CN219438887U - Mixer with cavity structure gives sound insulation - Google Patents

Abstract

The utility model discloses a stirrer with a sound insulation cavity structure, which comprises a cabinet body, wherein a processing cavity and an exhaust port are arranged in the cabinet body, and the exhaust port is communicated with the processing cavity; the cooking cup is used for being arranged in the processing cavity, and a feeding port is formed in the top end of the cooking cup; the feeding port is used for corresponding to the exhaust port after the cooking cup is placed in the processing cavity; the plugging assembly comprises a plugging piece and a sealing piece, wherein an exhaust channel is arranged in the plugging piece, one end of the plugging piece is formed into a first plugging end, the other end of the plugging piece is formed into a second plugging end, and the second plugging end is used for penetrating and sealing the feeding hole through the exhaust port when the feeding hole corresponds to the exhaust port so as to enable the first plugging end to be plugged at the exhaust port; and an exhaust hole communicated with the exhaust channel is formed in the first blocking end. The stirrer with the sound insulation cavity structure can be used for placing a cooking cup into a processing cavity of a cabinet body for processing when food materials are processed, and is matched with a plugging component for plugging, so that sound insulation and noise reduction are realized.

Description

Mixer with cavity structure gives sound insulation

Technical Field

The utility model relates to the technical field of household appliances, in particular to a stirrer with a sound insulation cavity structure.

Background

At present, a stirrer is generally used for preparing food processing equipment such as fruit and vegetable, infant complementary food and the like, and is mainly realized by driving a processing knife to rotate through a motor. However, in the conventional stirrer, when the rotation speed of the motor is high, the rotation speed of the processing blade is also high, and thus noise generated during the operation is also relatively large.

Disclosure of Invention

In order to overcome the defects of the prior art, the utility model aims to provide the stirrer with the sound insulation cavity structure, which can be used for placing a cooking cup into a processing cavity of a cabinet body for processing during food processing, and is matched with a plugging component for plugging, so that sound insulation and noise reduction are realized.

The utility model adopts the following technical scheme:

a stirrer with a sound insulation cavity structure, which comprises,

the cabinet body is internally provided with a processing cavity and an exhaust port, and the exhaust port is communicated with the processing cavity;

the cooking cup is used for being arranged in the processing cavity, and a feeding port is formed in the top end of the cooking cup; the feeding port is used for corresponding to the exhaust port after the cooking cup is placed in the processing cavity;

the plugging assembly comprises a plugging piece and a sealing piece, wherein an exhaust channel is formed in the plugging piece, one end of the plugging piece is formed into a first plugging end, the other end of the plugging piece is formed into a second plugging end, and the second plugging end is used for penetrating and sealing the feeding hole through the exhaust port when the feeding hole corresponds to the exhaust port so as to enable the first plugging end to be plugged in the exhaust port; and an exhaust hole communicated with the exhaust channel is formed in the first blocking end.

Further, the second blocking end is provided with an air inlet communicated with the exhaust channel, the air inlet is provided with a sealing sheet, the sealing sheet is sealed and blocked in the air inlet, and the sealing sheet is used for being pressed by air pressure in the cooking cup so as to open the air inlet.

Further, the periphery cover of second shutoff end is equipped with the sealing block, the sealing block is used for sealing in the periphery edge of feed inlet when the shutoff of second shutoff end in the feed inlet.

Further, a cover plate is covered on the first blocking end, and a plurality of exhaust holes are formed in the cover plate.

Further, a movable cavity is formed in the top end of the cabinet body, a linkage rod is rotatably arranged in the movable cavity, a pressed end is arranged at one end of the linkage rod, a connecting end is arranged at the other end of the linkage rod, the pressed end penetrates through the exhaust port, and the pressed end is used for being pressed by the first blocking end when the first blocking end is blocked in the exhaust port so as to drive the connecting end to move upwards;

the cabinet body is provided with a picking and placing opening and a cabinet door, the cabinet door is rotatably arranged on the cabinet body and is closed or opened in the rotating process, the cabinet door is provided with a connecting part, and the connecting part is used for extending into the movable cavity after the cabinet door closes the picking and placing opening; the connecting part is used for being detachably connected with the connecting end after the connecting end moves upwards.

