WO2007135048A1

WO2007135048A1 - Electric refrigerator comprising a vacuum-sealed system

Info

Publication number: WO2007135048A1
Application number: PCT/EP2007/054746
Authority: WO
Inventors: Junhong Feng; Zhong Quan Suan; Xiaotian Zhou
Original assignee: BSH Bosch und Siemens Hausgeräte GmbH
Priority date: 2006-05-19
Filing date: 2007-05-16
Publication date: 2007-11-29
Also published as: RU2008148161A; CN2901196Y; EP2024695A1; RU2427768C2

Abstract

The invention relates to an electric refrigerator comprising a vacuum-sealed system provided with at least one vacuum-sealed chamber (7) equipped with an air supply device (8) and an air discharge device (3). Said vacuum-sealed system also comprises at least one discharge line (3) which is connected to the vacuum-sealed chamber, a vacuum pump (1) connected to the discharge line, and an electric motor (2) for driving the vacuum pump. The inventive vacuum-sealed system further comprises a control device which controls the opening and closing of the discharge line (3) so that the system can be opened and closed selectively.

Description

DESCRIPTION

Electric refrigerator with vacuum fresh-keeping system

Technical area:

The present utility model relates to an electric refrigerator - in particular an electric refrigerator with vacuum fresh-keeping system.

State of the art:

It is well known that food can be stored for a long period of time in a cool storage environment or by storage at sub-freezing temperatures. The storage life of the food depends not only on the temperature and humidity of the environment from, but also, for example, subject to the influence of the oxygen content of the ambient air and the bacterial concentration of the ambient air. In an effort to extend the shelf life of the foodstuffs, efforts are being made to provide a storage environment for low oxygen content, low bacterial foods - such as vacuum preservation chambers.

European Patent EP0405680A2 proposes a vacuum preservation chamber in the refrigerated storage chamber of an electric refrigerator. The above-described vacuum preservation chamber is shown in Figure 1. This vacuum preservation chamber has a vacuum preservation chamber body 17 and a vacuum preservation chamber cover 19 connected to the vacuum preservation chamber body, which can be opened. On the rear side of the vacuum preservation chamber body, a suction nozzle 25 is provided, wherein the above-mentioned suction nozzle fits to a terminal 27 located at the rear wall of the refrigerating storage chamber of the electric refrigerator. When the door 12 of the electric refrigerator is closed and the vacuum pump is put into operation, the above-mentioned suction nozzle and the above-mentioned port are closely sucked to each other and a vacuum is built up in the vacuum keeping chamber. When the door 12 of the electric refrigerator is opened, the suction nozzle 25 leaves the port 27, since the door 12 of the electric refrigerator and the vacuum preserving chamber body 18 connected to each other. The vacuum preservation chamber is automatically filled with air by suction nozzle 25. The defectiveness of the above-described technical conception is that when opening the door 12 of the electric refrigerator, the vacuum preservation chamber is inevitably filled with air, leaving the user no other option. If the user only wants to open the door of the electric refrigerator without filling the vacuum preservation chamber with air, this can not be achieved by the above-described technical conception. The Chinese patent ZL03245813.4 proposes a vacuum preservation chamber in the refrigerated storage chamber of an electric refrigerator. The above-described vacuum preservation chamber is shown in Figure 2. Here, vacuum holding chamber and door of the electric refrigerator are designed independently, so that the above-mentioned defectiveness of European patent EP0405680A2 has been overcome. However, the defectiveness of the above-identified Chinese patent is that the ball valve for air-filling the vacuum preservation chamber is attached to the cover. When the user wants to open the vacuum preservation chamber, the user must first rotate the ball valve to equalize the pressure outside and inside the vacuum preservation chamber. Only then can the cover be opened. Thus, two operating steps are required for opening the vacuum preservation chamber, so that this technical conception is not particularly advantageous.

In addition, in the above-described vacuum-fresh-keeping system, two vacuum-fresh keeping chambers are provided, which are connected to different branches of the discharge line. Because no special control device for opening and closing the discharge line is provided, there is no possibility for the independent refrigerator vacuum independent construction of only one of the two vacuum-fresh holding chambers.

