WO2019199247A2 - Smart refrigerator with double section - Google Patents

Abstract

The invention relates to a smart refrigerator with a double section which is used for industrial purposes in the bakery businesses such as patisseries and bakeries and in the pastry processing shops, which increases the production speed by switching to automation and saves money at the same time.

Description

SMART REFRIGERATOR WITH DOUBLE SECTION

Field of Invention

Hie invention relates to a smart refrigerator with a double section which is used for industrial purposes in the bakery businesses such as patisseries and bakeries and in the pastry processing shops, which increases the production speed by switching to automation and saves money at the same time.

State of tiie Art in the prior art, there are dough cupboards of vertical type for industrial purposes, which are used as standard +4 degree in the bakery businesses such as patisseries and bakeries and in the pastry processing shops. It is possible to work in stocks through pastry sections in the bakery products sector, and each bakery business has such sections or cold rooms.

Hie dough that is stored in the pastry cabinet must be pre-processed before it is started to be cooked. The dough is first left in the room temperature for 5-10 minutes, then placed in the dough rising unit and is kept subject to rising process at 60-90 degree interval for 15-25 minutes. After the rising process, the baiting process is performed by taking the dough into the oven.

Due to the time required for the preprocessing before baking the dough, these operations have to be done about 1-2 hours before the sale of bakery products. Therefore, it is obligatory to start work in the middle of the night in a business that should start selling very early in the morning.

In the known state of the art, there is no dough section that can perform cooling and fermentation together. As a result, the existence of the above problems and the inadequacy of the existing solutions have made it necessary to make a technical field improvement in the pastry cupboards used for industrial purposes in bakery products business.

Objective of the Invention

From the known state of the art, the main objective of the invention is to obtain a new refrigerator section, which is advantageous by eliminating the known disadvantages of the art.

Another main objective of the invention is to have a double section, upper and lower, and to perform cooling and fermenting in a single section.

Another main objective of the invention is that the upper refrigerator section contains the refrigeration compressor to provide dough cooling and the lower refrigerator section contains resistance to provide dough fermentation.

Another main objective of the invention is that section cabins which perform cooling and fermenting operations are separated from each other by a valve.

Another main objective of the invention is to control the cooling and fermentation process with the control panel.

Another main objective of the invention is that the upper section perform continuous cooling operation and the lower section performs the dough rising operation in the predetermined time periods together with the cooling operation.

Another main objective of the invention is that the lower section performing the rising process at the desired time before the dough is baked enables the business to increase the production speed and shift the working hours.

Short Description of the Drawings

The drawings the short description of which are presented herein are merely intended to provide a better understanding of the present invention and are not intended to define the intended scope of protection or the context of such scope of protection in a manner that can be understood without regard to the detailed description of the invention.

Figure 1 is a perspective view of the refrigerator section.

Figure 2 is a schematic view of the upper section section.

Figure 3 is a schematic view of the lower section section.

Figure 4 is a view of dough rising process steps of the cooling section

Explanation of References

No. Name

1 Double-section chassis

1.1 Upper section

1.2 Lower section

1.3 Section partition wall

2 Compressor

3 Cooling radiator

4 Cooling fan

5 Valve

6 Valve motor

7 Resistance

8 Resistance fan

9 Water discharge drawer 10 Control panel

11 Tray rails

12 Door

13 Insulation A Refrigerating section

Explanation of the Process Steps

101 The cooling process is activated in the upper section (1.1) and lower section

(1.2)

102 The valve (5) is closed in the control panel (10) for the rising operation at the previously programmed time,

103 Continuation of cooling in the upper section (1.1),

104 The resistance (7) in the lower section (1.2) starts heating at the determined temperature (7) and the hot air is distributed homogeneously via the resistance fan

(8), 105 The lower section (1.2) is kept at the same temperature for the period specified by the user and the dough rising process is performed,

106 When the rising operation is finished in the lower section (1.2), the control panel (10) asks the user to choose the rising or cooling modes of the lower section

(1.2), 107 In the case that the user prefers the rising mode, the valve (5) is kept on closed and the resistance (7) keeps on working according to the determined time and degree information,

108 In the case that the user prefers cooling mode, the valve (5) is opened, the resistance (7) is closed, and the cooling process starts in the lower section (1.2) by transmitting cold air in the upper section (1.1) to the lower section.

