CN217421459U - Vacuumizing machine and circulating liquid heating cooking equipment - Google Patents

Abstract

The application discloses evacuation machine and circulating liquid heating cooking equipment, this evacuation machine include base member, aspiration pump and connection structure, and the base member has and holds the cavity, holds the cavity and has air inlet and gas vent. The air pump is arranged in the accommodating cavity and communicated with the air inlet and the air outlet so as to suck air from the air inlet and discharge the accommodating cavity from the air outlet. The connection structure is connected to the base body and is used for being detachably connected with the equipment host. Because can be through connection structure with on the evacuation machine detachably connects to the equipment host computer, in the application scene that needs to use equipment host computer and evacuation machine cooperation, the user can get simultaneously and put equipment host computer and evacuation machine, only takes off the evacuation machine from the equipment host computer in the step that needs to use the evacuation machine, installs the evacuation machine on the equipment host computer after the use again. Thereby promoting the picking and placing efficiency of a user and reducing the loss of the vacuum extractor.

Description

Vacuumizing machine and circulating liquid heating cooking equipment

Technical Field

The application relates to the technical field of vacuumizing equipment, in particular to a vacuumizing machine and circulating liquid heating cooking equipment.

Background

Vacuumizers are commonly used to remove air from vacuum packages to compress the volume of the object, prevent food spoilage, and the like. In practical application scenarios, the vacuum-pumping machine often needs to be used in cooperation with a main machine of other equipment, for example, in some cooking application scenarios, a packaging bag packaged with food needs to be vacuumized by the vacuum-pumping machine, and then the vacuum-packaged food needs to be placed in the cooking main machine for cooking. However, the existing vacuumizers are all independently placed, so that a user needs to take out the cooking host and the vacuumizer for use when cooking, and after the use, the cooking host and the vacuumizer need to be independently placed respectively, and sometimes the situation that the vacuumizer cannot be found at a time occurs. This causes great inconvenience to the user and thus is in need of improvement.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the main technical problem who solves is: the existing vacuum extractor is independently arranged, and the taking and placing process of the vacuum extractor brings inconvenience to a user.

In a first aspect, an embodiment provides a vacuum extractor comprising:

the substrate is provided with a first side, a second side and a third side which are sequentially connected, the substrate is provided with an accommodating cavity, the accommodating cavity is provided with an air inlet and an air outlet, and the air inlet and the air outlet are respectively positioned on the first side and the second side;

the air suction pump is arranged in the accommodating cavity, is communicated with the air inlet and the air outlet, and is used for sucking air from the air inlet and discharging the air from the air outlet to the accommodating cavity;

and the connecting structure is connected to the third side of the base body and is used for being detachably connected with the equipment host.

In one embodiment, the connection structure is configured as a first magnetic member, the first magnetic member is connected to the side wall of the base body, and the first magnetic member is used for being matched with a second magnetic member on the device host in a magnetic attraction manner.

In one embodiment, the side wall of the base body is provided with a mounting groove, and the first magnetic member is mounted in the mounting groove.

In one embodiment, the number of the first magnetic members is at least two, and the first magnetic members are arranged on the side wall of the base body along the axial direction of the base body.

In one embodiment, the magnetic connector further comprises a buffer pad, wherein the buffer pad is connected to the side wall of the base body and covers the first magnetic piece.

In one embodiment, the sidewall of the base has a recess, the cushion pad is mounted in the recess, the recess has a mounting groove therein, and the first magnetic member is mounted in the mounting groove.

In one embodiment, the first magnetic member is in a strip shape, and the first magnetic member extends along the axial direction of the base.

In a second aspect, an embodiment provides a circulating liquid heating cooking apparatus, comprising a cooking main body and the vacuum extractor as described in any one of the above, wherein the connection structure of the vacuum extractor is detachably connected with the cooking main body.

In one embodiment, the connection structure of the vacuumizer is configured as a first magnetic member connected to the sidewall of the base, the sidewall of the cooking host facing the vacuumizer is provided with a second magnetic member opposite to the first magnetic member, and the first magnetic member and the second magnetic member are matched in a magnetic attraction manner.

