CN110613342B - Drench and steep subassembly and liquid heating container - Google Patents

Abstract

The invention provides a showering assembly and a liquid heating container, wherein the liquid heating container comprises a container body, and the showering assembly comprises: a filter cartridge capable of being mountedAt least one water inlet and outlet hole with cross section area more than or equal to 0.2mm is arranged on the bottom wall and/or the side wall of the filter cartridge in the container body²Less than or equal to 7.1mm²(ii) a The side wall of the filter cylinder is provided with an overflow hole with a cross section area larger than that of the water inlet and outlet holes. According to the scheme, the overflow holes are formed in the side wall of the filter cylinder, when tea is poured and the like, the filter cylinder can overflow liquid such as tea water in the filter cylinder through the overflow holes at least, so that the excessive liquid such as water in the filter cylinder can be prevented, the water quantity in the filter cylinder can be ensured when the filter cylinder is used for tea pouring and the like, the effects of tea pouring and the like are ensured, the filter cylinder can be prevented from being completely blocked, the filter cylinder can be communicated with the container body when tea is poured and the like, the exchange rate of water between the filter cylinder and the container body can be ensured, and the soaking and extracting effects of tea and the like are ensured.

Description

Drench and steep subassembly and liquid heating container

Technical Field

The invention relates to the field of kitchen utensils, in particular to a showering assembly and a liquid heating container.

Background

When the existing teapot is used for pouring tea and the like, the situation that the meshes of the filter cylinder are blocked by drink materials such as tea leaves and coffee powder sometimes occurs, so that too much tea water in the filter cylinder is easily caused, the operation effects of pouring tea and the like can be influenced by too much tea water in the filter cylinder, and the situation that the tea water overflows out of the container body can be caused. For the filter cartridge for tea making and other operations, the filter cartridge mesh blocked by the beverage materials such as tea leaves and coffee powder can result in water exchange failure between the container body and the filter cartridge, which can result in insufficient soaking and extraction of the beverage materials such as tea leaves and coffee powder, and thus the utilization rate of the beverage materials such as tea leaves and coffee powder is low.

Therefore, how to provide a filter cartridge with a filter cartridge mesh which is not easy to block and a liquid heating container comprising the filter cartridge become problems to be solved at present.

Disclosure of Invention

The present invention is directed to solving at least one of the problems of the prior art or the related art.

It is therefore an object of the present invention to provide a shower assembly.

It is another object of the present invention to provide a liquid heating vessel comprising the above-described showering assembly.

To achieve the above object, an embodiment of a first aspect of the present invention provides a bubble showering assembly for a liquid heating container, the liquid heating container including a container body, the bubble showering assembly including: the filter cartridge can be installed in the container body, at least one water inlet and outlet hole is formed in the bottom wall and/or the side wall of the filter cartridge, and the cross section area S of the water inlet and outlet hole is larger than or equal to 0.2mm²Less than or equal to 7.1mm²(ii) a The side wall of the filter cylinder is also provided with an overflow hole, and the cross sectional area of the overflow hole is larger than that of the water inlet and outlet holes.

According to an embodiment of the first aspect of the present invention, there is provided a pouring and brewing assembly for a liquid heating container, the liquid heating container includes a container body, and specifically, a filter cartridge is used for containing beverage materials such as tea leaves and coffee powder to perform operations of making tea and pouring tea, and the filter cartridge is provided with at least one water inlet and outlet hole, through which water in the container body can enter the filter cartridge, and water in the filter cartridge can be discharged into the container body to perform water exchange between the filter cartridge and the container body. And through set up the overflow hole that a cross-sectional area is still big than the business turn over water hole on straining a lateral wall of section of thick bamboo, make the overflow hole more difficult for blockking up than the business turn over water hole, consequently strain a section of thick bamboo and drench when operation such as tea and making tea, it overflows through the overflow hole with the liquid such as tea that strain a section of thick bamboo all the time at least all the time to strain a section of thick bamboo, like this when the business turn over water hole is by tealeaves, drink materials such as coffee powder block up, it also can be through overflow hole and vessel body intercommunication to strain a section of thick bamboo, can prevent to strain liquid such as water in the section of thick bamboo too much on the one hand like this, thereby can strain a section of thick bamboo when utilizing and drench operation such as tea, ensure to strain the water yield in the section of thick bamboo, with the effect of guaranteeing to drench operation such as tea, improve the taste such as tea soup. On the other hand, the filter cartridge can be prevented from being completely blocked, so that the filter cartridge can be communicated with the container body when the filter cartridge is used for making tea and the like, the exchange rate of water between the filter cartridge and the container body can be ensured, the soaking and extracting effects of beverage materials such as tea leaves and coffee powder can be ensured, and the utilization rate of the beverage materials such as the tea leaves and the coffee powder can be improved.

Wherein, preferably, the aperture of the water inlet and outlet hole should not be too large nor too small, too large can cause the beverage materials such as tea leaves and coffee powder to expose out of the filter cylinder, too small can cause the beverage materials such as tea leaves and coffee powder to block the water inlet and outlet hole, or the water inlet and outlet is too slow, therefore, the area of the cross section of the water inlet and outlet hole is preferably more than or equal to 0.2mm²Or less than or equal to 7.1mm²In this way, the aperture of the water inlet and outlet holes is reasonable and moderate.

In addition, the showering assembly provided by the embodiment of the invention also has the following additional technical characteristics:

in any of the above technical solutions, preferably, the number of the overflow holes is multiple, and/or the overflow holes are circular holes, polygonal holes, or elliptical holes.

