CN219353713U - Throw automatic extending structure of material lid and cabinet mixer - Google Patents

Abstract

The utility model discloses an automatic telescopic structure of a feeding cover and a cabinet stirrer, which comprises a cover plate, wherein a plugging opening is arranged on the cover plate; the plugging piece is connected to the plugging port in a penetrating way and can move up and down along the height direction of the plugging port; the linkage mechanism comprises a linkage rod, a pressing piece and a pressure receiving piece, wherein one end of the linkage rod is formed into a driving end, the other end of the linkage rod is formed into a connecting end, the connecting end is connected with the pressing piece, and the pressure receiving piece is connected with the plugging piece; the driving end is used for driving the connecting end to move close to or far away from the pressed piece under the action of external force, and the propping piece is used for propping the pressed piece after the connecting end moves close to the pressed piece so as to drive the plugging piece to move downwards. The cabinet type stirrer comprises an automatic telescopic structure of a feeding cover, a cabinet body and a cooking cup. The utility model can be used for sealing household appliances such as cooking cups and the like to realize noise reduction.

Description

Throw automatic extending structure of material lid and cabinet mixer

Technical Field

The utility model relates to the technical field of household appliances, in particular to an automatic telescopic structure of a feeding cover and a cabinet stirrer.

Background

At present, the existing household motors for processing food materials such as a stirrer, a juicer and the like are generally realized by driving a processing knife to rotate through the motor. However, in the course of the work, because the motor drives the blade to rotate, rotate the in-process high-speed rotation, collide with food cutting, can produce great noise, and the motor work also can produce great noise simultaneously, and then influences user experience.

Disclosure of Invention

In order to overcome the defects in the prior art, one of the purposes of the utility model is to provide an automatic telescopic structure of a feeding cover, which can be used for sealing household appliances such as a cooking cup and the like to realize noise reduction.

The second purpose of the utility model is to provide a cabinet type stirrer, in the processing process, a cooking cup can be placed in a processing cavity of a cabinet body, and then a material inlet is plugged through a plugging piece on a cover plate, so that sound insulation and noise reduction are realized.

One of the purposes of the utility model is realized by adopting the following technical scheme:

the automatic telescopic structure of the feeding cover comprises,

the cover plate is provided with a plugging opening;

the plugging piece is connected to the plugging port in a penetrating way and can move up and down along the height direction of the plugging port;

the linkage mechanism comprises a linkage rod, a pressing piece and a pressure receiving piece, wherein one end of the linkage rod is formed into a driving end, the other end of the linkage rod is formed into a connecting end, the connecting end is connected with the pressing piece, and the pressure receiving piece is connected with the plugging piece; the driving end is used for driving the connecting end to move close to or far away from the pressed piece under the action of external force, and the propping piece is used for propping the pressed piece after the connecting end moves close to the pressed piece so as to drive the plugging piece to move downwards.

Further, the automatic telescopic structure of the feeding cover further comprises a push plate, the push plate is hinged to the cover plate, the push plate is connected with the driving end, and the push plate is used for driving the driving end to move in the rotating process so as to drive the connecting end to move close to or far away from the pressed piece.

Further, a pressing inclined plane is arranged on the pressing piece, and the pressing inclined plane is in sliding fit with the pressing inclined plane.

Further, the propping piece is arranged on the periphery of the pressure receiving piece in a surrounding mode; the two sides of the pressing piece are provided with the pressing inclined planes; the two sides of the pressure receiving piece are provided with pressure receiving rods, and the pressure receiving inclined surfaces are arranged on the pressure receiving rods.

Further, the pressed piece is provided with a collar, and the collar is sleeved outside the plugging piece and connected with the plugging piece; the compression bars are arranged on two sides of the lantern ring.

Further, an assembly space is formed between the outer wall of the plugging piece and the inner wall of the lantern ring; an elastic component is arranged in the assembly interval and is used for being compressed when the pressed piece is pressed.

Further, an exhaust channel is arranged in the plugging piece, and an exhaust hole is formed in the top end of the exhaust channel; and an air inlet is arranged at the bottom end of the exhaust channel.

Further, a sealing piece is arranged in the exhaust channel and is sealed and covered on the air inlet, and the sealing piece is used for being pressed by the air and being far away from the air inlet when the air inlet is in air inlet so as to open the air inlet.

Further, the periphery of the bottom end of the plugging piece is also sleeved with sealant.

