CN218889545U - Container coupler, container and heating system - Google Patents

Abstract

The utility model discloses a container coupler, a container and a heating system. The container coupler includes a coupler body, a heat-generating disk holder, and a support portion. The coupler body comprises a plurality of connecting rings, the heating plate support can be used for being connected with the heating plate, and the supporting part is arranged between the coupler body and the heating plate support. According to the utility model, the support part enables the coupler main body to be separated from the heating plate support, so that the coupler main body is prevented from occupying the space of the heating plate due to overlarge, the heating plate can be made larger, and the number or the size of heating elements of the heating plate can be increased.

Description

Container coupler, container and heating system

Technical Field

The utility model relates to the technical field of heating, in particular to a container coupler, a container and a heating system.

Background

For convenience of tea drinking, the function of the tea making machine is more and more popular with people. In the related art, a heating body and a container coupler are arranged at the bottom of the water heating kettle, the quantity or the size of the heating body is limited by the size of the container coupler, and generally, only one to two circles of heating pipes can be arranged.

Disclosure of Invention

Embodiments of the present utility model provide a container coupler, a container, and a heating system.

The embodiment of the utility model provides a container coupler, which comprises a coupler main body, a heating plate bracket and a supporting part, wherein the coupler main body comprises a plurality of connecting rings, the heating plate bracket can be used for being connected with a heating plate, and the supporting part is arranged between the coupler main body and the heating plate bracket.

In certain embodiments, the heating disk holder has a size ranging from 50 millimeters to 59 millimeters.

In some embodiments, the heat-generating disk holder has a size smaller than a size of the support portion, which is smaller than a size of the coupler body.

In some embodiments, the support includes a first support leg that connects to the coupler body.

In some embodiments, the support includes a second support leg that is connected to the heat-generating plate support.

In some embodiments, an electrical connector is provided on a side of the support portion facing the coupler body, and the electrical connector extends to a middle portion of the coupler body to serve as the connection ring.

In some embodiments, the heating plate support is provided with a dry-heating preventing spring plate, the supporting part is provided with a dry-heating preventing device, a first signal spring plate and a second signal spring plate which are connected with each other, when the heating plate is in an over-temperature state, the dry-heating preventing spring plate can deform to drive the dry-heating preventing device to displace, when the dry-heating preventing device displaces, the first signal spring plate is pressed to disconnect the first signal spring plate from the second signal spring plate, the first signal spring plate and the second signal spring plate are respectively connected with one connecting ring of the coupler main body, and overheat state information of the heating plate is transmitted to the connecting ring through the first signal spring plate and the second signal spring plate.

The embodiment of the utility model provides a container, which comprises the container coupler of any one of the embodiments and a heating plate, wherein the heating plate comprises a heating body, and the container coupler is connected with the heating body.

In some embodiments, the heating elements include a first heating element, a second heating element, and a third heating element, the first heating element being powered by alternating current, the second heating element and the third heating element being powered by direct current; or the first heating body is powered by direct current, and the second heating body and the third heating body are powered by alternating current.

In some embodiments, the heating element comprises a first heating element, a second heating element, and a third heating element, wherein the power of the second heating element and the power of the third heating element are both less than the power of the first heating element, and the sum of the power of the second heating element and the power of the third heating element is greater than the power of the first heating element.

In some embodiments, the heating elements include a first heating element having a power of 300W to 2300W, a second heating element having a power of 300W to 2000W, and a third heating element having a power of 300W to 2000W.

In some embodiments, the heating element comprises a first heating element, a second heating element, and a third heating element, the three heating elements being disposed around the container coupler, the third heating element being less distant from the container coupler than the second heating element, the second heating element being less distant from the container coupler than the first heating element.

In some embodiments, the heating element comprises a first heating element, a second heating element and a third heating element, the container can be arranged on a base, and the energy storage element of the base can be charged under the condition that the base receives alternating current; under the condition that the container coupler receives alternating current input by the base, the first heating body can generate heat; and under the condition that the electric quantity of the energy storage element is larger than the preset electric quantity, the energy storage element can be used for outputting direct current to the container coupler so as to supply power to the second heating element and the third heating element.

In certain embodiments, the container comprises a water kettle.

An embodiment of the present utility model provides a heating system comprising the container of any one of the embodiments above and a base for placing the container.