In these technical schemes, the quantity of overflow hole is preferred a plurality ofly, can ensure to strain the water inlet and outlet hole of straining a section of thick bamboo like this and strain the effect of leading to between a section of thick bamboo and the container body when blockking up to ensure to drench the effect of operation such as tea and tea. The shape of the overflow holes can be arbitrarily set, wherein, preferably, the overflow holes can be set to be round, polygonal or elliptical, because the round, polygonal or elliptical shapes are more common and more regular shapes, and thus are better processed. Of course, the overflow aperture can also be provided in any other shape than circular, polygonal or oval.

In any of the above technical solutions, preferably, the number of the overflow holes is plural, and the plurality of the overflow holes have the same size, or a cross-sectional area of the overflow hole near the bottom wall of the filter cartridge is smaller than a cross-sectional area of the overflow hole far from the bottom wall of the filter cartridge.

In these technical solutions, when the number of the overflow holes is plural, the sizes of the plurality of overflow holes may be all equal or not all equal. Preferably, the cross-sectional area of the overflow aperture of the filter cartridge near the opening of the filter cartridge is larger, and the cross-sectional area of the overflow aperture of the filter cartridge near the bottom wall is smaller, so that the overflow aperture in the filter cartridge increases from the bottom wall to the opening. The overflow hole close to the opening of the filter cartridge is large, so that the overflow speed of the filter cartridge is higher, and the overflow hole at the lower part is smaller, so that excessive overflow of water at the lower part of the filter cartridge can be prevented.

In a further preferred aspect, the cross-sectional area of the plurality of overflow holes gradually increases from a side close to the bottom wall of the filter cartridge to a side away from the bottom wall of the filter cartridge. Thus, the overflow rate of the overflow hole can be gradually increased, and the anti-overflow effect of the filter cartridge can be better.

In any of the above technical solutions, preferably, the number of the overflow holes is plural, and the cross-sectional area of the overflow hole with the largest cross-sectional area among the plural overflow holes is greater than or equal to pi mm²Less than or equal to 100 pi mm²Or the cross-sectional area of the overflow hole with the largest cross-sectional area among the plurality of overflow holes is more than or equal to 4 pi mm²Less than or equal to 25 pi mm²。

In the technical schemes, the overflow holes are not suitable to be too large or too small, but the cross-sectional area of the overflow hole with the largest cross-sectional area in the plurality of overflow holes is preferably larger than or equal to pi mm²Less than or equal to 100 pi mm²Therefore, the size of the largest overflow hole is moderate, so that the largest overflow hole can be prevented from being too large, and the largest overflow hole can be prevented from being too small to play a role in preventing overflow and the like. And further preferably, the cross-sectional area of the overflow hole having the largest cross-sectional area is not less than 4 π mm²Less than or equal to 25 pi mm². For other overflow holes, the size can be set at will, but all the overflow holes are smaller than the cross-sectional areaThe largest overflow aperture.

In any of the above technical solutions, preferably, the number of the overflow holes is multiple, a distance between an overflow hole farthest from the bottom wall of the filter cartridge and the bottom wall of the filter cartridge in the multiple overflow holes is h, and a height of the inner wall of the filter cartridge is L, where h/L is greater than or equal to 0.2 and less than or equal to 0.8, or h/L is greater than or equal to 0.33 and less than or equal to 0.67.

In these solutions, the plurality of overflow holes can be disposed at any height of the side wall of the filter cartridge, but in order to ensure the function of the overflow holes, the overflow holes cannot be disposed too high or too low, and therefore, the distance h between the overflow hole farthest from the bottom wall of the filter cartridge and the bottom wall of the filter cartridge is not too small or too large, and specifically, the value of h can be set reasonably according to the overall height L of the inner wall of the filter cartridge, and preferably, the value of h/L is 0.2 or more and 0.8 or less, and more preferably, the value of h/L is 0.33 or more and 0.67 or less.

Wherein, the distance between the overflow hole and the bottom wall of the filter cylinder is the distance between one side of the overflow hole close to the bottom wall of the filter cylinder and the bottom wall of the filter cylinder.

In any of the above technical solutions, preferably, a flow guide surface inclined toward the outside of the filter cartridge is provided on the bottom wall of the filter cartridge from a direction close to an edge of the bottom wall of the filter cartridge to a direction close to a middle portion of the bottom of the filter cartridge.

In the technical schemes, the downward-inclined flow guide surface is arranged from the edge of the bottom of the filter cylinder to the middle of the bottom of the filter cylinder on the bottom of the filter cylinder, so that water on the bottom wall of the filter cylinder can be guided to the middle of the bottom wall of the filter cylinder from the edge of the bottom wall of the filter cylinder through the flow guide surface, when tea is drenched, the water at the position where the water is drenched in the filter cylinder is guided to the position where the water is not drenched, the tea leaves and the like in the filter cylinder can be in contact with the water, and the tea drenching uniformity can be further improved. Therefore, all tea leaves and the like can be fully soaked and extracted, so that the tea leaves and the like can be fully used, the utilization rate of the tea leaves and the like can be improved, the effects of tea showering and other operations are improved, and the taste of tea water and the like is improved.

In the above technical solution, preferably, the flow guide surface is an arc surface or an inclined plane, and/or the bottom wall of the filter cartridge is recessed from an edge of the bottom wall of the filter cartridge to a middle of the bottom wall of the filter cartridge to an outer side of the filter cartridge.

