CN216932854U - Food processing device with base - Google Patents

Abstract

The present invention relates to a food processing apparatus having a base. The utility model relates to a food processing device with a base, which comprises a lifting seat, a container and a base provided with a host; the container is detachably connected with the lifting seat; the lifting seat can rotate relative to the base; the lifting seat is provided with a lifting groove, and the lifting groove comprises a lifting groove inclined plane and a lifting groove side wall; the base is provided with a lifting body, and the lifting body comprises a lifting body inclined plane and a lifting body side wall; the inclined plane of the lifting groove and the inclined plane of the lifting body have the same helix angle and are mutually attached; the side walls of the lifting groove and the lifting body are mutually attached, and the sections of the lifting groove and the lifting body are circular arc lines which can rotate around the lifting seat relative to the base and are arranged on the axis. The utility model can achieve the aim that the process of the lifting seat from the working state to the initial state is relatively stable and is not easy to shake relative to the base; the lifting seat can be automatically locked in the process of rotating relative to the base until the lifting seat is in a working state; the automatic unlocking of the container in the initial state can be realized, and the unlocking is more convenient.

Description

Food processing device with base

Technical Field

The present invention relates to the technical field of food processing devices, and particularly to a food processing device having a base.

Background

The traditional food processing device comprises a lifting seat, a container and a base provided with a main machine; the container is detachably connected with the lifting seat; the lifting seat can rotate relative to the base; the lifting seat is provided with a cylinder, the base is provided with a thread groove, and the cylinder is embedded into the thread groove. When the lifting seat rotates relative to the base, the cylinder moves in the thread groove to drive the lifting seat to lift.

In summary, the prior art has at least the following technical problems,

first, the area of contact of cylinder and thread groove inner wall is less, stability is relatively poor, and the base 2 rocks relatively easily to the lift seat.

SUMMERY OF THE UTILITY MODEL

It is an object of the present invention to solve or alleviate the first technical problem mentioned above.

The food processing device with the base comprises a lifting seat, a container and a base provided with a host machine; the container is detachably connected with the lifting seat; the lifting seat can rotate relative to the base; the lifting seat is provided with a lifting groove, and the lifting groove comprises a lifting groove inclined plane and a lifting groove side wall; the base is provided with a lifting body, and the lifting body comprises a lifting body inclined plane and a lifting body side wall; the inclined plane of the lifting groove and the inclined plane of the lifting body have the same helix angle and are mutually attached; the side walls of the lifting groove and the lifting body are mutually attached, and the sections of the lifting groove and the lifting body are circular arc lines which can rotate around the lifting seat relative to the base and are arranged on the axis.

The utility model has the advantages that the process of the lifting seat from the working state to the initial state is stable, and the lifting seat is not easy to shake relative to the base.

The base is provided with a rotary locking piece which can move relative to the base, and the movable direction of the rotary locking piece is provided with a vector which points to the rotating axial lead of the lifting seat relative to the base when viewed from above; the lifting seat is provided with a rotary locking port, and the rotary locking piece is positioned on a rotary path of the rotary locking port.

When the lifting seat is in a working state, the lifting seat cannot automatically rotate due to the power of the output shaft, and the reliability is high.

According to a further technical scheme, the base further comprises a rotary locking elastic piece, and the rotary locking elastic piece is respectively connected with the base and the rotary locking piece, so that the rotary locking piece has a tendency of approaching to the axis of the shaft of the lifting seat, which can rotate relative to the base; the lifting seat is provided with a rotary locking inclined plane.

The lifting seat rotates relative to the base until the lifting seat is in a working state, and automatic locking of the lifting seat can be achieved.

The technical scheme is further that the novel multifunctional electric shock absorber further comprises a button which is in linear sliding connection with the base, the button is exposed from the base, at least one of the button and the rotary locking piece is provided with a turning inclined surface, and the turning inclined surface abuts against the button or the rotary locking piece.

The unlocking can be realized by pressing the button, and the operation habit is relatively met.

