CN219126104U - Linkage type sound insulation wall breaking machine - Google Patents

Abstract

The utility model discloses a linkage type sound insulation wall breaking machine which comprises a cabinet body, wherein a processing cavity is formed in the cabinet body; a through port is arranged on the bottom wall of the processing cavity; the food processing cup is internally provided with a processing knife assembly, and the top end of the food processing cup is provided with a feeding port; the plugging assembly comprises a plugging piece, a linkage rod and an elastic part, wherein the top end of the linkage rod is formed into a connecting end, the bottom end of the linkage rod is provided with a pressure receiving part, and the plugging piece is connected to the connecting end; the linkage rod can move up and down along the height direction of the processing cavity; the elastic component is connected between the connecting end and the top wall of the processing cavity and is used for providing an elastic stress for driving the connecting end to move downwards; the pressure receiving part is movably connected with the through joint in a penetrating way; the pressure receiving part is used for moving upwards to extend out of the threading opening when the connecting end moves downwards; the pressed part is used for driving the connecting end to move downwards when moving downwards so as to enable the blocking piece to block the feeding port. The utility model can realize sound insulation and noise reduction.

Description

Linkage type sound insulation wall breaking machine

Technical Field

The utility model relates to the technical field of wall breaking machines, in particular to a linkage type sound insulation wall breaking machine.

Background

At present, the wall breaking machine is generally used for preparing food processing equipment such as fruit vegetables and infant complementary foods, and is mainly realized by driving a processing knife to rotate through a motor. However, in the existing wall breaking machine, the rotating speed of the machining knife is high under the condition that the rotating speed of the motor is high in the machining process, so that noise generated in the working process is large.

Disclosure of Invention

In order to overcome the defects of the prior art, the utility model aims to provide a linkage type sound insulation wall breaking machine, which can be used for placing a cooking cup into a processing cavity of a cabinet body when food materials are processed, and sealing a feeding port of the cooking cup by a linkage sealing piece in the placing process, so that sound insulation and noise reduction are realized.

The utility model adopts the following technical scheme:

the linked sound-insulating wall-breaking machine comprises,

the cabinet body is internally provided with a processing cavity; a through port is arranged on the bottom wall of the processing cavity;

the food processing cup is internally provided with a processing knife assembly, and the top end of the food processing cup is provided with a feeding port;

the plugging assembly comprises a plugging piece, a linkage rod and an elastic part, wherein the top end of the linkage rod is formed into a connecting end, the bottom end of the linkage rod is provided with a pressure receiving part, and the plugging piece is connected to the connecting end; the linkage rod is movably connected in the processing cavity in a penetrating way and can move up and down along the height direction of the processing cavity; the elastic component is connected between the connecting end and the top wall of the processing cavity and is used for providing elastic stress for driving the connecting end to move upwards; the compression part is movably connected with the through-connection port in a penetrating way; the compression part is used for extending out of the penetration opening upwards when the connecting end moves upwards; the pressed part is used for being pressed by the cooking cup after the cooking cup is placed in the processing cavity so as to retract downwards into the penetrating port; the pressed part is used for driving the connecting end to move downwards when moving downwards, so that the blocking piece is blocked at the feeding hole.

Further, the linkage rod comprises two first connecting arms and a second connecting arm, and the first connecting arms extend along the height direction of the processing cavity; the second connecting arms are connected between the top ends of the two first connecting arms, and the bottom ends of the two first connecting arms are provided with the pressure receiving parts; the two sides of the bottom wall of the processing cavity are provided with the penetrating ports; the two pressed parts are correspondingly movably connected with the through interfaces in a penetrating way; the elastic component is connected between the second connecting arm and the top wall of the processing cavity; the second connecting arm is formed into the connecting end, and the plugging piece is connected to the middle part of the second connecting arm.

Further, the bottom ends of the first connecting arms are respectively provided with a pressed sheet, and the pressed sheets movably penetrate through the through-connection ports and form the pressed parts.