According to the container coupler, the container and the heating system, the support part is used for separating the coupler main body from the heating plate support, so that the coupler main body is prevented from being excessively large to occupy the space of the heating plate, the heating plate can be made larger, and the number or the size of heating bodies of the heating plate can be increased.

Additional aspects and advantages of the utility model will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the utility model.

Drawings

The foregoing and/or additional aspects and advantages of the present utility model will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings, in which:

FIG. 1 is a schematic view of a container coupler and a heat-generating plate according to an embodiment of the present utility model.

Fig. 2 is a schematic diagram of a coupler according to an embodiment of the utility model.

FIG. 3 is a schematic diagram of a heating system according to an embodiment of the present utility model.

Fig. 4 is a schematic view of a heat-generating disk holder and a supporting portion according to an embodiment of the present utility model.

Fig. 5 is a schematic view of a container according to an embodiment of the present utility model.

Detailed Description

Embodiments of the present utility model are described in detail below, and are illustrated in the accompanying drawings, wherein the same or similar reference numerals refer to the same or similar elements or elements having the same or similar functions throughout. The embodiments described below by referring to the drawings are exemplary only for explaining the present utility model and are not to be construed as limiting the present utility model.

For convenience of tea drinking, the function of the tea making machine is more and more popular with people. In the related art, a heating body and a container coupler are arranged at the bottom of the water heating kettle, the quantity or the size of the heating body is limited by the size of the container coupler, and generally, only one to two circles of heating pipes can be arranged.

Referring to fig. 1, an embodiment of the present utility model provides a container coupler 210, where the container coupler 210 includes a coupler body 212, a heat-generating plate support 214, and a support portion 216, the coupler body 212 includes a plurality of connection rings 322 (the coupler body 212 may be the coupler 300 of fig. 2), the heat-generating plate support 214 is capable of being connected to a heat-generating plate 220, the support portion 216 is disposed between the coupler body 212 and the heat-generating plate support 214, specifically, three support legs are respectively disposed on a front side and a back side of the support portion 216, and are connected to the heat-generating plate support 214 and the coupler body 212 by screws, the size of the support portion 216 is smaller than that of the coupler body 212, so that the container coupler 210 is connected to the heat-generating plate 220 with multiple loops of heat-generating pipes without changing the size of the coupler body 212. The support 216 has a seventh copper ring on a surface facing the coupler body 212, and the seventh copper ring extends to the middle of the coupler body 212 to form a ring of the coupler body 212, and adds a ring to the container coupler 210. In this way, a loop may be added to the coupler body 212 to achieve DC link power, providing the possibility of achieving ac+dc power based on existing AC power.

Referring to fig. 3, specifically, referring to fig. 3, the coupler body 212 is the coupler 300 of fig. 2, at least one connection ring 322 in the coupler 300 includes a plurality of electrical connectors 3221 for implementing the same electrical connection function, and the electrical connectors 3221 may include metal connection pieces, that is, two or more metal connection pieces are provided in the same ring, one of which is used as a spare. Thus, even if one of the electrical connectors 3221 is damaged, the other electrical connectors 3221 can ensure that the coupler body 212 is working properly, thereby improving the product quality stability.

In some embodiments, the heat-generating disk holder 214 has a size ranging from 50 millimeters to 59 millimeters. At less than 50mm, the heat-generating plate holder 214 cannot exert an effect of preventing dry combustion, whereas at more than 59mm, the heat-generating plate holder 214 occupies too much space, which is disadvantageous in widening the size of the heat-generating plate 220. In this way, the heat-generating plate holder 214 can have an effect of preventing dry burning, and can facilitate the widening of the size of the heat-generating plate 220. In one embodiment, the heat-generating plate holder 214 has a size in the range of 50 millimeters to 56.5 millimeters.

In some embodiments, the heat-generating plate holder 214 has a size smaller than the size of the support portion 216, and the support portion 216 has a size smaller than the size of the coupler body 212. Specifically, in the related art, the size of the heat generating plate holder is 60mm, and in the embodiment of the present utility model, the size of the heat generating plate holder 214 can reach 50mm to 59mm by reducing the size of the heat generating plate holder 214, whereas below 50mm, the heat generating plate holder 214 cannot exert the effect of preventing dry combustion, so in the embodiment of the present utility model, the size of the heat generating plate holder 214 ranges from 50mm to 59mm. In this way, the heat generating plate 220 and the coupler body 212 can be fixed to the container 200 while securing sufficient reserved space.

