CN105501686A - A detachable automatic vacuum storage container - Google Patents

Abstract

A detachable automatic vacuum storage container of the present invention comprises a box body and a vacuum control device, wherein the box body is provided with a vacuum channel, and the vacuum control device is detachably connected to the vacuum channel; one end of the vacuum channel is connected to the inner cavity of the box body, and the other end is provided with a sealing joint, and the vacuum control device is provided with an air extraction nozzle, and when the vacuum control device is connected to the vacuum channel, the air extraction nozzle is inserted into the sealing joint and is airtightly connected to the sealing joint, and the vacuum control device extracts gas to keep the inner cavity of the box body in a vacuum state when the air pressure in the inner cavity of the box body is greater than a preset threshold. Compared with the existing vacuum storage box, the present invention can achieve more effective vacuuming and better maintain the vacuum degree in the box body; and the user is more convenient when using this vacuum storage box, and the need for vacuuming or releasing the vacuum can be achieved without excessive operations.

Description

A detachable automatic vacuum storage container

technical field

The invention relates to the technical field of storage containers, in particular to a detachable automatic vacuum storage container.

Background technique

As the name implies, the storage container is a container used to store items, mainly used for the storage of food or moisture-proof items. As people's living standards are getting higher and higher, the quality requirements for life are also improving. Traditionally, storage containers that simply seal items protect food or items to a certain extent, but due to the presence of With a certain amount of air, food stored for a long time will still be easily oxidized and deteriorated, and the stored items will still be dampened and damaged when they encounter humid weather. Therefore, traditional storage containers can no longer meet the people's increasing living needs. In order to improve the food preservation effect of the storage container and the moisture-proof and insect-proof of the items, the vacuum storage container came into being. The effect of moisture-proof, rodent-proof and insect-proof is more obvious when precious items are stored in the vacuum box. Existing vacuum storage containers generally include a vacuum control device and a sealed box, and the vacuum control device is often fixed together with the sealed box. A vacuum control device can only evacuate the box body assembled with it, while The processing and production costs of vacuum control devices are generally relatively high, resulting in relatively high market sales prices. For consumers, it is unrealistic to store items in a vacuum on a large scale and may cause a great waste of space. In terms of use, some vacuum storage containers are manually monitored and the vacuum control device is turned on and off, which will greatly reduce the user experience, and it is difficult for humans to grasp the time of vacuuming. If the operation is not done properly, the storage effect of the items will be affected to a certain extent. Also, the vacuum control device and the sealing box of some vacuum storage containers are separable, but the pumping effect is not good. During the pumping process, it is difficult to align the pumping port, or the interface deviates.

Contents of the invention

In view of the above-mentioned technical problems in the prior art, the present invention provides a detachable automatic vacuum storage box that improves the utilization efficiency of the vacuum control device, has a good pumping effect, and can meet the needs of storing items for a long time without user monitoring.

To achieve the above object, the present invention provides the following technical solutions:

A detachable automatic vacuum storage container is provided, including a box body and a vacuum control device, the box body is provided with a vacuum channel, and the vacuum control device is detachably connected to the vacuum channel;

One end of the vacuuming channel is connected to the inner cavity of the box, and the other end is provided with a sealing joint. The vacuum control device is provided with a suction nozzle. When the vacuum control device is connected to the vacuuming channel, the suction nozzle is inserted into the sealing joint and is airtightly connected with the sealing joint. When the air pressure in the inner cavity of the box body is greater than the preset threshold value, the control device extracts gas to keep the inner cavity of the box body in a vacuum state.

Preferably, the sealing joint is made of elastic material, and the end of the suction nozzle close to the sealing joint is provided with a tapered part, and the diameter of the tapered part becomes larger and larger along the direction away from the sealing joint.

Preferably, the air suction nozzle is provided with an air suction sealing ring.

Preferably, it also includes a push-type vacuum release valve arranged on the box body, the vacuum passage runs through the push-type vacuum release valve, and the sealing joint is arranged on the top of the push-type vacuum release valve.

