CN112493852A

CN112493852A - Soak elevating system and kettle

Info

Publication number: CN112493852A
Application number: CN202011509368.2A
Authority: CN
Inventors: 田秘; 吴年生
Original assignee: Guangzhou K Kou Electrical Appliance Technology Co ltd
Current assignee: Guangzhou K Kou Electrical Appliance Technology Co ltd
Priority date: 2020-12-18
Filing date: 2020-12-18
Publication date: 2021-03-16

Abstract

The invention discloses a soaking lifting mechanism and a kettle, wherein the soaking lifting mechanism comprises: the soaking container is provided with a soaking cavity and a plurality of filtering holes communicated with the soaking cavity; the filtering part is arranged in the soaking cavity in a lifting manner, is provided with an accommodating cavity, and has a contact surface on the upper end surface, wherein the contact surface is provided with a bottom, a top higher than the bottom and a transition surface connecting the bottom and the top; the regulating part is positioned above the soaking container and is provided with a butting part capable of horizontally moving, and the butting part is butted with the contact surface when moving and the butting position moves among the bottom, the top and the transition surface. The soaking lifting mechanism and the kettle can lift tea leaves to keep the tea leaves soaked in water.

Description

Soak elevating system and kettle

Technical Field

The invention belongs to the field of household appliances, and particularly relates to a soaking lifting mechanism and a kettle.

Background

A tea basket is arranged in a kettle body of the kettle for facilitating the collection and cleaning of tea when the kettle or an electric kettle is used for making tea.

However, in the kettle or the electric kettle in the prior art, the tea basket is usually arranged at the opening of the kettle body, and the position of the tea basket is relatively fixed and cannot be lifted. When a user uses the kettle, the tea basket needs to be lifted to a position above the water level when some tea leaves are soaked in the water and the time of soaking the tea leaves in the water needs to be controlled, or the tea leaves need to be soaked in the water all the time in order to keep the tea fragrance of the tea when the water level in the kettle is lowered.

However, the tea basket which cannot be lifted in the prior art prevents the user from realizing the above idea, and brings inconvenience in use.

Disclosure of Invention

In order to solve the problems in the prior art, the invention provides a soaking lifting mechanism and a kettle, which can lift tea leaves to keep the tea leaves soaked in water.

The invention adopts the following technical scheme:

a soak lift mechanism comprising:

the soaking container is provided with a soaking cavity;

the filtering part is arranged in the soaking cavity in a lifting manner, the filtering part is provided with an accommodating cavity and a water permeable hole for communicating the accommodating cavity with the soaking cavity, the upper end surface of the side wall of the accommodating cavity is a contact surface, and the contact surface is provided with a bottom part, a top part and a transition surface for connecting the bottom part and the top part;

the adjusting piece is provided with a butting part which can move horizontally, the butting part is butted with the contact surface when moving, and the butting position moves among the bottom part, the top part and the transition surface so as to enable the filtering part to lift.

As a further improvement of the technical scheme of the invention, the soaking cavity is cylindrical, the adjusting piece is provided with a ferrule which can be matched with the soaking cavity, and the abutting part is fixedly connected with the ferrule.

As a further improvement of the technical scheme of the invention, the soaking device further comprises an elastic piece, one end of the elastic piece is abutted against the filtering part, the opposite end of the elastic piece is abutted against the soaking container, and when the abutting part moves, the elastic piece is compressed or releases elastic potential energy so as to enable the filtering part to lift.

As a further improvement of the technical scheme of the invention, the bottom part and the top part are arranged at intervals by taking the axis of the filter part as an axis; the abutting portions are arranged with the axis of the filter portion as an axis.

As a further improvement of the technical scheme of the invention, the upper end of the ferrule is provided with a resisting part outside the soaking cavity.

As a further improvement of the technical scheme of the invention, the plurality of the resisting parts are arranged at intervals, and a groove is arranged between every two adjacent resisting parts.

As a further improvement of the technical scheme of the invention, the filter further comprises a driving part which is abutted against the groove and drives the adjusting piece to move the filter part.