Further, the connecting end is provided with a first clamping hook, the connecting part is a second clamping hook, and the second clamping hook is used for being clamped with the first clamping hook.

Further, the pressure receiving end is provided with a pressure receiving column, and the pressure receiving column extends out of the air outlet from the movable cavity.

Further, the cooking cup comprises a cup body and a cup seat, wherein the cup body is detachably connected to the cup seat, the cup seat is provided with the processing knife assembly, and the processing knife assembly is used for extending into the cup body after being mounted on the cup seat; the cutter shaft of the processing cutter assembly extends out of the cup seat;

the bottom wall of the processing cavity is provided with a coupler, the bottom end of the cabinet body is provided with a driving piece, and a driving shaft of the driving piece is connected with the coupler; and the cutter shaft of the machining cutter assembly is used for being detachably connected with the coupler.

Compared with the prior art, the utility model has the beneficial effects that: when the food material processing is carried out, the food material can be put into the cooking cup through the putting opening, the cooking cup is put into the processing cavity, then the second blocking end of the blocking piece can be blocked at the feeding opening of the cooking cup, the first blocking end is blocked at the exhaust opening, and in the processing process, generated noise is blocked by the cabinet body and the blocking piece, so that sound insulation and noise reduction are realized. In addition, in the course of working, the inside gas of cooking cup can be discharged by the exhaust hole through the exhaust passage, realizes the exhaust pressurize.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic diagram of another state structure of the present utility model;

FIG. 3 is a cross-sectional view of the present utility model;

FIG. 4 is a schematic structural view of a closure assembly of the present utility model;

fig. 5 is a schematic structural view of the cabinet of the present utility model.

In the figure: 10. a cabinet body; 11. a cabinet door; 111. a second hook; 12. a processing chamber; 13. a movable cavity; 14. a coupling; 15. an exhaust port; 21. a blocking member; 211. an exhaust hole; 212. a cover plate; 213. an exhaust passage; 214. an air inlet; 215. a sealing sheet; 22. a linkage rod; 221. a first hook; 222. a compression column; 30. a cooking cup; 31. a cup body; 32. a cup holder; 33. a machining knife assembly; 40. a driving member.

Detailed Description

The utility model will be further described with reference to the accompanying drawings and detailed description below:

in the description of the present utility model, it should be noted that the terms "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, merely to facilitate description of the present utility model and simplify the description, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this utility model belongs. The terminology used herein in the description of the utility model is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model.

The stirrer with the sound insulation cavity structure shown in fig. 1-5 comprises a cabinet body 10, a cooking cup 30 and a plugging assembly, wherein a processing cavity 12 and an exhaust port 15 are arranged in the cabinet body 10, and the exhaust port 15 is communicated with the processing cavity 12. Above-mentioned cooking cup 30 can install at processing chamber 12, is equipped with gas vent 15 at the top of cooking cup 30, and after cooking cup 30 put into processing chamber 12, the input mouth at cooking cup 30 top can be corresponding to and link up with gas vent 15.

Specifically, the plugging assembly includes a plugging member 21 and a sealing piece 215, wherein an exhaust channel 213 is provided in the plugging member 21, one end of the plugging member 21 is formed into a first plugging end, and the other end of the plugging member 21 is formed into a second plugging end. During assembly, the processing chamber 12 is placed into the processing cup 30, the material inlet corresponds to the air outlet 15, and the second blocking end can penetrate through the air outlet 15 and be blocked at the material inlet in a sealing manner, so that the first blocking end is blocked at the air outlet 15. Further, an exhaust hole 211 is provided at the first plugging end, and the exhaust hole 211 penetrates the exhaust passage 213.

On the basis of the structure, when the stirrer with the sound insulation cavity structure is used, food materials can be put into the cooking cup 30 through the putting opening when the food materials are processed, the cooking cup 30 is put into the processing cavity 12, then the second blocking end of the blocking piece 21 can be blocked at the feeding opening of the cooking cup 30, the first blocking end is blocked at the air outlet 15, and noise generated in the processing process is blocked by the cabinet 10 and the blocking piece, so that sound insulation and noise reduction are realized.