Preferably, the vacuum passage is provided with a first one-way valve, the vacuum control device is provided with a vacuum pump connected to the suction nozzle, a second one-way valve is arranged between the suction nozzle and the vacuum pump, the first one-way valve and the second An air pressure detection bypass is provided between the one-way valves, and the air pressure detection bypass is connected with an air pressure detection device, and the air pressure detection device controls the vacuum pump to stop pumping when the air pressure of the air pressure detection bypass is lower than the threshold value.

Preferably, the air pressure detection device is a piston type air pressure detection device, the piston type air pressure detection device includes a piston tube connected to the exhaust pipe and a piston arranged in the piston tube, the piston tube is provided with a circuit switch, and the circuit switch is connected to the circuit of the vacuum pump; When the air pressure inside is lower than the threshold value, the piston moves to a certain position and makes the circuit switch disconnect the circuit of the vacuum pump.

Preferably, the vacuum control device further includes a switch mechanism, and the box body is provided with a trigger mechanism corresponding to the switch mechanism. When the vacuum control device is installed in the box body, the trigger mechanism triggers the switch mechanism, and the vacuum pump starts only when the switch mechanism is triggered. .

Preferably, the vacuum control device further includes a release valve control mechanism; when the vacuum control device is installed in the box body, the release valve control mechanism can be operated to open or close the push-type vacuum release valve.

Preferably, the box body includes a box body and a box cover that are detachably fixed to each other, the top of the box cover is provided with a groove corresponding to the shape of the vacuum control device, and the lower part of the vacuum control device is embedded in the groove.

Preferably, the connection between the box body and the lid is provided with a suspended sealing ring, the suspended sealing ring includes a sealing ring body and a sealing sheet, one end of the sealing sheet is connected to the sealing ring body, and the other end of the sealing sheet is set to be suspended; in use state The lower sealing ring body is fixed on the box cover, and the sealing sheet is attached to the sealing surface of the box body.

Beneficial effects of the present invention:

Compared with the existing vacuum storage box, the vacuum control device of the detachable automatic vacuum storage container provided by the present invention is detachably connected with the box body, and one vacuum control device can be used for multiple different boxes. The processing and production cost is reduced, and the manufacturer can produce a vacuum control device matched with multiple boxes, which greatly reduces the consumer price; the air suction nozzle is inserted into the sealing joint of the elastic material to realize the connection, and the tapered part acts as a guide and The function of expansion and compression can realize a good airtight connection between the suction nozzle and the sealing joint, ensuring that there will be no air leakage during the suction process; and the suction can be automatically turned on or off without manual monitoring and lasts for a long time. Time keeps the inner cavity of the box in a vacuum state to store items.

Description of drawings

Fig. 1 is a schematic structural view of a detachable automatic vacuum storage container of the present invention.

Fig. 2 is a schematic diagram of the first exploded structure of a detachable automatic vacuum storage container of the present invention.

Fig. 3 is a schematic diagram of the second exploded structure of a detachable automatic vacuum storage container of the present invention.

Fig. 4 is a schematic diagram of an exploded structure of a control device for a detachable automatic vacuum storage container according to the present invention.

Fig. 5 is a structural schematic diagram of a release valve control mechanism and a suction nozzle of a detachable automatic vacuum storage container according to the present invention.

Fig. 6 is a structural schematic diagram of the cooperation of a release valve control mechanism, a suction nozzle and a sealing joint of a detachable automatic vacuum storage container according to the present invention.

Fig. 7 is a schematic cross-sectional structure diagram of a detachable automatic vacuum-pumping storage container of the present invention with a suction nozzle and a sealing joint.

Fig. 8 is a structural schematic diagram of a detachable air pressure detection bypass of an automatic vacuum storage container according to the present invention.

FIG. 9 is a schematic structural view of a detachable air pressure detection device for an automatic vacuum storage container according to the present invention.

Fig. 10 is a structural schematic diagram of a switch mechanism of a detachable automatic vacuum storage container according to the present invention.

Fig. 11 is a structural schematic diagram of a suspended sealing ring of a detachable automatic vacuum storage container according to the present invention.

Fig. 12 is a structural schematic diagram of the assembly of the suspended sealing ring and the box body of a detachable automatic vacuum storage container according to the present invention.

Fig. 13 is a schematic structural view of a detachable self-evacuated storage container of the present invention when the sealing sheet covers the edge of the box body.