As a further improvement of the technical scheme of the invention, the transition surface is a curved surface.

As a further improvement of the technical scheme of the invention, the elastic part is a tower-shaped spring or a spring piece or a spring rod; the soaking container is provided with a convex ring for embedding and positioning the small head end of the tower-shaped spring.

As a further improvement of the technical scheme of the invention, the method further comprises the following steps:

a longitudinal chute disposed on one of an inner wall of the steeping chamber or an outer wall of the filtering portion;

and the guide block is arranged on the other one of the inner wall and the outer wall, is embedded into the longitudinal sliding groove and can slide up and down along the longitudinal sliding groove.

A kettle comprises a kettle body and the soaking lifting mechanism; the soaking container is arranged in the kettle body, at least part of the adjusting piece is exposed out of the kettle body, and the soaking container is also provided with a filter hole for communicating the soaking cavity with the inner cavity of the kettle body.

Compared with the prior art, the invention has the beneficial effects that:

in the invention, the accommodating cavity of the filtering part can accommodate tea leaves, and water can be added into the soaking cavity to soak and filter the tea leaves; the horizontal movement of the abutting part of the adjusting piece can change the abutting position of the contact surface of the adjusting piece and the filtering part, the abutting position moves among the bottom, the top and the transition surface, when the abutting position is at the top, the filtering part descends to the bottommost part, the filtering part gradually rises when moving from the top to the bottom, when the filtering part reaches the bottom, the filtering part rises to the bottommost part, namely, the horizontal movement of the abutting part of the adjusting piece can drive the filtering part to lift tea leaves, so that the tea leaves are immersed in water or the tea leaves are lifted above the water level, and the requirements of customers are met.

Drawings

The technology of the present invention will be described in further detail with reference to the accompanying drawings and detailed description below:

fig. 1 is an exploded view of embodiment 1 of the present invention;

FIG. 2 is a sectional view of embodiment 1 of the present invention;

FIG. 3 is a sectional view of embodiment 2 of the present invention;

fig. 4 is a sectional view of embodiment 3 of the present invention.

Reference numerals:

1-soaking a lifting mechanism;

11-a soaking container; 111-a soaking cavity; 112-filter pores; 113-a convex ring; 114-a guide block; 115-a limiting ring groove;

12-a filtration section; 121-an accommodating cavity; 122-contact surface; 1221-bottom; 1222-top; 1223-transition surface; 123-longitudinal sliding chute; 124-water permeable holes;

13-an elastic member; 131-tower springs; 132-a spring leaf; 133-spring bar; 1331-a rod body; 1332-rod sleeve; 1333-compression spring;

14-an adjustment member; 141-an abutment; 142-a ferrule; 1421-stop protrusion; 143-a resisting part; 144-groove.

Detailed Description

The conception, the specific structure and the technical effects of the present invention will be clearly and completely described in conjunction with the embodiments and the accompanying drawings to fully understand the objects, the schemes and the effects of the present invention. It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The same reference numbers will be used throughout the drawings to refer to the same or like parts.

It should be noted that, unless otherwise specified, when a feature is referred to as being "fixed" or "connected" to another feature, it may be directly fixed or connected to the other feature or indirectly fixed or connected to the other feature. Further, the description of the upper, lower, left, right, etc. used in the present invention is only with respect to the positional relationship of the respective components of the present invention with respect to each other in the drawings.

Referring to fig. 1 to 4, a soaking elevating mechanism 1 includes a soaking container 11, a filtering part 12, an elastic member 13, and an adjusting member 14.

The soaking container 11 is provided with a soaking cavity 111.

The filter part 12 is arranged in the soaking cavity 111 in a lifting manner, the filter part 12 is provided with an accommodating cavity 121 and a water permeable hole 124 for communicating the accommodating cavity 121 with the soaking cavity 111, and the accommodating cavity 121 can accommodate tea leaves; the upper end surface of the side wall of the accommodating cavity 121 is a contact surface 122, the contact surface 122 has a bottom 1221, a top 1222 and a transition surface 1223 connecting the bottom 1221 and the top 1222, and the distance from the top 1222 to the bottom wall of the soaking cavity 111 is greater than the distance from the bottom 1221 to the bottom wall of the soaking cavity 111. I.e., the top 1222 is higher than the bottom 1221.

