WO2009000724A1

WO2009000724A1 - Vacuum sealing system with a control method

Info

Publication number: WO2009000724A1
Application number: PCT/EP2008/057701
Authority: WO
Inventors: Junhong Feng; Zhong Quan Suan; Qiwu Zhu; Weizhong Zhu
Original assignee: BSH Bosch und Siemens Hausgeräte GmbH
Priority date: 2007-06-28
Filing date: 2008-06-18
Publication date: 2008-12-31
Also published as: RU2470239C2; CN101331970B; CN101688724A; RU2010101157A; CN101331970A; EP2162690A1; EP2162690B1

Abstract

The invention relates to a vacuum sealing system comprising a compartment (20) provided with a suction device (22), an aeration device, and a suction tube (24). One end of the suction tube is connected to a vacuum pump (26) and the other end is connected to the suction device of the compartment by means of a connection element. Said system also comprises a vacuum measuring device (29) for measuring the vacuum level, a control device for controlling the vacuum sealing system, and a switching device (25) connected to the suction tube. The switching device is closed during the evacuation of the compartment by means of the vacuum pump via the suction tube, and is open following the completion of the evacuation by means of the vacuum pump, in order to guide air into the already evacuated suction tube, enabling the automatic vacuum sealing of the compartment.

Description

Vacuum fresh holding system with control method

[Technological area]

This invention relates to a vacuum system and is primarily concerned with a vacuum refresh system having control methods for home appliances, especially electric refrigerators.

[Technological background]

As is well known, foods can be used at low temperatures for the

Cold storage or freezing over a relatively long period of time. The length of the shelf life of the food is not only determined by the temperature and humidity, but is also influenced by factors such as oxygen content and airborne bacteria in the environment of the food storage. In order to achieve an even longer shelf life of the food, it is desirable to provide a storage environment with low oxygen content and low bacterial load, such as a vacuum fresh food can.

Chinese Patent No. ZL03245813.4 discloses a vacuum keeping system installed in the refrigerated storage room of an electric refrigerator, as shown in Figure 1 (Figure 1 according to Annex Figure 1 of the specification of Chinese Patent No. ZL03245813.4). This vacuum refreshment system comprises a fruit and vegetable can 3, which is mounted in the cold storage room of the refrigerator. The fruit and vegetable can is successively via a suction nozzle 4, a guide tube 2, a

Control valve for the air supply 8 and a vacuum pump 1 in this order with the Outdoor air connected. The vacuum pump 1 is connected to an evacuation controller 16. The control valve for the air supply 8 is a check valve. After the vacuum pump 1 stops its operation, this check valve prevents the ingress of outside air into the guide tube 2 and the fruit and vegetable can 3, thereby maintaining the vacuum seal of the system. However, since the fruit and vegetable can 3 and the guide tube 2 via a

Suction nozzle 4 are connected to each other, it is hardly avoidable between the two that there is a gap at which a leak occurs. After the vacuum pump 1 has stopped its operation, the outside air can enter through the gap in the fruit and vegetable can 3, resulting in a gradual reduction of the vacuum level of the fruit and vegetable can 3, whereby the entire system loses the vacuum seal. Moreover, even if the gap between the fruit and vegetable can 3 and the guide tube 2 is very small during evacuation, it is hardly avoidable for the user to open the fruit and vegetable can 3 when opening the refrigerator and performing other actions. resulting in a separation of fruit and vegetable can 3 and guide tube 2, resulting in a loss of the vacuum seal for the fruit and vegetable can 3 result.

[Content of the invention]

The object of this invention is to provide an improved vacuum refueling system. This evacuation system will be able to automatically realize the vacuum seal for the can after evacuation.

A further object of this invention is to provide a control method for a vacuum refueling system.

For the purpose of realizing the above objects of the invention, a vacuum refueling system of a method of this invention comprises a can having over a suction device and a ventilation device has, and a

Suction pipe. One end of the suction pipe is connected to a vacuum pump, and the other end is separably connected to the suction device of the can via a connecting piece. Also included are a vacuum gauge for measuring the vacuum level and a controller for controlling the vacuum holding system, and a switching device connected to the suction pipe. This switching device is during the evacuation of the can by the vacuum pump via the suction pipe in the closed position and prevents the ingress of outside air into the suction pipe. Upon completion of the evacuation by the vacuum pump, it is in the open position to direct air into the already evacuated exhaust pipe.

As a further improvement of the vacuum retainer system of this invention, the described switching device is a check valve.

As a further improvement of the vacuum keep-warm system of this invention, the described vacuum gauge is a vacuum sensor connected to the suction tube.

As a further improvement of the vacuum retainer system of this invention, the described control device comprises a circuit board and a control panel, the described control panel comprising a push-button start and a push-button warning.