Further, a movable cavity is also arranged in the cabinet body; the movable cavity is arranged on the periphery of the processing cavity in a surrounding mode; the first connecting arm and the second connecting arm are connected in the movable cavity in a penetrating way; the top wall of the processing cavity is provided with a through hole, and the through hole penetrates through to the movable cavity; the plugging piece is movably connected with the through hole in a penetrating way.

Further, the elastic component is clamped between the second connecting arm and the bottom wall of the movable cavity.

Further, the bottom of the plugging piece is also provided with a sealing piece, the top of the sealing piece is sleeved at the bottom of the plugging piece, and the bottom of the sealing piece is used for sealing the periphery of the feeding port.

Further, an air outlet channel is arranged in the plugging piece, and an air outlet hole penetrating through the air outlet channel is arranged on the sealing piece; the top end of the cabinet body is provided with an air hole communicated with 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 and is used for being detachably connected with the coupler;

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.

Further, a cabinet door is arranged on the cabinet body, and the processing cavity is provided with a taking and placing opening; the cabinet door is rotatably connected with the cabinet body and used for closing or opening the taking and placing opening.

Compared with the prior art, the utility model has the beneficial effects that: the food processing device comprises a cabinet body, a feeding port, a processing cavity, a pressing sheet, a blocking piece and a blocking piece, wherein the feeding port is formed in the cabinet body, the feeding port is formed in the inner side of the cabinet body, the processing cavity is formed in the bottom end of the processing cup, the pressing sheet is pressed by the pressing sheet, the blocking piece is arranged at the connecting end of the linkage rod in a blocking mode, the blocking piece is arranged at the feeding port of the processing cup in a blocking mode, the feeding port is formed in the processing cavity, and the blocking piece is used for blocking the feeding port in the processing process and can slow down noise.

Drawings

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

FIG. 2 is a cross-sectional view of the present utility model;

FIG. 3 is a schematic view of a linkage assembly of the present utility model;

FIG. 4 is a schematic view of the structure of the linkage rod of the present utility model;

FIG. 5 is a schematic view of the structure of the cooking cup of the present utility model;

fig. 6 is a schematic view of the internal structure of the cabinet of the present utility model.

In the figure: 10. a cabinet body; 11. a cabinet door; 12. a processing chamber; 13. cross-connect the cavity; 14. a coupling; 21. a cup body; 211. a feed port; 22. a cup holder; 23. a machining knife assembly; 31. a second connecting arm; 32. a first connecting arm; 33. tabletting; 34. a blocking member; 341. a sealing sheet; 342. an air outlet channel; 35. an elastic member; 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 linkage type sound insulation wall breaking machine shown in fig. 1-6 comprises a cabinet body 10, a cooking cup and a plugging assembly, wherein a processing cavity 12 is arranged in the cabinet body 10, and a penetrating port is arranged on the bottom wall of the processing cavity 12. The processing knife component 23 is arranged in the cooking cup, and the material feeding port 211 is arranged at the top end of the cooking cup.

The concrete plugging assembly comprises a plugging member 34, a linkage rod and an elastic member 35, wherein the top end of the linkage rod is formed into a connecting end, and the bottom end of the linkage rod is provided with a pressed part to connect the plugging member 34 to the connecting end. The linkage rod is movably connected in the processing cavity 12 in a penetrating way, and the linkage rod can move up and down along the height direction of the processing cavity 12. The elastic member 35 is connected between the connection end and the top wall of the processing chamber 12, the elastic member 35 is configured to provide an elastic stress for driving the connection end to move upwards, and the pressed portion movably penetrates the penetration opening.

The compression portion can upwards stretch out of the through-interface when the connecting end moves upwards, and the compression portion can be pressed by the cooking cup after the cooking cup is placed in the processing cavity 12 so as to retract downwards into the through-interface. In addition, the pressure receiving portion can drive the connecting end to move downwards when moving downwards, so that the blocking piece 34 blocks the feeding hole 211.