The technical scheme is that the lifting seat comprises a lifting seat body and a base, the lifting seat body is provided with an elastic piece connecting body extending outwards, the elastic piece is a spring, and two ends of the elastic piece connecting body are hinged to the elastic piece connecting body of the lifting seat body and the elastic piece connecting body of the base respectively.

Can realize the rotary power assistance and is convenient for rotating the lifting seat through the container.

According to the technical scheme, one of the lifting seat and the positioning groove is provided with a positioning body, the other one of the lifting seat and the positioning groove is provided with a positioning groove, the positioning body and the positioning groove are abutted, and the number of the abutted positions is at least three.

The container and the lifting seat can be ensured to be coaxial.

According to the technical scheme, the lifting seat is provided with a container connecting port exposed from one side of the positioning groove, the container is provided with a connecting insertion body, the connecting insertion body is inserted into the container connecting port to prevent the container from being far away from the lifting seat, and when the container is rotated relative to the lifting seat, the force of the container against the lifting seat enables the lifting seat to have a tendency of becoming a working state.

When the container can be fixed on the lifting seat, the lifting seat can be rotated to be in a working state, and the use is convenient.

Further technical scheme still includes and goes up and down a straight line sliding connection's container retaining member, and container retaining member one end exposes from the lift seat top, and the constant head tank is provided with by the locking body, container retaining member one end with offset by the locking body, when the rotatory container of seat goes up and down relatively, support by the locking body and hold the power of container retaining member one end makes the lift seat have the trend that resets to initial condition.

When the container is rotated reversely, the lifting seat can be rotated reversely to reset to an initial state, so that the container is convenient to use.

According to a further technical scheme, the lifting seat further comprises a container locking elastic part, the container locking elastic part is respectively connected with the lifting seat and the container locking part, so that one end of the container locking part tends to be upward, and the base is provided with a fixed unlocking body; the container locking member is provided with a movable unlocking body, at least one of the fixed unlocking body and the movable unlocking body is provided with an unlocking inclined surface, and the fixed unlocking body is positioned on a movable path of the movable unlocking body.

The automatic unlocking of the container in the initial state can be realized, and the unlocking is more convenient.

Further technical scheme, the lift seat is provided with the hinge groove, and the base is provided with the articulated body of embedding hinge groove, and the lift groove sets up at the hinge inslot, and the body setting that goes up and down is on the articulated body.

In conclusion, the utility model can achieve the following technical effects,

1, the process of the lifting seat from the working state to the initial state is relatively stable, and the lifting seat is not easy to shake relative to the base.

2, the lifting seat rotates relative to the base until the lifting seat is in a working state, so that the automatic locking of the lifting seat can be realized.

3, the automatic unlocking of the container in the initial state can be realized, and the method is convenient.

Drawings

Fig. 1 is a schematic perspective view of a food processing apparatus having a base according to an embodiment of the present invention.

Fig. 2 is a schematic exploded perspective view of a food processing device with a base according to an embodiment of the present invention.

FIG. 3 is an exploded perspective view of a food processing device having a base according to an embodiment of the present invention; the host 1 is not shown.

FIG. 4 is an exploded perspective view of a food processing device having a base according to an embodiment of the present invention; the host 1 is not shown.

Fig. 5 is an exploded perspective view of the container locker 33 and the outer cap 37 according to an embodiment of the present invention.

FIG. 6 is a schematic view of a food processing device having a base according to an embodiment of the present invention; the housing of the main body 1 and the base 2 are not shown.

FIG. 7 is a schematic view of a food processing device with a base according to an embodiment of the present invention; the host 1 and the container 9 are not shown.

Fig. 8 is a schematic illustration of profile one SEC 1.

Figure 9 is a schematic diagram of detail DTL 1.

FIG. 10 is a schematic representation of section two SEC 2; arrow one ARR1 represents the general direction in which pressing the button 241 moves the button 241 and arrow two ARR2 represents the general direction in which pressing the button 241 moves the rotary lock 24.