In some embodiments, referring to fig. 4, the support 216 includes a first support leg 2161, the first support leg 2161 being coupled to the coupler body 212. Specifically, the first support leg 2161 is coupled to the coupler body 212 by fasteners, including screws and bolts.

In some embodiments, referring to fig. 4, the support portion 216 includes a second support leg 2163, and the second support leg 2163 is connected to the heat-generating plate carrier 214. Specifically, the second support leg 2163 is connected to the heat-generating plate carrier 214 by a fixing member including a screw and a screw.

In some embodiments, the side of the support 216 facing the coupler body 212 is provided with electrical connectors that extend to the middle of the coupler body 212 as a connecting ring 322. Specifically, the electrical connector includes a seventh pin copper ring. Thus, as a ring of coupler body 212, a ring is added to container coupler 210.

In some embodiments, referring to fig. 4, a dry-fire preventing elastic piece 2142 is disposed on the heating plate bracket 214, a dry-fire preventing device 2165, a first signal elastic piece 2167 and a second signal elastic piece 2169 that are connected with each other are disposed on the supporting portion 216, when the heating plate 220 is in an over-temperature state, the dry-fire preventing elastic piece 2142 can deform to drive the dry-fire preventing device 2165 to displace, and a key of the dry-fire preventing device 2165 is triggered, and when the dry-fire preventing device 2165 displaces, the first signal elastic piece 2167 is pressed to disconnect the first signal elastic piece 2167 and the second signal elastic piece 2169, so that power-off protection is triggered. Specifically, when the amount of water in the container 200 is too small, the temperature of the heating element 220 will quickly rise, and when the temperature quickly rises to an over-temperature state (for example, more than 100 degrees), the anti-dry-heating spring piece 2142 will deform and bend reversely when being heated suddenly, so as to drive the anti-dry-heating device 2165 to displace, the anti-dry-heating device 2165 presses the ceramic rod 2166 contacting with the anti-dry-heating device 2165, the ceramic rod 2166 moves down to push the first signal spring piece 2167 below, so that the first signal spring piece 2167 and the second signal spring piece 2169 are disconnected, and the main board will stop supplying power to the heating element 220 of the container 200 when receiving the information of disconnection of the signal spring pieces, so as to achieve the purpose of preventing dry-heating. The first signal spring 2167 and the second signal spring 2169 are respectively connected with one connecting ring 322 of the coupler body 212 by wires, specifically, one of the first signal spring 2167 and the second signal spring 2169 is connected with the fourth connecting ring 3226 of the coupler body 212, i.e. connected with the ac live wire, and the other is connected with the fifth connecting ring 3227 of the coupler body 212, i.e. connected with the ac neutral wire. In one embodiment, the first signal spring 2167 and the second signal spring 2169 are deformable copper spring, and the first signal spring 2167 is deformed when pressed by the ceramic rod 2166 and disconnected from the second signal spring 2169. The overheat state information of the heat generating plate 220 is transmitted to the connection ring 322 through the first signal spring 2167 and the second signal spring 2169.

In some embodiments, the heating plate bracket 214 may be provided with a plurality of anti-dry-heating spring pieces 2142, and correspondingly, the supporting portion 216 may be provided with a plurality of anti-dry-heating devices 2165, a plurality of sets of first signal spring pieces 2167 and second signal spring pieces 2169 that are connected to each other, which is not specifically limited herein. For example, as shown in fig. 4, two anti-dry heat spring pieces 2142 may be provided on the heat-generating plate holder 214.

Referring to fig. 5, the container 200 includes the container coupler 210 and the heating plate 220 according to any of the above embodiments, and the heating plate 220 includes the heating element 222, where the container coupler 210 is connected to the heating element 222.

In some embodiments, referring to fig. 5, the heat-generating body 222 includes a first heat-generating body 2222, a second heat-generating body 2224, and a third heat-generating body 2226, the first heat-generating body 2222 being supplied with alternating current, the second heat-generating body 2224 and the third heat-generating body 2226 being supplied with direct current; alternatively, the first heat-generating body 2222 is supplied with direct current, and the second heat-generating body 2224 and the third heat-generating body 2226 are supplied with alternating current. Therefore, the heating power of the water boiling kettle can be increased by using the three heating bodies, the water boiling efficiency is improved, and the time required for boiling water is reduced. The power is distributed to the three heating elements, so that the potential safety hazard caused by overhigh power and overheat temperature of a single heating element is avoided, and the direct current and the alternating current are distributed on different heating elements, so that the safety of the heating elements can be improved.