Since the inside of the cuisine cup 30 may be heated or pressurized by the high-speed rotation of the processing knife assembly 33 during the processing, i.e., the gas inside the cuisine cup 30 may be discharged to the outside of the cabinet 10 through the exhaust hole 211 via the exhaust channel 213 during the processing, thereby realizing the exhaust pressure maintaining.

Further, an air inlet 214 may be provided at the second sealing end, the air inlet 214 may be communicated with the air exhaust channel 213, and a sealing sheet 215 may be provided at the air inlet 214, and the sealing sheet 215 may be sealed and sealed to the air inlet 214. Specifically, when the food material is just processed, the sealing sheet 215 may seal the air inlet 214, and at this time, the air exhaust channel 213 is not electrically connected to the outside of the cabinet 10, so as to prevent the external impurities from entering through the air exhaust port 15 to cause pollution.

When the cup 30 starts to rotate at a high speed and is pressurized, when the pressure in the cup body rises, the sealing piece 215 is used for being pressed by the air pressure in the cup 30, the air inlet 214 is opened, the air in the cup 30 can enter the air exhaust channel 213 through the air inlet 214, and is guided to the air exhaust hole 211 through the air exhaust channel 213 to exhaust the air, namely, the air can be exhausted under a certain pressure, so that the pressure maintaining effect can be achieved.

It should be noted that, the sealing sheet 215 may be made of silica gel or rubber material in the prior art, so as to facilitate sealing. And when the air pressure in the cooking cup 30 is discharged, the air pressure is insufficient to push the sealing sheet 215, and the sealing sheet 215 can fall back and reset under the action of self gravity.

Further, a sealing block can be sleeved on the periphery of the second sealing end, and specifically, the sealing block can be sealed on the periphery of the feeding port when the second sealing end is sealed on the feeding port. Specifically, when carrying out food processing action, cooking cup 30 is put into processing chamber 12, and the feed opening of cooking cup 30 corresponds with gas vent 15, then the second shutoff end of shutoff piece 21 can get into processing chamber 12 through gas vent 15 to the shutoff is at the feed opening of cooking cup 30, and at this moment, the sealing block of second shutoff end alright seal at the periphery edge of feed opening, seal at the periphery of feed opening, further give sound insulation and fall and make an uproar.

Further, a cover plate 212 may be further capped on the first plugging end, a plurality of exhaust holes 211 are provided on the cover plate 212, specifically, the cover plate 212 may be capped on the first plugging end of the plugging member 21 in a fastening or screw-thread assembling manner, and the cover plate 212 is provided with the plurality of exhaust holes 211 for exhausting.

Of course, the vent hole 211 may be directly formed at the first plugging end, and the vent hole 211 may be cleaned after plugging the entire plugging member 21, which is inconvenient.

Further, a movable cavity 13 may be further provided at the top end of the cabinet body 10, a linkage rod 22 is rotatably installed in the movable cavity 13, one end of the specific linkage rod 22 is provided with a pressed end, and the other end of the linkage rod 22 is provided with a connecting end. The pressure receiving end is communicated with the air outlet 15, and the pressure receiving end can be pressed by the first blocking end when the first blocking end is blocked at the air outlet 15, so as to drive the connecting end to move upwards.

In addition, be equipped with on the cabinet body 10 and get and put mouthful and cabinet door 11, install cabinet door 11 rotatable on the cabinet body 10, cabinet door 11 can be at the rotation in-process closure or open and get and put the mouth. The cabinet door 11 is provided with a connecting part, the connecting part can extend into the movable cavity 13 after the cabinet door 11 seals the taking and placing opening, and the connecting part can be detachably connected with the connecting end after the connecting end moves upwards.

On the basis of the structure, when food materials are processed, the food materials can be placed into the cooking cup 30 through the feeding port, then the cooking cup 30 is placed into the processing cavity 12 through the taking and placing port, and the feeding port of the cooking cup 30 corresponds to the exhaust port 15. Then the cabinet door 11 is rotated towards the picking and placing opening, and the picking and placing opening can be closed by the cabinet door 11. At this time, the connection part of the cabinet door 11 can extend into the movable cavity 13.