Based on the structure, when the linkage type sound insulation wall breaking machine is used,

in the initial state, the connecting end of the link rod in the processing cavity 12 in the cabinet body 10 can keep the upward movement trend under the elastic stress provided by the elastic component 35, so that the blocking piece 34 connected with the connecting end can also keep the upward retraction state, the blocking piece 34 connected with the connecting end can keep the upward retraction state under the elastic stress of the elastic component 35, and the pressed part corresponding to the bottom end of the link rod can keep the state of extending out of the through hole in the state and extend out of the bottom wall of the processing cavity 12.

When carrying out food processing, can put in inside the food processing outside the cabinet body 10 through the mouth of putting in of cooking cup, then put in the processing chamber 12 of the cabinet body 10 with the cooking cup through putting in, in the process of putting in, the bottom of cooking cup can the roof pressure pressurized piece 33, pressurized piece 33 pressurized down motion to the shutoff piece 34 on the connecting end of drive gangbar down motion shutoff is in the mouth 211 of throwing in the cooking cup, and food processing is gone on in the cabinet body 10 inside, gives sound insulation and falls the noise, and in addition, shutoff piece 34 also blocks up the mouth 211 of throwing in the course of working, also can slow down the noise.

Further, the linkage rod includes two first connecting arms 32 and a second connecting arm 31, the first connecting arms 32 extend along the height direction of the processing chamber 12, and the second connecting arms 31 are connected between the top ends of the two first connecting arms 32. Specifically, the bottom ends of the two first connecting arms 32 are provided with pressed parts; the two sides of the bottom wall of the processing cavity 12 are provided with penetrating ports, and the elastic part 35 is connected between the second connecting arm 31 and the top wall of the processing cavity 12; the second connection arm 31 is formed as a connection end, and the blocking piece 34 is connected to the middle of the second connection arm 31.

When the linkage rod is assembled to the cabinet body 10, the first connecting arms 32 on two sides of the linkage rod can be installed from two sides of the cabinet body 10, the bottom pressure-receiving parts of the first connecting arms 32 can penetrate into the positions below the processing cavity 12 correspondingly, and the two pressure-receiving parts can keep the state of extending from the through-openings under the action of the elastic parts 35 when the linkage rod moves to the positions corresponding to the through-openings.

Based on this structure, when packing into cooking cup, the cup seat of cooking cup can get into processing chamber 12, and the pressure receiving portion of both sides can be pushed up simultaneously to cooking cup bottom, and the pressure receiving portion of both sides can be simultaneously pressed relatively, and the downward movement of two first linking arm 32 of pulling gangbar, and the downward movement of second linking arm 31 that is connected with two first linking arm 32 tops, shutoff piece 34 alright synchronous downward movement shutoff in feed opening 211. And the pressed parts at two sides are stressed downwards simultaneously, so that the stress of the linkage rod is more balanced, unbalance conditions caused by single-point stress can be avoided, and the plugging effect is better.

Of course, the linkage rod can be directly assembled in the processing cavity 12, and on the basis of the structure, the linkage structure is exposed after the processing cavity 12 is opened, so that the interference to the loading or unloading of the cooking cup is easy to cause.

Further, the bottom ends of the first connecting arms 32 in the present embodiment are each provided with a pressed piece 33, and the pressed piece 33 is movably connected to the through-connection opening in a penetrating manner, and forms a pressed portion. That is, when the linkage rod is assembled to the cabinet body 10, the compression sheet 33 can be connected to the through-connection opening in a penetrating manner, and the compression sheet 33 is in sliding fit with the through-connection opening, so that the assembly is facilitated.

In other cases, the compression portion may be implemented by a compression ball or a protruding structure on the first connecting arm 32 in the prior art.

Further, a movable cavity is further provided in the cabinet body 10, specifically, the interior of the cabinet body 10 may be a chamber structure of the processing chamber 12, and then the processing chamber 12 and the movable cavity are formed by separating the chambers in the cabinet body 10 by providing a partition structure in the chambers.

The movable cavity is arranged around the periphery of the processing cavity 12; the first connecting arm 32 and the second connecting arm 31 are connected in the movable cavity in a penetrating way; the top wall of the processing cavity 12 is provided with a through hole which penetrates to the movable cavity; the blocking piece 34 is movably connected with the through hole in a penetrating way.