Arrow one ARR 1; arrow two ARR 2; section one SEC 1; section two SEC 2; detail one DTL 1; a host 1; an output shaft 11; a drive device 111; a machining cutter 112; a base 2; a lifting body 21; a lifter ramp 211; lifter sidewall 212; a hinge body 22; a fixed unlocking body 23; an unlocking ramp 231; rotating the locking member 24; a button 241; a direction-changing slope 242; the rotation locking elastic member 243; a lifting seat 3; a lifting groove 31; a lifting groove slope 311; the lift slot sidewalls 312; a hinge slot 32; a container lock 33; a movable unlocking body 331; a container lock seat 338; a container locking spring 339; rotating the locking port 34; the locking ramp 343 is rotated; an outer cover 37; mounting posts 379; an inner core 38; a mounting ear 389; a positioning body 39; a container connection port 391; an elastic member 5; an elastic member connecting body 51; a container 9; a positioning groove 91; a connection insert 911; to-be-locked body 93.

Detailed Description

The following description of the embodiments of the present invention will be made with reference to the accompanying drawings.

As a specific example, the food processing apparatus with a base according to the embodiment of the present invention includes a lifting base 3, a container 9, and a base 2 provided with a main body 1.

The main unit 1 is provided with an output shaft 11, and the output shaft 11 is driven to rotate by a drive device 111 provided in the main unit 1. The output shaft 11 is connected with a processing blade 112, for example, the output shaft 11 is connected with the processing blade 112 through a helical spline, so that the processing blade 112 is detachably connected. The output shaft 11 drives the processing blade 112 to rotate, and can process objects such as ice cream and the like in the container 9.

The container 9 is detachably connected with the lifting seat 3.

The lifting base 3 is rotatable with respect to the base 2 (in other words, the lifting base 3 is rotatable in a horizontal plane with respect to the base 2 in a plan view). In a specific embodiment, the axis of rotation of the elevating base 3 relative to the base 2 is collinear with the axis of rotation of the output shaft 11.

The lifting base 3 is provided with a lifting groove 31, and the lifting groove 31 includes a lifting groove slope 311 and a lifting groove sidewall 312.

The base 2 is provided with a lifting body 21, and the lifting body 21 comprises a lifting body inclined plane 211 and a lifting body side wall 212.

The lifting groove inclined surface 311 and the lifting body inclined surface 211 have the same spiral angle and are attached to each other.

The lifting groove side wall 312 and the lifting body side wall 212 are attached to each other, and the cross sections (the cross sections taken along the plane perpendicular to the axial line on which the lifting base 3 can rotate relative to the base 2) are all circular arc lines on the axial line on which the lifting base 3 can rotate relative to the base 2.

As a specific embodiment, the lifting seat 3 is provided with a hinge groove 32, and the base 2 is provided with a hinge body 22 inserted into the hinge groove 32, so that the lifting seat 3 can rotate with respect to the base 2. The lifting groove 31 is provided in the hinge groove 32, and the lifting body 21 is provided on the hinge body 22. The lifting grooves 31 and the lifting bodies 21 are uniformly distributed around the axis of the shaft of the lifting seat 3 which can rotate relative to the base 2.

In one embodiment, the elevator base 3 does not include an outer cover 37 and an inner core 38, and the outer cover 37 is detachably connected to the inner core 38, such as by screws passing through the mounting posts 379 and the mounting ears 389.

The theory of operation does, during the use, is connected container 9 and lift seat 3 for container 9 can drive lift seat 3 rotatory. At this time, the lifting base 3 is in an initial state, and the top end surface of the lifting base 3 is located at a lower position relative to the base 2, for example, the top end surface of the lifting base 3 is approximately flush with the top end of the base 2.

Then, the lifting seat 3 is rotated through the container 9, so that the lifting seat 3 rotates relative to the base 2; the lifting base 3 is lifted by the interaction of the lifting groove slope 311 and the lifting body slope 211, and the vessel 9 is close to the output shaft 11 in the height direction. For example, the output shaft 11 is inserted into the container 9, and the output shaft 11 is connected to the processing blade 112 in the container 9. At this time, the elevating base 3 is in an operating state. At this time, the main machine 1 is started, and the output shaft 11 rotates to drive the processing knife 112 to process the object in the container 9.

