CN111248741B - Liquid heating container - Google Patents

Abstract

The invention discloses a liquid heating container, which comprises: a kettle body; the kettle cover comprises a fixed cover part and a movable cover part, the fixed cover part is fixed with the kettle body, the movable cover part is pivoted with the fixed cover part, and the movable cover part and the fixed cover part jointly cover the kettle body; the elastic reset piece is respectively connected with the fixed cover part and the movable cover part; the first locking piece is arranged on the kettle body, the second locking piece is arranged on the movable cover part, a locking state and an unlocking state are formed between the first locking piece and the second locking piece, the first locking piece and the second locking piece are controlled to be switched between the locking state and the unlocking state by exerting pressing force on the movable cover part, and the first locking piece and the second locking piece are locked to cover the movable cover part and the kettle body in the locking state; when the lock is in an unlocking state, the first locking piece and the second locking piece are separated, and the elastic resetting piece upwards bounces the movable cover part. The technical scheme of the invention can ensure that the kettle cover is smoothly opened.

Description

Liquid heating container

Technical Field

The invention relates to the field of household appliances, in particular to a liquid heating container.

Background

Generally, the liquid heating container needs to be opened through a button, namely, a button is usually arranged on the kettle body, and the kettle cover can be opened by pressing the button. Because the button is the activity setting on the kettle body, needs the relative kettle body to move, then must have the free gap between button and the kettle body and supply the button to be pressed smoothly, but fall into foreign matter such as dust in this free gap easily, lead to the free gap between button and the kettle body to diminish and cause the button activity not in order smoothly to block even diely, and then make the pot lid can not smoothly open.

Disclosure of Invention

The invention mainly aims to provide a liquid heating container, aiming at ensuring that a kettle cover can be smoothly opened.

To achieve the above object, the present invention provides a liquid heating vessel comprising:

a kettle body;

the kettle cover comprises a fixed cover part and a movable cover part, the fixed cover part is fixed with the kettle body, the movable cover part is pivoted with the fixed cover part, and the movable cover part and the fixed cover part jointly cover the kettle body;

the elastic reset piece is respectively connected with the fixed cover part and the movable cover part;

a first locking member mounted on the kettle body, an

The second locking piece is arranged on the movable cover part, a locking state and an unlocking state are formed between the first locking piece and the second locking piece, the first locking piece and the second locking piece are controlled to be switched between the locking state and the unlocking state by applying pressure to the movable cover part, and the first locking piece and the second locking piece are locked to cover the movable cover part and the kettle body in the locking state; when the lock is in an unlocking state, the first locking piece and the second locking piece are separated, and the elastic resetting piece upwards bounces the movable cover part.

Optionally, one of the first locking piece and the second locking piece is mounted on the bottom surface of the movable cover part, and the other is fixed on the peripheral wall of the kettle body;

when the unlocking state is switched to the locking state, the second locking piece pushes the first locking piece along the up-down direction by applying pressure to the movable cover part, and the first locking piece is in a compressed state and is buckled with the second locking piece;

when the locking state is switched to the unlocking state, the second locking piece continues to push the first locking piece along the up-down direction by applying pressure to the movable cover part, so that the first locking piece is continuously compressed; when the pressure applied to the movable cover part is removed, the first locking piece is deformed along the up-down direction and is separated from the second locking piece.

Optionally, the first locking piece comprises an installation seat, a movable clamping hand and an elastic piece, the installation seat is provided with an accommodating groove which is open upwards, and the elastic piece is installed in the accommodating groove; the second locking piece comprises a connecting part and a limiting part convexly arranged at the end part of the connecting part; the mounting seat is arranged on the peripheral wall of the kettle body, and the connecting part is correspondingly arranged on the bottom surface of the movable cover part;

when the unlocking state is switched to the locking state, the limiting part is inserted into the movable clamping hand and pushes the movable clamping hand to enter the accommodating groove, the elastic piece is compressed under pressure, and the movable clamping hand is limited in the accommodating groove and clamped with the limiting part;

when the locking state is switched to the unlocking state, the elastic piece is continuously compressed and then returns to deform, the movable clamping hand is pushed to stretch out of the accommodating groove, and the movable clamping hand loosens the clamping of the limiting part.

Optionally, the first locking member further includes a positioning member, the positioning member is mounted on the movable clamping arm and abuts against the elastic member, and a positioning groove is formed in a groove wall of the accommodating groove;

when the unlocking state is switched to the locking state, the elastic piece is compressed and pushes the positioning piece to slide into the positioning groove, and the positioning piece limits the movable clamping hand in the accommodating groove;

when the locking state is switched to the unlocking state, the positioning piece slides out of the positioning groove, so that the limitation on the movable clamping hand is removed.

Optionally, the kettle body comprises an outer shell and an inner container arranged in the outer shell, and the first locking member is positioned between the outer shell and the inner container.

Optionally, the upper end of the inner container is turned outwards to form a flange, the flange is overlapped with the upper end of the shell, the flange is downwards sunken to form an avoiding groove, and the first locking piece is installed in the avoiding groove.

Optionally, the tank bottom of dodging the groove is equipped with one and dodges the hole, first locking part passes dodge the hole setting, be equipped with the spacing groove on the periphery wall of first locking part, dodge the hole along with spacing groove block.

Optionally, the liquid heating container further includes a fixing member, the fixing member is fixedly disposed between the outer shell and the inner container and has an installation groove with an upward opening, a lower end of the first locking member is accommodated in the installation groove, and a bottom surface of the first locking member abuts against a groove bottom of the installation groove.

Optionally, the hole edge of the avoidance hole extends downwards to form a skirt edge, the skirt edge is clamped into the limiting groove, a butt convex part is arranged on the groove wall of the mounting groove, and the butt convex part abuts against the skirt edge.

Optionally, the liquid heating container further comprises a display control assembly, and the display control assembly is mounted on the fixed cover portion.

Optionally, the liquid heating container further comprises a sensor, and the sensor is arranged on the kettle body or the kettle lid and electrically connected with the display control assembly.

Optionally, the sensor comprises a TDS sensor and a temperature sensor, the TDS sensor comprises an assembly part and a TDS probe arranged on the assembly part, the TDS probe comprises a conductive shell with a fixed cavity, the kettle body is provided with a yielding hole, and the TDS probe extends into the kettle body through the yielding hole;

the temperature sensor is arranged in the fixed cavity, and a non-conductive layer is arranged between the temperature sensor and the conductive shell.

Optionally, the sensor includes an assembly portion and an induction portion connected to each other, the kettle body is provided with a step-down hole, the induction portion extends into the kettle body through the step-down hole, the kettle body is a conductive member, the liquid heating container further includes an insulating member, and the induction portion is sleeved with the insulating member.

The first locking piece and the second locking piece are arranged, the movable cover part can be covered with the kettle body through the first locking piece and the second locking piece, the movable cover part and the kettle body are fixed, and the movable cover part is opened relative to the kettle body when external force is applied to the movable cover part, so that the liquid heating container can be opened by pressing the movable cover part. In addition, open or close the movable cover portion through adopting this mode, only need on the movable cover portion directly exert external force can, and need not additionally set up on movable cover portion or the kettle body and press the button and transmit external force, can cancel the button position, thus can avoid the setting of button on the liquid heating container, can guarantee that the movable cover portion can be opened smoothly. In addition, the seamless design can be realized, the appearance is more complete and attractive, and the sealing performance is improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

FIG. 1 is a top view of one embodiment of a liquid heating vessel according to the present invention;

FIG. 2 is a schematic sectional view of the liquid heating vessel of FIG. 1 taken along section line A-A;

FIG. 3 is an enlarged view at C of FIG. 2;

FIG. 4 is a top plan view of another embodiment of a liquid heating vessel according to the present invention;

FIG. 5 is a schematic sectional view of the liquid heating vessel of FIG. 4 taken along section line B-B;

FIG. 6 is a schematic view of a portion of the liquid heating vessel of FIG. 1;

FIG. 7 is a schematic view of a portion of another embodiment of a liquid heating vessel according to the present invention;

FIG. 8 is a schematic view of the construction of the flexible connection of the liquid heating vessel of FIG. 1;

FIG. 9 is a schematic structural view of the first locking member of FIG. 8, wherein the resilient member is in a free state;

FIG. 10 is a schematic view of the first locking member of FIG. 8, wherein the resilient member is in a compressed state;

FIG. 11 is a schematic structural diagram of a positioning member of the first locking member of FIG. 8;

FIG. 12 is a schematic view of the positioning element, positioning slot and guiding slot in FIG. 11;

FIG. 13 is a top view of the retaining cap of FIG. 1;

FIG. 14 is a front view of the stationary cover part of FIG. 1;

FIG. 15 is a left side view of the stationary cover part of FIG. 1, with the garnish not shown;