An adjusting member 14, wherein the adjusting member 14 is provided with a horizontally movable abutting portion 141, the abutting portion 141 abuts against the contact surface 122 when moving, and the abutting position moves among the bottom 1221, the top 1222, and the transition surface 1223, so as to lift the filter portion 12. In particular, the adjustment member 14 is located above said infusion container 11. The horizontal movement of the contact portion 141 may be horizontal rotation or horizontal translation, as long as the contact portion is held in contact with the contact surface 122 during the movement. Correspondingly, for different movement trajectories of the abutting part 141, the horizontal projection of the contact surface 122 should be correspondingly set, for example, when the abutting part 141 rotates horizontally, the horizontal projection of the contact surface 122 should be circular or arc, and when the abutting part 141 translates horizontally, the horizontal projection of the contact surface 122 should be linear.

Based on the above structure, when the soaking lifting mechanism 1 is in use, water is added into the soaking cavity 111, and enters the accommodating cavity 121 through the water permeable holes 124. Tea leaves are put into the containing cavity 121 of the filter part 12, the abutting part 141 is horizontally moved through the adjusting piece 14, and the contact surface 122 of the filter part 12 is kept abutting against the abutting part 141 by the elastic force of the elastic piece 13; when the adjusting piece 14 moves, the abutting position of the adjusting piece 14 and the contact surface 122 moves among the bottom 1221, the top 1222 and the transition surface 1223, when the abutting position is at the top 1222, the filter part 12 descends to the bottommost 1221, when the filter part 12 moves from the top 1222 to the bottom 1221, the filter part 12 gradually rises, when the filter part reaches the bottom 1221, the filter part 12 rises to the bottommost 1221, namely, the filter part 12 can be lifted with the tea leaves through the horizontal movement of the abutting part 141 of the adjusting piece 14, so that the tea leaves are immersed in water or lifted above the water level, and the requirements of customers are met. Specifically, when the movement of the abutting portion 141 is horizontal rotation: the soaking cavity 111 is cylindrical, the adjusting member 14 is provided with a ferrule 142 which can be matched with the soaking cavity 111, and the abutting part 141 is fixedly connected with the ferrule 142. That is, the adjusting member 14 horizontally rotates relative to the soaking cavity 111 through the ferrule 142, and drives the abutting portion 141 to horizontally rotate. Correspondingly, the outer side surface of the filter part 12 is matched with the soaking cavity 111, and the projection of the contact surface 122 on the horizontal plane is circular. Accordingly, when the adjuster 14 rotates, the abutting portion 141 is rotated horizontally, the abutting portion 141 moves along the contact surface 122, and the elastic force of the elastic member 13 keeps the abutting, and the movement of the abutting position on the bottom 1221, the top 1222, and the transition surface 1223 causes the filter unit 12 to change up and down.

In order to prevent the ferrule 142 from moving upwards continuously due to the elastic force of the elastic member 13, a circle of limiting ring groove 115 is arranged on the inner wall of the soaking cavity 111, and a limiting protrusion 1421 which is clamped into the limiting ring groove 113 and can move along the limiting ring groove 115 is arranged on the outer peripheral surface of the ferrule 142. Through the matching of the limiting ring groove 115 and the limiting protrusion 1421, not only the vertical position relationship between the collar 142 and the soaking container 11 can be limited, but also the collar 142 can be ensured to rotate relative to the soaking container 11.

