RU2470239C2 - Vacuum storage system, and system control method - Google Patents

Abstract

FIELD: heating.

SUBSTANCE: vacuum storage system of domestic appliance, refrigerator includes container with exhaust system and ventilation device, and exhaust pipeline. One end of exhaust pipeline is connected to vacuum pump, and the other end is connected by means of detachable connection element to exhaust device of the container. The system includes vacuum measuring device and control device of vacuum storage system, as well as contains the switching device connected to the exhaust pipeline. When air is pumped out of the container through exhaust pipeline by means of a vacuum pump, the switching device is in closed position, and when the air pumping by means of vacuum pump is completed, it is set to open position to direct the air to the already pumped exhaust pipeline.

EFFECT: providing automatic vacuum sealing of container.

10 cl, 4 dwg

Description

Technical field

The present invention relates to a vacuum system, mainly to a vacuum storage system for electrical household appliances, in particular for electric refrigerators, and to a method for controlling this system.

State of the art

As you know, food can be stored at low temperatures in chilled or frozen form for a relatively long time. The shelf life of food is determined not only by temperature and humidity, but also by the presence of oxygen and bacteria in the air around the stored food. To increase the shelf life of food, it is desirable to ensure storage in an environment with a low content of oxygen and bacteria, for example, in a vacuum container.

Chinese patent ZL 03245813.4 describes a vacuum storage system installed in a cooled cavity of an electric refrigerator, as shown in figure 1 (figure 1 according to the appendix to the patent description of Chinese patent ZL 03245813.4). This vacuum storage system comprises a container 3 for fruits and vegetables mounted in a refrigerated cavity of the refrigerator. The container for fruits and vegetables is connected to the outside air, sequentially through the suction nozzle 4, the guide tube 2, the distribution valve 8 for supplying air and the vacuum pump 1. The vacuum pump 1 is connected to the controller 16 for pumping. By air distribution valve 8 is meant a check valve. After the vacuum pump 1 has stopped its operation, this non-return valve prevents the penetration of outside air into the guide tube 2 and the container 3 for fruits and vegetables, thereby maintaining a vacuum seal on the system. However, since the container 3 for fruits and vegetables and the guide tube 2 are interconnected by means of a suction nozzle 4, it is difficult to avoid a gap between them, which will cause leakage. After the vacuum pump 1 has stopped its operation, outside air can enter through the gap into the container 3 for fruits and vegetables, which leads to a gradual decrease in the vacuum in the container 3 for fruits and vegetables, which results in the loss of the vacuum seal of the entire system. In addition, even if the gap between the container 3 for fruits and vegetables and the guide tube 2 when pumping out is very small, it will be very difficult for the user to open the refrigerator and perform other actions to avoid pushing the container 3 for fruits and vegetables. The result will be the separation of the container 3 for fruits and vegetables from the guide tube 2 and the loss of the vacuum seal by the container 3 for fruits and vegetables.

SUMMARY OF THE INVENTION

The objective of the invention is the development of an improved vacuum storage system. Such a vacuum storage system should be able to automatically maintain the vacuum seal of the container after evacuation.

In addition, an object of the invention is to develop a method for controlling a vacuum storage system.

In order to solve the above problems, the vacuum storage system according to one embodiment of the invention comprises a container having an exhaust device, and a ventilation device, and an exhaust pipe. One end of the exhaust pipe is connected to a vacuum pump, and the other end by means of a detachable connecting element is connected to the exhaust device of the container. In addition, the system includes a device for measuring vacuum and a control device for a vacuum storage system, as well as a switching device connected to an exhaust pipe. This switching device during the pumping of air from the container through the exhaust pipe by means of a vacuum pump is in the closed position and prevents the penetration of outside air into the exhaust pipe. Upon completion of the pumping of air by a vacuum pump, it is moved to the open position in order to direct air into the exhaust pipe that has already been evacuated.

In a further embodiment of the vacuum storage system according to the invention, said switching device is a check valve.

In a further embodiment of the vacuum storage system according to the invention, said vacuum measuring device is a vacuum sensor connected to an exhaust pipe.

In a further embodiment of the vacuum storage system according to the invention, said control device comprises a circuit board and a control panel, said control panel comprising a start button and a warning button.

In addition, the invention describes a method for controlling a vacuum storage system, this vacuum storage system comprising a container having an exhaust device, and a ventilation device, and an exhaust pipe. One end of the exhaust pipe is connected to a pumping device, and the other end by means of a detachable connecting element is connected to a container exhaust device. In addition, the system includes a device for measuring vacuum and a control device. The described control method comprises the following steps:

- preparation of a switching device connected to an exhaust pipe;

- the control device puts the switching device in the closed position;

- the control device starts the pumping device, starting to pump air from the container;

- a vacuum measuring device measures the vacuum in the system and transmits a signal to the control device;

- the control device stops the pumping device in accordance with the signal of the vacuum measuring device;

- the control device puts the switching device in the open position.