FIG. 16 is a left side elevational view of the retaining cap portion of an embodiment of the liquid heating vessel of the present invention, with the decorative member not shown;

FIG. 17 is a sectional view of the stationary cover part of FIG. 16;

FIG. 18 is a schematic view of a retaining cap portion of an embodiment of the liquid heating vessel of the present invention, wherein the decorative member is not shown;

FIG. 19 is a schematic sectional view of a stationary cover portion of an embodiment of the liquid heating vessel of the present invention;

FIG. 20 is a schematic view of the structure of the decoration of FIG. 14;

FIG. 21 is a schematic drawing in partial cutaway of an embodiment of a liquid heating vessel of the present invention;

FIG. 22 is a schematic sectional view of one embodiment of a liquid heating vessel according to the present invention;

FIG. 23 is an enlarged, fragmentary view of an embodiment of the liquid heating vessel of the present invention, as seen at D in FIG. 22;

FIG. 24 is a schematic diagram of the TDS sensor of FIG. 22;

FIG. 25 is a top view of the TDS sensor of FIG. 24;

FIG. 26 is a top view of another embodiment of the TDS sensor of FIG. 24;

FIG. 27 is an enlarged fragmentary view of one embodiment of the liquid heating vessel of the present invention, as seen at D in FIG. 22;

FIG. 28 is an enlarged view of a portion of one embodiment of the liquid heating vessel of the present invention, as seen at D in FIG. 22.

The reference numbers illustrate:

the implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that, if directional indications (such as up, down, left, right, front, and back … …) are involved in the embodiment of the present invention, the directional indications are only used to explain the relative positional relationship between the components, the movement situation, and the like in a specific posture (as shown in the drawing), and if the specific posture is changed, the directional indications are changed accordingly.

In addition, if there is a description of "first", "second", etc. in an embodiment of the present invention, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, the meaning of "and/or" appearing throughout is to include three juxtapositions, exemplified by "A and/or B," including either the A or B arrangement, or both A and B satisfied arrangement. In addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.

The invention provides a liquid heating container which can be an electric kettle or a health preserving kettle and the like.

In the embodiment of the present invention, as shown in fig. 1 to 6, the liquid heating container includes a pot body 10 and a pot lid 20, the pot lid 20 is disposed to cover the pot body 10, specifically, the pot lid 20 includes a fixed lid portion 22 and a movable lid portion 21, the fixed lid portion 22 is fixed to the pot body 10, the movable lid portion 21 is pivotally connected to the fixed lid portion 22, and the movable lid portion 21 and the fixed lid portion 22 are disposed to cover the pot body 10 together. An elastic return is provided between the fixed cover 22 and the movable cover 21 to give the movable cover 21 a tendency to open with respect to the kettle 10. Alternatively, an elastic restoring member, for example, a torsion spring, is provided at the pivot joint of the fixed cover part 22 and the movable cover part 21. Of course, the elastic restoring member may be provided on the side wall 2 of the fixed cover portion 2 and the bottom wall of the movable cover portion 21. In addition, the elastic reset piece can also be a spring. A spout is further provided on the pot body 10 to pour out water when the pot lid 20 is closed.

Further, the liquid heating container also comprises a first locking piece 31 and a second locking piece 32, the first locking piece 31 is arranged on the kettle body, the second locking piece 32 is arranged on the movable cover part 21, a locking state and an unlocking state are formed between the first locking piece and the second locking piece, pressure is applied to the movable cover part 21 to control the first locking piece and the second locking piece to be switched between the locking state and the unlocking state, and in the locking state, the first locking piece and the second locking piece are locked to cover the movable cover part 21 and the kettle body 10; in the unlocked state, the first locking piece and the second locking piece are disengaged, and the elastic restoring piece bounces upwards to the movable cover part 21.

The number of the first locking members 31 and the second locking members 32 may be one, or may be plural, and the movable lid portion 21 may be locked at one point, or may be locked at two or more points. For example, a first locking member 31 is disposed on each of two opposite sides of the spout, and a second locking member 32 is disposed on each first locking member 31, so as to balance the force.

It can be understood that the invention is provided with the first locking part 31 and the second locking part 32, the first locking part 31 and the second locking part 32 can fix the movable cover part 21 and the kettle body 10 when the movable cover part 21 is covered with the kettle body 10, and release the fixation of the movable cover part 21 and the kettle body 10 when the movable cover part 21 is applied with external force, so that the movable cover part 21 is opened relative to the kettle body 10, thereby realizing the liquid heating container which can be opened by pressing the movable cover part 21, and the structure can realize the opening or the covering only by pressing, which is very convenient. In addition, by adopting the method to open or close the movable cover part 21, only pressure needs to be directly applied to the movable cover part 21, and a press button does not need to be additionally arranged on the movable cover part 21 or the kettle body 10 to transmit external force, so that the position of the button can be cancelled, the arrangement of the button on the liquid heating container can be avoided, and the movable cover part 21 can be ensured to be smoothly opened. In addition, the seamless design can be realized, the appearance is more complete and attractive, and the sealing performance is improved.

In the above embodiment, the first locking member 31 and the second locking member 32 may be implemented by an elastic snap similar to an elastic ball pen to mount the movable lid portion 21 and the fixed lid portion 22, or by an elastic push button and a fastening member (for example, a structure of a male terminal of a door latch switch and a female terminal of a door latch switch) to fasten each other, or by other methods, which is not limited herein, but in this embodiment, the elastic push button and the fastening member adapted to the elastic push button are preferably implemented, and the first locking member 31 is taken as the elastic push button, and the second locking member 32 is taken as the fastening member for example, which is not limited herein.

In particular, one of the first locking element 31 and the second locking element 32 is fixed to the kettle body 10, and the other is arranged on the movable lid 21 in a position corresponding to the first locking element 31. When the unlocked state is switched to the locked state, the first locking member 31 is compressed in the up-down direction by the second locking member 32 by applying pressure to the movable lid portion 21, and is in a compressed state and is fastened to the second locking member 32; when the locked state is switched to the unlocked state, the second locking member 32 continues to compress the first locking member 31 in the up-down direction by applying pressure to the movable lid portion 21; when the pressure applied to the movable lid 21 is removed, the first locking member 31 is deformed again and is disengaged from the second locking member 32, and the movable lid 21 is opened relative to the kettle body 10 by the torsion spring. The structure adopts a buckling mode to facilitate the installation and the disassembly of the movable cover part 21 and the kettle body 10. It should be noted that the positions of the first locking member 31 and the second locking member 32 can be interchanged. Fig. 7 shows a part of a schematic view of a liquid heating vessel according to another embodiment of the invention, wherein a first locking member 31 is fixed on the movable lid 21 and a second locking member 32 is arranged on the kettle body 10.

Referring to fig. 8 to 12, in an embodiment of the invention that the first locking member 31 and the second locking member 32 are fastened together, the first locking member 31 includes a mounting seat 311, a movable clamping hand 312, an elastic member 313 and a positioning member 314, the mounting seat 311 has an accommodating groove 3111 with an upward opening and a positioning groove 3112 disposed on a groove wall of the accommodating groove 3111, the positioning member 314 is mounted on the movable clamping hand 312, the elastic member 313 is mounted in the accommodating groove 3111, and one end of the elastic member abuts against the positioning member 314; the second locking member 32 includes a connecting portion 321 and a limiting portion 322 protruding from an end of the connecting portion 321; the mounting seat 311 is mounted on the peripheral wall of the kettle body 10, and the connecting part 321 is correspondingly mounted on the bottom surface of the movable lid 21.

In this embodiment, the movable gripper 312 has an initial state separated from the position-limiting portion 322 and a clamping state clamped by the position-limiting portion 322, and when the elastic member 313 is not pressed, the elastic member pushes the movable gripper 312 to extend out of the notch of the accommodating groove 3111, so that the movable gripper 312 is in the initial state.

When the unlocking state is switched to the locking state, the limiting portion 322 is inserted into the movable clamping hand 312 by applying pressure to the movable cover portion 21, and pushes the movable clamping hand 312 to enter the accommodating groove 3111, the elastic member 313 is compressed by pressure and pushes the positioning member 314 to slide into the positioning groove 3112, so that the movable clamping hand 312 is limited in the accommodating groove 3111, at this time, the movable clamping hand 312 is pressed by the groove wall of the accommodating groove 3111 to be in the clamping state, and the first locking member 31 and the second locking member 32 are locked, so that the movable cover portion 21 is closed, which is very simple and convenient.