Preferably, the soaking lifting mechanism 1 further comprises an elastic member 13, one end of the elastic member 13 abuts against the filtering part 12, the opposite end abuts against the soaking container 11, and when the abutting part 141 moves, the elastic member 13 is compressed or releases elastic potential energy, so that the filtering part 12 is lifted. In particular, the elastic element 13 is arranged in the infusion chamber 111 below said filtering portion 12. When the abutting portion 141 moves from the top portion 1222 to the bottom portion 1221, the filter unit 12 descends, the elastic member 13 is compressed, and when the abutting portion 141 moves from the bottom portion 1221 to the top portion 1222, the elastic member 13 expands, releases elastic potential energy, and the filter unit 12 rises, that is, the elastic force of the elastic member 13 helps the filter unit 12 rise, and the abutting portion 141 is held in abutting contact with the contact surface 122.

In addition, the bottom 1221 and the top 1222 are arranged by taking the axis of the filter part 12 as an axis, and the bottom 1221 and the top 1222 may be provided in plural numbers, which may be equal to or unequal to each other, and are preferably provided in equal numbers, and are arranged around the axis, may be arranged in sequence at regular intervals, and may also be arranged in non-uniform arrangement, but are preferably arranged in uniform arrangement, and the hand feeling is regular and more uniform when in use. The abutting portions 141 are arranged with the axis of the filter portion 12 as an axis, and specifically, the number of the abutting portions 141 is equal to the number of the top portions 1222 or the bottom portions 1221, and the abutting portions are uniformly arranged with the axis of the filter portion 12 as an axis. In this arrangement, when the abutting portion 141 rotates once, the abutting position passes through the bottom portion 1221 and the top portion 1222 several times, and the filter portion 12 is lifted and lowered between the top portion 1222 and the bottom portion 1221 several times, which is more convenient when the filter portion 12 needs to be immersed up and down. The number of the bottom 1221 and the top 1222 may be specifically 2, 3, 4 or even more, and preferably, the number of the bottom 1221 and the top 1222 is set to 3.

In order to facilitate the user to adjust the position of the abutting part 141, the upper end of the collar 142 is provided with a stopping part 143 outside the soaking cavity 111 to limit the collar, and in addition, the user can rotate the adjusting piece 14 through the stopping part 143, so that the abutting part 141 is rotated to soak the lifting mechanism 1 up and down. Preferably, the plurality of the resisting parts 143 are arranged at intervals, and a groove 144 is arranged between two adjacent resisting parts 143, so that the grasping and the grasping hand feeling can be further facilitated. Preferably, the soaking lifting mechanism further comprises a driving part abutting against the groove 144 to drive the adjusting part 14 to move so as to lift and lower the filtering part. The drive means may be a motor or other drive means, the output end of which abuts the recess 144 and rotates the adjustment member 14 to raise and lower the filter portion 12.

The transition surface 1223 is a curved surface to facilitate the abutting portion 141 to move along the transition surface 1223, and preferably, a tangent line of the top portion 1222 is horizontally disposed, so that when the abutting portion 141 abuts against the top portion 1222, an acting force of the abutting portion 141 on the filter portion 12 is vertically downward, and after the user releases his/her hand, the acting force can counteract an elastic force of the elastic member 13, and the filter portion 12 will not rise again. In a preferred embodiment, the transition surface 1223 is a smooth curved surface, which facilitates the movement of the abutting portion 141, and improves the feel of the user.

Wherein the elastic member 13 may be a general compression spring, and in one embodiment, the elastic member 13 is a tower-shaped spring 131, as shown in fig. 1 and 2. One end of the tower-shaped spring is a small end, the other end of the tower-shaped spring is a large end, the diameter of the large end is larger than that of the small end, the small end abuts against the soaking container 11, and the large end abuts against the filtering part 12. This arrangement allows the filter unit 12 to be moved with a stable force between the tower spring 131 and the filter unit 12, and prevents the filter unit 12 from being deflected during the lifting and lowering. In addition, the soaking container 11 is provided with a convex ring 113 for embedding and positioning the small end, so that the small end is fixed and stable support is provided.

In one embodiment, the elastic member 13 may be a spring plate 132, as shown in fig. 3, the spring plate 132 is bent in a continuous Z shape, the upper end of the spring plate 132 abuts against the filter part 12, the lower end of the spring plate abuts against the soaking container 11, and the contact between the contact surface 122 and the contact part 141 can be maintained by the spring plate 132. The spring plate 132 may be provided in plural to ensure balanced force.