In the technical scheme, the drainage surface can be set into an arc shape or an inclined plane, so that water at the edge of the bottom wall of the filter cylinder is guided to the middle part of the bottom wall of the filter cylinder, and the uniformity of tea pouring and other operations can be further ensured. Preferably, the bottom wall of the filter cartridge is recessed from the edge of the bottom wall of the filter cartridge to the middle of the bottom wall of the filter cartridge to the outer side of the filter cartridge, that is, the whole bottom of the filter cartridge is recessed from the edge to the middle, so that the bottom wall of the whole filter cartridge can be set to be a flow guide surface, and therefore uniform tea pouring can be achieved in all directions of the whole filter cartridge.

In any one of the above technical solutions, preferably, the bottom wall of the filter cartridge is provided with a mounting hole, and the shower assembly further includes: a hollow post having a first end mounted within the mounting aperture and a second end located within the filter cartridge or extending out of the filter cartridge from an opening of the filter cartridge; the water dispersion head is installed on the second end of the hollow column, a first accommodating cavity is arranged in the water dispersion head, a water dispersion hole is formed in the inner wall of the first accommodating cavity, and water in the water dispersion head can be sprinkled into the filter cylinder through the water dispersion hole.

In the technical schemes, the installation of the water dispersion head on the filter cylinder can be realized through the hollow column, and the water dispersion head can be communicated with the flow guide piece of the container body through the hollow column when the filter cylinder is used for spraying tea, therefore, the water for the operations of tea pouring and the like can be dispersed by the water dispersion head and then sprayed to the drink materials of tea, coffee powder and the like through the water dispersion holes, so that the water dispersion head can spray the water for the operations of tea pouring and the like in a large area, so as to prevent water from only being sprayed to a certain local area, thus the water for tea spraying and other operations can be uniformly sprayed to the drink materials such as tea leaves, coffee powder and the like through the water dispersing head, all the tea leaves and the like can be fully soaked and extracted, therefore, the utilization rate of the tea leaves and the like can be improved, the effect of the tea pouring and other operations can be improved, and the taste of the tea water and the like can be improved. Meanwhile, in the application, the water dispersion head is arranged at the mounting hole of the filter cylinder through the hollow column, so that the installation of the water dispersion head can be realized through the filter cylinder, the water dispersion head is not required to be arranged on other parts such as a flow guide piece and the like, and the water dispersion head and the filter cylinder can be integrally arranged, so that the water dispersion head and the filter cylinder can be integrally assembled and disassembled.

In any of the above technical solutions, preferably, the filter cartridge is a circular filter cartridge, the diameter of the circular filter cartridge is D, and the distance between the water spray hole farthest from the bottom wall of the filter cartridge and the bottom wall of the filter cartridge is H, where 0.13D is²≤H≤12.5D²Or 0.3D²≤H≤5D²Or the rated speed of the water in the water spray head flowing out of the water spray holes is V₀Wherein, in the step (A),

in the technical schemes, on one hand, the height of the highest water spray hole can be reasonably defined through the diameter D of the filter cylinder, so that the rated speed of water flow at the water spray hole can be reasonably defined to ensure the tea spraying range and the tea spraying effect of the water spray head, and specifically, H can be set to be more than or equal to 0.13D²Less than or equal to 12.5D²Further preferably, H may be set to 0.3D or more²Less than or equal to 5D². Meanwhile, on the other hand, the height of the water spray hole at the highest position on the water spray head can be reasonably set through the diameter D of the filter cylinder and the rated speed of the water flow at the water spray hole, namely the optimal speed, so that the speed of the water flowing out of the water spray hole can meet the expected requirement when the tea is showered. Wherein, the diameter D of the filter cylinder, the distance H between the highest water spray hole and the bottom wall of the filter cylinder and the rated speed V when the water in the water spray head flows out from the water spray hole are preferably enabled₀The following relation is satisfied:

wherein, the distance between the water spray holes and the bottom wall of the filter cylinder is the distance between the center of the water spray holes and the inner bottom wall of the filter cylinder.

In any of the above technical solutions, preferably, the showering assembly further includes: the one end of water conservancy diversion spare stretches into this internally of container to be located outside the filter cartridge, the other end of water conservancy diversion spare with the flood peak intercommunication, the water conservancy diversion spare can with this internal water of container is leading-in to in the flood peak.

In the technical schemes, by arranging the flow guide piece, liquid such as water in the container body can be guided into the water dispersion head through the flow guide piece, and then the liquid is uniformly sprinkled on drink materials such as tea leaves and coffee powder in the filter cylinder through the water dispersion head, so that the liquid such as water in the container body can be directly sprinkled on the drink materials such as tea leaves and coffee powder, and the operation such as tea sprinkling can be realized.

In any one of the above technical solutions, preferably, the flow guide member includes: the supporting cover is provided with a through hole and can be buckled on the bottom wall of the container body, and a second accommodating cavity is formed between the supporting cover and the bottom wall of the container body; the connecting pipe, the one end of connecting pipe is inserted and is installed in the through-hole, the other end of connecting pipe insert install extremely the cavity post, and with the cavity post intercommunication.

