CN221616806U - Water dispenser with heat preservation assembly - Google Patents

Abstract

The utility model relates to a water dispenser with a heat preservation component, which comprises a water storage component, a control component and a heat preservation component, wherein the heat preservation component is arranged at the bottom of the water dispenser, the control component is electrically connected with the heat preservation component, and the control component controls the heat preservation component to be started or closed along with the heat preservation component moving out of the water dispenser or being stored in the water dispenser. According to the water dispenser, the heat preservation component is integrated into the water dispenser, so that the space is saved, and the water dispenser is more convenient to use and store. When the heat preservation function is needed, the heat preservation component is pulled out to be conducted to the switch, then the heat preservation function is started by long-time pressing of a heat preservation key of the UI interface of the water dispenser, thousands of water rolls are prevented from being repeatedly heated to reach the specified temperature, and the water dispenser has double control logic and is safer and more reliable.

Description

Water dispenser with heat preservation assembly

Technical Field

The utility model relates to the technical field of household appliances, in particular to a water dispenser with a heat preservation component.

Background

Along with technological progress and improvement of living standard of people, people use healthy drinking water more and more commonly. At present, the water environment in some areas of China is poor in quality, and in order to meet the requirements of healthy drinking, the water needs to be disinfected and filtered, and then the treated water is boiled and drunk, wherein the water dispenser is a water boiling tool commonly used by people.

The existing water dispenser has the advantages that the existing water dispenser does not have a heat preservation function, if a user needs to realize the heat preservation function, the user needs to purchase a heat preservation pad independently, and the heat preservation pad can meet the functional requirements of the user when being matched with the water dispenser; the other is a thermos with heat preservation function, the water in the thermos is stopped after being heated to the appointed temperature, and when the water temperature is reduced to the set temperature value, the heating is automatically started to the appointed temperature.

However, the drinking machine in the prior art has the following disadvantages:

Firstly, if the heat preservation pad is purchased independently in addition, the heat preservation pad can occupy part of space when being placed on the table top, and the heat preservation pad is inconvenient to use and store and easy to lose.

Secondly, the water in the thermos with the heat preservation function is heated to the specified temperature and then stops heating, when the water temperature is reduced to the set temperature value, the heating is automatically started to the specified temperature again, and the reciprocating cyclic heating is performed, so that thousands of water is formed, the content of components such as calcium, magnesium, nitrite and the like is increased, the body is damaged after long-term drinking, and the electric energy is wasted.

Disclosure of utility model

Based on the above, the utility model aims to provide a water dispenser with a heat preservation assembly.

The utility model provides a water dispenser with heat preservation subassembly, includes water storage subassembly, control assembly and heat preservation subassembly, heat preservation subassembly sets up the lower part of water dispenser, control assembly with heat preservation subassembly electricity is connected, with heat preservation subassembly shifts out the water dispenser or accomodates in the water dispenser, control assembly control heat preservation subassembly starts or closes.

According to the water dispenser with the heat preservation assembly, the heat preservation pad assembly is integrated into the water dispenser, so that space is saved, and the water dispenser is more convenient to use and store. When the heat preservation function is needed, the heat preservation component is pulled out to be conducted by the switch, and then the heat preservation function is started, so that thousands of water is prevented from being rolled by repeated heating to reach the specified temperature, and the heat preservation device is safe and reliable.

Further, the water storage component comprises a water tank for containing water and a base, the water tank is arranged above the base, and the heat preservation component enters and exits the base along the horizontal direction. The heat preservation pad component is integrated into the water dispenser, so that space is saved, and the water dispenser is more convenient to use and store.

Further, the heat preservation subassembly includes heat preservation pad, heat preservation pad lid and heat preservation pad box body, the heat preservation pad is fixed after the heat preservation pad lid round hole, cover together and establish to the heat preservation pad box body is towards on the side of base.

Further, the heat preservation subassembly is in the heat preservation pad box body orientation still be equipped with heat preservation pad handle and handle pivot on the side in the base outside, the heat preservation pad handle pass through the handle pivot with heat preservation pad box body coupling makes one side of heat preservation pad handle can be in the inside and outside rotation of heat preservation pad box body.

Further, a magnet or a sizing block is arranged on one side surface of the heat preservation pad handle facing to the inside of the heat preservation pad box body, the sizing block or the magnet is arranged at the position corresponding to the heat preservation pad box body, and the magnet and the sizing block are mutually adsorbed together under the action of no external force. The heat preservation pad handle adopts a magnetic attraction structure, and the handle can automatically reset after being pulled out.

