained.

As shown in FIG. 1, looking at the structure of the conventional steam generator, a heating wire is wired to a small water storage tank, and when power is supplied to the heating wire, it is heated and the water in the water storage tank evaporates and generates water vapor to atomize it. Provides moisture.

The method of supplying water to the water reservoir uses a solenoid valve. The solenoid valve electrically operates the nozzle to open and close it in an on/off manner, and the solenoid valve is connected to the water supply or located higher than the water reservoir by placing a water supply source, such as a water tank, to supply by pressure difference. Therefore, when the solenoid valve is turned on, the nozzle opens and the water from the water supply source is supplied to the water reservoir, and when the solenoid valve is closed after a set time, the water supply is cut off.

However, since the solenoid valve regulates only the opening and closing time of the nozzle, the amount of water supplied varies depending on the water pressure of the water supply source. There is a humidity sensor and a temperature sensor inside the fermentation device, so if the humidity is below the appropriate amount, the solenoid valve is opened and closed by the controller. It is filled and whenever moisture is needed, power is supplied to the heating wire to generate steam.

Therefore, the water storage tank is always filled with more water than the required amount in the fermentation apparatus, so it takes a long time to heat to the boiling point. If the heating time is too long, the proper water supply for fermentation is not provided during that time, so the quality of fermentation will decrease and the fermentation time will inevitably be longer. However, if more moisture is supplied than necessary, the quality of fermentation will also decrease and the fermentation time will be longer.

In addition, when the water heated in the water storage tank evaporates, not only water vapor but also granular water is mixed with the water vapor. Water mixed in the water vapor has a bad influence on the fermentation of the bread, thereby reducing the quality of the fermentation and making the fermentation time longer.

Since the fermentation device has to be used continuously while replacing the kneaded bread, a longer fermentation time will eventually lower productivity, and if the fermentation quality deteriorates, the quality of the product will also decrease.

Republic of Korea Patent Registration No. 10-0392440 Republic of Korea Patent Registration No. 10-1361646 Republic of Korea Patent Publication No. 10-2009-0121901 Republic of Korea Patent Registration No. 10-0662092

The present invention is to solve the problems described above, and minimizes the mixing of water in the granular state into the steam when supplying the necessary steam to the inside of the fermentation device, and when the proper moisture fermented inside the fermentation device is insufficient, water in a short time An object of the present invention is to provide a bread fermenting apparatus using a solenoid pump and a steam generator that can shorten the fermentation time and increase the quality of fermentation by supplying it by vaporization.

According to the present invention, an accommodating space 110 is formed therein to achieve the above object, and a plurality of shelves 120 are formed so that kneaded bread can be placed in the accommodating space, and the bottom of the accommodating space In the bread fermentation apparatus having a main body 100 in which a heating wire 130 is wired so as to increase the temperature and a door capable of opening and closing a receiving space is formed on the front surface, a controller formed on the outer surface of the ceiling of the main body is built-in controller box 150; Between the upper plate 210 having a steam receiving groove SN formed therein, a lower plate 220 having a steam receiving groove SN formed therein and a heating wire embedded in the bottom, and the upper plate 210 and the lower plate 220 A separating plate 230 is formed that is inserted into the upper and lower plates to divide the space formed by combining the upper and lower plates 210 and 220, and the separating plate 230 has several steam holes 232 formed therein. , an outlet 212 communicating with the steam accommodating groove SN is formed on the upper portion of the upper plate 210 , and water required for making steam from the outside into the steam accommodating groove SN is introduced on the side of the lower plate 220 . An inlet 222 communicating with the steam receiving groove SN is formed so that the water flowing into the steam receiving groove SN of the lower plate 220 is heated and evaporated. 232) and then introduced into the steam receiving groove SN of the upper plate 210 and then discharged again through the outlet 212 of the upper plate 210; And one end is connected to the outlet 212 of the upper plate 210, the other end protrudes into the receiving space inside the main body through the ceiling of the main body is discharged through the outlet 212 inside the main body It provides a bread fermentation apparatus comprising; a discharge pipe 240 for discharging to the receiving space.