Then, the elevating base 3 is rotated in the reverse direction by the container 9, so that the elevating base 3 is reset to the initial state. At this time, the container 9 is distant from the output shaft 11 in the height direction, so that it is possible to horizontally move the container 9.

In the process of the rotation of the lifting seat 3 relative to the base 2, because the contact surface between the lifting seat 3 and the base 2 is large (the contact surface between the lifting groove inclined surface 311 and the lifting body inclined surface 211, and the contact surface between the lifting groove side wall 312 and the lifting body side wall 212 are all), the process of the lifting seat 3 from the working state to the initial state is relatively stable, and the lifting seat is not easy to shake relative to the base 2.

As a specific embodiment, the base 2 is provided with a rotary lock 24 movable with respect to the base 2, and the movable direction of the rotary lock 24 has a vector directed toward the axis line of the elevating base 3 rotatable with respect to the base 2 in plan view (in other words, a vector on the radius of the rotary lock 24); the lifting platform 3 is provided with a rotary locking mouth 34, and the rotary locking piece 24 is positioned on the rotation path of the rotary locking mouth 34, so that the rotary locking piece 24 can be inserted or embedded into the rotary locking mouth 34. The rotational lock port 34 may be manually moved out of and into the rotational lock port 34, although the rotational lock member 24 may be moved in other ways. When the lifting seat is in a working state, the lifting seat 3 cannot automatically rotate due to the power of the output shaft 11, and the reliability is high.

As a specific embodiment, the base 2 further comprises a rotation locking elastic member 243, and the rotation locking elastic member 243 is respectively connected with the base 2 and the rotation locking member 24, so that the rotation locking member 24 has a tendency to approach the axis of the shaft of the lifting base 3 rotatable relative to the base 2; the lifting base 3 is provided with a rotation locking bevel 343. In the process that the lifting seat 3 rotates relative to the base 2 until the lifting seat is in the working state, the rotary locking inclined surface 343 abuts against the rotary locking member 24 until the rotary locking port 34 is inserted into the rotary locking port 34 under the action of the rotary locking elastic member 243 to realize locking, in other words, automatic locking of the lifting seat 3 can be realized.

In a specific embodiment, the locking device further comprises a button 241 connected with the base 2 in a linear sliding manner, the button 241 is exposed from the base 2, for example, from the top end surface of the base 2, at least one of the button 241 and the rotary locking piece 24 is provided with a direction-changing inclined surface 242, and the direction-changing inclined surface 242 abuts against the button 241 or the rotary locking piece 24. The unlocking can be realized by pressing the button 241, which is more in line with the operation habit. After the push button 241 is stopped being pressed, the rotation locking piece 24 and the push button 241 are reset by the rotation locking elastic member 243.

As a specific embodiment, the lifting device further comprises an elastic member 5, the elastic member 5 is connected to the base 2 and the lifting base 3 respectively, and the elastic force provided by the elastic member 5 makes the lifting base 3 have a tendency to return to the initial state. As a specific embodiment, the lifting seat 3 and the base 2 are both provided with an elastic member connector 51 extending outward (in other words, away from the direction of the hinge axis line of the base 2 and the lifting seat 3), the elastic member 5 is a spring, and two ends of the elastic member are respectively hinged with the elastic member connector 51 of the lifting seat 3 and the elastic member connector 51 of the base 2, the elastic member 5 provides an elastic force, so that the lifting seat 3 has a tendency of moving downward in the height direction, and at the same time, the lifting seat 3 has a tendency of rotating reversely relative to the base 2, so that the lifting seat 3 has a tendency of returning to the initial state. Of course, the elastic force provided by the elastic member 5 makes the lifting seat 3 have a tendency to move downward in the height direction and simultaneously makes the lifting seat 3 have a tendency to rotate forward relative to the base 2, so that the lifting seat 3 has a tendency to work. Can realize the rotation assistance, and is convenient for rotating the lifting seat 3 through the container 9.