In one embodiment, the elastic element 13 may also be a spring rod 133, as shown in fig. 4, which includes a rod body 1331, a rod sleeve 1332 and a compression spring 1333, wherein the rod sleeve 1332 has a hole, the rod body 1331 is inserted into the hole and can stretch, the compression spring 1333 is sleeved on the rod body 1331, and two ends of the compression spring 1333 respectively abut against the outer end of the rod body 1331 and the rod sleeve 1332. The end of the spring rod 133 remote from the rod sleeve 1332 abuts the filter portion 12 and the end of the rod sleeve 1332 remote from the rod body 1331 abuts the infusion container 11. The spring lever 133 can also maintain the contact between the contact surface 122 and the contact portion 141. The spring rods 133 may be provided in plurality to ensure force balance.

Furthermore, in order to avoid rotation during the lifting of the filter house 12, a guiding structure is provided between the filter house 12 and the infusion chamber 111. The soaking lifting mechanism 1 further comprises a longitudinal sliding groove 123 and a guide block 114. Wherein a longitudinal chute 123 is provided on one of the inner wall of the steeping chamber 111 or the outer wall of the filtering portion 12; a guide block 114 is provided on the other of the inner wall and the outer wall, and the guide block 114 is embedded in the longitudinal slide groove 123 and can slide up and down along the longitudinal slide groove 123. As shown, the chute 123 is provided on the steeping lifting mechanism 1, and the guide block 114 is provided on the inner wall of the steeping chamber 111. The guide block 114 can limit the rotation of the filter part 12 relative to the steeping chamber 111 when the filter part 12 ascends and descends, and the normal ascending and descending of the filter part 12 are influenced.

A kettle comprises a kettle body (not shown in the figure), and also comprises the soaking lifting mechanism 1; the soaking container 11 is arranged in the kettle body, at least part of the adjusting piece 14 is exposed out of the kettle body, and the soaking container 11 is also provided with a filter hole 112 which communicates the soaking cavity 111 with the inner cavity of the kettle body. The soaking container 11 is arranged in the kettle body, water in the kettle body enters the soaking container 11 through the filtering holes 112 to soak the tea leaves in the filtering part 12, and the tea leaf filtering function can be achieved. The user can move the adjusting element 14 by the part of the adjusting element 14 exposed outside the kettle body, and then drive the abutting element to move horizontally, so as to adjust the up-and-down position of the filtering part 12 in the soaking container 11.

Example 1:

The soaking container 11 is provided with a soaking cavity 111.

And an adjusting member 14 located above the soaking container 11, wherein the adjusting member 14 is provided with a horizontally movable abutting portion 141, and the abutting portion 141 abuts against the contact surface 122 when moving and the abutting position moves among the bottom 1221, the top 1222 and the transition surface 1223. The horizontal movement of the contact portion 141 may be horizontal rotation or horizontal translation, as long as the contact portion is held in contact with the contact surface 122 during the movement. Correspondingly, for different movement trajectories of the abutting part 141, the horizontal projection of the contact surface 122 should be correspondingly set, for example, when the abutting part 141 rotates horizontally, the horizontal projection of the contact surface 122 should be circular or arc, and when the abutting part 141 translates horizontally, the horizontal projection of the contact surface 122 should be linear.

One end of the elastic element 13 is abutted to the filtering part 12, the opposite end is abutted to the soaking container 11, specifically, the elastic element 13 is arranged in the soaking cavity 111 and is positioned below the filtering part 12, and when the abutting part 141 moves, the elastic element 13 is compressed or releases elastic potential energy, so that the filtering part 12 is lifted. In this present embodiment, the elastic member 13 is a tower-shaped spring 131, as shown in fig. 1 and 2. One end of the tower-shaped spring is a small end, the other end of the tower-shaped spring is a large end, the diameter of the large end is larger than that of the small end, the small end abuts against the soaking container 11, and the large end abuts against the filtering part 12. This arrangement allows the filter unit 12 to be moved with a stable force between the tower spring 131 and the filter unit 12, and prevents the filter unit 12 from being deflected during the lifting and lowering. In addition, the soaking container 11 is provided with a convex ring 113 for embedding and positioning the small end, so that the small end is fixed and stable support is provided.