When the locking state is switched to the unlocking state, the elastic member 313 is pressed to be continuously compressed by applying pressure to the movable cover part 21, the positioning member 314 slides out of the positioning groove 3112, when the external force applied to the movable cover part 21 is cancelled, the elastic member 313 restores to be deformed to push the movable gripper 312 to extend out of the notch of the accommodating groove 3111, at this time, the movable gripper 312 restores to the initial state in the free state, so that the limiting part 322 is pulled out of the movable gripper 312, the first locking member 31 and the second locking member 32 are unlocked, the movable cover part 21 springs upwards under the action of the torsion spring, and the opening of the movable cover part 21 is completed.

In the above embodiment, the movable gripper 312 includes a gripper body 3121 and two clamping arms 3122, the gripper body 3121 is adapted to the accommodating groove 3111 in a sliding manner, wherein the gripper body 3121 is substantially rectangular, the accommodating groove 3111 is a rectangular groove disposed along the longitudinal direction, and the gripper body 3121 slides in and out of the groove opening along the up-down direction in the accommodating groove 3111. In addition, one end of the gripper body 3121 opposite to the notch of the receiving slot 3111 is provided with a positioning hole 3123 for inserting and positioning the elastic element 313, the two clamping arms 3122 are oppositely disposed at one end of the gripper body 3121 facing the notch of the receiving slot 3111, the two clamping arms 3122 are approximately in a clamp shape, and the two clamping arms 3122 have an arc-shaped bent portion connected to the gripper body 3121. It can be understood that, when the two clipping arms 3122 enter the accommodating groove 3111 along with the hand clamping body 3121, the two clipping arms 3122 are relatively close to each other under the extrusion of the groove wall of the accommodating groove 3111, and when the two clipping arms 3122 are close to a certain distance, the limiting portion 322 is clamped, the separation of the movable lid portion 21 from the pot body 10 is limited, that is, the covering of the movable lid portion 21 is achieved.

In this embodiment, the positioning member 314 includes a connecting rod 3141, one end of the connecting rod 3141 is rotatably provided with a rotating shaft 3142 perpendicular to the axial direction thereof, the rotating shaft 3142 is connected with the gripper body 3121, wherein the gripper body 3121 is provided with a shaft hole 3124 for the rotating shaft 3142 to be inserted, and one end of the elastic member 313 inserted into the positioning hole 3123 abuts against the rotating shaft 3142; the other end of the connecting rod 3141 is provided with a positioning column 3143 perpendicular to the axial direction thereof, and the positioning column 3143 and the rotating shaft 3142 extend in opposite directions. One end of the connecting rod 3141 is connected to the gripper body 3121 through a rotating shaft 3142, and a positioning column 3143 at the other end of the connecting rod 3141 is close to a groove wall of the accommodating groove 3111 or is in sliding fit with the groove wall of the accommodating groove 3111.

When the pressure transmitted from the movable cover 21 causes the hand clamping body 3121 to slide into the accommodating groove 3111, the hand clamping body 3121 transmits the pressure to the elastic member 313 through the rotation shaft 3142, the elastic member 313 is compressed, the connecting rod 3141 also moves downward and swings around the rotation shaft 3142, and drives the positioning post 3143 to move in the accommodating groove 3111, when the positioning post 3143 moves into the positioning groove 3112 and the pressure transmitted from the movable cover 21 disappears, the positioning post 3143 is limited in the positioning groove 3112, the elastic thrust generated by the elastic member 313 cannot cause the positioning post 3143 to move out of the accommodating groove 3111, so as to limit the hand clamping arm 3122 on the hand clamping body 3121 and clamp the limiting portion 322 of the second locking member 32 in the accommodating groove 3111, thereby realizing locking, and reliably covering the movable cover 21 on the pot body 10.

When the movable lid 21 is closed and the movable lid 21 is pressed again until the movable lid 21 is released, first, the pressure transmitted from the movable cover 21 makes the tong body 3121 continuously slide into the receiving groove 3111, and drives the connecting rod 3141 and the positioning post 3143 to move a small distance toward the lower left or lower right of the positioning groove 3112, the elastic member 313 continues to compress, when the force applied to the movable cover portion 21 is eliminated, the reverse thrust generated by the elastic member 313 recovering to deform acts on the rotating shaft 3142 of the positioning member 314, so that the positioning post 3143 of the positioning member 314 deflects in the accommodating groove 3111 and is separated from the positioning groove 3112, and when the gripper body 3121 is not limited, under the elastic pushing force of the elastic element 313, the two clipping arms 3122 on the clipping hand body 3121 extend out of the containing groove 3111, and is separated from the limit portion 322 of the second locking member 32 to realize the unlocking, and at this time, the movable lid portion 21 is sprung upward by the torsion spring.

In this embodiment, in order to facilitate the elastic member 313 to abut against and cooperate with the rotation shaft 3142, a tangent plane is provided on a side of the rotation shaft 3142 facing the elastic member 313, and the elastic member 313 abuts against the tangent plane. The cut surface has a certain plane width, so that the rotating shaft 3142 transmits force to the elastic member 313.

In this embodiment, further, a guide groove 3113 is further disposed on an inner wall of the accommodating groove 3111, the guide groove 3113 is communicated with the positioning groove 3112, the positioning column 3143 is adapted to the guide groove 3113 in a sliding manner, and the guide groove 3113 has a first sliding position for the positioning column 3143 to slide into the positioning groove 3112, so that the movable gripper 312 is in a clamping state, and a second sliding position for the movable gripper 312 to return to an initial state. The guide groove 3113 may be a long groove, or may form a "W" shaped groove together with the positioning groove 3112, and the "W" shaped groove is not limited herein as long as the positioning column 3143 can slide into the positioning groove 3112, and the two clamping arms 3122 can extend out of the accommodating groove 3111 to be separated from the limiting portion 322, wherein the "W" shaped groove can prevent the positioning column 3143 from slipping, so as to cause the automatic ejection of the movable lid 21, and improve the reliability of the movable lid 21 after being covered.

Further, in connection with the above-described embodiment, the closing and opening process of the movable lid portion 21 is briefly described:

when the movable cover portion 21 is closed, the movable cover portion 21 is pressed downward, the limiting portion 322 and a part of the connecting portion 321 of the second locking member 32 are inserted downward between the two clamping arms 3122 of the first locking member 31, when the movable cover portion 21 is pressed downward, the movable cover portion 21 transmits a pushing force to the gripper body 3121 of the first locking member 31 through the connecting portion 321 and the limiting portion 322, so that the gripper body 3121 slides downward and drives the two clamping arms 3122 to enter the accommodating groove 3111 along with the gripper body 3121, and the two clamping arms 3122 are pressed by the groove walls of the accommodating groove 3111 to approach each other relatively; meanwhile, the clamping arm body 3121 transmits pressure to the elastic member 313 through the rotating shaft 3142, so that the elastic member 313 is compressed downward, the connecting rod 3141 moves downward, the positioning post 3143 of the connecting rod 3141 is limited in the guide groove 3113, the connecting rod 3141 can swing around the rotating shaft 3142 and drive the positioning post 3143 to slide downward in the guide groove 3113, when the positioning post 3143 slides into the positioning groove 3112 and the pressure transmitted on the movable cover 21 disappears, the positioning post 3143 is in the first sliding position and limited in the positioning groove 3112, the elastic thrust generated by the elastic member 313 cannot make the positioning post 3143 move upward, at this time, the two clamping arms 3122 press the limiting portion 322 of the second locking member 32 under the groove wall pressure of the accommodating groove 3111, and at this time, the first locking member 31 and the second locking member 32 are switched from the unlocking state to the locking state. Since the first locking member 31 and the second locking member 32 are locked, the movable lid 21 is restricted from bouncing upwards, so that the movable lid 21 can be reliably covered on the kettle body 10.

When the movable cover portion 21 needs to be opened, the movable cover portion 21 is pressed downward, at this time, the movable cover portion 21 transmits a pushing force to the gripper body 3121 of the first locking member 31 through the connecting portion 321 and the limiting portion 322, so that the gripper body 3121 continues to slide downward, and the elastic member 313 continues to be compressed downward, and at the same time, the gripper body 3121 drives the link 3141 and the positioning post 3143 to move a small distance toward the lower left or lower right of the positioning groove 3112, the elastic member 313 continues to compress, when the pressure applied to the movable cover portion 21 disappears, a reverse pushing force generated by the elastic member 313 recovering deformation acts on the rotating shaft 3142 of the positioning member 314, the positioning post 3143 of the positioning member 314 slides upward in the guiding groove 3113 and disengages from the positioning groove 3112, at this time, under the elastic pushing force of the elastic member 313, the positioning post 3143 of the positioning member 314 slides in the guiding groove 3113 to the second sliding position, and pushes the gripper body 3122 on the gripping arm to slide upward so that the two accommodating grooves 3122 on the gripper body 3121 extend out of the first locking groove 3111, and the first locking member 31 and the second locking member 32 are separated from the limiting portion 322 of the second locking member 32 to realize unlocking, and at this time, the locking state is switched to the unlocking state between the first locking member 31 and the second locking member 32. Since both the first locking member 31 and the second locking member 32 are unlocked, the movable lid portion 21 is sprung upward by the elastic restoring member, that is, the movable lid portion 21 is opened.