As a specific embodiment, one of the lifting seat 3 and the positioning groove 91 is provided with the positioning body 39, and the other is provided with the positioning groove 91, and the positioning body 39 and the positioning groove 91 have at least three contact positions. The container 9 and the lifting base 3 can be ensured to be coaxial. For example, the cross section of the positioning body 39 is a ring sector and has three positions, and the positioning bodies 39 are respectively embedded into the positioning grooves 91.

In a specific embodiment, the lifting base 3 is provided with a container connection port 391 exposed from the positioning groove 91, the container 9 is provided with a connection insertion body 911, the connection insertion body 911 is inserted into the container connection port 391 to prevent the container 9 from being separated from the lifting base 3, and when the container 9 is rotated with respect to the lifting base 3, the lifting base 3 tends to be in an operating state due to the force of the container 9 against the lifting base 3. By inserting the connection insertion body 911 into the container connection port 391, the lifting base 3 can be rotated to be in an operating state while the container 9 is fixed to the lifting base 3, which is convenient to use.

As a specific embodiment, the lifting seat further comprises a container locking member 33 linearly and slidably connected with the lifting seat 3, one end of the container locking member 33 is exposed from the top end of the lifting seat 3, the positioning groove 91 is provided with a locked body 93, one end of the container locking member 33 abuts against the locked body 93, and when the container 9 is rotated relative to the lifting seat 3, the locked body 93 abuts against the force of one end of the container locking member 33, so that the lifting seat 3 has a tendency of being reset to an initial state. The container lock 33 may be moved by manual dialing. When the container 9 is rotated in the reverse direction, the lifting base 3 can be rotated in the reverse direction and reset to the initial state, which is convenient for use.

As a specific embodiment, the lifting seat 3 further comprises a container locking elastic member 339, and the container locking elastic member 339 is respectively connected to the lifting seat 3 and the container locking member 33, so that one end of the container locking member 33 tends to be upward, for example, the container locking elastic member 339 is a spring and two ends thereof respectively abut against the container locking member seat 338 and the container locking member 33. The base 2 is provided with a fixed unlocking body 23; the container locker 33 is provided with a movable unlocking body 331, at least one of the fixed unlocking body 23 and the movable unlocking body 331 is provided with an unlocking slant 231, and the fixed unlocking body 23 is located on a movable path of the movable unlocking body 331. Reversely rotating the container 9, so that when the lifting seat 3 reversely rotates and is reset to an initial state, the fixed unlocking body 23 abuts against the movable unlocking body 331 to enable the container locking member 33 to move downwards, one end of the container locking member 33 is dislocated with the locked body 93, and at the moment, the container 9 can rotate relative to the lifting seat 3 and is separated from the lifting seat 3; in other words, the automatic unlocking of the container 9 in the initial state can be realized, which is convenient. Certainly, an inclined plane can be arranged at one end of the locking body 93 or the container locking member 33, so that when the container 9 rotates relative to the lifting seat 3, the locking body 93 supports against one end of the container locking member 33, and the container locking member 33 automatically moves downwards.

As used in the present invention, the wording: first, second, etc. do not denote any order, quantity, or importance, but rather are used to distinguish one element from another.

As used in the present invention, the wording: one, etc. do not denote a limitation of quantity, but rather denote the presence of at least one of the referenced item.

As used in the present invention, the term indicating orientation or position: top, bottom, side, longitudinal, lateral, middle, center, outer, inner, horizontal, vertical, left, right, above, below, and the like are intended to reflect relative positions, not absolute positions.

The term as used in the present invention: approximate, whole, approximate, close, etc., are words of definition that specify the presence of stated features but allow for certain deviations. The amount of tolerance for a certain deviation may vary depending on the particular context; for example, the specific context in which deviations from size may be relied upon includes, but is not limited to, national standards for dimensional tolerances.