Detailed Description of the Invention

In this detailed description, preferred embodiments of the smart refrigerator with double section are disclosed only for better understanding of the subject and not to have any limiting effect.

In addition, some elements or process steps prepared to provide a better understanding of the invention may have been used in various ways to provide integrity of meaning within sentences. The elements or process steps used in different expressions actually represent the same numbered item or process step. The invention relates to a smart refrigerator with a double section which is used for industrial purposes in the bakery businesses such as patisseries and bakeries and in the pastry processing shops, which increases the production speed by switching to automation and saves money at the same time, wherein it comprises double-section chassis (1) which has upper section (1.1) and lower section (1.2) which are separated from each other by means of a cabin intermediate wall (1.3) and whose entire periphery is covered with insulation (13),

compressor (2), cooling radiator (3), cooling fan (4), which are interconnected and positioned on said double-section chassis (1) valve (5) located on said section partition wall (1.3) and capable of opening and closing in conjunction with the valve motor (6)

resistance (7) and resistance fan (8) located in said lower section (1.2) a water discharge drawer (9) positioned under said double-section chassis (1)

control panel (10) controlling said compressor (2), cooling fan (4), resistance (7) and resistance fan (8) and sending commands to valve motor (6) for providing the opening and dosing of the valve (5), the tray rails (11) located within said upper section (1.1) and lower section (1.2)

door (12) covered with insulation (13) connected to the double section chassis (1).

As it can be seen in Figure 1, the smart refrigerator (A) with double section has a double-section chassis whose entire periphery is covered with insulation (13) and comprises upper section (1.1) and lower section (1.2) whose inner surfaces are separated from each other by section partition wall (1.3). There are a tray rails (11) which allows the dough trays to be placed in the upper section (1.1) and the lower section (1.2). The double-section chassis (1) is closed with a door (12) covered with insulation. Under the double section chassis (1), there is a water discharge drawer (9) in which the water occuring (1.2) as a result of the condensation in the lower section accumulates (1.2).

As shown in Figure 2, there is a compressor (2), a cooling radiator (3) and a cooling fan (4), which are interconnected and positioned on the double section chassis (1). Said compressor (2) compresses the cooling gas to bring it to the cooling state and the cooling radiator (3) cools the upper section(l.l) and the lower section (1.2) by circulating the cooled gas in the double section chassis (1) and the cooling fan distributes the cold air homogeneously in the upper section (1.1) and the lower section (1.2). As can be seen in Figure 3, a vaive motor (6) and valve (5) are located on the said section partition wall (1.3). This valve (5) is connected to the valve motor (6) which is actuated by the command received from the control panel (10) and is capable of being switched on and off by the drive of the valve motor (6) to provide air circulation between the upper section (1.1) and the lower section (1.2). Said valve (5) is positioned on the section partition wall (1.3) separating the upper section (1.1) and the lower section (1.2) as well as it can be positioned on the double section chassis (1) or on the door (12) to provide air circulation between the upper section (1.1) and the lower section (1.2).

Also shown in Figure. 3, there is provided resistance (7) in the lower section (1.2) for heating the lower section (1.2) with the command received from the control panel 10 and resistance fan (8) for distributing the hot air homogeneously in the lower section (1.2).

Control panel (10) is located on the double section chassis (1) and allows the compressor (2) to be controlled in conjunction with the cooling fan (4), the resistance (7) and the resistance fan (8). it also commands the valve motor (6) to open and close the valve (5).