In these technical schemes, the water conservancy diversion spare includes support lid and connecting pipe, and wherein, the connecting pipe passes through the through-hole intercommunication with the support lid, and the other end of connecting pipe again can be installed to the cavity post and strain a intercommunication with straining to the water that supports the lid side just can be imported into straining in the section of thick bamboo through the connecting pipe. The supporting cover can be buckled on the bottom wall of the container body, and a second containing cavity is formed by the supporting cover and the bottom wall of the container body, so that after water in the container body is heated and boiled, steam can be generated in the second containing cavity, the steam is gradually increased, and after the pressure in the second containing cavity is gradually increased, the water in the second containing cavity can be pressed into the filter cylinder through the connecting pipe, and then the water can be sprayed onto tea leaves and the like in the filter cylinder, so that the tea spraying operation is realized. When the structure is used for tea pouring and other operations, water can be pressed into the filter cylinder from the container body through the pressure generated by the water vapor in the container body, and a water pumping structure such as a water pump is not additionally arranged, so that the cost of the filter cylinder can be simplified, and the power consumption of a product can be reduced.

Of course, the diversion member may also be another structure capable of guiding the water in the container body into the filter cartridge, for example, a water pumping device, such as a water pump and a water pumping pipe, may also be used as the diversion member, so as to be capable of pumping the water in the container body into the filter cartridge, so as to realize the tea-pouring operation.

In any of the above technical solutions, preferably, the other end of the connection pipe is detachably inserted into and mounted to the hollow column, and after the connection pipe is detached from the hollow column, the support cover is detachably attached to the opening of the filter cartridge, and one end of the connection pipe, which is away from the support cover, is detachably mounted to the container body.

In these technical schemes, the other end of connecting pipe and the installation of cavity post dismantlement for strain a section of thick bamboo and loose the flood peak and can also dismantle from the connecting pipe, and strain a section of thick bamboo and dismantle the back from the connecting pipe, strain a section of thick bamboo and can cover each other with supporting the lid and close, the connecting pipe is kept away from the one end that supports the lid and can be installed to the vessel with dismantling, make strain a section of thick bamboo, support lid and connecting pipe alright will drench the bubble subassembly and assemble into operation forms such as bubble tea and install on the vessel, can utilize this drench the bubble subassembly like this and carry out operations such as making tea. And this kind of setting can enough be installed together in order to realize operations such as making tea owing to strain a section of thick bamboo with supporting the lid dismantlement, can install the other end at the connecting pipe again, in order to assemble into with supporting lid and connecting pipe and drench operation forms such as tea in order to drench operations such as tea, this just makes the user when specifically using this drenches the bubble subassembly, can carry out the equipment of different modes with supporting the lid, connecting pipe and straining a section of thick bamboo according to actual need, in order to make up into and drench operation forms such as tea or make up into operation forms such as making tea, can both realize drenching operations such as tea and realizing operations such as making tea through same drenching the bubble subassembly like this, thereby just can enlarge the function of product, improve the practicality of product, and then just can satisfy user's many-sided demand better, in order to improve user experience.

In any of the above technical solutions, preferably, the liquid heating container further includes a heating device disposed on a bottom wall of the container body; when the supporting cover is buckled on the bottom wall of the container body, the supporting cover is arranged on the heating device; wherein the heating power of the heating device is more than or equal to 150W and less than or equal to 1000W, or the heating power of the heating device is more than or equal to 300W and less than or equal to 600W.

In these technical schemes, the heating device is used for heating the water in the container body. So that the container body has a heating function. Wherein, preferably, heating device can directly set up and heat in supporting the lid, can improve the heating efficiency of the water that supports in the lid like this, guarantees to drench the bubble subassembly and can produce abundant steam and hot water, alright like this improve the speed and the effect of drenching operation such as tea to improve the taste of tea and so on. The heating power of the heating device is set between 150W and 1000W, and further the heating power of the heating device can be reasonably limited between 300W and 600W, so that the amount of steam in the supporting cover can be reasonably limited, the speed of water during tea pouring is ensured, the excessive boiling of the water in the supporting cover can be prevented, and the water flowing out from the water spray holes can be ensured to have certain speed, so that the tea pouring effect is ensured.

In any one of the above technical solutions, preferably, when the end of the connection pipe away from the support cover is detachably mounted to the container body, the connection pipe is capable of moving up and down in a height direction of the container body.

Among these technical scheme, the one end that the support lid was kept away from to the connecting pipe can be dismantled ground and can be followed the direction of height up-and-down motion of vessel's installation on vessel for the user is when utilizing this to drench and steep subassembly and make tea etc. the operation, can upwards promote the connecting pipe, in order to strain a section of thick bamboo and promote to vessel's opening, so just can be after making tea etc. the section of thick bamboo upwards mentions above the tea water level, in order to prevent that drink materials such as tealeaves, coffee powder further soak in aqueous, so the user just can select the time that drink materials such as tealeaves, coffee powder soak according to actual need, in order to prevent that drink materials such as tealeaves, coffee powder soak the time overlength and lead to the condition emergence of tea water overrich. When tea making is carried out next time, the connecting pipe is descended, so that the filter cylinder can be continuously soaked in water, and tea making and other operations can be continuously carried out.

In any one of the above technical solutions, preferably, the connecting pipe can be inserted into and installed at one end in the hollow column is provided with an external thread, an internal thread is arranged in the hollow column, and the connecting pipe and the hollow column are connected through the external thread and the matching thread of the internal thread.

In these technical scheme, can need insert to set up the external screw thread on installing the one end in the cavity post at the connecting pipe, and set up the internal thread in the cavity post, alright like this insert the back of installing in the cavity post at the connecting pipe, realize the fixed of connecting pipe in the cavity post through threaded connection. And the threaded connection is reliable in connection and simple in structure, so that the structure of the product is simplified and the cost of the product is reduced while the stable installation of the connecting pipe and the hollow column is ensured.