Further, the control assembly comprises a micro switch, a top block and a main control board, wherein the micro switch is arranged on the base and is electrically connected with the main control board; in the moving direction of the heat preservation assembly, the jacking block is convexly arranged on one side of the heat preservation pad cover, which is close to the inside of the base, and the micro switch is fixed relative to the base and is arranged on one side, which is close to the outside of the base; along with the pulling-out of the heat preservation assembly, the jacking block leans against and pushes the micro switch, so that the heat preservation assembly is electrified through the main control board.

Further, the control assembly comprises a magnetic switch, an iron block and a main control board, wherein the magnetic switch is arranged on the base and is electrically connected with the main control board; in the moving direction of the heat preservation assembly, the iron block is convexly arranged on one side of the heat preservation pad cover, which is close to the inside of the base, and the magnetic switch is fixed relative to the base and is arranged on one side, which is close to the outside of the base; along with the pulling-out of the heat preservation component, when the iron block leans against the magnetic attraction switch, the iron block and the magnetic attraction switch are mutually attracted and trigger the main control board to electrify the heat preservation component.

Further, a sealing ring is arranged between the heat preservation pad and the heat preservation pad cover, so that the heat preservation pad can play a role in sealing and heat insulation.

Further, the base is equipped with first elasticity buckle and second elasticity buckle towards the side of heat preservation subassembly, heat preservation subassembly is close to first elasticity buckle with when the second elasticity buckle, first elasticity buckle with the second elasticity buckle respectively with heat preservation subassembly block is in order to fix it in the base.

Further, a wire buckle is arranged on the side face, facing the water tank, of the base. The electric wire can be better fixed.

For a better understanding and implementation, the present utility model is described in detail below with reference to the drawings.

Drawings

FIG. 1 is a schematic view of the overall structure of a water dispenser of the present utility model in an open state;

FIG. 2 is a schematic view showing the internal structure of a base in the water dispenser of the present utility model;

FIG. 3 is an exploded view of the internal structure of the thermal insulation assembly of the present utility model;

FIG. 4 is a schematic view of the overall structure of the insulation assembly of the present utility model;

FIG. 5 is a schematic view of a part of the thermal insulation assembly of the present utility model in an open state;

fig. 6 is a sectional view of a micro switch in embodiment 1 of the present utility model;

fig. 7 is a partial enlarged view of a micro switch in embodiment 1 of the present utility model;

FIG. 8 is a partially enlarged view of the magnetic switch in embodiment 2 of the present utility model;

FIG. 9 is a schematic view showing the overall structure of the heat preservation assembly of the water dispenser in the storage state.

Detailed Description

The following are specific embodiments of the present utility model and the technical solutions of the present utility model will be further described with reference to the accompanying drawings, but the present utility model is not limited to these embodiments.

In the description of the present utility model, it should be understood that the terms "center", "longitudinal", "lateral", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present utility model and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model. In the description of the present utility model, unless otherwise indicated, the meaning of "a plurality" is two or more.

Example 1

The water dispenser with the heat preservation component is placed on a horizontal table top according to the attached figures 1-9 and comprises a water storage component 1, a control component 2 and a heat preservation component 3, wherein the heat preservation component 3 is movably contained in the lower part of the water storage component 1, and the control component 2 is electrically connected with the heat preservation component 3. As the thermal insulation component 3 moves out of the water storage component 1 or is stored in the water storage component 1, the control component 2 controls the thermal insulation component 3 to be started or closed.