According to the vacuumizer and the circulating type liquid heating cooking apparatus of the above embodiments, the vacuumizer includes the substrate having the first side, the second side, and the third side connected in sequence, the substrate having the receiving cavity having the air inlet and the air outlet located at the first side and the second side, respectively. The air pump is arranged in the accommodating cavity and communicated with the air inlet and the air outlet so as to suck air from the air inlet and discharge the accommodating cavity from the air outlet. The connecting structure is connected to the third side of the base body and is used for being detachably connected with the equipment host. Because can be through connection structure with on the evacuation machine detachably connects to the equipment host computer, in the application scene that needs to use equipment host computer and evacuation machine cooperation, the user can get simultaneously and put equipment host computer and evacuation machine, only takes off the evacuation machine from the equipment host computer in the step that needs to use the evacuation machine, installs the evacuation machine on the equipment host computer after the use again. Thereby improving the pick-and-place efficiency of a user and reducing the loss of the vacuum extractor.

Drawings

FIG. 1 is a schematic view of a cooking system with a vacuum extractor according to an embodiment of the present disclosure;

FIG. 2 is a schematic diagram of a vacuum extractor separated from a cooking mainframe according to an embodiment of the present disclosure;

FIG. 3 is a schematic diagram of an embodiment of the present disclosure;

FIG. 4 is an exploded view of an embodiment of the vacuum;

FIG. 5 is a cross-sectional view of an embodiment of the vacuum extractor of the present application;

FIG. 6 is an exploded view of a vacuum extractor according to another embodiment of the present application;

FIG. 7 is a schematic view of the internal structure of the vacuum extractor of an embodiment of the present application;

reference numerals are as follows: 100. a substrate; 110. an air inlet; 120. an exhaust port; 130. mounting grooves; 140. a recessed portion; 150. an accommodating cavity; 200. an air pump; 300. a connecting structure; 310. a first magnetic member; 400. a cushion pad; 500. a device host; 510. a cooking host machine; 520. a second magnetic member.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings. Wherein like elements in different embodiments are numbered with like associated elements. In the following description, numerous details are set forth in order to provide a better understanding of the present application. However, those skilled in the art will readily recognize that some of the features may be omitted or replaced with other elements, materials, methods in different instances. In some instances, certain operations related to the present application have not been shown or described in detail in order to avoid obscuring the core of the present application from excessive description, and it is not necessary for those skilled in the art to describe these operations in detail, so that they may be fully understood from the description in the specification and the general knowledge in the art.

Furthermore, the features, operations, or characteristics described in the specification may be combined in any suitable manner to form various embodiments. Also, the various steps or actions in the method descriptions may be transposed or transposed in order, as will be apparent to one of ordinary skill in the art. Thus, the various sequences in the specification and drawings are for the purpose of describing certain embodiments only and are not intended to imply a required sequence unless otherwise indicated where such sequence must be followed.

The numbering of the components as such, e.g., "first", "second", etc., is used herein only to distinguish the objects as described, and does not have any sequential or technical meaning. The term "connected" and "coupled" when used in this application, unless otherwise indicated, includes both direct and indirect connections (couplings).

The embodiment provides a vacuum extractor.

Referring to fig. 1-7, the vacuum apparatus includes a substrate 100, a suction pump 200, and a connection structure 300.

The base 100 has a first side, a second side, and a third side, which are connected in sequence. The base body 100 has a receiving cavity 150, and the receiving cavity 150 has an inlet port 110 and an outlet port 120, the inlet port 110 and the outlet port 120 being located at the first side and the second side, respectively. The suction pump 200 is disposed in the receiving chamber 150, and the suction pump 200 communicates with the inlet 110 and the outlet 120 to suck gas from the inlet 110 and discharge the receiving chamber 150 from the outlet 120. The connection structure 300 is connected to the third side of the base 100, and the connection structure 300 is used to detachably connect with the device host 500.

On one hand, since the vacuum extractor can be detachably connected to the apparatus main body 500 through the connection structure 300, in an application scenario where the apparatus main body 500 and the vacuum extractor are required to be used cooperatively, a user can take and place the apparatus main body 500 and the vacuum extractor at the same time, take the vacuum extractor off the apparatus main body 500 only in a step where the vacuum extractor is required to be used, and install the vacuum extractor on the apparatus main body 500 after use. Thereby promoting the picking and placing efficiency of a user and reducing the loss of the vacuum extractor. On the other hand, referring to fig. 5 and 7, since the connection structure 300 and the air inlet 110 and the air outlet 120 are located on different sides of the base 100, the connection structure 300 does not block the air inlet 110 and the air outlet 120 when being mounted on the device host 500.