Reference signs:

Box body 1, box body 11, box cover 12, first groove 121, trigger mechanism 122, vacuum passage 13, push-type vacuum release valve 14, accommodating groove 15;

Vacuum control device 2, air suction nozzle 21, tapered portion 211, air suction sealing ring 212, vacuum pump 22, switch mechanism 23, guide mechanism 231, return spring 232, release valve control mechanism 24, handle 241, driving structure 242, the first A spring 243, a control assembly 245, a trigger switch 246;

sealing joint 3;

The first one-way valve 4;

The second one-way valve 5;

Air pressure detection device 6, piston tube 61, piston 62, switch spring 63, circuit switch 64;

Air pressure detection bypass 7;

Suspended sealing ring 8 , sealing ring body 81 , and sealing sheet 82 .

detailed description

The present invention will be described in detail below in conjunction with specific embodiments and accompanying drawings.

A detachable automatic vacuum storage container of this embodiment, as shown in Figure 1, Figure 2, Figure 5 and Figure 7, includes a box body 1 and a vacuum control device 2, and the box body 1 is provided with a vacuuming channel 13 , the vacuum control device 2 is detachably connected to the vacuum passage 13; one end of the vacuum passage 13 communicates with the inner cavity of the box body 1, and the other end is provided with a sealing joint 3, and the vacuum control device 2 is provided with an air extraction nozzle 21. When the vacuum control device 2 is connected to the vacuum channel 13, the air suction nozzle 21 is inserted into the sealing joint 3 and is airtightly connected with the sealing joint 3, and the vacuum control device 2 draws gas when the inner cavity pressure of the box body 1 is greater than the preset threshold value so that the air pressure of the box body 1 The inner cavity is kept in a vacuum state. The sealing joint 3 is made of elastic material, preferably silicone material or plastic material, and the end of the suction nozzle 21 close to the sealing joint 3 is provided with a tapered portion 211 , and the diameter of the tapered portion 211 becomes larger and larger along the direction away from the sealing joint 3 . The suction nozzle 21 is provided with a suction sealing ring 212 . The existing way of connecting the vacuum control device 2 to the box body 1 is generally to connect two pipe openings with equal diameters to pump air, but in this application, the air suction nozzle 21 is inserted into the sealing joint 3 to realize the connection, and the tapered The part 211 plays the role of guiding, expanding and compressing, and under the joint action of the air suction sealing ring 212, it can ensure that there will be no air leakage during the air extraction process, and achieve a better air extraction effect.

In this embodiment, as shown in Figure 6 and Figure 7, it also includes a push-type vacuum release valve 14 arranged on the box body 1, the vacuum passage 13 runs through the push-type vacuum release valve 14, and the sealing joint 3 is arranged on the push-type vacuum release valve 14. Release the top of valve 14. The air pumping structure and the vacuum releasing structure of the traditional vacuum storage box are set separately, and the user needs to operate different keys to control, which brings great inconvenience. However, the application cleverly sets the vacuum channel 13 in the pressing The inside of the push-type vacuum release valve 14, and the air nozzle 21 for vacuuming is applied to press the push-type vacuum release valve 14, so that the whole structure is more compact and the user is more convenient in use. The vacuum passage 13 is provided with a first one-way valve 4, the vacuum control device 2 is provided with a vacuum pump 22 connected to the air nozzle 21, and a second one-way valve 5 is arranged between the air nozzle 21 and the vacuum pump 22, and the first one-way valve Between the valve 4 and the second one-way valve 5, an air pressure detection bypass 7 is provided, and the air pressure detection bypass 7 is communicated with an air pressure detection device 6. When the air pressure detection device 6 is lower than the threshold value when the air pressure in the air pressure detection bypass 7 Control vacuum pump 22 and stop pumping. When the air pressure inside the box body 1 is lower than the air pressure outside the box body 1, the first one-way valve 4 is closed, and the air cannot enter the box body 1 from the outside, and the user presses the suction nozzle 21 to release the push-type vacuum The valve 14 is displaced, so that an air intake channel is formed between the outside of the push-type vacuum release valve 14 and the box body 1, and the outside gas enters the box body 1 through the air intake channel, and the vacuum state is released; and when the box body 1 is to be drawn out When the gas in the box body 1 is inserted into the sealing joint 3 at the top of the push-type vacuum release valve 14, the air suction nozzle 21 is not pressed. When the air pressure in the box body 1 is greater than the preset threshold value, the vacuum pump 22 starts; When the air pressure is less than the preset threshold value, the vacuum pump 22 is closed, and the first check valve 4 is also closed at this time, outside air will not be able to enter the box body 1, and the box body 1 maintains a lower air content to achieve the purpose of vacuum preservation.