Based on the above structure, when the soaking lifting mechanism 1 is in use, water is added into the soaking cavity 111, and enters the accommodating cavity 121 through the water permeable holes 124. Tea leaves are put into the containing cavity 121 of the filter part 12, the abutting part 141 is horizontally moved through the adjusting piece 14, and the contact surface 122 of the filter part 12 is kept abutting against the abutting part 141 by the elastic force of the elastic piece 13; when the adjusting piece 14 moves, the abutting position of the adjusting piece 14 and the contact surface 122 moves among the bottom 1221, the top 1222 and the transition surface 1223, when the abutting position is at the top 1222, the filter part 12 descends to the bottommost 1221, when the filter part 12 moves from the top 1222 to the bottom 1221, the filter part 12 gradually rises, when the filter part reaches the bottom 1221, the filter part 12 rises to the bottommost 1221, namely, the filter part 12 can be lifted with the tea leaves through the horizontal movement of the abutting part 141 of the adjusting piece 14, so that the tea leaves are immersed in water or lifted above the water level, and the requirements of customers are met.

Specifically, when the movement of the abutting portion 141 is horizontal rotation: the soaking cavity 111 is cylindrical, the adjusting part 14 is provided with a ferrule 142 which can be matched with the soaking cavity 111, and the ferrule 142 is attached to the inner wall of the soaking cavity 11 for rotation. The abutting portion 141 is fixedly connected to the ferrule 142. That is, the adjusting member 14 horizontally rotates relative to the soaking cavity 111 through the ferrule 142, and drives the abutting portion 141 to horizontally rotate. Correspondingly, the outer side surface of the filter part 12 is matched with the soaking cavity 111, and the projection of the contact surface 122 on the horizontal plane is circular. Accordingly, when the adjuster 14 rotates, the abutting portion 141 is rotated horizontally, the abutting portion 141 moves along the contact surface 122, and the elastic force of the elastic member 13 keeps the abutting, and the movement of the abutting position on the bottom 1221, the top 1222, and the transition surface 1223 causes the filter unit 12 to change up and down.

In addition, the bottom 1221 and the top 1222 are plural and equal in number, and the bottom 1221 and the top 1222 are sequentially arranged at intervals by taking the axis of the filter part 12 as an axis; the number of the abutting portions 141 is equal to the number of the top portions 1222 or the bottom portions 1221 and is arranged uniformly about the axis of the filter portion 12. In this arrangement, when the abutting portion 141 rotates once, the abutting position passes through the bottom portion 1221 and the top portion 1222 several times, and the filter portion 12 is lifted and lowered between the top portion 1222 and the bottom portion 1221 several times, which is more convenient when the filter portion 12 needs to be immersed up and down. The number of the bottom 1221 and the top 1222 may be specifically 2, 3, 4 or even more, and preferably, the number of the bottom 1221 and the top 1222 is set to 3.

The transition surface 1223 is a smooth curved surface. The tangent line of the top 1222 is horizontally disposed such that when the abutting portion 141 abuts the top 1222, the force applied by the abutting portion 141 to the filter portion 12 is vertically downward, and when the user releases his/her hand, the force can be offset by the elastic force of the elastic member 13, and the filter portion 12 will not rise again. This transition face 1223 sets up to smooth curved surface, and it is more smooth when butt portion 141 removes to be convenient for, and user's feeling is better.

Example 2:

a mechanism 1 for lifting and lowering a container for soaking, which is different from embodiment 1 in that in this embodiment, a spring piece 132 is used as an elastic member 13, and as shown in fig. 3, the spring piece 132 is bent in a continuous Z-shape, and the upper end thereof is in contact with a filter part 12, and the lower end thereof is in contact with a container for soaking 11, and the contact surface 122 and the contact part 141 can be kept in contact with each other by the spring piece 132. The spring plate 132 may be provided in plural to ensure balanced force.