Content of the invention:

The object of the present invention is to provide an electric refrigerator with vacuum keep-fresh system, wherein the above-mentioned vacuum keep-fresh system is for selective control by the user. In order to practice the above-described objective, the present invention provides an electric refrigerator with vacuum keeping system, wherein the above-described vacuum keeping system has at least one vacuum preservation chamber having an air supply device and an air discharge device, and wherein the above-described vacuum keeping system further comprises at least one discharge line connected to the above-described vacuum preservation chamber and a vacuum pump connected to the discharge line and an electric motor for driving the above-mentioned vacuum pump, and wherein the above-mentioned vacuum keeping system further comprises a control device which controls opening and closing of the above-mentioned discharge line.

In the above-described control device of the electric refrigerator with vacuum keeping system which controls opening and closing of the above-mentioned discharge line, it is an electromagnetic valve, for example, a check valve, a double valve, a two-way valve, a two-position three-way valve Three-position three-way valve or a three-position four-way valve.

In an improved embodiment of the present utility model, the vacuum preserving system described above further comprises a measuring device for measuring the degree of vacuum of the system, wherein the above-mentioned measuring device for measuring the degree of vacuum of the system may be a vacuum sensor which is referred to above Vacuum-fresh holding chamber is provided. It is also possible for the above-described measuring device for measuring the degree of vacuum of the system to be provided on a vacuum sensor at the inlet of the abovementioned vacuum pump.

In a further improved embodiment of the present utility model, the above-mentioned air supply device and the air discharge device are respectively provided to check valves of the above-mentioned vacuum preservation chamber. In a further improved embodiment of the present utility model, the above-described vacuum preserving system has independent vacuum preserving chambers, whereby it is possible by means of the aforesaid control device which controls opening and closing of the above-described discharge line independently of one another Vacuum-fresh holding chambers by air removal in vacuum condition. In the control device referred to above, which controls the opening and closing of the above-mentioned discharge line, it may be a three-position - A -

Act four-way valve, which is provided on the above-mentioned discharge line. The above-described vacuum-fresh-keeping system further comprises a measuring device for measuring the degree of vacuum of the system, which is, for example, a vacuum sensor which is provided on the above-mentioned vacuum Frischhaltekammer or at the entrance of the above-mentioned vacuum pump.

The above-described vacuum preservation chamber may be provided in a refrigerated storage chamber of the electric refrigerator, and on the inner wall of the above-mentioned refrigerated storage chamber, there is provided a connection connected to the discharge line which matches the air discharge device of the vacuum preservation chamber.

In a further improvement of the present utility model, a noise reduction device is provided on the above-mentioned vacuum pump. The advantages of the electric refrigerator according to the invention with vacuum fresh-keeping system are that the above-mentioned vacuum fresh-keeping system on the discharge line has a control device which controls opening and closing of the above-mentioned discharge line, so that opening and closing of the system are selectively possible.

Explanation of the attached figures:

Figure 1 is a representation of a conventional electric refrigerator with vacuum fresh-keeping system.

Figure 2 is an illustration of another conventional electric refrigerator with vacuum preservation system.

In Figure 3 is the representation of the system principle of the vacuum-fresh-keeping system of an electric refrigerator with vacuum-fresh-keeping system according to the invention utility model.

In Figure 4 is the representation of the first practical embodiment of an electric refrigerator with vacuum-fresh-keeping system according to the invention utility model.

In Figure 5 is the representation of the second practical embodiment of an electric refrigerator with vacuum fresh-keeping system according to the invention utility model. In Figure 6 is the representation of the third practical embodiment of an electric refrigerator with vacuum-fresh-keeping system according to the invention utility model.

In Figure 7 is the representation of the fourth practical embodiment of an electric refrigerator with vacuum-fresh-keeping system according to the invention utility model.

In the figure 8 is the representation of the fifth practical embodiment of an electric refrigerator with vacuum-fresh-keeping system according to the invention utility model.

Figure 9 is the representation of the sixth practical embodiment of an electric refrigerator with vacuum fresh-keeping system according to the invention utility model.

Practical embodiments:

As shown in Figure 3, the vacuum keeping system according to the present invention comprises a vacuum pump 1, an electric motor 2 for driving the above-mentioned vacuum pump, and a discharge pipe 3 connected to the above-mentioned vacuum pump 1, with the above-mentioned discharge pipe 3 having two branches has, which are each connected to two vacuum preserving chambers 7. At one end of the vacuum preservation chamber 7, there is provided a vacuum building device 6 for vacuum buildup. At the other end of the vacuum preservation chamber, a vacuum dissipation device 8 is provided for vacuum removal. The above-mentioned vacuum building devices 8 of the two vacuum-fresh keeping chambers are independent of each other. At the end of the discharge line 3, a connection 5 is provided which fits to the vacuum building device 6 on the vacuum preservation chamber 7. At the two branches of the discharge line 3, the control device 4 is also provided, which controls the opening and closing of the discharge line 3. With the aid of the above-described control device 4, it is possible to selectively open or close one of the two above-mentioned branches. In this way, the vacuum structure of the two above-described vacuum fresh holding chambers 7 can be selectively carried out. It must be explained at this point that in Figure 3, the representation of a vacuum fresh keeping system with two vacuum preserving chambers 7 takes place. When the vacuum fresh-keeping system according to the invention has only a single vacuum-fresh keeping chamber, or when three or more branches are connected to three or more vacuum-fresh holding chambers, so in the same way the attachment of appropriate control devices for opening and closing the discharge line, in this way the vacuum structure of the vacuum To control fresh food holding chambers. It is also possible to additionally provide a noise reduction device 10 on the vacuum pump 1 in order to reduce the noise generated during operation of the vacuum pump 1.

As shown in Figure 4, the vacuum keeping system according to the first practical embodiment of the present invention includes vacuum pump 1, an electric motor 2 (not shown in the figure) for driving the above-mentioned vacuum pump, a discharge pipe 3, two check valves 4a having a control device function for controlling opening and closing of the discharge pipe 3, a port 5a, a check valve 6a provided on the vacuum holding chamber 7 with the function of a vacuum building apparatus, and a check valve 8a having a vacuum releasing function. After the vacuum has been built up, the vacuum preservation chamber 7 is maintained by means of check valve 4a to maintain the pressure of the vacuum preservation chamber.

As shown in FIG. 5, the vacuum keeping system according to the second practical embodiment of the present invention includes vacuum pump 1, an electric motor (not shown in the figure) for driving the above-mentioned vacuum pump, a discharge pipe 3, two double valves 4b functioning as a control device Control of opening and closing of the discharge line 3, a port 5b and provided on a vacuum-Frischhaltekammer 7 check valve 8b with the function of a vacuum removal device. In addition, a vacuum gauge 9b is provided on the vacuum holding chamber 7, which is, for example, a vacuum sensor for measuring the degree of vacuum of the vacuum holding chamber. When the system has reached the set vacuum maximum value, the pump stop signal is output to the control system. As shown in Figure 6, the vacuum keeping system according to the second practical embodiment of the present invention includes vacuum pump 1, an electric motor 2 for driving the above-mentioned vacuum pump, a discharge pipe 3, two two-position three-way valves 4c having an open-close control device the discharge line 3, a connection 5c, a check valve 6c provided on the vacuum preservation chamber 7 with the function of a Vacuum-building device and provided on a vacuum-fresh keeping chamber 7 check valve 8c with the function of a vacuum removal device. After the vacuum buildup of the vacuum holding chamber 7 has been completed, the pressure of the vacuum holding chamber is maintained by means of two-position three-way valves 4c. As can be seen from Figure 3 takes place in the vacuum-fresh keeping system according to the first practical embodiment in the vacuum structure of the vacuum preserving chamber 7 at the same time a vacuum structure of discharge line 3. Therefore, after the vacuum construction some force is required to the vacuum preserving chamber 7 of connection 5 decrease. In the present practical embodiment, the difference from the above-described first practical embodiment is that two two-position three-way valves 4c are used, so that after the vacuum construction of the vacuum keeping system, the vacuum with the vacuum preservation chamber 4 [reference number should actually be a 7 Note d. Übers.] Connected discharge line 3 automatically assumes the atmospheric pressure and in this way the decrease of the vacuum preservation chamber 7 of port 5 is facilitated. As shown in Figure 7, the fourth practical embodiment of the utility model according to the invention is similar to the third practical embodiment of the utility model according to the invention shown in Figure 6. The difference between the two practical embodiments is that the fourth practical embodiment uses a three-position four-way valve 4d which replaces the above-described two two-position three-way valves 4c with a control device for controlling opening and closing of the discharge pipe 3. As shown in Figure 8, the fifth practical embodiment of the utility model according to the invention is similar to the fourth practical embodiment of the utility model according to the invention shown in Figure 7. The difference between the two practical embodiments is that in the fifth practical embodiment, a vacuum gauge 9e is provided at the entrance of the vacuum pump 1, which is, for example, a continuous vacuum sensor.