According to the present invention, since a solenoid pump capable of accurately supplying only a set amount is used, the steam required in the fermentation apparatus can be quickly supplied, and since the solenoid pump is used, water can be supplied to the steam generator even when water pressure does not work. A water supply source may be provided regardless of the location (height) of the

In addition, when supplying steam to the receiving space in which the kneaded bread is placed, there is provided a steam generator that minimizes the mixing of small water droplets that adversely affect fermentation, so that the fermentation time can be shortened and the quality of fermentation can be improved.

1 shows a conventional fermentation apparatus.
Figure 2 shows a fermentation apparatus according to the present invention.
Figure 3 shows the inside of the fermentation apparatus according to the present invention.
Figure 4 shows that the blowing fan is installed inside the fermentation apparatus according to the present invention.
Figure 5 shows that the steam generator is installed in the controller box of the fermentation apparatus according to the present invention.
6 is an exploded view of the steam generator of the fermentation apparatus according to the present invention.
7 shows a state in which a water supply source is connected to the fermentation apparatus according to the present invention.

The present invention will be described in detail with reference to the accompanying drawings as follows.

As shown in FIGS. 2 and 6 , a hexahedral body 100 in which a receiving space 110 is formed by bending and welding a steel plate is provided. A multi-layered shelf 120 is formed in the accommodating space 110 . The shelf 120 is for placing the kneaded and shaped bread. The fermentation time of bread varies depending on the dough material and manufacturing method, but it is approximately 30 to 60 minutes.

A door (D) capable of opening and closing the accommodation space is formed on the front surface of the main body 100 , and a controller box 160 protecting the controller 170 is formed on the outer side of the upper surface.

A heating wire 130 is installed on the floor inside (accommodating space 110) of the body 100, and a blowing fan 140 is installed on the wall surface. The blowing fan 140 stirs the air in the accommodation space 110 so that when water vapor is injected into one side of the accommodation space, it is spread evenly throughout the accommodation space 110 in an instant.

An ultraviolet sterilization lamp 150 is installed on one side of the inner wall of the body 100 . Ultraviolet sterilization penetrates the cell membranes of various bacteria such as bacteria and viruses in UV-C, which is an ultraviolet region of 200 to 280 nm, and damages or destroys DNA so that cell proliferation does not occur anymore. When the bread is fermented, harmful bacteria also proliferate, so after using the fermentation device for a certain period of time, the UV sterilization lamp is operated to completely sterilize the harmful bacteria in the receiving space, and then the fermentation device is operated again. That is, when the kneaded bread is fermented, the operation of the UV sterilization lamp is stopped, and if harmful bacteria increase after using it for a certain period of time, put the dough on the shelf to ferment it. Bread is fermented.

A controller 170 is installed outside the upper surface of the main body 100 , and a controller box 160 for protecting the controller 170 is formed on the upper surface edge.

A steam generator 200 is installed on the upper surface of the outer body 100 . The steam generator 200 is a device for making water vapor by heating it electrically and evaporating it when water is supplied. The steam generator 200 is divided into an upper plate 210 and a lower plate 220 . The upper plate 210 and the lower plate 220 are provided with a steam receiving groove SN, so that when the upper plate 210 and the lower plate 220 are coupled, the steam receiving groove SN of the upper plate 210 and the lower plate 220 is formed in the middle. The steam receiving groove SN of the combined size is formed.

A perforated outlet 212 is formed on the upper surface of the upper plate 210 to communicate with the steam receiving groove SM. One end of the outlet 212 is connected to the outlet, and the other end is connected to a discharge pipe 240 passing through the outer upper surface of the main body 100 to communicate with the receiving space SN.

The side of the lower plate 220 is perforated to form an inlet 222 communicating with the steam receiving groove SN of the lower plate 220 . The inlet 222 is connected so that water from a water supply source is supplied by a solenoid pump 250 to be described later.