On the basis of the structure, the two first connecting arms 32 of the linkage rod penetrate from two sides of the movable cavity, the second connecting arms 31 can penetrate from the top end of the movable cavity, the plugging piece 34 can be connected in the through hole at the top end of the processing cavity 12 in a penetrating way, namely after the linkage assembly is assembled, the linkage rod can be embedded in the movable cavity, so that the linkage rod can move independently conveniently, and the interference to taking and placing of the cooking cup can not be caused.

In addition, it should be noted that, because the movable cavity is provided with a certain amount of air, the air can have a certain blocking effect, and the sound insulation and noise reduction effects are better.

More specifically, the elastic member 35 may be clamped between the second connecting arm 31 and the bottom wall of the movable cavity, so that the elastic member 35 may be assembled in the movable cavity, and the expansion and contraction process is stable and will not be exposed.

Further, a sealing piece 341 may be further disposed at the bottom end of the plugging member 34, the top end of the sealing piece 341 is sleeved on the bottom end of the plugging member 34, and the bottom end of the sealing piece 341 is used for sealing the periphery of the feeding port 211.

So, after cooking cup put into processing chamber 12, shutoff piece 34 down shutoff is on cooking cup's feed inlet 211 under the linkage action of gangbar, and at this moment, sealing piece 341 alright shutoff is along the periphery of feed inlet 211, forms sealedly at the periphery of feed inlet 211, and it is better to make an uproar to fall the sound insulation effect.

Of course, on the basis of the structure without the sealing piece 341, the sealing piece 34 may be made of a rubber block or a silica gel block, etc., so that the sealing piece 34 itself may be deformed and sealed at the position of the dispensing opening when being pressed down, thereby forming a seal and sound insulation, and preventing juice, etc. from splashing during the processing. External impurities can be reduced from entering through the feeding port in the processing process, and the processing process is safer and more sanitary.

Further, the sealing piece 34 may be provided with an air outlet channel 342, and the sealing piece 341 is correspondingly provided with an air outlet hole penetrating through the air outlet channel 342, so that the air in the cooking cup can be discharged into the movable cavity through the air outlet hole and the air outlet channel 342 due to the fact that the cooking cup may be heated or pressurized due to high-speed rotation of the processing knife assembly 23 during the processing process, and the pressure maintaining effect can be achieved.

Specifically, the top end of the cabinet body is provided with an air hole communicated with the movable cavity, and the air hole can lead out the air led out from the air outlet channel to the outside of the cabinet body through the movable cavity, so that the internal and external air pressure balance is realized.

Further, the cooking cup in this embodiment includes a cup body 21 and a cup seat 22, the cup body 21 is detachably connected to the cup seat 22, and the cup seat 22 is provided with a processing knife assembly 23, and the cup body 21 and the cup seat 22 may be screw-assembled or snap-assembled, so that the cup body 21 and the cup seat 22 are convenient to be detached and cleaned separately.

Specifically, the machining tool assembly 23 may be mounted on the cup holder 22, and the machining tool assembly 23 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 23 extends into the cup body 21 after the cup body 21 is arranged on the cup seat 22, and a cutter shaft of the processing cutter assembly 23 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 23 can be detachably connected with the coupling 14 after the cup holder 22 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 21 and the cup seat 22 can be assembled, then food is put into the cup body 21, the cup seat 22 and the whole cup body 21 can be installed into the processing cavity 12, the end part of the cutter shaft of the processing cutter assembly 23, which extends out of the cup seat 22, can be inserted into the coupling 14, meanwhile, the cup seat 22 can be pressed against the pressed part of the linkage rod, the pressed part of the linkage rod can be pressed to drive the connecting end to move downwards, and the blocking piece 34 is driven to be blocked at the feeding hole 211.

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 23 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 21.