In some embodiments of the present invention, the second locking member 32 is integrally formed with the movable lid portion 21, for example, the second locking member 32 and the movable lid portion 21 can both be made of plastic, and the second locking member 32 and the movable lid portion 21 are integrally formed by injection molding. In other embodiments, the second locking member 32 is a metal member and is injection molded with the movable lid 21. In still other embodiments, the second locking member 32 is welded to the movable lid portion 21. In other embodiments, the second locking member 32 is detachably connected to the movable lid 21, such as by a screw connection or a snap connection.

In this embodiment, the kettle body 10 includes a housing 11 and an inner container 12 accommodated in the housing 11, and the first locking member 31 is located between the housing 11 and the inner container 12. Specifically, the upper end of the inner container 12 is turned outwards to form a flange 121, the flange 121 is overlapped with the upper end of the outer shell 11, the flange 121 is recessed downwards to form an avoiding groove 122, an avoiding hole (not labeled) is formed at the bottom of the avoiding groove 122, and the first locking member 31, i.e., the mounting seat 311 portion of the first locking member 31, penetrates through the avoiding hole and is fixed with the flange 121. In this embodiment, the flange 121 of the inner container sinks by a step to form the avoiding groove 122 for accommodating the first locking member 31, and the avoiding hole is formed at the bottom of the avoiding groove 122, so that a hole does not need to be formed on the top surface of the kettle body 10, and the overall appearance is better.

In this embodiment, the outer peripheral wall of the first locking member 31 is provided with a limiting groove 3114, and the hole edge of the avoiding hole is engaged with the limiting groove 3114. Specifically, the outer peripheral wall of the mounting seat 311 is provided with a stopper groove 3114. Through the form of this kind of spacing groove 3114 and the hole edge block of dodging the hole, can guarantee that mount pad 311 will dodge the hole and seal completely, therefore both can improve sealing performance, can promote whole outward appearance effect again.

Further, the liquid heating container further includes a fixing member 40, the fixing member 40 is fixedly disposed between the outer shell 11 and the inner container 12, and has an installation groove 41 with an upward opening, a lower end of the installation seat 311 is accommodated in the installation groove 41, and a bottom surface of the installation seat 311 abuts against a bottom of the installation groove 41. In this embodiment, the installation groove 41 can perform a certain heat insulation function, and reduce the direct heat transfer to the installation seat 311. In addition, since the mounting seat 311 is abutted against the bottom of the mounting groove 41, when the second locking member 32 presses the movable clamping hand 312 downward and the elastic member 313 is compressed to press the mounting seat 311, the mounting seat 311 can be prevented from moving downward, and the mounting groove 41 can limit the mounting seat 311 from moving upward and downward, so that the elastic member 313 can be ensured to move more stably and extend and contract, and the elastic member 313 can be prevented from tripping.

Further, the hole edge of the avoidance hole extends downwards to form a skirt edge 123, the skirt edge 123 is clamped in the limiting groove 3114, the groove wall of the mounting groove 41 is provided with an abutting convex part 42, and the abutting convex part 42 abuts against the skirt edge 123. Through setting up shirt rim 123, increased the block area of turn-ups 121 and spacing groove 3114 for the block effect is better. The arrangement of the abutting convex part 42 presses the skirt edge 123 onto the mounting seat 311, so that when the movable clamp moves up and down, the mounting seat 311 can be prevented from being torn by the movable clamp, and the hole edge of the avoiding hole can be prevented from being pulled and deformed in the process of buckling or unbuckling the second locking part 32 and the first locking part 31.

Furthermore, in order to visually know the parameters of the water body in the kettle body 10, such as temperature, water quality or water quantity, a display and control assembly 90 is further arranged on the liquid heating container, and the display and control assembly 90 is electrically connected with each sensor (such as a temperature sensor, a TDS sensor, a gravity sensor and the like) in the liquid heating container so as to display the parameters of the water body, such as temperature, water quality or water quantity. In this embodiment, the display and control assembly 90 may be disposed on the kettle body 10 or the kettle lid 20, and optionally, the display and control assembly 90 is disposed on the kettle lid 20. In this embodiment, the display control assembly 90 is installed on the fixed cover 22, and compared with the display control assembly 90 installed on the kettle body 10, the display control assembly 90 is installed on the kettle lid 20 in this embodiment, so that the display control assembly 90 is located at a high position, which is convenient for a user to observe. In this embodiment, the fixed cover 22 is fixedly connected to the kettle body 10, and no moving gap needs to be reserved between the fixed cover 22 and the kettle body 10, so that the display control assembly 90 is disposed on the fixed cover 22, and the electrical connection wires of the display control assembly 90 and other electrical devices such as a circuit board on the kettle body 10 do not need to be disposed in an exposed moving section to adapt to the opening and closing of the moving cover 21, thereby facilitating the arrangement of the electrical connection wires.

In this embodiment, the movable cover portion 21 includes an upper cover and a lower cover detachably connected to each other, and the upper cover is made of a low thermal conductive material, for example, the upper cover is made of glass or plastic, so that the upper cover can prevent scalding hands. Or, a low heat conduction layer is attached to the upper cover.

An installation cavity 223 (as shown in fig. 18) can be arranged on the pot lid 20 or the pot body 10, the display control assembly 90 is accommodated in the installation cavity 223, the display screen of the display control assembly 90 can be directly exposed from the opening of the installation cavity 223, and the display screen is hermetically connected with the cavity wall of the installation cavity 223; alternatively, a transparent plate is arranged on the sealing cover of the cavity opening of the mounting cavity 223, and the display control assembly 90 is integrally sealed in the mounting cavity 223. The display control assembly 90 may further include a control panel electrically connected to the display screen, and the control panel extends to the kettle body 10 through a wire and is electrically connected to the power module on the kettle body 10. In addition, the display and control assembly 90 may only include a display screen, the control panel is disposed on the kettle body 10, and the display screen extends to the kettle body 10 through a wire and is connected with the control panel.

In the embodiment where the lid 20 includes the fixed lid portion 22 and the movable lid portion 21, the display and control assembly 90 is optionally mounted on the fixed lid portion 22. Specifically, a mounting cavity 223 (shown in fig. 18) is formed in the fixed cover 22, and the display control unit 90 is mounted in the mounting cavity 223. In this embodiment, the fixed cover 22 is fixedly connected to the kettle body 10, and no moving gap needs to be reserved between the fixed cover 22 and the kettle body 10, so that the display control assembly 90 is disposed on the fixed cover 22, and the electrical connection wires of the display control assembly 90 and other electrical devices such as a circuit board on the kettle body 10 do not need to be disposed in an exposed moving section to adapt to the opening and closing of the kettle lid 20, thereby facilitating the arrangement of the electrical connection wires.

In other embodiments, the mounting cavity 223 is formed on the side wall of the kettle body 10, the opening of the mounting cavity 223 faces the side surface, and the bottom of the mounting cavity 223 extends along the up-down direction. In other embodiments, the kettle body 10 is provided with a handle 13, and the mounting cavity 223 is formed on the handle 13, specifically, the mounting cavity 223 can be formed on the top end of the handle 13 or other positions.

Referring to fig. 13 to 20, further, the mounting cavity 223 has a cavity bottom facing the kettle body 10, and the cavity bottom is provided with a heat insulation structure to insulate the heat in the kettle body 10. The heat insulation structure can be integrally formed on the lid 20 or the body 10, and certainly, the heat insulation structure can also be additionally arranged on the lid 20 or the body 10. Through setting up thermal-insulated structure, can play certain thermal-insulated effect to the chamber end of installation cavity 223, and then reduce in the heat gets into installation cavity 223, consequently can reduce the temperature around showing accuse subassembly 90, reach the purpose of avoiding showing accuse subassembly 90 work inefficacy. In the embodiment where the mounting cavity 223 is formed in the lid 20, the heat insulation structure is provided at the bottom wall of the lid 20. Alternatively, the heat insulating structure is provided at the bottom wall of the fixed cover portion 22.

In some embodiments, the insulation structure is an insulation cavity 511, and the insulation cavity 511 can reduce the flow of air, thereby reducing the transfer of heat, and achieving the insulation effect. Optionally, the insulating chamber 511 is located on the outer surface of the chamber bottom of the installation chamber 223. Specifically, a mounting cavity 223 is formed on the pot lid 20, and the heat insulation structure is a heat insulation cavity 511 formed on the bottom wall of the pot lid 20, and the bottom wall of the pot lid 20 forms the cavity bottom of the mounting cavity 223. Through on the diapire of pot lid 20 and correspond the thermal-insulated chamber 511 of the chamber end formation of installation cavity 223, can block at the bottom of vapor and the chamber of installation cavity 223 direct contact, play better thermal-insulated effect to the heat on transmitting to pot lid 20 that has significantly reduced has reduced the temperature around showing accuse subassembly 90, has reached the purpose of avoiding showing accuse subassembly 90 work inefficacy. In addition, the heat insulation structure can also be a heat insulation plate or a heat insulation cotton structure.