It should be noted that the device host 500 may be the cooking host 510 in this embodiment, or may be other device hosts 500 used in cooperation with a vacuum extractor, for example, in some application scenarios, the vacuum extractor is often used in cooperation with a packer for packing vacuum-packed products, in which case the device host 500 may be a host of the packer.

Referring to fig. 3-6, in one embodiment, the connection structure 300 includes at least one of a magnetic attraction structure, a hook and loop fastener structure, an adhesive structure, and a screw structure. Specifically, the connection structure 300 may be a single type selected from a magnetic attraction structure, a hook and loop fastener structure, an adhesive structure, and a screw structure, or a combination of at least two of them.

Referring to fig. 3-6, in one embodiment, the connecting structure 300 is configured as a first magnetic member 310, the first magnetic member 310 is connected to a sidewall of the base 100, and the first magnetic member 310 is configured to be magnetically coupled to a second magnetic member 520 of the device host 500.

On the one hand, the user only needs to spend less effort to drive the first magnetic member 310 and the second magnetic member 520 to contact or separate, so that the vacuum extractor can be mounted and dismounted on the equipment host 500, and time and labor are saved. On the other hand, when the user installs the vacuum extractor, the first magnetic member 310 and the second magnetic member 520 can be automatically attracted and aligned, which is beneficial to improving the accuracy of the installation position of the vacuum extractor on the device host 500. Specifically, the first magnetic member 310 and the second magnetic member 520 may be magnets with opposite magnetic poles, or one of the magnets may be a magnet and the other may be a metal material capable of being attracted by the magnet.

Referring to fig. 3-6, in one embodiment, the sidewall of the substrate 100 has a mounting groove 130, and the first magnetic element 310 is mounted in the mounting groove 130.

The first magnetic member 310 is fixed on the side wall of the base 100 through the mounting groove 130, and specifically, the first magnetic member 310 may be fixed in the mounting groove 130 through an interference fit of the first magnetic member 310 and the mounting groove 130, and the first magnetic member 310 may also be adhered in the mounting groove 130 through glue.

Referring to fig. 4, in an embodiment, there are at least two first magnetic members 310, and the first magnetic members 310 are arranged on the sidewall of the substrate 100 along the axial direction of the substrate 100.

By arranging at least two first magnetic members 310 on the side wall of the base 100, the area of the base 100 capable of magnetically attracting and matching with the device host 500 is increased. Referring to fig. 4, since the base 100 is in a strip shape in the present embodiment, the first magnetic members 310 are arranged along the axial direction of the base 100, which is beneficial to improving the stability of the base 100 mounted on the device host 500.

Of course, in other embodiments, the number of the first magnetic members 310 may also be one, three, or another suitable number, and the arrangement manner of the first magnetic members 310 may also be flexibly selected according to the actual shape of the substrate 100, for example, when the side of the substrate 100 contacting the device host 500 is a square, four first magnetic members 310 may be respectively disposed at four corners of the square.

Referring to fig. 3-6, in one embodiment, the vacuum extractor further includes a buffer pad 400, and the buffer pad 400 is connected to a sidewall of the base 100 and covers the first magnetic member 310.

The buffer pad 400 can play a buffering role when the vacuum extractor is installed on the equipment host 500, so as to prevent the vacuum extractor from impacting the equipment host 500 under the action of magnetic attraction force to cause the damage of the equipment host 500 or the shell of the vacuum extractor. Specifically, the cushion pad 400 may be made of silicone.

Referring to fig. 3 to 6, in one embodiment, the sidewall of the base 100 has a recess 140, the buffer 400 is mounted in the recess 140, the recess 140 has a mounting groove 130 therein, and the first magnetic element 310 is mounted in the mounting groove 130. The fixation of the bumper pad 400 to the sidewall of the base 100 is achieved by fitting the bumper pad 400 into the recess 140, and in particular, the bumper pad 400 may be fixed into the recess 140 by bonding, interference fit or other suitable connection means.

Referring to fig. 6, in an embodiment, the first magnetic element 310 is in a strip shape, and the first magnetic element 310 extends along the axial direction of the substrate 100. The first magnetic member 310 of rectangular shape has increased the adsorption area, also is favorable to promoting the vacuum extractor magnetism to inhale and is fixed in the stability on the equipment host computer 500. It is understood that the first magnetic member 310 and the second magnetic member 520 are correspondingly disposed, and when the first magnetic member 310 is a strip-shaped member, the second magnetic member 520 may also be a strip-shaped member. Of course, in other embodiments, the first magnetic member 310 and the second magnetic member 520 may have other suitable shapes, such as a circle, a triangle, or a square, and specifically, referring to fig. 4, the first magnetic member 310 and the second magnetic member 520 in fig. 4 are both circular.