In any of the above technical solutions, preferably, the showering assembly further includes: and when the filter cartridge is detachably mounted on one end of the connecting pipe, which is far away from the support cover, the other end of the fixing piece is detachably mounted on the connecting pipe.

In these solutions, a fixing member may be disposed on the filter cartridge so as to fix the connecting pipe by the fixing member when the filter cartridge is detachably mounted on the other end of the connecting pipe, specifically, for example, an elastic buckle may be disposed on the filter cartridge, and then the connecting pipe and the filter cartridge are detachably mounted by the elastic buckle. Meanwhile, the connecting pipe can be provided with external threads, and the filter cylinder and the like are provided with internal threads, so that the detachable matching between the connecting pipe and the filter cylinder can be realized through the screwing of the internal threads and the external threads, and thus, the connecting pipe can be doubly fixed, and the installation reliability between the connecting pipe and the filter cylinder can be ensured.

In any of the above technical solutions, preferably, at least one water inlet and outlet hole is provided on a side wall of the filter cartridge.

In these technical solutions, it is preferable that the side wall of the filter cartridge is provided with water inlet and outlet holes, so that the exchange of water between the filter cartridge and the container body can be realized through the water inlet and outlet holes on the side wall of the filter cartridge. At this time, the bottom wall of the filter cylinder can be provided with or without water inlet and outlet holes.

In any of the above technical solutions, preferably, the water dispersion head is in an umbrella shape, a shower head shape, a mushroom shape, or a round table shape.

In the technical schemes, the water dispersion head is preferably in an umbrella shape, a shower head shape, a mushroom shape or a round platform shape, because the umbrella shape, the shower head shape, the mushroom shape or the round platform shape are common, the water dispersion head can be processed and purchased better, and the cost can be reduced. Of course, the dispersion head may have any other shape, which is not listed here.

In any one of the above technical solutions, preferably, the water dispersion head is detachably mounted on the hollow column, or the water dispersion head and the hollow column are in an integrated structure.

In these technical schemes, the hollow column and the scattered water head are preferably of an integrated structure, and the mechanical property of the integrated structure is good, so that the connection strength between the hollow column and the scattered water head can be ensured, and in addition, the hollow column and the scattered water head can be integrally manufactured for batch production, so that the production efficiency of products is improved, and the production and processing cost of the products is reduced. Of course, the hollow column and the filter cylinder as well as the hollow column and the water dispersing head can be of a split structure, namely a detachable structure, so that the filter cylinder, the hollow column and the water dispersing head can be detached to be separately stored and stored when the shower assembly is not used, the storage and storage convenience is improved, meanwhile, the hollow column and the filter cylinder as well as the hollow column and the water dispersing head can be detachably connected, and the hollow column, the water dispersing head and the filter cylinder can be independently replaced after the hollow column, the water dispersing head and the filter cylinder are stained, so that the maintenance convenience of the product is improved. In addition, the hollow column and the filter cylinder as well as the hollow column and the water dispersion head are of a detachable structure, and the hollow column and the water dispersion head can be detached when the filter cylinder is not used for tea pouring and other operations, so that the filter cylinder can realize other functions, the utilization rate of the filter cylinder can be improved, and particularly, the hollow column and the water dispersion head can be detached when the filter cylinder is used for tea making and other operations, so that the accommodating space of the filter cylinder is enlarged.

In any one of the above technical solutions, preferably, one end of the hollow column is detachably mounted in the mounting hole.

In these technical scheme, can will strain a section of thick bamboo and hollow column and loose flood peak dismantlement and separately accomodate and deposit when not using the drenching bubble subassembly to improve the convenience of accomodating and depositing, simultaneously, hollow column can be connected with straining a section of thick bamboo with dismantling, can also strain the stained back at hollow column, loose flood peak and section of thick bamboo, change hollow column, loose flood peak alone, in order to improve the maintenance convenience of product. In addition, the hollow column and the filter cylinder are of a detachable structure, and the hollow column and the water dispersion head can be detached when the filter cylinder is not used for tea pouring and other operations, so that the filter cylinder can achieve other functions, the utilization rate of the filter cylinder can be improved, and particularly, the hollow column and the water dispersion head can be detached when the filter cylinder is used for tea making and other operations, so that the accommodating space of the filter cylinder is enlarged. Of course, in other solutions, the hollow column and the bottom wall of the filter cartridge may be of one-piece construction.

In any of the above solutions, preferably, a transparent area is provided on the support cover and/or the filter cartridge.

In the technical solutions, by arranging the transparent area on the support cover and/or the filter cartridge, the inside of the support cover and/or the filter cartridge can be clearly seen through the transparent area, specifically, for example, by arranging the transparent area on the support cover, the process of the operation such as tea pouring can be seen, and by arranging the transparent area on the filter cartridge, the soaking and extraction conditions of the beverage materials such as tea leaves and coffee powder in the filter cartridge can be seen, and the specific process of the operation such as tea pouring and tea making can also be seen when the operation such as tea pouring or tea making is performed.

In any of the above solutions, preferably, the support cover is a fully transparent structure or a partially transparent structure, and/or the filter cartridge is a fully transparent structure or a partially transparent structure.

In these solutions, the support cover and/or the filter cartridge can be completely or partially transparent, in particular, the transparency of the support cover and/or the connecting tube and/or the filter cartridge can be selected according to the actual situation, on the basis of the principle that the inside of the support cover and/or the filter cartridge can be seen clearly.