In this embodiment, the bottom wall of the lid 20 can be thicker, so that the heat insulation chamber 511 can be directly formed on the bottom wall of the lid 20. In addition, a heat insulation block 51 can be additionally installed on the bottom wall of the pot lid 20, a heat insulation cavity 511 is formed in the heat insulation block 51, and the heat insulation block 51 and the pot lid 20 are formed in a split manner. The insulation blocks 51 may be located within the mounting cavity 223; alternatively, the insulation block 51 is located outside the installation cavity 223. Of course, the heat insulation block 51 may be integrally formed with the lid 20, so that the heat insulation block 51 forms a part of the bottom wall of the lid 20, thereby simplifying installation, ensuring that the heat insulation block 51 can be tightly attached to the bottom wall of the lid 20, and avoiding the generation of a gap between the two to cause the water vapor to flow through the gap between the two. Specifically, the heat insulating block 51 is integrally formed with the fixed lid portion 22, and the heat insulating block 51 is preferably provided so as to cover the entire bottom wall of the fixed lid portion 22. The heat insulating block 51 is preferably a plastic member having a small thermal conductivity and low heat transfer efficiency, and thus has a high heat insulating effect. Similarly, in the embodiment in which the cavity 223 is formed in the can 10, the insulation 511 can be formed directly in the can 10, or an insulation block 51 can be additionally formed on the can 10, and the insulation block 51 can be formed integrally with the can 10.

Referring to fig. 16 and 17 in combination, optionally, the insulating cavity 511 includes a plurality of first sub insulating cavities 512 arranged at intervals, and the plurality of first sub insulating cavities 512 may be arranged at intervals along the transverse direction; alternatively, the plurality of first sub-insulating cavities 512 are arranged at intervals in the vertical direction; alternatively, a portion of the first sub-insulating cavities 512 are laterally spaced, and another portion of the first sub-insulating cavities 512 are vertically spaced. Through setting up a plurality of first sub-thermal-insulated chambeies 512, because each first sub-thermal-insulated chamber 512 is all independent, can reduce the flow of air between arbitrary two first sub-thermal-insulated chambeies 512, and then reach better thermal-insulated effect.

Referring to fig. 18, in the present embodiment, a plurality of first sub-thermal insulation chambers 512 are disposed at intervals along the vertical direction, and each of the first sub-thermal insulation chambers 512 further includes a plurality of second sub-thermal insulation chambers 513 disposed at intervals along the horizontal direction. Specifically, at least one horizontal partition plate 52 is provided in the heat insulating block 51, and the horizontal partition plate 52 partitions the heat insulating chamber 511 into two first sub heat insulating chambers 512 provided at intervals in the vertical direction, for example, a plurality of horizontal partition plates 52 are provided in the heat insulating block 51, and a plurality of horizontal partition plates 52 are provided at intervals in the vertical direction, so that the heat insulating chamber 511 is partitioned into a plurality of first sub heat insulating chambers 512 provided at intervals in the vertical direction. Further, at least one vertical partition plate 53 is further disposed in the heat insulation block 51, the vertical partition plate 53 partitions the heat insulation chamber 511 into two second sub heat insulation chambers 513 distributed in the horizontal direction, for example, a plurality of vertical partition plates 53 are disposed in the heat insulation block 51, and the plurality of vertical partition plates 53 are disposed in the horizontal direction at intervals, so that the heat insulation chamber 511 is partitioned into a plurality of second sub heat insulation chambers 513 disposed in the horizontal direction at intervals. Alternatively, the horizontal partition plate 52 and the vertical partition plate 53 are both integrally injection-molded with the heat insulating block 51, and the heat insulating block 51 has an opening for facilitating mold release, and the vertical partition plate 53 extends along the opening direction of the opening of the heat insulating block 51. The horizontal partition plates 52 and the vertical partition plates 53 may be provided separately from the heat insulating block 51, and for example, the horizontal partition plates 52 and the vertical partition plates 53 may be assembled and then inserted into the heat insulating chamber 511. In this embodiment, the first sub heat insulating chamber 512 is divided into a plurality of second sub heat insulating chambers 513 arranged at intervals in the transverse direction, so that the flow of air can be further reduced, and a better heat insulating effect can be achieved.

Referring to fig. 19, the insulating cavity 511 is filled with an insulating material 54, and each of the first sub-insulating cavities 512 is filled with an insulating material 54. Optionally, the thermal insulation material 54 is a porous material such as a foam material or thermal insulation cotton. By filling the insulation material 54, better insulation can be achieved, reducing heat transfer to the lid 20.

In this embodiment, the insulating chamber 511 has an opening toward the side to facilitate the mold stripping from the lateral opening of the insulating chamber 511 when the horizontal partition plate 52, the vertical partition plate 53 and the insulating block 51 are integrally formed. In addition, the heat insulation cavity 511 may also have an upward opening, so that the heat insulation block 51 and the pot lid 20 are formed separately. Of course, the insulating chamber 511 may have a downward opening, and a cover plate may be covered on the downward opening of the insulating chamber 511 for better insulation.

Further, the liquid heating container further comprises a shielding member 551, and the shielding member 551 covers the opening of the heat insulation cavity 511. The shielding piece 551 is arranged to cover the opening of the heat insulation cavity 511, so that water vapor can be prevented from flowing into the heat insulation cavity 511, and the overhigh temperature in the heat insulation cavity 511 can be avoided; meanwhile, in the embodiment that the heat insulation cavity 511 is formed in the pot lid 20, when the liquid heating container is used for boiling solid substances such as fruits, medlar or chrysanthemum, the shielding piece 551 can also prevent the solid substances from entering the heat insulation cavity 511, so that the heat insulation cavity 511 is difficult to clean; moreover, the shielding member 551 can prevent the heat insulation cavity 511 from being exposed to influence the appearance.

Further, the liquid heating container further includes a heat insulating member 552, and the heat insulating member 552 is located on the lower cavity wall of the heat insulating cavity 511, which is equivalent to thickening the lower cavity wall of the heat insulating cavity 511, so that a part of heat can be blocked outside, and is prevented from being transferred into the heat insulating cavity 511, thereby achieving a certain heat insulating effect. Optionally, the heat insulation piece 552 is disposed to cover the outer surface of the lower cavity wall of the heat insulation cavity 511, which is equivalent to that the heat insulation piece 552 is located outside the heat insulation cavity 511, and covers the entire lower cavity wall of the heat insulation cavity 511, so that the entire bottom of the heat insulation cavity 511 can be insulated, and a better heat insulation effect is achieved. Optionally, the thermal insulation member 552 is preferably closely attached to the bottom surface of the thermal insulation block 51, so that the generation of a gap can be avoided. In this embodiment, the shielding member 551 and the heat insulating member 552 are both plate-shaped, and the shielding member 551 and the heat insulating member 552 are preferably integrally formed and connected to each other to form an L-shaped plate structure. The shielding member 551 and the heat insulating member 552 together constitute a garnish 55, and the garnish 55 is disposed on the outer surface of the fixing cover portion 22.

In addition, the thermal insulation member 552 may be made of a vacuum plate, and specifically, a thermal insulation cavity 5521 is formed in the thermal insulation member 552, and the cavity may be a closed cavity, for example, the thermal insulation cavity 5521 is a vacuum cavity, and since no gas exists in the vacuum cavity, the heat transfer through the gas can be blocked more effectively. In addition, the heat resistant cavity 5521 may also be a cavity having a lateral opening.

Further, a thermal insulating coating (not shown) is provided on the surface of the fixed cover 22 exposed inside the boiler body 10 and/or on the surfaces of the thermal insulation 552 and of the screen 551 exposed inside the boiler body 10. For example, in some embodiments, the surface of the fixed cover 22 exposed inside the kettle body 10 is provided with a thermal insulating coating; in other embodiments, the surfaces of the thermal insulation 552 and the shield 551 exposed in the kettle body 10 are provided with a thermal insulation coating; in other embodiments, the surface of the fixed cover 22 exposed in the can 10 is provided with a thermal insulating coating, while the surfaces of the thermal insulation 552 and of the screen 551 exposed in the can 10 are also provided with a thermal insulating coating. The heat insulation coating can effectively reflect heat and has better heat insulation effect. Alternatively, the thickness of the thermal barrier coating is 10 μm to 100 μm, for example, the thickness of the thermal barrier coating is 10 μm, 20 μm, 55 μm, or 100 μm, and the like, and by using the thermal barrier coating with the thickness, a good thermal barrier effect can be achieved. Of course, the thickness of the thermal barrier coating is not limited to the above range, and can be set according to specific requirements.