Specifically, as shown in fig. 1 and 2, the water storage assembly 1 includes a water tank 12 for containing drinking water, a tank cover 11 covering the top of the water tank 12, and a base 13, wherein the water tank 12 is installed above the base 13, and the water tank 12 is connected with a water outlet (not shown) for supplying water. The tank cover 11 is movably covered on an upper opening of the water tank 12 to open or close the water tank 12. The base 13 is provided with a bottom plate 131, side walls 132 and an outlet 133. In this embodiment, the surface of the bottom plate 131 is parallel to the horizontal plane, the side wall 132 surrounds the outer side of the bottom plate 131 and is perpendicular to the surface of the bottom plate 131 to form a semi-enclosed structure, and the outlet 133 is formed on the side wall 132. The bottom plate 131 is further provided with a thermal insulation assembly tray 134 and two protection walls 135 on the surface facing the water tank 12. the surface of the heat insulation assembly tray 134 faces the water tank 12 and is located near the outlet 133, two protection walls 135 are disposed on the heat insulation assembly tray 134 and are connected between the bottom plate 131 and the water tank 12, the two protection walls 135 extend toward the inside of the base 13 respectively on two opposite sides of the outlet 133, a containing area (not labeled) is formed together with the heat insulation pad tray 133, the outlet 133 is communicated with the containing area, and the heat insulation assembly 3 can be contained in the containing area and located between the two protection walls 135 and enter and exit the base 13 from the outlet 133 along the horizontal direction. The heat preservation component 3 can be pulled out or summarized in the accommodating area, and the ingenious design enables the heat preservation component 3 to be integrated into the water dispenser. Can follow during the use the base 13 is taken out the heat preservation subassembly 3 will when not using the heat preservation subassembly 3 is accomodate in the base 13, the simple operation, and practice thrift the mesa space. Further, in this embodiment, the base 13 is further provided with a first elastic buckle 136, a second elastic buckle 137, and a line buckle 138, where the first elastic buckle 136 and the second elastic buckle 137 may be disposed on a side surface of the thermal insulation assembly tray 134 facing the water tank 12 or a side surface of the side wall 135 facing the thermal insulation assembly 3, and when the thermal insulation assembly 3 approaches the first elastic buckle 136 and the second elastic buckle 137, the first elastic buckle 136 and the second elastic buckle 137 are respectively engaged with the thermal insulation assembly 3 to fix the thermal insulation assembly in the base 13, so that the heat-insulating component 3 does not spring outwards; When the thermal insulation assembly 3 is pressed from the outlet 133 toward the inside of the base 13, the first elastic buckle 136 and the second elastic buckle 137 release the thermal insulation assembly 3, so that the thermal insulation assembly 3 can be ejected out of the base 13. It should be noted that, the engaging structure of the elastic buckle and the thermal insulation assembly 3 in this embodiment is a conventional design, and will not be described in detail here. The wire clip 138 is disposed on a side of the insulation tray 134 facing the water tank 12 to fix wires; further, referring to fig. 6, the protection wall 135 is connected to a top plate 139 extending into the accommodating area near one side of the water tank 13, and a plate surface of the top plate 139 is opposite to the insulation assembly tray 134, so that a first moving groove 140 and a second moving groove 141 are opposite between the top plate 139 and the insulation assembly tray 134, and the first moving groove 140 and the second moving groove 140 are parallel to each other and extend from the inside of the accommodating area to the outlet 133.

With continued reference to fig. 3, the heat insulation assembly 3 includes a heat insulation pad 31, a heat insulation pad cover 33 and a heat insulation pad box 34, in this embodiment, the heat insulation pad cover 33 is a rectangular plate body, in which a round hole (not labeled) corresponding to the size of the heat insulation pad 31 is provided, the heat insulation pad 31 is fixed in the round hole of the heat insulation pad cover 33 by means of a screw or the like and forms an integral structure with the round hole, and after the heat insulation pad 31 is covered on one side of the heat insulation pad box 34 facing the water tank 12, when the heat insulation pad is stored, the heat insulation pad 31 faces the water tank 12; further, a silica gel sealing ring 32 is further arranged between the heat insulation pad 31 and the heat insulation pad cover 33, so that sealing and heat insulation effects can be achieved; in this embodiment, the heat insulation assembly 3 is further provided with a heat insulation pad handle 37 and a handle rotating shaft 38 on a side surface of the heat insulation pad box 34 facing the outlet 133, a mounting hole (not labeled) is formed on a side surface of the heat insulation pad box 34 facing the outlet 133, the heat insulation pad handle 37 is a long rectangular plate, the handle rotating shaft 38 is axially connected in the mounting hole through the heat insulation pad box 34, and an axis of the handle rotating shaft 38 is directed from an upper side of the outlet 133 to a lower side or from a left side of the outlet 133 to a right side, so that one side of the heat insulation pad handle 37 can rotate around the handle rotating shaft 38 inside and outside the heat insulation pad box 34. Further, a magnet 36 is mounted on the side of the heat insulation pad handle 37 facing the inside of the heat insulation pad box 34, and a sizing block 35 is mounted on the position of the heat insulation pad box 34 corresponding to the magnet 36, in this embodiment, the sizing block 35 is made of metal that can be mutually attracted with the magnet. Under the action of no external force, due to the existence of a magnetic field, the magnet 36 and the sizing block 35 are adsorbed together, when the other side, where the magnet 36 is not arranged, of the heat preservation pad handle 37 is pressed towards the inner side of the heat preservation pad box 34, the heat preservation pad handle 37 rotates around the handle rotating shaft 38, at the moment, the sizing block 35 and the magnet 36 are separated, one side, where the magnet 36 is arranged, of the heat preservation pad handle 37 is turned outwards, and the whole heat preservation assembly 3 can be pulled out by pulling the heat preservation pad handle 37; When the heat preservation assembly 3 is pulled out to a designated position, the heat preservation pad handle 37 is loosened at the moment, the heat preservation pad handle 37 is rotated, and the heat preservation pad handle 37 is automatically reset under the magnetic force of the magnet 36 and the sizing block 35. With further reference to fig. 4 and 5, a power coil 39 with a circular hollow structure is further disposed at a corner of the heat insulation pad cover 33, and one end of a power wire 310 of the heat insulation assembly 3 passes through the power coil 39 to be connected to the inside of the heat insulation assembly 3 so as to supply power to the heat insulation pad 31; the power cord 310 positioned outside the heat insulation assembly 3 is fixed by the wire clip 138. As the heat insulation assembly 3 is pulled out and stored, the power cord 310 moves reciprocally in the accommodating area, and the wire clip 138 can fix the power cord 310; The heat insulation pad 31 is powered by the power line 310, so that the safety and reliability are higher, and the power line 310 can move along with the heat insulation assembly 3 when the heat insulation assembly 3 is pulled out or stored structurally.