Claims (10)

1. A food processing device with a base, which comprises a lifting seat (3), a container (9) and a base (2) provided with a main machine (1); the container (9) is detachably connected with the lifting seat (3); the lifting seat (3) can rotate relative to the base (2); it is characterized in that the utility model is characterized in that,

the lifting seat (3) is provided with a lifting groove (31), and the lifting groove (31) comprises a lifting groove inclined plane (311) and a lifting groove side wall (312); the base (2) is provided with a lifting body (21), and the lifting body (21) comprises a lifting body inclined plane (211) and a lifting body side wall (212); the lifting groove inclined plane (311) and the lifting body inclined plane (211) have the same spiral angle and are mutually attached; the lifting groove side wall (312) and the lifting body side wall (212) are mutually attached, and the sections of the lifting groove side wall and the lifting body side wall are circular arc lines which can rotate around the lifting seat (3) relative to the base (2) and are on the axis.

2. The food processor with a base according to claim 1, wherein the base (2) is provided with a rotary lock member (24) movable relative to the base (2), and the movable direction of the rotary lock member (24) has a vector pointing to the axis of rotation of the lifting base (3) relative to the base (2) in a plan view; the lifting seat (3) is provided with a rotary locking port (34), and the rotary locking piece (24) is positioned on a rotary path of the rotary locking port (34).

3. The food processor with base according to claim 2, wherein the base (2) further comprises a rotation locking elastic member (243), the rotation locking elastic member (243) is respectively connected with the base (2) and the rotation locking member (24), so that the rotation locking member (24) has a tendency to approach the axis of rotation of the lifting base (3) relative to the base (2); the lifting seat (3) is provided with a rotary locking inclined plane (343).

4. The food processing device with the base as claimed in claim 3, further comprising a button (241) connected with the base (2) in a linear sliding manner, wherein the button (241) is exposed from the base (2), at least one of the button (241) and the rotary locking piece (24) is provided with a direction-changing inclined surface (242), and the direction-changing inclined surface (242) is abutted against the button (241) or the rotary locking piece (24).

5. The food processing device with the base according to claim 1, further comprising an elastic member (5), wherein the lifting seat (3) and the base (2) are both provided with elastic member connectors (51) extending outwards, the elastic member (5) is a spring, and two ends of the elastic member are respectively hinged with the elastic member connectors (51) of the lifting seat (3) and the elastic member connectors (51) of the base (2).

6. The food processing device with the base according to claim 1, wherein one of the lifting seat (3) and the positioning groove (91) is provided with a positioning body (39), the other is provided with a positioning groove (91), and the positioning body (39) and the positioning groove (91) have at least three contact positions.

7. The food processing device with a base according to claim 6, wherein the lifting base (3) is provided with a container connection port (391) exposed from the positioning groove (91), the container (9) is provided with a connection insertion body (911), the connection insertion body (911) is inserted into the container connection port (391) to prevent the container (9) from being far away from the lifting base (3), and when the container (9) is rotated relative to the lifting base (3), the force of the container (9) against the lifting base (3) causes the lifting base (3) to have a tendency to change to an operating state.

8. The food processing device with the base as claimed in claim 7, further comprising a container locking member (33) linearly slidably connected with the lifting seat (3), wherein one end of the container locking member (33) is exposed from the top end of the lifting seat (3), the positioning groove (91) is provided with a locked body (93), one end of the container locking member (33) abuts against the locked body (93), and when the container (9) is rotated relative to the lifting seat (3), the lifting seat (3) has a tendency to return to an initial state due to the force of the locked body (93) abutting against one end of the container locking member (33).

9. The food processing device with the base as claimed in claim 8, wherein the lifting seat (3) further comprises a container locking elastic member (339), the container locking elastic member (339) is respectively connected with the lifting seat (3) and the container locking member (33) so that one end of the container locking member (33) tends to be upward, and the base (2) is provided with a fixed unlocking body (23); the container locking member (33) is provided with a movable unlocking body (331), at least one of the fixed unlocking body (23) and the movable unlocking body (331) is provided with an unlocking inclined surface (231), and the fixed unlocking body (23) is positioned on a movable path of the movable unlocking body (331).

10. The food processor with a base according to any one of claims 1 to 9, wherein the lifting base (3) is provided with a hinge groove (32), the base (2) is provided with a hinge body (22) fitted into the hinge groove (32), the lifting groove (31) is provided in the hinge groove (32), and the lifting body (21) is provided on the hinge body (22).

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