As shown in Figure 8 and Figure 9, when the air pressure in the suction nozzle 21 is lower than the threshold value, the air pressure detection device 6 controls the vacuum pump 22 to stop pumping, and the air pressure detection device 6 is a piston type air pressure detection device 6, and the piston type air pressure detection device 6 includes a piston tube 61 connected to the suction tube and a piston 62 arranged in the piston tube 61, the piston tube 61 is provided with a circuit switch 64, and the circuit switch 64 is connected to the circuit of the vacuum pump 22; when the air pressure in the suction nozzle 21 is lower than the threshold value The piston 62 moves to a certain position and causes the circuit switch 64 to disconnect the circuit of the vacuum pump 22 . When the vacuum pump 22 pumps air, when the air pressure in the air suction nozzle 21 is lower than the threshold value (that is, when the air pressure is low enough), the air pressure detection device 6 controls the vacuum pump 22 to stop the air suction. According to the aforementioned principle, when the air extraction is completed, the air pressure between the first check valve 4 and the second check valve 5 will be equal to the air pressure in the box body 1. If the air pressure in the box body 1 rises, This change will be transmitted to the air suction pipe between the first one-way valve 4 and the second one-way valve 5. At this time, it can be transmitted to the air pressure detection device 6 through the air pressure detection bypass 7 connected to the air suction nozzle 21, and the vacuum pump will be restarted. twenty two. In the above structure, the air pressure detection device 6 is also arranged in the vacuum control device 2. Compared with most of the prior art, the air pressure detection device 6 is arranged inside the box body 1. This design can save the space in the vacuum storage box, And make all the parts that control the suction and air intake all be set together and made into an integrated part, which is convenient for the overall disassembly and assembly of the control parts. Specifically, as shown in Figure 9, the air pressure detection device 6 is a piston-type air pressure detection device 6, which includes a piston tube 61 connected to the exhaust pipe and a piston 62 arranged in the piston tube 61, the piston tube 61 A circuit switch 64 is arranged inside, and the circuit switch 64 is connected to the circuit of the vacuum pump 22; Specifically, when the air pressure of the box body 1 is low, the air pressure of the air suction nozzle 21 is correspondingly low, and the air pressure of the air suction nozzle 21 is transmitted to the piston tube 61 through the air pressure detection bypass 7. At this time, the air pressure in the piston tube 61 Piston 62 will move to the left under the effect of atmospheric pressure, thereby disconnect circuit switch 64, and vacuum pump 22 stops working; Move to the right under the action of the piston 62, the circuit switch 64 is touched by the piston 64 and the circuit switch 64 is connected again, the vacuum pump 22 is started, and the air in the box body 1 is drawn out.