This invention also provides a control method for a vacuum keeping system, which vacuum keeping system comprises a can having a suction device and a ventilation device, and a suction pipe. One end of the suction pipe is connected to a device for evacuation and the other end is separable via a connecting piece with connected to the suction device of the box. It also includes one

Vacuum measuring device and a control device. This control method includes the following steps:

- Providing a connected to the suction pipe switching device;

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

Control device starts the evacuation device which starts evacuating the can;

Vacuum gauge measures the vacuum level of the system and provides feedback to the controller;

The control device stops the evacuation device in accordance with the feedback from the vacuum gauge device;

- Control device switches the switching device to open position.

As a further improvement of the control method of this invention, the described switching device is a check valve.

As a further improvement of the control method of this invention, the described vacuum gauge device is a vacuum sensor connected to the exhaust duct. In the described device for evacuation is a vacuum pump.

As a further improvement of the control method of this invention, the described control device comprises a circuit board and a control panel, the described control panel comprising a push-button start and a push-button warning. The efficiency of this invention consists in the following: by the attachment of a

Switching device, the outside air can be passed after the evacuation of the vacuum system in the suction pipe. Due to the pressure difference between the suction pipe and the evacuated can, the automatic sealing of the can is realized and prevents leakage caused by the vacuum level of the can.

[Brief explanation of the figures]

Fig. 1 shows the scheme of a vacuum system of a commercial refrigerator.

Fig. 2 shows the scheme of the vacuum refueling system of one method of this invention.

Fig. 3 shows the flow chart for the control method of the vacuum keeping system of this invention.

Fig. 4 shows the spatial scheme of the can of the vacuum refill system of one method of this invention.

[Concrete procedure]

As shown in Figure 2, the vacuum refueling system of one embodiment of this invention includes a can 20 with one end of the can 20 provided with a vent 21 and the other end with a vent 22. The ventilation device 21 and the suction device 22 may be non-return valves. The can 20 is connected to this exhaust duct 24 via a connection device 23, which is mounted on one end of the can 20 and on one end of the suction duct 24, respectively. The suction pipe 24 may be a copper pipe or a plastic pipe. Its nature must give the pipeline a very good airtightness. The other end of the exhaust duct 24 is connected to the evacuation device 26, for example a vacuum pump. In order to reduce the noise during the operation of the evacuation device 26, a noise removal device 27 is mounted on the vacuum pump. In the exhaust pipe 24, a four-way connector 31 is attached. This four-way connector is connected to the switching device 25 and the vacuum gauge 29. In this

Procedure is in the switching device 25 is a check valve. When this check valve is in the closed position, the outside air is prevented from entering the suction pipe 24. When this check valve is in the open position, the outside air is passed into the suction pipe 24 at a certain flow rate. In this

In practice, the vacuum gauge 29 is a vacuum sensor that can measure changes in the vacuum level in the exhaust conduit 24. When the evacuation device 26 is in operation, the changes in the vacuum level in the evacuation conduit 24 due to the connection of the evacuation conduit 24 and can 20 to changes in the vacuum level in the evacuation conduit 24 are the changes in the vacuum level in the can 20.

The vacuum refresh system also has a control device. This control device includes a circuit board 28 and a control panel 32. The circuit board 28 is connected to the switching device 25, the evacuation device 26, the vacuum gauge 29, and the control panel 32, receives feedback signals from these devices, and issues appropriate commands. On the control panel 32, a push-button start 32 and a push-button warning 34 are attached. The role of the push button Start 32 is to start the evacuation device. The role of the push button warning 34 is to

Warning signal when the vacuum system is in an abnormal Operating state is located. In another Chinese patent application filed by this Applicant for an invention entitled "Electric Refrigerator with Vacuum Keeping System and Control Method", the warning function of the vacuum keep-fresh system is described in detail and, therefore, will not be described again here.

As shown in Figure 3, the steps of the vacuum control system control method of this invention are as follows: First, the user on the switchboard 32 actuates the pushbutton Start 32 and starts the process of evacuation. The circuit board 28 judges the position of the switching device 25. When the switching device 25 is in the open position, the circuit board 28 gives the command to switch the switching device to the closed position. Subsequently, the circuit board 28 gives the command to start the evacuation device 26, which begins with the evacuation of the can 20 via the suction pipe 24. At the same time, the vacuum gauge 29 continuously measures the vacuum level in the suction duct 24 and reports the measured values to the circuit board 28. If the vacuum level in the suction duct 24 does not reach the set value previously set, the control card 28 issues a command indicating the operation of the apparatus Evacuation 26 is maintained. After a certain time, when the vacuum level in the exhaust duct 24 has reached the set value set previously, the circuit board 28 issues a command that stops the operation of the evacuation device 26. Last, after stopping the operation of the evacuation device 26, the circuit board 28 issues a command which switches the switching device 25 from the closed position to the open position and introduces the outside air into the exhaust pipe 24 at a certain flow rate. This completes the process of evacuation.