Further, an insulating material 54 is installed at the bottom of the installation cavity 223, the insulating material 54 is additionally installed on the lid 20 or the kettle body 10, and the material of the insulating material 54 itself has an insulating effect, for example, the insulating material is insulating cotton, asbestos, or a foaming material. Through setting up thermal insulation material, can play certain thermal-insulated effect to the chamber bottom of installation cavity 223, and then reduce in the heat gets into installation cavity 223, consequently can reduce the temperature around showing accuse subassembly 90, reach the purpose of avoiding showing accuse subassembly 90 work inefficacy. In the embodiment where the mounting cavity 223 is formed in the lid 20, the insulation material is mounted on the bottom wall of the lid 20. In the embodiment where the lid 20 comprises the fixed lid portion 22 and the movable lid portion 21, the heat insulating material is provided on the bottom wall of the fixed lid portion 22. Optionally, the insulation material 54 is filled in the insulation cavity, so that better insulation can be achieved, and heat transfer to the pot lid 20 is reduced.

In the embodiment of the present invention, please refer to fig. 21 in combination, the liquid heating container further includes a base 60, a power cord is disposed on the base 60, the power cord is exposed outside the base 60 and connected to the mains supply, the kettle body 10 is disposed separately from the base 60, when boiling water, the kettle body 10 is disposed on the base 60, so that the heating element on the kettle body 10 is connected to the power cord, and the heating element is electrically connected to the mains supply for heating; when the water is boiled, the kettle body 10 can be taken away from the base 60, and the heating element and the power cord are disconnected.

Further, the liquid heating container further includes a power board assembly 16, the power board assembly 16 is disposed on the kettle body 10 or the kettle lid 20, for example, in this embodiment, the power board assembly 16 is disposed on the kettle body 10, and specifically may be disposed at the bottom or the side wall of the kettle body 10, in addition, the kettle body 10 further includes a handle 13, and the power board assembly 16 may also be disposed on the handle 13. The power board assembly 16 includes a power board and various electronic components disposed on the power board, and the power board assembly 16 may further include a control circuit. In addition, the liquid heating container further comprises a connector 61, the connector 61 is mounted on the base 60 and connected with the power cord, and when the kettle body 10 is placed on the base 60, the connector 61 is further electrically connected with the power board assembly 16, so that the kettle body 10 is electrically conducted. In this embodiment, the connector 61 is a three-pin connector 61. In addition, the connector 61 may be a five-pin connector 61.

Further, the liquid heating container further includes a plurality of sensors 70, the sensors 70 are disposed on the kettle body 10 and the kettle lid 20, and generally, a plurality of sensors 70 are disposed on the kettle body 10, and another plurality of sensors 70 are disposed on the kettle lid 20, and the sensors 70 are electrically connected to the power board assembly 16. Optionally, the display and control assembly 90 is disposed on the pot lid 20, and the display and control assembly 90 is electrically connected to the power board assembly 16 and the sensor 70 respectively, so as to receive and display the parameters detected by the sensor 70.

In the invention, because the sensor 70 and the power board assembly 16 are both arranged on the pot body 10 or the pot lid 20, and the display control assembly 90 is arranged on the pot lid 20, even if more sensors 70 are arranged on the pot body 10, the signals do not need to be transmitted through the connector 61 on the base 60 between the sensor 70 and the power board assembly 16, between the display control assembly 90 and the sensor 70, and between the display control assembly 90 and the power board assembly 16, the connector 61 arranged on the base 60 only needs to be electrically connected with the power board assembly 16, the connector 61 transmits the electric signals to the power board assembly 16, and then the power board assembly 16 supplies power to the sensor 70 and the display control assembly 90 and transmits other signals, so that the signals can be better transmitted between the pot body 10 and the base 60, and the transmission of the signals between the pot body 10 and the base 60 is not influenced by the number of electronic elements such as the sensor 70, the rapid transmission of various signals can be realized, and the complexity of the connector 61 is reduced.

In this embodiment, the power board assembly 16 and the display and control assembly 90, and the power board assembly 16 and the sensor 70 are electrically connected through different connecting wires 14, and a wire fixing clip is further disposed in the kettle body 10, and the connecting wires 14 are fixed on the kettle body 10 by the wire fixing clip. Through setting up the solidus clamp, can be fixed connecting wire 14, avoid in the kettle body 10 because the circuit is too much and mutual interference, also can make many connecting wire 14 arrange more neatly simultaneously, still can avoid connecting wire 14 and kettle body 10 in some comparatively sharp position contact in and lead to being cut off in addition. In this embodiment, the wire fixing clip is fixed to the housing 12, so that the connecting wires 14 can be routed along the side wall or the bottom wall of the housing 12, and the flat cable is more orderly.

In this embodiment, the power board assembly 16 and the sensor 70 are both disposed at the bottom of the kettle body 10, so that the distance between the power board assembly 16 and the sensor 70 is shorter, and the connecting wires 14 between the two are shorter; meanwhile, the bottom space of the kettle body 10 is larger, which is more beneficial to the arrangement of the sensor 70 and the power panel component 16. Of course, the power board assembly 16 and the sensor 70 may be provided on the side wall of the kettle body 10. In order to realize better connection, the power panel component 16 and the fixed cover 22 are both arranged close to the same side of the kettle body 10, and the display control component 90 is arranged on the fixed cover 22, namely, the display control component 90 and the power panel component 16 are positioned on the same side of the kettle body 10, so that the distance between the power panel component 16 and the display control component 90 is shorter, the connecting lead 14 between the power panel component and the display control component is shorter, and the connecting lead 14 between the power panel component and the display control component is arranged along the side wall of the kettle body 10, so that other parts at the bottom of the kettle body 10 can be avoided, and the routing between the power panel component 16 and the display control component 90 is more facilitated.

In this embodiment, the display and control assembly 90 is wirelessly connected with the sensor 70, and the wireless connection can reduce the arrangement of the connecting wires 14 between the kettle body 10 and the kettle lid 20, thereby avoiding the phenomenon that the connecting wires 14 are too many and disordered; meanwhile, the signal transmission between the display control assembly 90 and the sensor 70 is not affected by the connecting lead 14, and the signal transmission is more convenient. Of course, in other embodiments, the display control assembly 90 and the sensor 70 may be connected by wires.

In one embodiment, the liquid heating vessel includes a plurality of sensors 70, the plurality of sensors 70 includes a temperature sensor 70, a TDS sensor 70, a pH sensor 70, a salinity sensor 70, or a gravity sensor 70, and the temperature sensor 70, the TDS sensor 70, the pH sensor 70, the salinity sensor 70, or the gravity sensor 70 are each electrically connected to the display control assembly 90. Or in other embodiments, the sensor 70 is a combi sensor 70, the combi sensor 70 having a variety of sensing units including a temperature sensing unit, a TDS sensing unit, a PH sensing unit, a salinity sensing unit, or a gravity sensing unit.

Referring to fig. 22 to 28, in detail, the TDS sensor 70 includes a TDS probe 72 disposed on the mounting portion 71, the TDS probe 72 includes a conductive housing 721 having a fixed chamber; the temperature sensor 73 is disposed in the fixing chamber, and a nonconductive layer 75 is disposed between the temperature sensor 73 and the conductive casing 721.

Since the conductivity of the water will also increase when the temperature increases, and if the influence of the temperature on the conductivity of the water is not considered, the deviation of the detection result of the TDS sensor 70 will be large, a function Y ═ f (x) related to the temperature can be prestored on the electronic control board for adjustment, wherein x is the temperature, and the temperature of the water detected by the temperature sensor 73 provides a temperature reference for the TDS sensor 70 by electrically connecting the temperature sensor 73 with the electronic control board, so that the TDS value of the water can be corrected, and the TDS value is kept not to change drastically along with the change of the temperature, thereby improving the accuracy of the detection result. Because the housing of the TDS probe 72 containing the temperature sensor 73 is the conductive housing 721, the conductive housing 721 has good heat conductivity, and can transfer the water temperature in the kettle body 10 to the temperature sensor 73, thereby ensuring that the temperature sensor 73 can well measure the temperature in the kettle body 10. In addition, since the non-conductive layer 75 is filled between the conductive housing 721 and the temperature sensor 73, it is possible to avoid an error in the electrical conductivity measured by the TDS probe 72 due to the influence of the temperature sensor 73 on the conductive housing 721.