In a further embodiment of the control method according to the invention, said switching device is a check valve.

In a further embodiment of the control method according to the invention, said vacuum measuring device is a vacuum sensor connected to an exhaust pipe. Said pumping device is a vacuum pump.

In a further embodiment of the control method according to the invention, said control device comprises a circuit board and a control panel, said control panel comprising a start button and a warning button.

A useful effect of this invention is as follows: through the use of a switching device, outside air after pumping out the vacuum system can be directed into the exhaust pipe. Due to the pressure difference between the exhaust pipe and the container from which the air is pumped out, the container is automatically sealed and the loss of vacuum in the container due to leaks is prevented.

Brief Description of the Drawings

Figure 1 - diagram of the vacuum system of a traditional refrigerator.

Figure 2 is a diagram of a vacuum storage system according to the method according to the invention.

Figure 3 is a flow diagram of a method for controlling a vacuum storage system according to the invention.

Figure 4 is a spatial diagram of a container of a vacuum storage system according to the method according to the invention.

The implementation of the invention

As shown in FIG. 2, the vacuum storage system according to the invention comprises a container 20, wherein one end of the container 20 comprises a ventilation device 21 and the other end an exhaust device 22. The ventilation device 21 and the exhaust device 22 may be non-return valves.

The container 20 is connected to the exhaust pipe 24 by means of a connecting device 23 mounted on the tip of the container 20 and on the tip of the exhaust pipe 24. The exhaust pipe 24 may be a copper or plastic tube. The properties of the material should provide a very good air tightness of the pipeline. The other end of the exhaust pipe 24 is connected to a pumping device 26, for example, to a vacuum pump. To reduce the noise from the operation of the pumping device 26, a noise canceling device 27 is installed on the vacuum pump. A connecting element 31 with four branches is installed in the exhaust pipe 24. This four-tap connecting element is connected to a switching device 25 and a vacuum measuring device 29. In this regard, the switching device 25 refers to a check valve. When this non-return valve is in the closed position, outside air is not allowed into the exhaust pipe 24. When this non-return valve is in the open position, the external air is directed to the exhaust pipe at a certain flow rate 24. In this regard, vacuum measuring device 29 means vacuum a sensor that is capable of measuring changes in vacuum in the exhaust pipe 24. When the pumping device 26 is operating, then due to the connection of the exhaust pipe 24 with the container 20 changes the vacuum ume in the exhaust pipe 24 is equivalent to changes in vacuum in the container 20.

In addition, the vacuum storage system includes a control device. This control device comprises a circuit board 28 and a control panel 32. The circuit board 28 is connected to a switching device 25, a pumping device 26, a vacuum measuring device 29 and a control panel 32, receives the response signals of these devices and issues corresponding commands. On the control panel 32, there is a start button 33 and a warning button 34. The start button 33 is designed to start the pumping device 26. The warning button 34 is intended to give an alarm in case of abnormal operation of the vacuum storage system. Another Chinese patent of the same applicant, entitled “Electric refrigerator with a vacuum storage system, as well as a method for controlling it” describes in detail the warning function of a vacuum storage system, therefore this function is not described again here.

As shown in FIG. 3, the steps of a method for controlling a vacuum storage system according to the invention are as follows. First, the user presses the start button 33 on the control panel 32 and starts the pumping process. The circuit board 28 determines the position of the switching device 25. If the switching device 25 is in the open position, then the circuit board 28 instructs the switching device to move to the closed position. Then the circuit board 28 instructs the start-up of the pumping device 26, which, through the exhaust pipe 24, starts pumping air out of the container 20. At the same time, the vacuum measuring device 29 continuously measures the vacuum in the exhaust pipe 24 and transmits the measured values to the circuit board 28. If the vacuum in the exhaust pipe has not reached a predetermined value, the circuit board 28 instructs the continued operation of the pumping device 26. After a certain time, when the vacuum in the exhaust pipe the water circuit reaches a predetermined value, the circuit board 28 instructs the shutdown of the pumping device 26. Then, after the shutdown of the pumping device 26 is stopped, the circuit board 28 instructs the switch device 25 to be moved from the closed position to the open position, and the outside air is directed to a certain flow rate exhaust pipe 24. This completes the pumping process.