The second purpose of the utility model is realized by adopting the following technical scheme:

the cabinet type stirrer comprises an automatic telescopic structure of a feeding cover, a cabinet body and a cooking cup, wherein the cabinet body is provided with a processing cavity, a taking and placing port and a cabinet door, the cover plate is covered at the top end of the processing cavity, the cabinet door is rotatably arranged on the cabinet body, and the driving end is connected with the cabinet door and is used for driving the connecting end to move close to or far away from the pressed piece in the rotation process of the cabinet door; the food cup is provided with a feed port, and the pressed piece is used for driving the blocking piece to move downwards after being pressed so as to block the feed port.

Compared with the prior art, the utility model has the beneficial effects that:

1. the automatic telescopic structure of the feeding cover can be used at the cup mouth of a cooking cup such as a cooking machine, a complementary food machine or a stirrer, then the connecting end of a linkage rod on the automatic telescopic structure of the feeding cover moves close to a pressed piece, at the moment, the pressed piece can be driven to move downwards by a pressing piece connected with the connecting end, a blocking piece is driven to move downwards, the blocking piece is blocked at the cup mouth of the cooking cup, and sound insulation and noise reduction are realized at the cup mouth.

2. The processing chamber top closing cap of the cabinet body is above-mentioned apron, places cooking cup in the processing intracavity, closes getting of processing chamber through the cabinet door and puts the mouth, and the link of the link rod on the linkage apron is close to the pressurized piece motion, orders about the shutoff piece downstream shutoff at the material throwing mouth of cooking cup, and the shutoff piece can be so that alright realize making an uproar falls in the material throwing mouth of cooking cup that gives sound insulation, cooperates the cooking cup to process the action in the internal portion of cabinet, realizes making an uproar falls in the whole working process of cooking cup that gives sound insulation.

Drawings

FIG. 1 is a schematic structural view of an automatic telescopic structure of a feeding cover of the utility model;

FIG. 2 is a schematic view of an automatic telescopic structure of a feeding cap according to another embodiment of the present utility model;

FIG. 3 is a cross-sectional view of the automatic telescoping structure of the feeder cap of the present utility model;

FIG. 4 is a schematic view of a part of the automatic telescopic structure of the feeding cover of the present utility model;

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

In the figure: 10. a cover plate; 11. sealing the opening; 21. an exhaust cover; 211. an exhaust hole; 22. a blocking member; 221. a sealing sheet; 222. sealing glue; 223. an exhaust passage; 224. an air inlet; 23. an elastic member; 24. a pressure receiving member; 241. a pressed inclined plane; 25. a linkage rod; 26. a pressing piece; 261. pressing the inclined plane; 30. a push plate; 40. a cabinet body; 41. a processing chamber; 50. and (5) cooking the cup.

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 automatic telescopic structure of the feeding cover as shown in fig. 1-4 comprises a cover plate 10, a blocking piece 22 and a linkage mechanism, wherein a blocking opening 11 is arranged on the cover plate 10, the blocking piece 22 can be connected to the blocking opening 11 in a penetrating manner, and the blocking piece 22 can move up and down along the height direction of the blocking opening 11.

The linkage mechanism comprises a linkage rod 25, a pressing piece 26 and a pressure receiving piece 24, one end of the linkage rod 25 is formed into a driving end, the other end of the linkage rod 25 is formed into a connecting end, the specific connecting end is connected with the pressing piece 26, and the pressure receiving piece 24 is connected with the plugging piece 22. The driving end can drive the connecting end to move close to or far away from the pressure receiving piece 24 under the action of external force, and after the connecting end moves close to the pressure receiving piece 24, the pressing piece 26 can press the pressure receiving piece 24 to drive the plugging piece 22 to move downwards.

Based on the above structure, when the automatic telescopic structure of the feeding cover is used, the automatic telescopic structure of the feeding cover can be used at the cup mouth position of the cooking cup 50 of a cooking machine, a complementary food machine or a stirrer, and the like, and as household appliances such as the cooking machine, the complementary food machine or the stirrer, and the like, generally, different processing of food materials is carried out in the cooking cup 50 through a processing knife rotating at a high speed, and the plugging piece 22 of the automatic telescopic structure of the feeding cover can be plugged at the cup mouth position of the cooking cup 50, and sound insulation and noise reduction are carried out at the cup mouth position.