Embodiments of a second aspect of the invention provide a liquid heating vessel comprising: the container comprises a container body, wherein a container opening is formed in the container body; a container lid which can be attached to a container opening of the container body; and a trickle bubble assembly as provided in any embodiment of the first aspect, the filter cartridge of the trickle bubble assembly being mountable within the container body through the container port.

According to the liquid heating container provided by the embodiment of the invention, the container body, the container cover and the bubbling assembly provided by any one of the embodiments of the first aspect are provided, so that the liquid heating container provided by the embodiment of the invention has all the beneficial effects of the bubbling assembly provided by any one of the embodiments of the first aspect, which are not listed herein.

In any of the above technical solutions, preferably, the liquid heating container further includes a heating device, and the heating device is disposed in the container body or outside the container body.

In these technical scheme, set up heating device and can heat the water in the container body. Preferably, the heating device and the power supply device are directly arranged on the container body, so that the liquid heating container can be arranged into a liquid heating cup or a structure similar to the liquid heating cup. In this case, the heating device may be installed in the container body or may be installed outside the container body.

In the above another technical solution, preferably, the liquid heating container further includes a base and a heating device, the container body can be mounted on the base, and the heating device is disposed on the container body or in the base.

In these technical schemes, a base can be further arranged at the bottom of the container body, and the base can provide a platform for placing the container body on one hand, and on the other hand, the base can provide a power supply for the heating device, or the base can control the specific work of the container body, such as controlling heating power, heating time and the like. The heating device is used for heating the container body, wherein, in particular, the heating device can be arranged in the base and also can be arranged on the container body, and the position of the heating device can be arranged according to the actual situation. In this structure, the liquid heating container includes a container body, a container lid and a base, so that the liquid heating container can be provided as a teapot or a teapot-like structure.

In the above technical solution, preferably, the heating device is disposed on an inner bottom wall of the container body; when the bubble sprinkling assembly comprises the supporting cover, the supporting cover can cover the heating device.

Among these technical scheme, can prefer to set up heating device on the interior diapire of vessel to establish the support lid and install on heating device, can directly set up heating device and heat in supporting the lid like this, can improve the heating efficiency of the water in supporting the lid like this, ensure that liquid heating container can produce abundant steam and hot water, alright improve like this and drench the tea speed, ensure to drench the effect of operation such as tea, with the taste that improves tea.

In any of the above technical solutions, preferably, the heating power of the heating device is not less than 150W and not more than 1000W, or the heating power of the heating device is not less than 300W and not more than 600W.

In these technical scheme, heating device can prefer direct setting and heat at this internal the heating that heats of container, can improve the heating efficiency of product like this to alright improve the speed and the effect of drenching operation such as tea, with the taste that improves tea and so on. The heating power of the heating device is set between 150W (W is a power unit and represents watt) and 1000W, and further the heating power of the heating device is set between 300W and 600W, so that the heating power of the heating device can be reasonably limited, the amount of steam in the supporting cover can be reasonably limited, the speed of water during tea pouring can be ensured, the water in the supporting cover can be prevented from being boiled excessively, and the water flowing out from the water spray holes can be ensured to have a certain speed, so that the effects of tea pouring and the like can be ensured.

In any of the above technical solutions, preferably, the container body is provided with a handle. Wherein, can make the more convenient removal of carrying on of container body through setting up the handle to more do benefit to operation such as pouring tea, washing.

In any of the above technical solutions, preferably, a container mouth is provided on a side wall of the container body. Through set up the container mouth on the lateral wall at container body, can carry out the pouring of this internal tea of container etc. through the container mouth, like this when pouring tea etc. just need not open the container lid, take out and drench bubble subassembly etc. therefore can make pouring of tea etc. more convenient.

In any of the above technical solutions, preferably, the container body is further provided with a cover body, and the cover body can open or close the container mouth.

Among these technical scheme, can set up a lid in vessel ontology's container mouth department, the accessible lid carries out opening and closing of container mouth like this, can prevent like this that the container mouth from opening for a long time, therefore can be when making tea etc. the operation, close the container mouth to pin this internal heat of container and tea perfume etc. alright prevent like this that the heat from leaking, improve the heating efficiency of product, thereby ensure the effect of making tea.

The base is provided with an operation panel, a control panel, a shell, a power supply and other structures.

Wherein, the liquid heating container is preferably a heating cup, a teapot or a coffee pot, of course, the liquid heating container can also be other products besides the heating cup, the teapot and the coffee pot.

Additional aspects and advantages of the invention 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 invention.

Drawings

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

fig. 1 is a schematic structural diagram of a bubble pouring assembly according to an embodiment of the present invention;

fig. 2 is a partial enlarged structural schematic diagram of a bubble pouring assembly a provided in the embodiment of fig. 1;

FIG. 3 is another schematic diagram of a bubble shower assembly according to an embodiment of the present invention;

FIG. 4 is a schematic view of another embodiment of the bubble pouring assembly;

FIG. 5 is a schematic view of another embodiment of a bubbler assembly according to the present invention;

fig. 6 is a fifth structural schematic diagram of the bubble pouring assembly according to the embodiment of the present invention;

FIG. 7 is a schematic diagram of another state of a bubble shower assembly according to an embodiment of the present invention;

fig. 8 is a schematic structural view of a liquid heating container according to an embodiment of the present invention.