In some embodiments, the heat-generating body 222 includes a first heat-generating body 2222, a second heat-generating body 2224, and a third heat-generating body 2226, both the power of the second heat-generating body 2224 and the power of the third heat-generating body 2226 being less than the power of the first heat-generating body 2222, the sum of the power of the second heat-generating body 2224 and the power of the third heat-generating body 2226 being greater than the power of the first heat-generating body 2222. In this way, the heating element 222 is divided into three heating elements, so that the total power is increased, the overhigh power of a single heating element can be avoided, the rapid water heating is realized, and the direct current and the alternating current are distributed on different heating elements, so that the safety of the heating element can be improved.

In some embodiments, the heat-generating body 222 includes a first heat-generating body 2222, a second heat-generating body 2224, and a third heat-generating body 2226, the first heat-generating body 2222 having a power of 300W-2300W, the second heat-generating body 2224 having a power of 300W-2000W, and the third heat-generating body 2226 having a power of 300W-2000W. In one embodiment, the first heat generator 2222 has a power of 2200W, the second heat generator 2224 has a power of 1500W, the third heat generator 2226 has a power of 900W, and the total power reaches 4600W. Thus, high-power rapid water heating is realized.

In some embodiments, the heat-generating body 222 includes a first heat-generating body 2222, a second heat-generating body 2224, and a third heat-generating body 2226, the three heat-generating bodies 222 being disposed around the container coupler 210, the third heat-generating body 2226 being less distant from the container coupler 210 than the second heat-generating body 2224 is distant from the container coupler 210, and the second heat-generating body 2224 being less distant from the container coupler 210 than the first heat-generating body 2222 is distant from the container coupler 210. In this way, the heating efficiency can be improved by including the heating element with smaller power and by including the heating element with larger power.

In some embodiments, the heat generating body 222 includes a first heat generating body 2222, a second heat generating body 2224, and a third heat generating body 2226, the container 200 can be disposed on the base 100, and the energy storage element of the base 100 can be charged in the case that the base 100 receives the alternating current; in the case where the container coupler 210 receives the alternating current input from the cradle 100, the first heat generator 2222 can generate heat; in the case where the amount of electricity of the energy storage element is greater than the preset amount of electricity, the energy storage element can be used to output direct current to the capacitor coupler 210 to supply power to the second heat-generating body 2224 and the third heat-generating body 2226. Specifically, when AC (e.g., mains supply) is connected, under the condition that AC is normal, a user starts heating, then uses AC to work, uses AC to supply heat, and the AC can charge the energy storage element of the base 100, when the electric quantity of the energy storage element of the base 100 meets the requirement, high-power heating can be started, and at the moment, the mode of using AC to add direct current is used for work. Thus, high-power heating is realized.

In certain embodiments, the container 200 comprises a water kettle. In particular, kettles may be used to effect heating and insulating operations.

In certain embodiments, the container 200 comprises a disinfection jug. In particular, the sterilization kettle can be used for performing sterilization operations, and can also be used for heating and preserving heat.

An embodiment of the present utility model provides a heating system 1000, referring to fig. 3, where the heating system 1000 includes the container 200 of any of the embodiments described above and a base 100, and the base 100 is used to place the container 200.

In certain embodiments, the heating system 1000 comprises a tea maker. Specifically, the tea making machine is a tea making device comprising a base 100, a water boiling kettle and a disinfection kettle, and can complete the operations of heating, heat preservation and disinfection.

In certain embodiments, the heating system 1000 comprises an electric kettle, in particular, an electric kettle that can be used to effect the heating operation.

In the container coupler 210, the container 200, and the heating system 1000 according to the embodiment of the present utility model, the coupler body 212 is spaced apart from the heat-generating plate holder 214 by the supporting portion 216, so that the space of the heat-generating plate 220 is prevented from being occupied by the coupler body 212, thereby enabling the heat-generating plate 220 to be made larger, and the number or size of the heat-generating bodies 222 of the heat-generating plate 220 can be increased.

In the description of the present specification, reference to the terms "one embodiment," "some embodiments," "illustrative embodiments," "examples," "specific examples," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present utility model. In this specification, schematic representations of the above terms are not necessarily directed to the same embodiment or example. Furthermore, the different embodiments or examples described in this specification and the features of the different embodiments or examples may be combined and combined by those skilled in the art without contradiction.