A separation plate 230 is formed between the upper plate 210 and the lower plate 220 . The separation plate 230 is a flat plate, and the steam receiving groove SN formed on the upper plate 210 and the steam receiving groove SN formed on the lower plate 220 are combined to vertically bisect the steam receiving groove SN. Although it is not necessary to evenly divide the steam receiving groove SN by the separator 230, the space is roughly divided. That is, the width and length of the upper plate 210 and the lower plate 220 are the same, but the upper and lower plates are different in height from each other so that the steam receiving groove SN formed in the upper plate 210 and the steam receiving groove SN formed in the lower plate 220 are the same. may change the depth of

Three vapor holes 232 are formed in the separation plate 230 . The vapor holes 232 are formed to be spaced apart from each other by a predetermined interval, and the number may be increased or decreased as necessary. The vapor hole 232 has an inner diameter of about 1 to 5 mm. The larger the inner diameter of the vapor hole 232, the better the discharge of water vapor. High, the smaller the inner diameter of the vapor hole 232, the lower the mixing ratio of non-vaporized water droplets, but it is preferable to form the size of the vapor hole 232 to 1 ~ 5mm because the discharge is not well.

A penetrating bolt hole (bh) is formed in the corners of the upper plate 210 and the lower plate 220, and the upper plate 210 and the lower plate 220 are fastened with bolts/nuts to the bolt holes bh. When the upper plate 210 and the lower plate 220 are coupled, the outer periphery of the separating plate 230 is fixed integrally with the upper plate 210 and the lower plate 220 while being engaged.

A solenoid pump 250 is installed on one side wall of the control box 160 . The solenoid pump 250 is a pump using a magnetic material and an electromagnetic induction coil. When power is applied to the induction coil, a magnetic force is formed in the induction coil, and the magnetic material reciprocates by the magnetic flux generated by the magnetic force to suck the fluid. and a pump configured to discharge. This solenoid pump 250 has a simple structure compared to other pumps as well as miniaturization, so it has been used in fields requiring a small capacity and high pressure, but has not been applied to a bread fermentation apparatus.

The solenoid pump 250 is embedded in the wall of the control box 160, and the pump inlet 252 protrudes outside the control box 160 and is connected to the water supply source W through the hose H, as shown in FIG. 7 . and the pump outlet 254 is connected to the inlet 222 of the lower plate 220 through a hose (H) to supply the water supply source (W) to the steam receiving groove (SN).

The solenoid pump 250 stably supports the solenoid pump 250 by installing a bracket (B) on the wall of the control box in order to be stably fixed to the wall of the control box 160 .

The operation of the fermentation apparatus according to the present invention configured as described above will be described as follows.

After opening the door (D) formed on the front of the main body 100 and placing the kneaded bread on the shelf 120, the heating wire 130 installed on the bottom of the main body 100 is heated under the control of the controller 170, The receiving space 110 is heated to an appropriate temperature of about 35° C. capable of fermenting the kneaded bread, and the steam generator 200 is operated to discharge water vapor into the receiving space 110 so that the humidity becomes approximately 90%. .

A process of discharging water vapor to the accommodation space 110 through the steam generator 200 is as follows. When the solenoid pump 250 is operated under the control of the controller 170, regardless of the position higher or lower than the position of the solenoid pump 250, even if there is no water pressure like tap water, the water of the water supply source (W) by the pumping action After the pump inlet 252 is introduced, it flows into the inlet 222 of the lower plate 220 through the pump outlet 254 and is supplied to the steam receiving groove SN of the lower plate 220 .

Irrespective of the water pressure of the variable water supply source, since water flows in by the orji pumping action, when a set small amount of water is supplied to the steam receiving groove (SN), the heating wire built into the lower plate 220 under the control of the controller 170 As it heats up, the water evaporates. The evaporated water vapor is ejected into the vapor receiving groove SN of the upper plate through the vapor hole 232 of the separating plate 230 . At this time, the water vapor generated in the steam receiving groove (SN) of the lower plate 220 is mixed with small water droplets that are not vaporized as the water is vaporized, but relatively heavy small water droplets collide with the separating plate and then again the steam receiving groove (SN). falls to the floor Therefore, only small water droplets directly under the vapor hole 232 of the separating plate 230 are mixed in the vaporization process. A very small amount of water droplets are mixed.