Optionally, the interval is equipped with two TDS probes 72 on the assembly part 71, is equipped with temperature sensor 73 in one of them TDS probe 72, through setting up two TDS probes 72 on one of them assembly part 71, integrates the degree height, can prevent that one of them TDS probe 72 from losing, also does benefit to TDS sensor 70's equipment simultaneously. Additionally, in other embodiments, two mounting portions 71 may be provided, with one TDS probe 72 provided on each mounting portion 71. Optionally, both TDS probes 72 are metal probes, and the conductivity of the measured liquid can be measured by both metal probes.

Specifically, two TDS probes 72 are electrically connected to the electric control board of the liquid heating container through wires, when water quality is polluted or other electrolytes are dissolved in the water, the conductivity of the water is increased, the two TDS probes 72 are communicated through the water, a loop is formed between the two TDS probes 72, and therefore the conductivity of the water is measured, and a TDS value is obtained. The conductivity is different with the electrolyte in the water, so that the total dissolved solid quantity in the water can be judged according to the conductivity, and the water quality can be known.

In this embodiment, the temperature sensor 73 is disposed off the center of the conductive shell 721, specifically, the temperature sensor 73 is disposed near a sidewall of the conductive shell 721, so that the distance between the temperature sensor 73 and the water in the kettle body 10 can be shortened, which is more beneficial to heat transfer. Alternatively, the temperature sensor 73 is a thermistor, and the thermistor has an elongated shape and extends along this side wall of the conductive housing 721.

Optionally, the non-conductive layer 75 is a resin filled between the conductive housing 721 and the temperature sensor 73, such as an epoxy resin, and by filling the resin, the conductive housing 721 and the thermistor can be isolated to perform an insulating function, and the temperature sensor 73 can be fixed to prevent the temperature sensor 73 from shaking in the conductive housing 721.

Specifically, TDS sensor 70 is installed in kettle body 10, and kettle body 10 corresponds TDS probe 72 and is equipped with the hole of stepping down (not marking), and TDS probe 72 stretches into kettle body 10 through the hole of stepping down in, TDS sensor 70 with step down the hole sealed cooperation. Since the temperature sensor 73 is integrated in one of the TDS probes 72, there is no need to re-open the holes in the can 10 for the temperature sensor 73, so that the number of holes in the can 10 can be reduced, and the sealing cost of the can 10 can be reduced.

Generally, the inner container 12 of the kettle body 10 is a stainless steel inner container, and the bottom wall 124 of the inner container 12 is a heat-conducting bottom wall 124, so that heat generated by the heating elements positioned below the bottom wall 124 can be transferred to the liquid in the inner container 12. Optionally, the TDS sensor 70 is mounted on the bottom wall 124 of the liner, that is, the bottom wall 124 is provided with a relief hole; of course, TDS sensor 70 may also be mounted on side wall 125 of bladder 12.

An elastic sealing element can be arranged between the assembling portion 71 and the yielding hole for sealing, and certainly, the assembling portion 71 and the yielding hole can be sealed through glue or welding and the like. The assembly part 71 can be positioned at the outer side of the kettle body 10, namely only the TDS probe 72 extends into the kettle body 10 from the abdicating hole, and one end surface of the assembly part 71 is in sealing and abutting joint with the outer surface of the kettle body 10; in addition, the assembly portion 71 may extend into the kettle body 10 from the receding hole portion, and the outer peripheral surface of the assembly portion 71 may be in sealing contact with the hole wall of the receding hole.

Further, the liquid heating container further comprises an insulating member 80, the insulating member 80 is sleeved outside the TDS probe 72, and the inner container is a conductive member. In this embodiment, the effect of insulating part 80 is that the inner bag 12 with TDS probe 72 and electrically conductive material carries out the electricity isolation, avoids TDS probe 72 to contact inner bag 12, so the material of insulating part 80 be non-conductive material can, for example, insulating part 80 is the sealing washer, the material of sealing washer is silica gel, rubber, silicon rubber etc. so when playing the isolation, can also play sealed effect, avoid producing the clearance and leaking between insulating part 80 and the TDS probe 72. In addition, the insulating member 80 may be a plastic member or the like.

In the invention, the TDS probe 72 and the kettle body 10 are isolated by arranging the insulating part 80 outside the TDS probe 72, so that the TDS probe 72 is prevented from contacting the kettle body 10, the influence of the kettle body 10 on the conductivity measured by the TDS probe 72 is avoided, the conductivity measured by the TDS probe 72 is ensured to be the conductivity of water rather than the conductivity of the kettle body 10, and the accuracy of the detection result of the TDS sensor 70 is improved.

Optionally, insulation 80 is provided near the root of TDS probe 72 so that TDS probe 72 is isolated from kettle body 10 to avoid contact of TDS probe 72 with the walls of kettle body 10.

In this embodiment, the insulating member 80 may be an integral part, and two through holes are formed on the insulating member 80, and the two TDS probes 72 are hermetically inserted through the two through holes one by one; in other embodiments, the insulator 80 may comprise two separate spacers that fit over the two TDS probes 72 in a one-to-one correspondence.

In some embodiments, the insulator 80 is an elastomeric seal. The material of elastic sealing element is silica gel, rubber, silicon rubber etc. so when playing the isolation effect, can also play the sealing effect, avoid producing the clearance and leaking between insulating part 80 and TDS probe 72. Optionally, the insulator 80 is in sealing abutment with the wall of the relief hole.

Further, insulating part 80 includes interconnect's insulating sleeve 81 and sealing sleeve 82, and TDS probe 72 is located to the insulating sleeve 81 cover, and insulating sleeve 81 seals the butt with the pore wall in the hole of stepping down, and assembly portion 71 is located to the sealing sleeve 82 cover, and sealing sleeve 82 and the hole of stepping down seal the cooperation. Optionally, the outer diameter of the sealing sleeve 82 is larger than the outer diameter of the insulating sleeve 81, so that a sealing shoulder 83 is formed at the joint of the sealing sleeve 82 and the insulating sleeve 81, and the sealing shoulder 83 is in sealing abutment with the outer surface of the kettle body 10, so that the contact area between the insulating sleeve 81 and the outer surface of the kettle body 10 is increased, and a better sealing effect is achieved. And because insulating sleeve 81 butt is at the kettle body 10 surface to restricted sealing sleeve 82 and removed the downthehole removal towards stepping down, sealing sleeve 82 still can carry on spacingly to insulating sleeve 81 simultaneously, avoids insulating sleeve 81 to break away from the parcel to TDS probe 72 towards kettle body 10 is interior. Furthermore, the sealing sleeve 82 and the insulating sleeve 81 are connected to each other to avoid a connection gap between the two, so that a better sealing effect can be achieved. In other embodiments, the sealing sleeve 82 may extend partially into the relief bore and sealingly abut the bore wall of the relief bore. In this embodiment, the material of the mounting portion 71 is a non-conductive material, such as silicon gel, rubber, or plastic.

Furthermore, the sealing shoulder 83 is provided with at least one sealing projection 84, the sealing projection 84 extends along the circumferential direction of the sealing sleeve 82 and is annularly arranged, and the sealing projection 84 is in sealing contact with the outer surface of the kettle body 10. Because the sealing protrusion 84 has a narrow width, when being squeezed, the sealing protrusion 84 can collapse along the inner side and the outer side of the sealing sleeve 82 in the radial direction, the deformable space of the sealing protrusion 84 is large, and the deformation is more flexible, so that even if the outer surface of the kettle body 10 is uneven, the sealing protrusion 84 can also play a good sealing role by adjusting the deformation of the sealing protrusion. Alternatively, the sealing projection 84 may have a width that decreases in a direction away from the sealing sleeve 82, which may allow the sealing projection 84 to deform more flexibly. A plurality of sealing protrusions 84 may be provided on the sealing cap, and the plurality of sealing protrusions 84 may be provided in concentric rings.

In the embodiment where the mounting portion 71 is located outside the kettle body 10, the insulating sleeve 81 can be in sealing abutment with the wall of the relief hole in the kettle body 10, so that the insulating sleeve 81 forms a first seal to prevent water from leaking out from between the TDS probe 72 and the wall of the relief hole; the sealing sleeve 82, the sealing shoulder 83 and the sealing protrusion 84 form a second seal to prevent water from leaking out of the connection between the relief hole and the mounting portion 71, thereby performing multiple sealing functions.

Further, referring to fig. 23, an end of the assembling portion 71 away from the TDS probe 72 is exposed outside the sealing sleeve 82, and the end of the assembling portion 71 is provided with a mounting lug 711, the mounting lug 711 is provided with a first mounting position, and the kettle body 10 is provided with a second mounting position mounted with the first mounting position. Optionally, the first mounting position is a mounting hole 712, the second mounting position is a threaded hole 126 protruding on the outer surface of the kettle body 10, and a screw penetrates through the mounting hole 712 and the threaded hole 126 in sequence to fix the TDS sensor 70 on the threaded hole 126.