Furthermore, the term "coupled" is to be broadly interpreted and includes, for example, either permanently coupled, detachably coupled, or integrally coupled; can include direct connection, indirect connection through intermediate media, and communication between two elements. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art.

Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In the description of the present utility model, the meaning of "plurality" means at least two, for example, two, three, etc., unless specifically defined otherwise.

Any process or method descriptions in flow charts or otherwise described herein may be understood as representing modules, segments, or portions of code which include one or more executable instructions for implementing specific logical functions or steps of the process, and further implementations are included within the scope of the preferred embodiment of the present utility model in which functions may be executed out of order from that shown or discussed, including substantially concurrently or in reverse order from that shown or discussed, depending on the functionality involved, as would be understood by those reasonably skilled in the art of the embodiments of the present utility model.

While embodiments of the present utility model have been shown and described above, it will be understood that the above embodiments are illustrative and not to be construed as limiting the utility model, and that variations, modifications, alternatives and variations may be made to the above embodiments by one of ordinary skill in the art within the scope of the utility model.

Claims (15)

1. A container coupler, the container coupler comprising:

a coupler body including a plurality of connection rings;

the heating plate support can be used for being connected with the heating plate;

and the supporting part is arranged between the coupler main body and the heating disc bracket.

2. The container coupler of claim 1 wherein the heat-generating disk holder has a size ranging from 50mm to 59mm.

3. The container coupler of claim 1 wherein the heat-generating disk support has a size that is smaller than a size of the support portion that is smaller than a size of the coupler body.

4. The container coupler of claim 1 wherein said support includes a first support leg, said first support leg being connected to said coupler body.

5. The container coupler of claim 1 wherein said support includes a second support leg, said second support leg being connected to said heat-generating tray support.

6. The container coupler according to claim 1, wherein a side of the support portion facing the coupler body is provided with an electrical connection member extending to a middle portion of the coupler body as the connection ring.

7. The container coupler according to claim 1, wherein a dry-heating preventing spring piece is arranged on the heating plate support, a dry-heating preventing device, a first signal spring piece and a second signal spring piece which are connected with each other are arranged on the support portion, when the heating plate is in an over-temperature state, the dry-heating preventing spring piece can deform to drive the dry-heating preventing device to displace, when the dry-heating preventing device displaces, the first signal spring piece is pressed to enable the first signal spring piece and the second signal spring piece to be disconnected, the first signal spring piece and the second signal spring piece are respectively connected with one connecting ring of the coupler main body, and overheat state information of the heating plate is transmitted to the connecting ring through the first signal spring piece and the second signal spring piece.

8. A container comprising the container coupler of any one of claims 1-7 and a heat-generating plate comprising a heat-generating body, the container coupler being connected to the heat-generating body.

9. The container of claim 8, wherein the heat-generating body comprises a first heat-generating body, a second heat-generating body, and a third heat-generating body;

the first heating body is powered by alternating current, and the second heating body and the third heating body are powered by direct current; or the first heating body is powered by direct current, and the second heating body and the third heating body are powered by alternating current.

10. The container of claim 8, wherein the heat-generating body comprises a first heat-generating body, a second heat-generating body, and a third heat-generating body, the power of the second heat-generating body and the power of the third heat-generating body each being less than the power of the first heat-generating body, the sum of the power of the second heat-generating body and the power of the third heat-generating body being greater than the power of the first heat-generating body.

11. The container of claim 8, wherein the heater comprises a first heater, a second heater, and a third heater, the first heater has a power of 300W to 2300W, the second heater has a power of 300W to 2000W, and the third heater has a power of 300W to 2000W.

12. The container of claim 8, wherein the heater comprises a first heater, a second heater, and a third heater, the three heaters disposed around the container coupler, the third heater being less distant from the container coupler than the second heater, the second heater being less distant from the container coupler than the first heater.

13. The container of claim 8, wherein the heating elements comprise a first heating element, a second heating element, and a third heating element, the container being disposable on a base, the base being capable of being charged by an energy storage element of the base upon receipt of alternating current; under the condition that the container coupler receives alternating current input by the base, the first heating body can generate heat; and under the condition that the electric quantity of the energy storage element is larger than the preset electric quantity, the energy storage element can be used for outputting direct current to the container coupler so as to supply power to the second heating element and the third heating element.

14. The container of claim 8, wherein the container comprises a water kettle.

15. A heating system comprising a container according to any one of claims 8 to 14 and a base for receiving the container.

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