The water vapor introduced into the vapor receiving groove SN of the upper plate 210 through the vapor hole 232 of the separating plate 230 is discharged to the outlet 212 formed in the upper portion of the upper plate 210, and then the discharge pipe 240. It is discharged to the upper portion of the receiving space 110 of the main body 100 through the. The water vapor discharged into the receiving space 110 is naturally diffused in the receiving space 110 due to the difference in pressure and density, but a time difference may occur in evenly spreading throughout the receiving space 110 , but one side of the receiving space 110 . Since the air is forcibly stirred through the blowing fan 140 installed in the , the water vapor is quickly diffused to every corner of the accommodation space 110 .

Since a temperature sensor and a humidity sensor are installed inside the body 100 (accommodating space), the steam generator 200, the blower fan 140, and the heating wire 130 according to the temperature and humidity set by the control of the controller 170 ) by operating or stopping the operation, the temperature and humidity conditions required for the bread kneaded in the accommodation space 110 to be fermented can be maintained in an optimal state.

In particular, mixing of small water droplets into the water vapor discharged to the receiving space 110 through the discharge pipe 240 is minimized, thereby shortening the fermentation time of the bread and greatly improving the quality of fermentation.

100: body 110: accommodation space
120: shelf 130: heated wire
140: blowing fan 150: UV lamp
160: control box 170: controller
200: steam generator 210: top plate
212: outlet 220: lower plate
222: inlet 230: separator plate
240: discharge pipe 250: solenoid pump
252: pump inlet 254: pump outlet
SN : Steam receiving groove W : Water supply source

Claims (5)

A accommodating space 110 is formed therein, a plurality of shelves 120 are formed to put kneaded bread in the accommodating space, and a heating wire 130 is provided on the floor to increase the temperature of the accommodating space. In the bread fermentation apparatus having a main body 100 that is wired and has a door that can open and close a receiving space on the front side,
a controller box 150 having a built-in controller formed on the outer surface of the ceiling of the main body;
Between the upper plate 210 with the steam receiving groove SN formed therein, the lower plate 220 having the steam receiving groove SN formed therein and a heating wire embedded in the bottom, and the upper plate 210 and the lower plate 220 A separating plate 230 is formed that is inserted into the upper and lower plates to divide the space formed by combining the upper and lower plates 210 and 220, and the separating plate 230 has several steam holes 232 formed therein. , an outlet 212 communicating with the steam accommodating groove SN is formed on the upper portion of the upper plate 210 , and water required for making steam from the outside into the steam accommodating groove SN is introduced on the side of the lower plate 220 . An inlet 222 communicating with the steam accommodating groove SN is formed so that the water flowing into the steam accommodating groove SN of the lower plate 220 is heated and evaporated. 232) and then introduced into the steam receiving groove SN of the upper plate 210 and then discharged again through the outlet 212 of the upper plate 210; and
One end is connected to the outlet 212 of the upper plate 210, and the other end penetrates the ceiling of the main body and protrudes into the receiving space inside the main body to receive water vapor emitted through the outlet 212 inside the main body. a discharge pipe 240 for discharging into the space;
Bread fermentation apparatus comprising a. According to claim 1,
Bread fermentation apparatus, characterized in that a blower fan (140) for forcibly stirring the air in the accommodation space under the control of the controller is installed on one side of the inside of the main body (100). According to claim 1,
On one side of the inner side of the body 100, an ultraviolet lamp that penetrates the cell membranes of various bacteria such as bacteria and viruses in UV-C, which is an ultraviolet region of 200 to 280 nm, and damages or destroys DNA to prevent further cell proliferation ( 150) is a bread fermentation device, characterized in that it is installed. According to claim 1,
Bread fermentation apparatus, characterized in that the number of steam holes (232) formed in the separating plate (230) can be increased or decreased or the size thereof can be increased or decreased. According to claim 1,
The separator plate 230 is a bread fermentation apparatus, characterized in that it can be replaced with a different number or size of the steam hole.

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