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

More specifically, a cabinet door 11 can be arranged on the cabinet body 10, and a picking and placing opening is arranged corresponding to the processing cavity 12; the cabinet door 11 is rotatably connected to the cabinet body 10 and is used for closing or opening the taking and placing opening. So, when carrying out food processing, can open cabinet door 11, cooking cup is got and is put into behind the processing chamber 12 through getting the mouth of putting, can form confined processing environment with cabinet door 11 closure, and the sound insulation effect is better.

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 (9)

1. The linked sound-insulating wall-breaking machine is characterized by comprising,

the cabinet body is internally provided with a processing cavity; a through port is arranged on the bottom wall of the processing cavity;

the food processing cup is internally provided with a processing knife assembly, and the top end of the food processing cup is provided with a feeding port;

the plugging assembly comprises a plugging piece, a linkage rod and an elastic part, wherein the top end of the linkage rod is formed into a connecting end, the bottom end of the linkage rod is provided with a pressure receiving part, and the plugging piece is connected to the connecting end; the linkage rod is movably connected in the processing cavity in a penetrating way and can move up and down along the height direction of the processing cavity; the elastic component is connected between the connecting end and the top wall of the processing cavity and is used for providing elastic stress for driving the connecting end to move upwards; the compression part is movably connected with the through-connection port in a penetrating way; the compression part is used for extending out of the penetration opening upwards when the connecting end moves upwards; the pressed part is used for being pressed by the cooking cup after the cooking cup is placed in the processing cavity so as to retract downwards into the penetrating port; the pressed part is used for driving the connecting end to move downwards when moving downwards, so that the blocking piece is blocked at the feeding hole.

2. The linked soundproof wall breaking machine according to claim 1, wherein the linkage rod comprises two first connecting arms and a second connecting arm, the first connecting arms extending in the height direction of the processing chamber; the second connecting arms are connected between the top ends of the two first connecting arms, and the bottom ends of the two first connecting arms are provided with the pressure receiving parts; the two sides of the bottom wall of the processing cavity are provided with the penetrating ports; the two pressed parts are correspondingly movably connected with the through interfaces in a penetrating way; the elastic component is connected between the second connecting arm and the top wall of the processing cavity; the second connecting arm is formed into the connecting end, and the plugging piece is connected to the middle part of the second connecting arm.

3. The linked sound insulation wall breaking machine according to claim 2, wherein the bottom ends of the first connecting arms are respectively provided with a pressed piece, and the pressed piece is movably connected with the through hole in a penetrating way and forms the pressed part.

4. The linkage type sound insulation wall breaking machine according to claim 2, wherein the cabinet body is also provided with a movable cavity; the movable cavity is arranged on the periphery of the processing cavity in a surrounding mode; the first connecting arm and the second connecting arm are connected in the movable cavity in a penetrating way; the top wall of the processing cavity is provided with a through hole, and the through hole penetrates through to the movable cavity; the plugging piece is movably connected with the through hole in a penetrating way.

5. The ganged-type soundproof wall breaking machine of claim 4, wherein the elastic member is sandwiched between the second connecting arm and the bottom wall of the movable cavity.

6. The linkage sound insulation wall breaking machine according to claim 4, wherein a sealing piece is further arranged at the bottom end of the sealing piece, the top end of the sealing piece is sleeved at the bottom end of the sealing piece, and the bottom end of the sealing piece is used for sealing the periphery edge of the feeding port.

7. The linkage type sound insulation wall breaking machine according to claim 6, wherein an air outlet channel is arranged in the plugging piece, and an air outlet hole penetrating through the air outlet channel is arranged on the sealing piece; the top end of the cabinet body is provided with an air hole communicated with the movable cavity.

8. A linked sound insulation wall breaking machine according to any one of claims 1 to 7, wherein the cooking cup comprises a cup body and a cup seat, 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 the cup body is 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.

9. The linkage type sound insulation wall breaking machine according to any one of claims 1 to 7, wherein a cabinet door is arranged on the cabinet body, and a picking and placing opening is arranged in the processing cavity; the cabinet door is rotatably connected with the cabinet body and used for closing or opening the taking and placing opening.

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