As shown in FIG. 1 , FIG. 5 and FIG. 6 , when the vacuum control device 2 is installed in the box body 1 , the release valve control mechanism 24 can open or close the push-type vacuum release valve 14 . The release valve control mechanism 24 includes a handle 241 for controlling the suction nozzle 21, the handle 241 is hinged to the vacuum control device 2, the suction nozzle 21 is a bent structure, one end of the suction nozzle 21 is connected to the handle 241, and the suction nozzle 21 The other end of the handle 241 is connected to the sealing joint 3; pulling the handle 241 can control the movement of the suction nozzle 21 to press the sealing joint 3. Specifically, in order to convert the rotary motion of the handle 241 into the linear motion of the suction nozzle 21, the handle 241 and A driving structure 242 is arranged between the air nozzles 21, and the driving structure 242 can be arranged in a non-circular shape. When the handle 241 rotates, the non-circular part abuts and drives the air nozzle 21; or it can also be connected between the handle 241 and the suction nozzle. The place where the air nozzle 21 contacts is provided with a gear structure, and the above functions can also be achieved through gear transmission. A first spring 243 is connected between the handle 241 and the air extraction nozzle 21, and the air extraction nozzle 21 is pressed against the driving structure 242 by the first spring 243, so that the air extraction nozzle 21 is also reset when the handle 241 is reset, preventing the air extraction nozzle 21 from continuing Press the sealing joint 3; the first spring 243 can also be arranged between the suction nozzle 21 and the box body 1, when the suction nozzle 21 is not pressed down by the handle 241, the first spring 243 will move the suction nozzle 21 away from the seal The direction of joint 3 is pushed, also can reach above-mentioned function. Specifically, as shown in FIG. 1, the vacuum control device 2 is provided with an accommodating groove 15 matching the shape of the handle 241, and the handle 241 can be placed in the accommodating groove without driving the suction nozzle 21 to press the sealing joint 3. 15. Make the whole look beautiful, and the user is not easy to accidentally touch the handle 241. When the user wants to release the vacuum state of the box body 1, rotate the handle 241 (specifically rotate to 90° with the vacuum control device 22) to make the handle 241 pull When the air nozzle 21 is pressed down, the air suction nozzle 21 will press the sealing joint 3, and the box body 1 will take in air; and when the handle 241 is put back to its original position, the air suction nozzle 21 can be pulled Starting, the air suction nozzle 21 no longer presses the sealing joint 3, and the box body 1 is sealed. And when the user takes away the vacuum control device 2, he can directly press the sealing joint 3 to make the box body 1 intake air. The vacuum control device 2 is also provided with a control assembly 245, and when the release valve control mechanism 24 opens the sealing joint 3, the control assembly 245 stops the vacuum pump 22 from pumping. Specifically, as shown in FIGS. 5 and 6 , the control component 245 is specifically a trigger switch 246 arranged in the switch control structure of the release valve control mechanism 24 and connected to the circuit of the vacuum pump 22 (related wires are not shown). The working principle of the structure is similar to that of the driving structure 242 . When the release valve control mechanism 24 hits the vacuum passage 13 (that is, when the handle 241 rotates 90°), it will drive the control assembly 245 to move together, so that the control assembly 245 presses the trigger switch 246 and disconnects the circuit of the vacuum pump 22. The purpose of adding the control assembly 245 is: when the user rotates the handle 241, that is, when the vacuum state is to be released, the vacuum pump 22 should be in a stopped state; The action of the sealing joint 3 has also completed the action of disconnecting the circuit, without adding a new switch, killing two birds with one stone.

In this embodiment, as shown in FIG. 1, FIG. 4 and FIG. 10, the vacuum control device 2 also includes a switch mechanism 23, the box body 1 is provided with a trigger mechanism 122 corresponding to the switch mechanism 23, and the vacuum control device 2 is installed on the When the box body 1 is used, the trigger mechanism 122 triggers the switch mechanism 23, and the vacuum pump 22 starts only when the switch mechanism 23 is triggered. The switch mechanism 23 and the trigger mechanism 122 can choose various trigger forms, for example, the switch mechanism 23 is a key switch, and the trigger mechanism 122 is a protrusion capable of abutting against the key switch. When the vacuum control device 2 is placed in the vacuum sealed box, the button switch is turned on, and the vacuum control device 2 is started. The trigger mode of this button is preferred. This purely mechanical structure can meet the work requirements, reduce production costs, and use more stable. Alternatively, the switch mechanism 23 is a magnetic switch, and the trigger mechanism 122 is a magnet capable of contacting the magnetic switch. When the vacuum control device 2 is placed on the box cover 12, the magnetic switch is turned on, and the vacuum pump 22 is started. In addition, there are other forms of the trigger type, as long as the vacuum control device 2 is placed in the box body 1, the vacuum pumping can be started immediately, all of which are within the protection scope of the present invention. The switch mechanism 23 is a columnar switch, and a return spring 232 is sheathed on the upper part of the columnar switch. When the vacuum control device 2 is placed in the first groove 121 of the box body 1, the trigger mechanism 122 and the switch mechanism 23 will contact, and the return spring 232 can tighten the contact force between the switch mechanism 23 and the trigger mechanism 122 to ensure vacuum control. Device 2 starts up smoothly and keeps vacuuming. When the vacuum control device 2 needs to be detached, the return spring 232 provides a certain thrust to make the vacuum control device 2 easier to detach, and the return spring 232 can disconnect the switch mechanism 23 in time so that the vacuum pump 22 stops pumping. It also includes a guide mechanism 231 that limits the movement of the switch mechanism 23 in the vertical direction, which is also a guarantee for the smooth contact between the switch mechanism 23 and the trigger mechanism 122 . The switch mechanism 23 and the guide mechanism 231 are integrally arranged, and the integrated arrangement is easier to process, and can be integrally injection molded to make the structure more compact and reduce the processing cost.