In particular, taking the automatic telescopic structure of the feeding cover as an example of being applied to a stirrer,

the food cup 50 of the stirrer is provided with the feeding hole, food materials can be put into the food cup 50 of the stirrer through the feeding hole, the food cup 50 of the stirrer can be placed below the cover plate 10 during food material processing, after that, the driving end of the linkage rod 25 is driven by external force to move close to the pressure receiving piece 24, so that the connecting end of the other end of the linkage rod 25 is close to the pressure receiving piece 24, the pressure pushing piece 26 connected with the connecting end moves close to the pressure receiving piece 24, the pressure pushing piece 26 can push the pressure receiving piece 24, the pressure receiving piece 24 moves downwards after being pressed, the sealing piece 22 can be driven to move downwards, the sealing is at the position of the feeding hole of the food cup 50, and sound insulation and noise reduction are realized at the feeding hole of the food cup 50.

Further, in this embodiment, the automatic telescopic structure of the feeding cover further includes a push plate 30, the push plate 30 is hinged on the cover plate 10, and connects the push plate 30 with the driving end, and the push plate 30 can drive the driving end to move during rotation, so as to drive the connecting end to move close to or away from the pressure receiving member 24.

Thus, when the plugging piece 22 is driven to move downwards, the pushing plate 30 can be far away from the cover plate 10 to rotate, so that the pushing plate 30 can pull the driving end of the linkage rod 25 to be far away from the pressure receiving piece 24, the connecting end of the linkage rod 25 can be far away from the pressure receiving piece 24, the pressure receiving piece 26 connected with the connecting end can be far away from the pressure receiving piece 24, and the pressure receiving piece 24 loses the acting force of the pressure receiving piece 26 and can move upwards.

When the plugging action is performed, the pushing plate 30 can be close to the cover plate 10 for rotation, so that the pushing plate 30 can push the driving end of the linkage rod 25 to be close to the pressure receiving piece 24, the connecting end of the linkage rod 25 can be close to the pressure receiving piece 24, the pressure receiving piece 26 connected with the connecting end can press the pressure receiving piece 24, the pressure receiving piece 24 can drive the plugging piece 22 to move downwards, the plugging is completed, and the sound insulation and the noise reduction are realized.

It should be noted that, in this embodiment, the push-pull of the linkage rod 25 can be realized by the rotation of the push plate 30, so that the operation is convenient. In other cases, the linkage rod 25 may be pushed and pulled manually or an external driving structure may be used to push and pull the linkage rod 25.

In addition, in this embodiment, a movable cavity may be disposed inside the cover plate 10, and the linkage mechanisms such as the linkage rod 25 and the pressing member 26 are all installed in the movable cavity, and the driving end of the linkage rod 25 may extend out from the movable cavity, so as to facilitate connection with the push plate 30 or manual pushing. When the driving structure is selected to push and pull the linkage rod 25, the driving structure can be installed in the movable cavity, and the driving structure is specifically selected according to actual needs.

Further, a pressing inclined surface 261 may be further provided on the pressing member 26, a pressing inclined surface 241 is correspondingly provided on the pressing member 24, and the pressing inclined surface 261 is slidably matched with the pressing inclined surface 241, so that when the pressing member 26 moves close to the pressing member 24, the pressing inclined surface 261 on the pressing member 26 can decompose the transverse thrust into downward pressing force to drive the pressing member 24 to move downward.

Of course, an arc surface or a sphere may be provided on the pressing member 26 to perform the pressing operation on the pressing member 24, and the force may be decomposed.

Further, in order to equalize the stress of the pressure receiving member 24, the pressing member 26 may be enclosed on the periphery of the pressure receiving member 24, and pressing inclined planes 261 are correspondingly disposed on both sides of the pressing member 26; both sides of the pressure receiving member 24 are provided with pressure receiving rods, and pressure receiving inclined surfaces 241 are provided on the pressure receiving rods. On the basis of the structure, when the connecting end of the linkage rod 25 moves close to the pressure receiving piece 24, two sides of the pressing piece 26 can simultaneously approach to the pressure receiving piece 24, and thereafter, the pressing inclined surfaces 261 on two sides of the pressing piece 26 can simultaneously be in sliding fit with the pressing inclined surfaces 241 on two sides of the pressure receiving piece 24, namely, two sides of the pressure receiving piece 24 can be pressed to move downwards, so that the downward movement process of the blocking piece 22 is stable.

More specifically, the compression member 24 is provided with a collar, the collar is sleeved outside the plugging member 22, and the collar can be connected with the plugging member 22; both sides of the lantern ring are provided with compression bars. Based on the structure, the assembly of the plugging piece 22 and the compression piece 24 can be selected as a set, and the whole volume of the plugging piece 22 after the assembly is smaller, so that the space occupied by the plugging opening 11 is smaller.