Example 3:

an immersing and lifting mechanism 1 is different from embodiment 1 in that in this embodiment, an elastic member 13 is a spring rod 133, as shown in fig. 4, and includes a rod body 1331, a rod sleeve 1332 and a compression spring 1333, the rod sleeve 1332 is provided with a hole, the rod body 1331 is inserted into the hole and can stretch, the compression spring 1333 is sleeved on the rod body 1331, and two ends of the compression spring 1333 respectively abut against the outer end of the rod body 1331 and the rod sleeve 1332. The end of the spring rod 133 remote from the rod sleeve 1332 abuts the filter portion 12 and the end of the rod sleeve 1332 remote from the rod body 1331 abuts the infusion container 11. The spring lever 133 can also maintain the contact between the contact surface 122 and the contact portion 141. The spring rods 133 may be provided in plurality to ensure force balance.

Example 4:

a kettle, which comprises a kettle body (not shown in the figure), and further comprises a soaking lifting mechanism 1 of embodiment 1, embodiment 2 or embodiment 3; the infusion container 11 is mounted inside the body and the adjustment element 14 is at least partially exposed outside the body, for example a stop 143, which is exposed outside the body. The infusion container 11 is provided with a filtering hole 112 communicating the infusion chamber 111 with the inner cavity of the kettle body. The soaking container 11 is arranged in the kettle body, water in the kettle body enters the soaking container 11 through the filtering holes 112 to soak the tea leaves in the filtering part 12, and the function of filtering the tea leaves is achieved. The user can move the adjusting element 14 by the part of the adjusting element 14 exposed outside the kettle body, and then drive the abutting element to move horizontally, so as to adjust the up-and-down position of the filtering part 12 in the soaking container 11.

Other contents of the soaking lifting mechanism and the kettle are referred to the prior art and are not described herein again.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention in any way, so that any modification, equivalent change and modification made to the above embodiment according to the technical spirit of the present invention are within the scope of the technical solution of the present invention.

Claims

1. A soak lifting mechanism, comprising:

the soaking container is provided with a soaking cavity;

2. The steeping lift mechanism of claim 1, wherein: the soaking cavity is cylindrical, the adjusting piece is provided with a ferrule which can be matched with the soaking cavity, and the abutting part is fixedly connected with the ferrule.

3. The steeping lift mechanism of claim 1, wherein: the soaking device is characterized by further comprising an elastic piece, one end of the elastic piece is abutted against the filtering part, the opposite end of the elastic piece is abutted against the soaking container, and when the abutting part moves, the elastic piece is compressed or releases elastic potential energy, so that the filtering part is lifted.

4. The steeping lift mechanism of claim 1 or 2, wherein: the bottom part and the top part are arranged at intervals by taking the axis of the filter part as an axis; the abutting portions are arranged with the axis of the filter portion as an axis.

5. The steeping lift mechanism of claim 2, wherein: and a resisting part is arranged at the upper end of the ferrule outside the soaking cavity.

6. The steeping lift mechanism of claim 5, wherein: the resisting parts are arranged at intervals, and a groove is arranged between every two adjacent resisting parts.

7. The steeping lift mechanism of claim 6, wherein: still include the drive division, butt the recess, the drive regulating part removes filter part.

8. The steeping lift mechanism of claim 1, wherein: the transition surface is a curved surface.

9. The steeping lift mechanism of claim 3, wherein: the elastic part is a tower-shaped spring or a spring piece or a spring rod; the soaking container is provided with a convex ring for embedding and positioning the small head end of the tower-shaped spring.

10. The steeping lift mechanism of claim 1, further comprising:

11. A kettle, which comprises a kettle body and is characterized in that: further comprising the steeping lift mechanism of any of claims 1-10; the soaking container is arranged in the kettle body, at least part of the adjusting piece is exposed out of the kettle body, and the soaking container is also provided with a filter hole for communicating the soaking cavity with the inner cavity of the kettle body.