In this embodiment, as shown in FIG. 2 and FIG. 3 , the box body 1 includes a box body 11 and a box cover 12 that are detachably fixed to each other. The top of the box cover 12 is provided with a first Groove 121 , the lower part of the vacuum control device 2 is embedded in the first groove 121 . It is convenient for the user to install the vacuum control device 2 on the box cover 12 and quickly locate it, so that the trigger mechanism 122 can quickly and accurately trigger the switch 246 mechanism 23 to start the vacuum pump 22 immediately. There are at least two box bodies 11 whose volumes are not equal to each other, and the box cover 12 can be detachably connected to each box body 11 . The same box cover 12 and vacuum control device 2 can be applied to box bodies 11 with different volumes. The user can fix the box cover 12 with one of the box bodies 11 according to the size of the storage to form a complete set of vacuum box products. It meets storage requirements and can save living space; in terms of production, for vacuum boxes of different specifications, the manufacturer produces a box cover 12 and a vacuum control device 2, which can correspond to multiple box bodies 11 of different specifications, and can also be packaged Stacking the box bodies 11 of different specifications together reduces the packaging volume, thereby greatly reducing the production cost and greatly improving the production efficiency and economic benefits.

In this embodiment, the connection between the box body 11 and the box cover 12 is provided with a suspended sealing ring 8, as shown in Figure 11 and Figure 12, including a sealing ring body 81 and a sealing sheet 82, and one end of the sealing sheet 82 is connected to the sealing ring The body 81 and the other end of the seal 82 are set to be suspended, that is, the end of the seal 82 that is not connected to the seal body 81 can swing up and down, and can be attached to the seal under the action of gravity; the specific structure is that the seal 82 and the seal The connection of the ring body 81 is spaced apart from both ends of the sealing ring body 81 . Specifically, the sealing sheet 82 is disposed on the outside of the sealing ring body 81 , and the cross section of the suspended sealing ring 8 is in the shape of a "T" rotated by 90°. The sealing ring body 81 matches the lid 12 of the vacuum storage box, and supports the overall shape of the suspended sealing ring 8, while the sealing sheet 82 covers the edge of the box body 1, because the sealing sheet 82 and the sealing ring body 81 There is a distance between the upper and lower ends of the box, and one end of the sealing sheet 82 is in a suspended state, so the sealing sheet 82 can swing upwards or downwards, and it is enough to stick the suspended sealing ring 8 to the box body 11 through the effect of gravity. On the edge, and form the cover of sheet shape to the edge of box body 11. As shown in Figure 13, when the box body 1 is in a vacuum, the sealing sheet 82 covers the edge of the box body 11. At this time, the air pressure of the outside world can press the sealing sheet 82 on the edge of the box body 11, even if there are uneven places, Because the sealing sheet 82 is sheet-shaped, it can wrap up uneven places, so that the sealing degree of the box body 1 is greatly increased. As shown in Figure 11, the upper part of the box cover 12 and the suspended sealing ring 8 is an interference fit, the suspended sealing ring 8 is fixed on the box cover 12, and there is no gap between the box cover 12 and the suspended sealing ring 8, so that the vacuum The degree of sealing of the storage box has been greatly increased. Specifically, the material of the sealing ring body 81 is silica gel, and the material of the sealing sheet 82 is silica gel. The softness of the silica gel is relatively high, which can meet the requirements of sealing conditions for shape change, and the silica gel can be used in the food field. Specifically, the thickness of the sealing sheet 82 is 2 mm, and the distance between the floating end of the sealing sheet 82 and the connection between the sealing sheet 82 and the sealing ring body 81 is 5 mm, which ensures that the sealing sheet 82 has a high degree of deformability. To sum up, the suspended sealing ring 8 can effectively improve the sealing degree of the vacuum storage box, and has a simple structure, which is suitable for popularization and application.