Further, the space between the outer wall of the blocking member 22 and the inner wall of the collar forms an assembly space, and based on this structure, an elastic member 23 may be provided in the assembly space, and the elastic member 23 may be compressed when the pressure member 24 is pressed, that is, when the pressure member 24 is pressed against, the blocking member 22 moves downward, and the elastic member 23 may be compressed. After that, when the plugging piece 22 is reset, the pressing piece 26 is far away from the pressure receiving piece 24, the pressure receiving piece 24 is not limited by the pressing force, the elastic component 23 can be reset, and at the moment, the elastic stress provided by the elastic component 23 can drive the pressure receiving piece 24 to move upwards, so that the plugging piece 22 is driven to move upwards.

In the case where the elastic member 23 is not provided, the pressure receiving member 24 may be reset after the pressure receiving member 26 is separated from the pressure receiving member 24, and the pressure receiving member 24 may not have a restriction of the pressure, so that the closure member 22 may be reset manually.

Further, specifically, an exhaust passage 223 is provided in the blocking member 22, an exhaust hole 211 is provided at the top end of the exhaust passage 223, and an intake port 224 is provided at the bottom end of the exhaust passage 223. Because the inside of the cuisine cup 50 may be heated or pressurized by the high-speed rotation of the processing knife assembly during the processing, i.e., the gas inside the cuisine cup 50 may be discharged from the exhaust hole 211 through the exhaust passage 223 during the processing, thereby realizing the exhaust pressure maintaining.

The top end of the plugging member 22 may be capped with the air discharge cap 21, the air discharge cap 21 may be provided with a plurality of air discharge holes 211, specifically, the air discharge cap 21 may be capped on the top end of the plugging member 22 in a fastening or screw-fitting manner, and the air discharge cap 21 may be provided with a plurality of air discharge holes 211 to discharge air.

Further, a sealing plate 221 may be disposed in the exhaust passage 223, and the sealing plate 221 seals the air inlet 224, and the sealing plate 221 may be pressed by the air to be away from the air inlet 224 when the air inlet 224 is in air intake, so as to open the air inlet 224. Specifically, when the food material is just processed, the sealing piece 221 can be plugged at the air inlet 224, and at this time, the air outlet 223 is not conducted with the outside of the cabinet 40, so as to prevent the external impurities from entering through the air outlet to cause pollution.

When the cup 50 starts to rotate at a high speed and is pressurized, when the pressure in the cup body rises, the sealing piece 221 is used for being pressed by the air pressure in the cup 50, the air inlet 224 is opened, the air in the cup 50 can enter the air outlet channel 223 through the air inlet 224, and is guided to the air outlet 211 through the air outlet channel 223 to be discharged, namely, a certain pressure is needed for discharging, so that the cup can also play a role in maintaining pressure.

It should be noted that, the sealing piece 221 may be made of a silicone or rubber material in the prior art, so as to facilitate sealing. And when the air pressure in the cooking cup 50 is discharged, the air pressure is insufficient to press the sealing piece 221, and the sealing piece 221 can fall back and reset under the action of self gravity.

Further, a sealing block may be sleeved on the periphery of the plugging member 22, and specifically, the sealing block may be sealed at the periphery of the feed port when the plugging member 22 is plugged at the feed port. Specifically, when the food processing action is performed, the sealing block at the bottom end of the plugging piece 22 can be sealed at the peripheral edge of the feeding port, and the periphery of the feeding port is sealed, so that further sound insulation and noise reduction are performed.

In the case of example 2,

the cabinet mixer shown in fig. 1-5 comprises an automatic telescopic structure of a feeding cover and a cabinet body 40 in embodiment 1, wherein the cabinet body 40 is provided with a processing cavity 41, a picking and placing port and a cabinet door, a cover plate 10 is covered at the top end of the processing cavity 41 and is connected with the cabinet body 40, and specifically, the cabinet mixer can be detachably connected with the cabinet body 40 through a connecting piece such as a bolt or a rivet, and can also be directly fixed in an adhesive mode.

The cabinet door is rotatably arranged on the cabinet body 40, and on the basis of the structure with the cabinet door, the driving end of the automatic telescopic structure of the feeding cover is connected with the cabinet door, so that the cabinet door can pull the linkage rod 25 to link in the rotation process of the cabinet door, and the connecting end can be driven to move close to or away from the pressure receiving piece 24.