As shown in FIG. 4, the container 20 comprises a lower part 204 and a lid 202 that covers the lower part 204. A ventilation device 21 and an exhaust device 22 are located on both sides of the lid 202. A connecting device 23 on the lid 202 is connected to the exhaust device 22. According to the invention , after switching the switching device 25 to the open position, the external air rushes into the exhaust pipe 24 and, through the connecting element 23, to the exhaust device 22. Since the container 20 contains a vacuum, between the inner part and the environment iem container 20 there is a pressure difference. As a result, the pressure of the outside air presses on the exhaust device 22 and provides a vacuum seal on the container 20. From a design point of view, the exhaust device 22 is a check valve. The special design of the exhaust device 22 is described in detail in another Chinese patent of the same applicant under the name “Container with a vacuum storage system and electrical household appliances in which such a container is used”, and therefore is not reviewed here again. Since the vacuum seal point of the container 20 and the position of the exhaust device 22 coincide and are located on the cover 202, air, even if the connection device 23 is leaking or loose, can only get into the connecting element 23 and the exhaust pipe 24, but not into container 20. The vacuum seal of the container 20 is not broken due to leaks in the connecting element 23 and the exhaust pipe 24.

The vacuum storage system according to the invention can be used separately, can be mounted in electrical household appliances and used as additional equipment. In particular, it can be installed in electric refrigerators and freezers. In this case, the container 20 can be installed in the cooled cavity of the refrigerator. The exhaust pipe 24 may be immersed in a foam layer surrounding the refrigerator chamber. The connecting element 23 connected to the exhaust pipe 24, can be installed on the inner wall of the cooled cavity. The control panel 32 may be located on the door of the refrigerator or the inner wall of the cooled cavity to facilitate user access to it.

It should be noted that the above description refers to only one embodiment of the invention. A person skilled in the art, having read the above description, can, without engaging in creative work, adapt the invention accordingly. For example, the switching device 25 shown in figure 2 of the present description of the invention is a check valve. However, another accessible switching device can be used, which can open the outside air in the open position and seal the exhaust pipe 24 in the closed position. Vacuum measuring device 29 can also be positioned: connected to the exhaust pipe 24 or mounted on a container 20, if In this case, the device is still able to measure changes in vacuum in a vacuum system in real time. Such changes should also be protected by the claims of this invention.

Claims (10)

1. A vacuum storage system comprising a container having an exhaust device and a ventilation device, as well as an exhaust pipe, one end of which is connected to a vacuum pump, and the other end is connected via a detachable connecting element to the container exhaust device, and also containing a device for measuring vacuum and control device for a vacuum storage system, characterized in that a switching device is also provided, connected to an exhaust pipe, which remja evacuating the container via the exhaust pipe using a vacuum pump is closed and prevents the penetration of outside air into the exhaust conduit, and which at the end of the vacuum pump evacuating converted to an open position to direct air into the exhaust conduit already evacuated. 2. The vacuum storage system according to claim 1, characterized in that the said switching device is a check valve. 3. The vacuum storage system according to claim 1, characterized in that the said vacuum measuring device is a vacuum sensor connected to an exhaust pipe. 4. Vacuum storage system according to claims 1, 2 or 3, characterized in that said control device comprises a circuit board and a control panel. 5. The vacuum storage system according to claim 4, characterized in that the control panel comprises a start button and a warning button. 6. An electric household appliance, in particular a refrigerator or freezer, which comprises a chamber with a refrigerated cavity, characterized in that it also comprises a vacuum storage system according to any one of the aforementioned items, said container being installed in a refrigerated cavity. 7. A method for controlling a vacuum storage system, this vacuum storage system comprising a container having an exhaust device and a ventilation device, as well as an exhaust pipe, one end of which is connected to a pumping device, and the other end is connected via a detachable connecting element to a container exhaust device, and it also contains a device for measuring vacuum and a control device, characterized in that the control method comprises the following steps:
- preparation of a switching device connected to an exhaust pipe;
- the control device puts the switching device in the closed position;
the control device starts a pumping device starting to pump air from the container;
- a vacuum measuring device measures the vacuum in the system and transmits a signal to the control device;
- the control device stops the pumping device in accordance with the signal of the vacuum measuring device;
- the control device puts the switching device in the open position. 8. The control method according to claim 7, characterized in that said switching device is a check valve. 9. The control method according to claim 7 or 8, characterized in that said vacuum measuring device is a vacuum sensor connected to an exhaust pipe, and said pumping device is a vacuum pump. 10. The control method according to claim 7 or 8, characterized in that said control device comprises a circuit board and a control panel, said control panel comprising a start button and a warning button.

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