Wherein, the correspondence between the reference numbers and the component names in fig. 1 to 8 is:

1 filter cylinder, 12 water inlet and outlet holes, 14 overflow holes, 16 mounting holes, 2 hollow columns, 3 water dispersion heads, 32 first accommodating cavities, 34 water dispersion holes, 4 flow guide parts, 42 supporting covers, 44 connecting pipes, 5 fixing parts, 6 container bodies, 62 handles, 7 container covers and 8 bases.

Detailed Description

In order that the above objects, features and advantages of the present invention can be more clearly understood, a more particular description of the invention will be rendered by reference to the appended drawings. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and therefore the scope of the present invention is not limited by the specific embodiments disclosed below.

A bubbler assembly and a liquid heating vessel according to some embodiments of the present invention will now be described with reference to fig. 1 to 8.

As shown in fig. 1 to 7, the present inventionEmbodiments of the first aspect provide a showering assembly for a liquid heating vessel, the liquid heating vessel comprising a vessel body 6, the showering assembly comprising: the filter cartridge 1 can be arranged in the container body 6, at least one water inlet and outlet hole 12 is arranged on the bottom wall and/or the side wall of the filter cartridge 1, and the cross section area S of the water inlet and outlet hole 12 is more than or equal to 0.2mm²Less than or equal to 7.1mm²(ii) a Wherein, the side wall of the filter cartridge 1 is also provided with an overflow hole 14, and the cross-sectional area of the overflow hole 14 is larger than that of the water inlet and outlet hole 12.

According to the embodiment of the first aspect of the present invention, a pouring and brewing assembly is provided for a liquid heating container, the liquid heating container includes a container body 6, specifically, a filter cartridge 1 is used for containing beverage materials such as tea leaves and coffee powder to achieve operations of making tea and pouring tea, and the filter cartridge 1 is provided with at least one water inlet and outlet hole 12, so that water in the container body 6 can enter the filter cartridge 1 through the water inlet and outlet hole 12, and water in the filter cartridge 1 can be discharged into the container body 6 to achieve water exchange between the filter cartridge 1 and the container body 6. And through set up an overflow hole 14 that the cross-sectional area is still bigger than the inlet outlet 12 on straining a lateral wall of 1, make overflow hole 14 more difficult to block up than inlet outlet 12, therefore when straining a section of thick bamboo 1 and drenching tea and making tea etc. and operate, strain a section of thick bamboo 1 and can spill over through overflow hole 14 with the liquid such as tea in straining a section of thick bamboo 1 all the time at least, like this when inlet outlet 12 is blockked up by drink materials such as tealeaves, coffee powder, it also can be through overflow hole 14 and vessel body 6 intercommunication to strain a section of thick bamboo 1, can prevent to strain liquid such as water in 1 on the one hand like this too much, thus can utilize to strain a section of thick bamboo 1 and drench tea etc. and operate the effect of operation such as tea, improve the taste of tea soup etc.. On the other hand, the filter cartridge 1 can be prevented from being completely blocked, so that when the filter cartridge 1 is used for tea making and other operations, the filter cartridge 1 can be ensured to be communicated with the container body 6, and further, the exchange rate of water between the filter cartridge 1 and the container body 6 can be ensured, so that the soaking and extraction effects of beverage materials such as tea leaves and coffee powder are ensured, and the utilization rate of the beverage materials such as the tea leaves and the coffee powder is improved.

Wherein, the diameter of the water inlet and outlet holes 12 should not be too large or too small, and too large will result in tea leavesBeverage materials such as coffee powder and the like are exposed out of the filter cartridge 1, and the situation that the beverage materials such as tea leaves, coffee powder and the like block the water inlet and outlet holes 12 or the water inlet and outlet are too slow occurs when the beverage materials are too small, therefore, the area of the cross section of the water inlet and outlet holes 12 is preferably more than or equal to 0.2mm²Or less than or equal to 7.1mm²So that the diameter of the water inlet and outlet holes 12 is relatively reasonable and moderate.

In any of the above embodiments, preferably, as shown in fig. 2, 4 to 6, the number of the overflow holes 14 is plural, and/or the overflow holes 14 are circular holes or polygonal holes or elliptical holes.

In these embodiments, the number of the overflow holes 14 is preferably multiple, so as to ensure the communication effect between the filter cartridge 1 and the container body 6 when the water inlet and outlet holes 12 of the filter cartridge 1 are blocked, so as to ensure the effect of the operations of pouring tea, making tea and the like. The shape of the overflow opening 14 can be arbitrarily set, wherein, preferably, it can be set as a circle, a polygon or an ellipse, because the circle, the polygon or the ellipse is a more common and regular shape, and thus is better processed. Of course, the overflow aperture 14 may also be provided in any other shape than circular, polygonal or elliptical.

In any of the above embodiments, preferably, as shown in fig. 2, 4 to 6, the number of the overflow holes 14 is plural, and the plurality of the overflow holes 14 are equal in size, or the cross-sectional area of the overflow hole 14 near the bottom wall of the filter cartridge 1 is smaller than the cross-sectional area of the overflow hole 14 far from the bottom wall of the filter cartridge 1.

In these embodiments, when there are a plurality of overflow holes 14, the size of the plurality of overflow holes 14 may or may not be all equal. Wherein preferably the cross-sectional area of the overflow aperture 14 of the filter cartridge 1 near the opening of the filter cartridge 1 is arranged to be larger and the cross-sectional area of the overflow aperture 14 of the filter cartridge 1 near the bottom wall is arranged to be smaller, such that the overflow aperture 14 of the filter cartridge 1 increases from the bottom wall to the opening. The overflow hole 14 near the opening of the filter cartridge 1 is large to enable the filter cartridge 1 to overflow more quickly, and the overflow hole 14 at the lower part is small to prevent the water at the lower part of the filter cartridge 1 from overflowing excessively.