On the basis of the structure, when the novel kitchen ware is used, the top end of the processing cavity 41 of the cabinet body 40 can be covered with the embodiment 1, the cooking cup 50 can be placed into the processing cavity 41 through the taking and placing opening on the cabinet body 40, the taking and placing opening of the processing cavity 41 is closed through the cabinet door, the connecting end of the linkage rod 25 on the linkage cover plate 10 moves close to the pressure receiving piece 24, the blocking piece 22 is driven to move downwards to block the feeding opening of the cooking cup 50, the blocking piece 22 can realize sound insulation and noise reduction at the feeding opening of the cooking cup 50, the cooking cup 50 is matched with the processing action inside the cabinet body 40, and the whole working process of the cooking cup 50 is soundproof and noise reduction.

It should be noted that, when the automatic telescopic structure of the feeding cover comprises a push plate 30 structure, the push plate 30 can be arranged at the top end of a cabinet door, and the push plate 30 is linked with the cabinet door in the process of rotating the cabinet door, so that the blocking piece 22 can be downwards moved through opening or closing the cabinet door, the blocking of the feeding opening of the cooking cup by the blocking piece can be completed through closing the cabinet door, synchronous linkage is realized, and the operation is more flexible. When the cabinet door is opened, the linkage rod is pulled away from the pressure receiving piece, and the pressure receiving piece loses the jacking force, so that the plugging piece is convenient to reset.

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 (10)

1. An automatic telescopic structure of a feeding cover is characterized by comprising,

the cover plate is provided with a plugging opening;

the plugging piece is connected to the plugging port in a penetrating way and can move up and down along the height direction of the plugging port;

the linkage mechanism comprises a linkage rod, a pressing piece and a pressure receiving piece, wherein one end of the linkage rod is formed into a driving end, the other end of the linkage rod is formed into a connecting end, the connecting end is connected with the pressing piece, and the pressure receiving piece is connected with the plugging piece; the driving end is used for driving the connecting end to move close to or far away from the pressed piece under the action of external force, and the propping piece is used for propping the pressed piece after the connecting end moves close to the pressed piece so as to drive the plugging piece to move downwards.

2. The automatic telescopic structure of a feeding cover according to claim 1, further comprising a push plate hinged to the cover plate, wherein the push plate is connected with the driving end, and the push plate is used for driving the driving end to move in a rotation process so as to drive the connecting end to move close to or away from the pressed piece.

3. The automatic telescopic structure of a feeding cover according to claim 2, wherein the pressing piece is provided with a pressing inclined plane, and the pressing inclined plane is in sliding fit with the pressing inclined plane.

4. The automatic telescopic structure of a feeding cover according to claim 3, wherein the propping piece is arranged around the periphery of the pressure receiving piece; the two sides of the pressing piece are provided with the pressing inclined planes; the two sides of the pressure receiving piece are provided with pressure receiving rods, and the pressure receiving inclined surfaces are arranged on the pressure receiving rods.

5. The automatic telescopic structure of a feeding cover according to claim 4, wherein the pressed piece is provided with a collar, and the collar is sleeved outside the plugging piece and connected with the plugging piece; the compression bars are arranged on two sides of the lantern ring.

6. The automatic telescopic structure of a feeding cover according to claim 5, wherein an assembly interval is formed between the outer wall of the plugging piece and the inner wall of the lantern ring; an elastic component is arranged in the assembly interval and is used for being compressed when the pressed piece is pressed.

7. The automatic telescopic structure of a feeding cover according to any one of claims 1 to 6, wherein an exhaust passage is arranged in the plugging piece, and an exhaust hole is arranged at the top end of the exhaust passage; and an air inlet is arranged at the bottom end of the exhaust channel.

8. The automatic telescopic structure of the feeding cover according to claim 7, wherein a sealing piece is arranged in the exhaust passage, the sealing piece seals and covers the air inlet, and the sealing piece is used for being pressed by air and away from the air inlet when the air inlet is in air inlet so as to open the air inlet.

9. The automatic telescopic structure of a feeding cover according to any one of claims 1 to 6, wherein the periphery of the bottom end of the plugging piece is also sleeved with sealant.

10. The cabinet type stirrer is characterized by comprising the automatic telescopic structure of the feeding cover, a cabinet body and a cooking cup according to any one of claims 1-9, wherein the cabinet body is provided with a processing cavity, a picking and placing port and a cabinet door, the cover plate is covered on the top end of the processing cavity, the cabinet door is rotatably arranged on the cabinet body, and the driving end is connected with the cabinet door and is used for driving the connecting end to move close to or far away from the pressed piece in the rotation process of the cabinet door; the food cup is provided with a feed port, and the pressed piece is used for driving the blocking piece to move downwards after being pressed so as to block the feed port.