On the other hand, the embodiment also provides a circulating type liquid heating cooking device.

Referring to fig. 1 and 2, the circulation-type liquid heating cooking apparatus includes a cooking main unit 510 and the above-mentioned vacuumizer, and the connection structure 300 of the vacuumizer is detachably connected to the cooking main unit 510.

Since the vacuum extractor can be detachably connected to the cooking main unit 510 through the connection structure 300, in an application scenario where the cooking main unit 510 and the vacuum extractor are required to be used in cooperation, a user can take and place the cooking main unit 510 and the vacuum extractor at the same time, the vacuum extractor is taken off from the cooking main unit 510 only in a step where the vacuum extractor is required to be used, and the vacuum extractor is mounted on the cooking main unit 510 after the use. Thereby promoting the picking and placing efficiency of a user and reducing the loss of the vacuum extractor. It is understood that the cooking host 510 in this embodiment is a specific implementation form of the device host 500 in a cooking application scenario.

Referring to fig. 1-4, in an embodiment, the connecting structure 300 of the vacuum extractor is configured as a first magnetic member 310, the first magnetic member 310 is connected to a sidewall of the base 100, a second magnetic member 520 is disposed on a sidewall of the cooking host 510 facing the vacuum extractor and opposite to the first magnetic member 310, and the first magnetic member 310 and the second magnetic member 520 are magnetically coupled.

On the one hand, the user only needs to spend less effort to drive the first magnetic member 310 and the second magnetic member 520 to contact or separate, so that the vacuum extractor can be mounted and dismounted on the cooking host 510, and time and labor are saved. On the other hand, when the user installs the vacuum extractor, the first magnetic member 310 and the second magnetic member 520 can be automatically attracted and aligned, which is beneficial to improving the accuracy of the installation position of the vacuum extractor on the cooking host 510.

It is right to have used specific individual example above the utility model discloses expound, only be used for helping to understand the utility model discloses, not be used for the restriction the utility model discloses. To the technical field of the utility model technical personnel, the foundation the utility model discloses an idea can also be made a plurality of simple deductions, warp or replacement.

Claims (9)

1. An evacuation machine, comprising:

the base body is provided with a first side, a second side and a third side which are sequentially connected, the base body is provided with an accommodating cavity, the accommodating cavity is provided with an air inlet and an air outlet, and the air inlet and the air outlet are respectively positioned on the first side and the second side;

the air suction pump is arranged in the accommodating cavity, is communicated with the air inlet and the air outlet, and is used for sucking air from the air inlet and discharging the air from the air outlet to the accommodating cavity;

and the connecting structure is connected to the third side of the base body and is used for being detachably connected with the equipment host.

2. The vacuum extractor of claim 1, wherein the connecting structure is configured as a first magnetic member, the first magnetic member is connected to a sidewall of the base, and the first magnetic member is configured to magnetically engage with a second magnetic member on the device host.

3. The vacuum extractor of claim 2, wherein the sidewall of the base has a mounting groove, and the first magnetic member is mounted in the mounting groove.

4. The vacuum extractor according to claim 2, wherein the number of the first magnetic members is at least two, and the first magnetic members are arranged on the side wall of the base body along the axial direction of the base body.

5. The evacuator of claim 2, further comprising a cushion attached to a sidewall of the base and covering the first magnetic member.

6. The vacuum extractor of claim 5 wherein the sidewall of the base has a recess, the bumper pad is mounted in the recess, the recess has a mounting groove therein, and the first magnetic member is mounted in the mounting groove.

7. The vacuum extractor of claim 2, wherein the first magnetic member is in the shape of a strip and extends in the axial direction of the base.

8. A circulating liquid heating cooking apparatus comprising a cooking main and a vacuum extractor according to any one of claims 1 to 7, wherein the connection structure of the vacuum extractor is detachably connected to the cooking main.

9. The circulating liquid heating cooking apparatus of claim 8, wherein the connecting structure of the vacuum extractor is configured as a first magnetic member, the first magnetic member is connected to the sidewall of the base, a second magnetic member is disposed on the sidewall of the cooking main body facing the vacuum extractor, the second magnetic member is opposite to the first magnetic member, and the first magnetic member and the second magnetic member are magnetically engaged.

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