In this embodiment, as shown in fig. 25, the mounting hole 712 may be a circular hole formed on the mounting lug 711, and since the circular hole is opposite to the threaded post 126, the mounting accuracy of the TDS sensor 70 may be improved, and it is ensured that the TDS probe 72 may accurately extend into the abdicating hole. As shown in fig. 26, the mounting hole 712 may be a mounting notch formed in the mounting lug 711, which facilitates removal of the mold and also facilitates adjustment of a deviation of the screw value from the offset hole. In other embodiments, the first mounting portion may also be a slot, and the second mounting portion may be a structure such as a buckle. In order to ensure the mounting stability, two mounting lugs 711 are provided on the outer peripheral wall of the mounting portion 71, and the two mounting lugs 711 are arranged in a central symmetry with the axis of the mounting portion 71 as the center.

Referring to fig. 27, in another embodiment, the assembling portion 71 is an elastic sealing member and is integrally formed with the insulating member 80, for example, the assembling portion 71 itself is made of an elastic sealing member such as silicon rubber, rubber or silicon rubber, so that no additional sealing ring is required to be sleeved outside the assembling portion 71 to seal the relief hole, and the sealing function can be achieved only by the assembling portion 71 itself. Optionally, the fitting part 71 at least partially extends into the kettle body 10, and the outer peripheral surface of the fitting part 71 is in sealing contact with the wall of the relief hole. In other embodiments, the mounting portion 71 can be located outside the can 10, and the end surface of the mounting portion 71 can be in sealing contact with the outer surface of the can 10. In the above embodiment, the fitting portion 71 may be provided in a block shape.

Referring to fig. 28, in still another embodiment, the mounting portion 71 is disposed in a plate shape, two fixing holes are disposed on the mounting portion 71, the two TDS probes 72 are tightly fitted with the two fixing holes in a one-to-one correspondence manner, and the mounting portion 71 is wrapped by the insulating member 80. In this embodiment, the mounting portion 71 is a plastic plate or other plate for providing a fixed carrier for the two TDS probes 72. The TDS probe 72 is exposed at both ends to the insulation 80 to facilitate wire connection.

Further, be equipped with spacing shaft shoulder 85 on the periphery wall of insulating part 80, spacing shaft shoulder 85 one side and the surface butt of the kettle body 10, liquid heating container still includes fixed plate 15, and the one end of fixed plate 15 is fixed in the kettle body 10, and the other end is equipped with the pilot hole that supplies assembly portion 71 adaptation to wear to establish, and the border butt of pilot hole is in the opposite side that spacing shaft shoulder 85 is relative. One side of the limiting shaft shoulder 85 is abutted against the outer surface of the kettle body 10, so that the TDS sensor 70 can be limited from moving towards the kettle body 10; because the other side of the limiting shaft shoulder 85 is abutted against the fixing plate 15, the fixing plate 15 can limit the TDS sensor 70 to move towards the direction far away from the kettle body 10, so that the TDS sensor 70 is fixed.

In this embodiment, the fixing plate 15 can be screwed or clamped with the kettle body 10. Preferably, a screw hole column 126 is convexly arranged on the outer surface of the kettle body 10, a connecting hole 151 is arranged at one end of the fixing plate 15 corresponding to the screw hole of the screw hole column 126, and a screw is sequentially inserted through the connecting hole 151 and the screw hole to fix the fixing plate 15 on the screw hole column 126.

The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications and equivalents of the present invention, which are made by the contents of the present specification and the accompanying drawings, or directly/indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (12)

1. A liquid heating vessel, comprising:

a kettle body;

the kettle cover comprises a fixed cover part and a movable cover part, the fixed cover part is fixed with the kettle body, the movable cover part is pivoted with the fixed cover part, the movable cover part and the fixed cover part jointly cover the kettle body, and an installation cavity is arranged on the kettle cover or the kettle body;

the elastic reset piece is respectively connected with the fixed cover part and the movable cover part;

a first locking member mounted on the kettle body, an

The second locking piece is arranged on the movable cover part, a locking state and an unlocking state are formed between the first locking piece and the second locking piece, the first locking piece and the second locking piece are controlled to be switched between the locking state and the unlocking state by applying pressure to the movable cover part, and the first locking piece and the second locking piece are locked to cover the movable cover part and the kettle body in the locking state; when the lock is in an unlocking state, the first locking piece and the second locking piece are separated, and the elastic resetting piece upwards bounces the movable cover part;

one of the first locking piece and the second locking piece is arranged on the bottom surface of the movable cover part, and the other one is fixed on the peripheral wall of the kettle body;

when the unlocking state is switched to the locking state, the second locking piece pushes the first locking piece along the up-down direction by applying pressure to the movable cover part, and the first locking piece is in a compressed state and is buckled with the second locking piece;

when the locking state is switched to the unlocking state, the second locking piece continues to push the first locking piece along the up-down direction by applying pressure to the movable cover part, so that the first locking piece is continuously compressed; when the pressure applied to the movable cover part is removed, the first locking piece is deformed along the up-down direction and is separated from the second locking piece.

2. A liquid heating vessel as claimed in claim 1 wherein said first locking member comprises a mounting base having an upwardly open receiving cavity, a movable gripper and a resilient member mounted in said receiving cavity; the second locking piece comprises a connecting part and a limiting part convexly arranged at the end part of the connecting part; the mounting seat is arranged on the peripheral wall of the kettle body, and the connecting part is correspondingly arranged on the bottom surface of the movable cover part;

when the unlocking state is switched to the locking state, the limiting part is inserted into the movable clamping hand and pushes the movable clamping hand to enter the accommodating groove, the elastic piece is compressed under pressure, and the movable clamping hand is limited in the accommodating groove and clamped with the limiting part;

when the locking state is switched to the unlocking state, the elastic piece is continuously compressed and then returns to deform, the movable clamping hand is pushed to stretch out of the accommodating groove, and the movable clamping hand loosens the clamping of the limiting part.

3. The liquid heating vessel as claimed in claim 2, wherein said first locking member further comprises a positioning member, said positioning member is mounted on said movable gripper and abuts against said elastic member, and a positioning groove is formed on a wall of said accommodating groove;

when the unlocking state is switched to the locking state, the elastic piece is compressed and pushes the positioning piece to slide into the positioning groove, and the positioning piece limits the movable clamping hand in the accommodating groove;

when the locking state is switched to the unlocking state, the positioning piece slides out of the positioning groove, so that the limitation on the movable clamping hand is removed.

4. A liquid heating vessel as claimed in claim 1 wherein said kettle body comprises an outer shell and a bladder disposed within said outer shell, said first locking member being located between said outer shell and said bladder.

5. A liquid heating vessel as claimed in claim 4 wherein said upper end of said inner vessel is folded outwardly to form a flange, said flange is overlapped on said upper end of said outer shell, said flange is downwardly recessed to form an evasion slot, and said first locking member is mounted in said evasion slot.

6. A liquid heating vessel as claimed in claim 5 wherein said recess has an escape aperture formed in a bottom thereof, said first locking member being disposed partially through said escape aperture, said first locking member having a peripheral wall formed with a retaining groove, said escape aperture having an edge engaged with said retaining groove.

7. The liquid heating vessel of claim 6, further comprising a fixing member fixed between the outer shell and the inner container and having an installation groove opened upward, wherein a lower end of the first locking member is received in the installation groove, and a bottom surface of the first locking member abuts against a bottom of the installation groove.

8. The liquid heating vessel of claim 7, wherein the hole edge of the avoiding hole extends downward to form a skirt, the skirt is clamped in the limiting groove, an abutting convex part is arranged on the groove wall of the mounting groove, and the abutting convex part abuts against the skirt.

9. A liquid heating vessel as claimed in any one of claims 1 to 8, further comprising a display assembly mounted on said fixed cover portion.

10. The liquid heating vessel as claimed in claim 9, further comprising a sensor disposed on the kettle body or the lid and electrically connected to the display and control assembly.

11. The liquid heating vessel of claim 10, wherein the sensor comprises a TDS sensor and a temperature sensor, the TDS sensor comprises a mounting portion and a TDS probe disposed on the mounting portion, the TDS probe comprises a conductive housing having a fixed chamber, the kettle body is provided with an abdicating hole, the TDS probe extends into the kettle body through the abdicating hole;

the temperature sensor is arranged in the fixed cavity, and a non-conductive layer is arranged between the temperature sensor and the conductive shell.

12. The liquid heating container as claimed in claim 10, wherein the sensor comprises an assembling portion and a sensing portion connected to each other, the pot body is provided with a hole for displacement, the sensing portion extends into the pot body through the hole for displacement, the pot body is a conductive member, and the liquid heating container further comprises an insulating member sleeved on the sensing portion.

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