In the smart refrigerator with double section (A), the rising process is carried out simultaneously with the cooling process. The working principle of the smart refrigerator with double section (A) and the application method of rising are as follows:

In the normal operating position of the smart refrigerator with double section (A), the valve (5) is in the open position and the inside of the upper section (1.1) and the lower section (1.2) are homogeneously cooled (101) by the cooling fan (4). When the time programmed by the control panel (10) has come for rising process, the control panel (10) causes the valve (5) connected to the valve motor (6) to be brought to the closed position and the cooling process is interrupted (102) in the lower section (1.2). Cooling is preferably continued (103) at +4 degrees in the upper section (1.1). After the valve (5) closes, the resistance (7) in the lower section (1.2) starts heating at the specified temperature and the hot air is distributed homogeneously (104) by means of the resistance fan (8). The lower section (1.2) is kept at the same temperature for the period specified by the user and the dough rising operation is performed (105). When the rising operation is finished in the lower section (1.2), the control panel (10) asks the user to select (106) the rising or cooling mode of the lower section (1.2). If the user prefer the rising mode, the valve (5) is kept closed and the resistance (7) continues to operate (107) according to the determined time and degree information. If the user prefers the cooling mode, the resistance (7) is closed, the valve (5) is opened, and the cold air in the upper section (1.1) is delivered to the lower section (1.2) and the cooling process is started in the lower section (1.2). When cooling is preferably performed at +4 degrees in the upper section (1.1) of the smart refrigerator with double section (A), cooling or rising operations are carried out in the lower section (1.2) depending on the choice of the user.

Claims

1. A smart refrigerator with a double section (A) which is used for industrial purposes in the bakery businesses such as patisseries and bakeries and in the pastry processing shops and has tray rails (11) characterized in that it comprises

- double-section chassis (1) which has upper section (1.1) and lower section (1.2) which are separated from each other by means of a section partition wall (1.3) and whose entire periphery is covered with insulation

(13),

- compressor (2), cooling radiator (3), cooling fan (4), which are interconnected and positioned on said double-section chassis (1)

- valve (5) located on said section partition wall (1.3) and capable of opening and closing in conjunction with the valve motor (6)

- resistance (7) and resistance fan (8) located in said lower section (1.2)

- a water discharge drawer (9) positioned under said double-section chassis (1)

- control panel (10) controlling said compressor (2), cooling fan (4), resistance (7) and resistance fan (8) and sending commands to valve motor (6) for providing the opening and closing of the valve (5),

- door (12) covered with insulation (13) connected to the double section chassis (1).

2. A smart refrigerator with a double section (A) according to claim 1, characterized in that it comprises an upper section (1.1) which is cooled continuously by means of the compressor (2), the cooling radiator (3) and the cooling fan (4).

3. A smart refrigerator with a double section (A) according to claim 1, characterized in that it comprises a lower section (1.2) which is cooled by means of a compressor (2), cooling radiator (3) and cooling fan (4), or heated by means of resistance (7) and resistance fan (8).

4. A smart refrigerator with a double section (A) according to claim 1, characterized in that said valve (5) is located on the section partition wall (1.3) or the double section chassis (1) or on the door (12) to provide air circulation between the upper section (1.1) and the lower section (1.2).

5. A smart refrigerator with a double section (A) according to claim 1, characterized in that it comprises valve (5) which is in the open position during the cooling of the upper section (1.1) and in the closed position during the heating of the lower section (1.2).

6. A method for implementing dough rising in smart refrigerator with a double section (A) which is used for industrial purposes in the bakery businesses such as patisseries and bakeries and in the pastry processing shops characterized in that it comprises the following steps:

- the cooling process is activated in the upper section (1.1) and lower section (1.2) (101),

- the valve (5) is closed in the control panel (10) for the rising operation at the previously programmed time (102) ,

- the cooling is continued in the upper section (1.1) (103),

- the resistance (7) in the lower section (1.2) starts heating at the determined temperature (7) and the hot air is homogeneously distributed via the resistance fan (8) (104),

- the lower section (1.2) is kept at the same temperature for the period specified by the user and the dough rising process is performed (105),

- when the rising operation is finished in the lower section (1.2), the control panel (10) asks the user to choose the rising or cooling modes of the lower section (1.2) (106),

- In the case that the user prefers the rising mode, the valve (5) is kept on closed and the resistance (7) keeps on working according to the determined time and degree information (107),

- In the case that the user prefers cooling mode, the valve (5) is opened, the resistance (7) is closed, and the cooling process starts in the lower section (1.2) by transmitting cold air in the upper section (1.1) to the lower section (108).