With continued reference to fig. 6 and 7, the control assembly 2 includes a first switch 21, a top block 22 and a main control board (not labeled), the first switch 21 is electrically connected to the main control board, and one end of the power cord 310 located outside the heat insulation assembly 3 is connected to the main control board. In this embodiment, the first switch 21 is a micro switch 21, and is located near the outlet 133 and extends into the accommodating area. The top block 22 is protruded on a side of the heat insulation pad cover 33 away from the outlet 133. Along with the pulling out of the heat preservation assembly 3, the top block 22 leans against and pushes the first switch 21 so as to trigger the main control board to electrify the heat preservation assembly 3, and at the moment, the heat preservation function can be normally started only by long-time pressing of a heat preservation key from the UI interface of the water dispenser, and water can be normally taken out without interference when the heat preservation function is started; when the heat insulation assembly 3 is stored, the first elastic buckle 136 and the second elastic buckle 137 clamp the heat insulation assembly 3 to prevent the heat insulation assembly from being sprung out, the wire clamp 138 fixes the heat insulation pad power wire 310, the top block 22 is separated from the first switch 21, the circuit is disconnected, and the heat insulation function cannot be started at this time. Through the design, double protection on the control logic of the heat preservation function is realized, a user must withdraw the heat preservation component 3 to the first switch 21 for conduction, then the heat preservation function is started from the UI interface operation of the water dispenser, the heat preservation pad 31 can normally start heating and heat preservation, and misoperation in the use process of the user is avoided, namely, the heat preservation component 3 is not withdrawn and begins to heat, so that the water dispenser product body is damaged by heat; after the heat preservation assembly 3 is stored, the first switch 21 is automatically disconnected, and the heat preservation function is automatically closed, so that potential safety hazards are avoided.

Example 2

The utility model can have various variant embodiments, such as the switch is not necessarily a micro switch, but also a magnetic switch, and can realize better control, and the following concrete steps are as follows:

Referring to fig. 8, the structure of the water dispenser in this embodiment is substantially the same as that of embodiment 1, and the only difference is that: the control mode of the control assembly 2. In this embodiment, the control assembly 2 includes a second switch 25, an iron block 24 and a main control board (not labeled), where the second switch 25 is a magnetic switch 25 and is electrically connected to the main control board, the second switch 25 is located near the outlet 133, and the iron block 24 is convexly disposed on a side of the heat insulation pad cover 33 away from the outlet 133. Along with the pulling out of the heat preservation assembly 3, the iron block 24 moves in the accommodating area, when the iron block 24 leans against the second switch 25, the second switch 25 and the iron block 24 are mutually adsorbed due to the effect of magnetic force to trigger the main control board to electrify the heat preservation assembly 3, at the moment, the heat preservation function can be normally started only by long-time pressing of a heat preservation key from the UI interface of the water dispenser, and water can be normally taken without interference when the heat preservation function is started; with continued reference to fig. 9, after the heat insulation assembly 3 is stored, the first elastic buckle 136 and the second elastic buckle 137 clamp the heat insulation assembly 3 against external spring, the wire clamp 138 fixes the heat insulation pad power wire 310, and the iron block 24 is separated from the second switch 25, so that the circuit is disconnected, and the heat insulation function cannot be started at this time.