As shown in Figure 9, the sixth practical embodiment of the utility model according to the invention is similar to the fifth practical embodiment of the utility model according to the invention shown in Figure 8. The difference between the two practical embodiments is that in the sixth practical embodiment at the entrance of the vacuum pump 1, two vacuum measuring devices 9f are provided, which are, for example, vacuum sensors with Schaltgrößenausgabe. In addition, in the above-mentioned practical embodiments 3-6, all of the vacuum pump 1 is provided with a noise reducing device 10 for reducing the noise generated by the operation of the vacuum pump.

The inventive vacuum-fresh-keeping systems according to practical embodiment 1 to practical embodiment 6 are all systems for use in household electric refrigerators. Here, the vacuum preservation chamber may be provided in the cooling storage chamber of the electric refrigerator. The port 5 may be provided on the inner wall of the cold storage chamber. After the vacuum has been built up, the vacuum preservation chamber 7 can be removed and stored separately in the electric refrigerator. When one of the vacuum preservation chambers is removed from the system, this does not affect the function of the vacuum construction of the other vacuum preservation chamber.

Claims

PATENT CLAIMS

1 . An electric refrigerator having a vacuum keeping system, wherein the above-described vacuum keeping system has at least one vacuum holding chamber having an air supply device and an air discharge device, and wherein the above-described vacuum keeping system further comprises at least one discharge line connected to the above-described vacuum keeping chamber and a vacuum pump connected to the discharge pipe and an electric motor for driving the above-mentioned vacuum pump, characterized in that the above-mentioned vacuum keeping system further comprises a control device which controls opening and closing of the above-mentioned discharge pipe.

2. Electric refrigerator with vacuum-fresh-keeping system according to claim 1, characterized in that it controls in the above-mentioned control device, which controls opening and closing of the above-mentioned discharge line to an electromagnetic valve - for example, a check valve, a double valve, a two-way valve , a two-position three-way valve, a three position three-way valve, or a three-position four-way valve.

3. Electric refrigerator with vacuum fresh-keeping system according to claim 1 or 2, characterized in that the above-mentioned vacuum fresh-keeping system also has a measuring device for measuring the degree of vacuum of the system.

4. Electric refrigerator with vacuum fresh-keeping system according to claim 3, characterized in that the above-mentioned measuring device for measuring the degree of vacuum of the system is provided on a vacuum sensor to the above-mentioned vacuum-fresh holding chamber.

5. Electric refrigerator with vacuum-fresh-keeping system according to claim 3, characterized in that the above-described measuring device for Measurement of the degree of vacuum of the system is provided to a vacuum sensor at the input of the above-mentioned vacuum pump.

6. Electric refrigerator with vacuum-fresh-keeping system according to claim 1 -3, characterized in that the above-mentioned air supply device and the air discharge device are each provided on check valves of the above-mentioned vacuum-fresh holding chamber.

7. Electric refrigerator with vacuum fresh-keeping system according to claim 1, characterized in that the above-mentioned vacuum fresh-keeping system also has independent vacuum Frischhaltekammern, wherein it is controlled by means of the above-mentioned control device, which controls opening and closing of the above-mentioned discharge line independent of one another, of rendering any of the above-described vacuum preserving chambers vacuum-evacuated by air discharge.

An electric refrigerator with vacuum keeping system according to claim 7, characterized in that it is in the above-mentioned control device, which controls opening and closing of the above-mentioned discharge line is a three-position four-way valve, which is provided on the above-mentioned discharge line.

9. Electric refrigerator with vacuum-Frischhaltesystem according to claim 8, characterized in that the above-mentioned vacuum-fresh-keeping system also comprises a measuring device for measuring the degree of vacuum of the system, which is, for example, a vacuum sensor, which at the above-mentioned vacuum-fresh holding chamber or is provided at the entrance of the above-mentioned vacuum pump.

10. Electric refrigerator with vacuum-fresh-keeping system according to claim 1 or 2 or 7 or 8 or 9, characterized in that the above-mentioned vacuum-fresh-keeping chamber in a cooling storage chamber of the electric refrigerator is provided, wherein on the inner wall of the above-mentioned cooling storage chamber, a connection is provided with connection to the discharge line, which matches the air discharge device of the vacuum-fresh holding chamber.

1 1. Electric refrigerator with vacuum preservation system according to claim 7 or 8 or 9, characterized in that the air supply devices of the above-mentioned two vacuum-fresh holding chambers are independent of each other.

12. An electric refrigerator with vacuum fresh-keeping system according to claim 1 or 2 or 7 or 8 or 9, characterized in that a noise reduction device is provided on the above-mentioned vacuum pump.