As shown in Figure 4, the can 20 includes a base 204 and a lid 202 which closes the base 204. The ventilation device 21 and the suction device 22 are respectively attached to the two ends of the lid 202. The connecting device 23 on the cover 202 is connected to the suction device 22. In this invention, after switching, the switching device 25 flows open position the outside air in the suction pipe 24 and over the

Connector 23 to the suction device 22. Since the can 20 is in the vacuum state, a pressure difference arises between the interior and exterior of the can 20, whereby the external air pressure presses on the suction device 22 and realizes the vacuum seal for the can 20. In this suction device 22 is structurally a check valve. The special construction of the

Extractor 22 is described in detail in another Chinese patent application for an invention of this Applicant entitled "Vacuum Refresh Box and Home Appliances Using This Vacuum Refractory Box", for which reason a further description will be omitted here. Since the vacuum seal point of the can 20 is the location of the aspirator 22 on the lid 202, even if there is a leak or slack at the location of the connector 23, the air may only enter the connector 23 and the aspirator tubing 24 but not in the can 20. The vacuum seal of the can 20 is not affected by the occurrence of leaks on the connector 23 and on the suction pipe 24.

The vacuum refreshment system of this invention may be used individually, may also be mounted in household electrical appliances and used as an accessory. In particular, it can be installed in household electric refrigerators or in freezers. In this case, the can 20 can be used in the cold storage room of the refrigerator. The suction pipe 24 can be sunk in the foam layer of the box of the refrigerator. The connecting piece 23 connected to the suction pipe 24 can be mounted on the inner wall of the cold storage room. The control panel 32 may be mounted on the door of the refrigerator or the inner wall of the cold storage room to allow easy operation by the user.

It has to be pointed out that the above description is only a procedure for this invention. General technical personnel from this area may be based on consideration of the above procedure without creative activity to suitably adapt this invention. For example, the switching device 25 of the procedure in Figure 2 of this invention may be a check valve. However, it can also be another commercially available switching device, as long as the function can be realized to initiate the open air in the open position and seal the suction pipe 24 in the closed position. Further, as for the position of the vacuum gauge 29, for example, it may be connected to the exhaust pipe 24 or may be mounted on the can 20 as long as the function of realizing the changes in the vacuum level of the vacuum system can be realized. These suitable adaptations are intended to be within the scope of the claims of this invention.

Claims

claims

A vacuum holding system including a can having a suction device and a ventilation device and a suction pipe, wherein one end of the suction pipe is connected to a vacuum pump and the other end is detachably connected to the suction device of the can via a connecting piece, further including a vacuum gauge for measuring the vacuum level and a vacuum gauge Control apparatus for controlling the vacuum keeping system, characterized in that it further includes a switching device connected to the suction pipe, which is in the closed position when the can is evacuated by the vacuum pump through the suction pipe to allow the ingress of external air into the suction pipe and, after completion of the evacuation by the vacuum pump, is in the open position to direct air into the already evacuated exhaust duct.

2. Vacuum fresh holding system according to claim 1, characterized in that it is a non-return valve in the described switching device.

3. Vacuum fresh holding system according to claim 1, characterized in that it is in the described vacuum measuring device to a vacuum sensor which is connected to the suction pipe.

4. Vacuum fresh holding system according to claim 1, 2 or 3, characterized in that the described control device comprises a control board and a control panel.

5. Vacuum fresh holding system according to claim 4, characterized in that the switchboard described comprises a push button start and a push button warning.

Electric household appliance, in particular refrigerator or refrigerator, comprising a box with a cold store, characterized in that it further comprises a vacuum keep-fresh system according to any of the preceding claims, wherein the described box is mounted in the cold storage room.

7. A control method for a vacuum holding system, wherein the vacuum holding system comprises a can having a suction device and a ventilation device and a suction tube, one end of the suction tube connected to an evacuating device and the other end separably connected to the suction device of the can via a connecting piece; in addition, including a vacuum measuring device and a control device, characterized in that the control method comprises the following steps:

- Providing a connected to the suction pipe switching device;

- Setting the switching device in the closed position by the control device;

- starting the device for evacuation, which begins with the evacuation of the can, by the control device;

- Measuring the vacuum level of the system and outputting a feedback to the control device by the vacuum measuring device;

Stopping the evacuation device in accordance with the feedback from the vacuum gauge by the control device;

- Switching the switching device to start position by the control device.

8. Control method according to claim 7, characterized in that it is a non-return valve in the described switching device.

A control method according to claim 7 or 8, characterized in that said vacuum gauge device is a vacuum sensor connected to said suction pipe, and said evacuation device is a vacuum pump.

10. Control method according to claim 7 or 8, characterized in that the described control device comprises a control board and a control panel, wherein the described control panel comprises a push-button start and a push-button warning.