Then, the second blocking end of the blocking piece 21 enters the processing cavity 12 through the air outlet 15 to guide the first blocking end to block the air outlet 15, at this time, the first blocking end can push down and extend into the pressed end of the air outlet 15, the pressed end moves downward when being pressed, thereby driving the connecting end at the other end of the linkage rod 22 to move upward to be connected with the connecting part extending into the movable cavity 13, at this time, the cabinet door 11 can keep a stable closed state under the limitation of the connecting end.

Of course, after the processing of the food material is completed, the blocking piece 21 can be taken out from the air outlet 15, the pressure receiving end of the linkage rod 22 has no pressing force, and the connecting end of the linkage rod 22 can fall back under the self gravity to be separated from the connecting end. Then the cabinet door 11 is opened, the connecting end can withdraw from the movable cavity 13, and the opening of the taking and placing port is completed.

In this embodiment, the first hook 221 may be disposed at the connection end, and the corresponding connection portion is the second hook 111, that is, the first hook 221 may be disposed on the linkage rod 22, and the second hook 111 may be disposed on the cabinet door 11 correspondingly, when the cabinet door 11 is closed, the second hook 111 on the cabinet door 11 may extend into the movable cavity 13, and thereafter, the pressed end of the linkage rod 22 moves downward under the action of the top pressure of the first blocking end, so that the first hook 221 of the connection end may be linked to move upward, and the clamping connection with the second hook 111 may be realized.

The connecting end can be a magnet, and the corresponding connecting part can be a magnet structure magnetically matched with the magnet. In addition, the connecting end and the connecting part can also be detachably connected by adopting structures such as clamping grooves, clamping blocks or clamping grooves, elastic pins and the like, and the connecting end and the connecting part are specifically selected according to actual needs.

Further, the pressure receiving end may be further provided with a pressure receiving column 222, and the pressure receiving column 222 extends out of the air outlet 15 from the movable cavity 13, so that the first plugging end can directly push against the pressure receiving column 222 after plugging the air outlet 15, that is, the pressure receiving end does not need to integrally extend into the air outlet 15, and only the pressure receiving column 222 is required to extend into the air outlet 15, thereby reducing the occupied space of the pressure receiving end at the air outlet 15.

Further, the cooking cup 30 in this embodiment includes a cup body and a cup seat 32, the cup body is detachably connected to the cup seat 32, and the cup seat 32 is provided with a processing knife assembly 33, and the specific cup body and the cup seat 32 may be assembled by threads or be assembled by snap-in, so that the cup body and the cup seat 32 are convenient to detach and be cleaned independently.

Specifically, the machining tool assembly 33 may be mounted on the cup holder 32, and the machining tool assembly 33 may include a cutter shaft and a plurality of blades mounted on the cutter shaft and spaced apart in a circumferential direction of the cutter shaft. Then the processing cutter assembly 33 extends into the cup body after the cup body is mounted on the cup seat 32, and a cutter shaft of the processing cutter assembly 33 extends out of the cup seat;

the bottom wall of the processing cavity 12 is provided with a coupling 14, the cutter shaft of the processing cutter assembly 33 can be detachably connected with the coupling 14 after the cup holder 32 is placed in the processing cavity 12, the bottom end of the cabinet 10 is provided with a driving piece 40, and the driving shaft of the driving piece 40 is connected with the coupling 14.

Thus, when food processing is performed, the cup body and the cup seat 32 can be assembled, then food is put into the cup body, the cup seat 32 and the whole cup body can be installed into the processing cavity 12, the end part of the cutter shaft of the processing cutter assembly 33, which extends out of the cup seat 32, can be inserted into the coupling 14, meanwhile, the cup seat 32 can be propped against the pressed part of the linkage rod 22, the pressed part of the linkage rod 22 can be pressed to drive the connecting end to move downwards, and the blocking piece 21 is driven to be blocked at the feeding hole.

After that, the driving member 40 is started, the driving shaft of the driving member 40 can drive the cutter shaft of the processing cutter assembly 33 to rotate through the coupling 14, and the cutter shaft can drive the plurality of blades to rotate to process food in the cup body.