Finally, it should be noted that the above embodiments are only used to illustrate the technical solutions of the present invention, rather than limiting the protection scope of the present invention, although the present invention has been described in detail with reference to the preferred embodiments, those of ordinary skill in the art should understand , the technical solution of the present invention may be modified or equivalently replaced without departing from the spirit and scope of the technical solution of the present invention.

Claims (10)

1. A detachable automatic vacuum storage container, comprising a box body and a vacuum control device, the box body is provided with a vacuum channel, characterized in that: the vacuum control device is detachably connected to the vacuum channel ; One end of the vacuum passage is connected to the inner cavity of the box, and the other end is provided with a sealing joint. The vacuum control device is provided with a suction nozzle. When the vacuum control device is connected to the vacuum passage, the suction nozzle is inserted into the The sealing joint is airtightly connected with the sealing joint, and the vacuum control device draws gas to keep the inner cavity of the box in a vacuum state when the air pressure in the inner cavity of the box body is greater than a preset threshold value. 2. A detachable automatic vacuum storage container according to claim 1, characterized in that: the sealing joint is made of elastic material, and the end of the suction nozzle close to the sealing joint is provided with a tapered part, the diameter of the tapered part becomes larger and larger along the direction away from the sealing joint. 3. A detachable automatic vacuum storage container according to claim 2, characterized in that: the suction nozzle is provided with a suction sealing ring. 4. A detachable automatic vacuum storage container according to claim 1, characterized in that: it also includes a push-type vacuum release valve arranged on the box body, and the vacuum passage runs through the push-type vacuum release valve. type vacuum release valve, the sealing joint is arranged on the top of the push type vacuum release valve. 5. A detachable automatic vacuum storage container according to claim 4, characterized in that: the vacuum control device also includes a release valve control mechanism; when the vacuum control device is installed on the box body, Operating the release valve control mechanism can open or close the push-type vacuum release valve. 6. A detachable automatic vacuum storage container according to claim 1, characterized in that: the vacuum channel is provided with a first one-way valve, and the vacuum control device is provided with a valve connected to the suction nozzle. A vacuum pump, a second one-way valve is provided between the suction nozzle and the vacuum pump, an air pressure detection bypass is provided between the first one-way valve and the second one-way valve, and the air pressure detection bypass The air pressure detection device communicates with the air pressure detection device, and the air pressure detection device controls the vacuum pump to stop pumping when the air pressure in the air pressure detection bypass is lower than a threshold value. 7. A detachable automatic vacuum storage container according to claim 6, characterized in that: the air pressure detection device is a piston type air pressure detection device, and the piston type air pressure detection device includes a The piston tube and the piston arranged in the piston tube, the piston tube is provided with a circuit switch, and the circuit switch is connected to the circuit of the vacuum pump; when the air pressure in the exhaust tube is lower than the threshold value, the piston moves to a certain position and cause the circuit switch to disconnect the circuit of the vacuum pump. 8. A detachable automatic vacuum storage container according to claim 1, characterized in that: the vacuum control device also includes a switch mechanism, and the box body is provided with a trigger corresponding to the switch mechanism mechanism, when the vacuum control device is installed in the box body, the trigger mechanism triggers the switch mechanism, and the vacuum pump starts only when the switch mechanism is triggered. 9. A detachable automatic vacuum storage container according to claim 1, characterized in that: the box body includes a detachable sealed and fixed box body and a box cover, and the top of the box cover is set There is a groove corresponding to the shape of the vacuum control device, and the lower part of the vacuum control device is embedded in the groove. 10. A detachable automatic vacuum storage container according to claim 9, characterized in that: the connection between the box body and the lid is provided with a suspended sealing ring, and the suspended sealing ring includes A sealing ring body and a sealing sheet, one end of the sealing sheet is connected to the sealing ring body, and the other end of the sealing sheet is set to be suspended; the sealing ring body is fixed on the box cover under the use state, and the sealing sheet is attached Fit the sealing surface of the box body.