Compared with the prior art, the water dispenser with the heat preservation assembly has the advantages that the heat preservation pad assembly is integrated into the water dispenser, so that the space is saved, and the water dispenser with the heat preservation assembly is more convenient to use and store. When the heat preservation function is needed, the heat preservation component is pulled out to be conducted to the switch, then the heat preservation function is started by long-time pressing of a heat preservation key of the UI interface of the water dispenser, thousands of water rolls are prevented from being repeatedly heated to reach the specified temperature, and the water dispenser has double control logic and is safer and more reliable.

The above examples illustrate only a few embodiments of the utility model, which are described in detail and are not to be construed as limiting the scope of the utility model. It should be noted that modifications and improvements can be made by those skilled in the art without departing from the spirit of the utility model, and the utility model is intended to encompass such modifications and improvements.

Claims (10)

1. A water dispenser with heat preservation subassembly, its characterized in that: including depositing water subassembly, control assembly and heat preservation subassembly, the heat preservation subassembly sets up the lower part of water dispenser, control assembly with the heat preservation subassembly electricity is connected, with heat preservation subassembly shifts out outside the water dispenser or accomodate in the water dispenser, control assembly control heat preservation subassembly starts or closes.

2. The water dispenser with a thermal insulation assembly of claim 1, wherein: the water storage assembly comprises a water tank for containing water and a base, the water tank is arranged above the base, and the heat preservation assembly enters and exits the base along the horizontal direction.

3. The water dispenser with a thermal insulation assembly of claim 2, wherein: the heat preservation assembly comprises a heat preservation pad, a heat preservation pad cover and a heat preservation pad box body, wherein the heat preservation pad is fixed behind the heat preservation pad cover and is covered on the side surface of the heat preservation pad box body facing the base; when in storage, the heat preservation pad faces the water tank.

4. A water dispenser with a thermal insulation assembly according to claim 3, wherein: the heat preservation subassembly is in the heat preservation pad box body orientation still be equipped with heat preservation pad handle and handle pivot on the side in the base outside, the heat preservation pad handle pass through the handle pivot with heat preservation pad box body coupling makes one side of heat preservation pad handle can be in the inside and outside rotation of heat preservation pad box body.

5. The water dispenser with a thermal insulation assembly of claim 4, wherein: the heat preservation pad handle is towards install magnet or sizing block on the inside side of heat preservation pad box body, heat preservation pad box body is installed sizing block or magnet in the position that corresponds with it, under no exogenic action, magnet with the sizing block adsorbs together each other.

6. A water dispenser with a thermal insulation assembly according to claim 3, wherein: the control assembly comprises a micro switch, a top block and a main control board, wherein the micro switch is arranged on the base and is electrically connected with the main control board; in the moving direction of the heat preservation assembly, the jacking block is convexly arranged on one side of the heat preservation pad cover, which is close to the inside of the base, and the micro switch is fixed relative to the base and is arranged on one side, which is close to the outside of the base; along with the pulling-out of the heat preservation assembly, the jacking block leans against and pushes the micro switch, so that the heat preservation assembly is electrified through the main control board.

7. A water dispenser with a thermal insulation assembly according to claim 3, wherein: the control assembly comprises a magnetic switch, an iron block and a main control board, wherein the magnetic switch is arranged on the base and is electrically connected with the main control board; in the moving direction of the heat preservation assembly, the iron block is convexly arranged on one side of the heat preservation pad cover, which is close to the inside of the base, and the magnetic switch is fixed relative to the base and is arranged on one side, which is close to the outside of the base; along with the pulling-out of the heat preservation component, when the iron block leans against the magnetic attraction switch, the iron block and the magnetic attraction switch are mutually attracted and trigger the main control board to electrify the heat preservation component.

8. A water dispenser with a thermal insulation assembly according to claim 3, wherein: and a sealing ring is arranged between the heat preservation pad and the heat preservation pad cover.

9. The water dispenser with a thermal insulation assembly of claim 2, wherein: the base orientation the side of heat preservation subassembly is equipped with first elasticity buckle and second elasticity buckle, heat preservation subassembly is close to first elasticity buckle with when the second elasticity buckle, first elasticity buckle with the second elasticity buckle respectively with heat preservation subassembly block is in order to fix it in the base.

10. The water dispenser with a thermal insulation assembly of claim 2, wherein: the base is provided with the line buckle towards the side of water tank.