Because the driving piece 40 is arranged on the cabinet body 10, when the cooking cup 30 is taken and placed, the driving piece 40 is not required to be arranged in the cooking cup 30, so that the structure of the cup body 31 of the cooking cup 30 is lightened, and the cooking cup is convenient for a person to take and place by hand. And when cleaning cooking cup 30, can not flow in the driving piece 40 because of cooking cup 30 cleaning process water and cause driving piece 40 to damage, improve life.

It will be apparent to those skilled in the art from this disclosure that various other changes and modifications can be made which are within the scope of the utility model as defined in the appended claims.

Claims (8)

1. A stirrer with a sound insulation cavity structure is characterized by comprising,

the cabinet body is internally provided with a processing cavity and an exhaust port, and the exhaust port is communicated with the processing cavity;

the cooking cup is used for being arranged in the processing cavity, and a feeding port is formed in the top end of the cooking cup; the feeding port is used for corresponding to the exhaust port after the cooking cup is placed in the processing cavity;

the plugging assembly comprises a plugging piece and a sealing piece, wherein an exhaust channel is formed in the plugging piece, one end of the plugging piece is formed into a first plugging end, the other end of the plugging piece is formed into a second plugging end, and the second plugging end is used for penetrating and sealing the feeding hole through the exhaust port when the feeding hole corresponds to the exhaust port so as to enable the first plugging end to be plugged in the exhaust port; and an exhaust hole communicated with the exhaust channel is formed in the first blocking end.

2. The mixer with the sound insulation cavity structure as set forth in claim 1, wherein the second blocking end is provided with an air inlet communicated with the exhaust passage, the air inlet is provided with a sealing piece, the sealing piece is blocked in the air inlet in a sealing way, and the sealing piece is used for being pressed by air pressure in the cooking cup so as to open the air inlet.

3. The mixer with the sound insulation cavity structure as set forth in claim 1, wherein the outer periphery of the second plugging end is sleeved with a sealing block, and the sealing block is used for sealing the outer periphery of the feed port when the second plugging end is plugged in the feed port.

4. The mixer with the sound insulation cavity structure as set forth in claim 1, wherein the first blocking end is covered with a cover plate, and a plurality of the exhaust holes are arranged on the cover plate.

5. The mixer with the sound insulation cavity structure according to any one of claims 1-4, wherein a movable cavity is arranged at the top end of the cabinet body, a linkage rod is rotatably arranged in the movable cavity, one end of the linkage rod is provided with a pressure end, the other end of the linkage rod is provided with a connecting end, the pressure end penetrates through the exhaust port, and the pressure end is used for being pressed by the first blocking end when the first blocking end is blocked at the exhaust port so as to drive the connecting end to move upwards;

the cabinet body is provided with a picking and placing opening and a cabinet door, the cabinet door is rotatably arranged on the cabinet body and is closed or opened in the rotating process, the cabinet door is provided with a connecting part, and the connecting part is used for extending into the movable cavity after the cabinet door closes the picking and placing opening; the connecting part is used for being detachably connected with the connecting end after the connecting end moves upwards.

6. The mixer with sound insulation cavity structure as set forth in claim 5, wherein the connecting end is provided with a first hook, the connecting portion is a second hook, and the second hook is used for being clamped with the first hook.

7. A mixer with sound-insulating cavity structure as set forth in claim 5, wherein said pressure-receiving end is provided with a pressure-receiving post, said pressure-receiving post extending from said movable cavity to said air outlet.

8. A mixer with sound-proof cavity structure as claimed in any one of claims 1 to 4, wherein said cooking cup comprises a cup body and a cup holder, said cup body being detachably connected to said cup holder, said cup holder being provided with a processing knife assembly for extending into said cup body after said cup body is mounted to said cup holder; the cutter shaft of the processing cutter assembly extends out of the cup seat;

the bottom wall of the processing cavity is provided with a coupler, the bottom end of the cabinet body is provided with a driving piece, and a driving shaft of the driving piece is connected with the coupler; and the cutter shaft of the machining cutter assembly is used for being detachably connected with the coupler.