It is further preferable that the cross-sectional area of the plurality of overflow holes 14 gradually increases from the side close to the bottom wall of the filter cartridge 1 to the side away from the bottom wall of the filter cartridge 1. This can gradually increase the overflow rate of the overflow holes 14, and thus can improve the overflow prevention effect of the filter cartridge 1.

In any of the above embodiments, preferably, the number of the overflow holes 14 is plural, and the cross-sectional area of the overflow hole 14 having the largest cross-sectional area among the plurality of overflow holes 14 is equal to or larger than pi mm²Less than or equal to 100 pi mm²Or the cross-sectional area of the overflow hole 14 with the largest cross-sectional area among the plurality of overflow holes 14 is greater than or equal to 4 pi mm²Less than or equal to 25 pi mm²。

In these embodiments, the overflow holes 14 are not too large nor too small, but the overflow hole 14 having the largest cross-sectional area among the plurality of overflow holes 14 preferably has a cross-sectional area of not less than π mm²Less than or equal to 100 pi mm²Therefore, the size of the largest overflow hole 14 can be moderate, so that the largest overflow hole 14 can be prevented from being too large, and the largest overflow hole 14 can be prevented from being too small to play a role in preventing overflow and the like. And further preferably, the cross-sectional area of the overflow hole 14 having the largest cross-sectional area is 4 π mm or more²Less than or equal to 25 pi mm²While the other overflow apertures 14 may be sized arbitrarily, but are each smaller than the overflow aperture 14 with the largest cross-sectional area.

In any of the above embodiments, preferably, as shown in fig. 1, the number of the overflow holes 14 is multiple, and the distance between the overflow hole 14 farthest from the bottom wall of the filter cartridge 1 and the bottom wall of the filter cartridge 1 in the multiple overflow holes 14 is h, as shown in fig. 3, the height of the inner wall of the filter cartridge 1 is L, wherein h/L is greater than or equal to 0.2 and less than or equal to 0.8, or h/L is greater than or equal to 0.33 and less than or equal to 0.67.

In these embodiments, the plurality of overflow holes 14 may be provided at any height of the side wall of the filter cartridge 1, but in order to ensure the function of the overflow holes 14, the overflow holes 14 cannot be set too high or too low, and therefore, the distance h between the overflow hole 14 farthest from the bottom wall of the filter cartridge 1 and the bottom wall of the filter cartridge 1 is not too small or too large, and specifically, the value of h may be set reasonably according to the overall height L of the inner wall of the filter cartridge 1, and preferably, the value of h/L is 0.2 or more and 0.8 or less, and more preferably, the value of h/L may be 0.33 or more and 0.67 or less.

Wherein, the distance between the overflow hole 14 and the bottom wall of the filter cartridge 1 is the distance between one side of the overflow hole 14 close to the bottom wall of the filter cartridge 1 and the bottom wall of the filter cartridge 1.

In any of the above embodiments, preferably, the bottom wall of the filter cartridge 1 is provided with a flow guide surface inclined toward the outside of the filter cartridge 1 from the direction close to the edge of the bottom wall of the filter cartridge 1 to the direction close to the middle of the bottom of the filter cartridge 1.

In these embodiments, a downward inclined flow guide surface may be provided on the bottom of the filter cartridge 1 from the edge of the bottom of the filter cartridge 1 to the middle of the bottom of the filter cartridge 1, so that water on the bottom wall of the filter cartridge 1 may be guided to the middle of the bottom wall of the filter cartridge 1 from the edge of the bottom wall of the filter cartridge 1 through the flow guide surface, and thus, when tea is poured, water at a position where water is poured in the filter cartridge 1 may be guided to a position where water is not poured, so that tea leaves and the like in the filter cartridge 1 may all be in contact with water, and thus, the uniformity of tea pouring may be further improved. Therefore, all tea leaves and the like can be fully soaked and extracted, so that the tea leaves and the like can be fully used, the utilization rate of the tea leaves and the like can be improved, the effects of tea showering and other operations are improved, and the taste of tea water and the like is improved.

In the above embodiment, preferably, the flow guide surface is an arc surface or an inclined plane, and/or the bottom wall of the filter cartridge 1 is recessed from the edge of the bottom wall of the filter cartridge 1 to the middle of the bottom wall of the filter cartridge 1 to the outside of the filter cartridge 1.

In this embodiment, the drainage surface may be curved or may be an inclined plane, so that the water at the edge of the bottom wall of the filter cartridge 1 is guided toward the middle of the bottom wall of the filter cartridge 1, thereby further ensuring the uniformity of the tea pouring operation. Preferably, the bottom wall of the filter cartridge 1 is recessed from the edge of the bottom wall of the filter cartridge 1 to the middle of the bottom wall of the filter cartridge 1 to the outer side of the filter cartridge 1, that is, the whole bottom of the filter cartridge 1 is recessed from the edge to the middle, so that the bottom wall of the whole filter cartridge 1 can be set as a flow guide surface, and thus, uniform tea pouring can be realized in all directions of the whole filter cartridge 1.

In any of the above embodiments, preferably, as shown in fig. 1 to 6, the bottom wall of the filter cartridge 1 is provided with a mounting hole 16, and the showering assembly further includes: a hollow column 2, a first end of the hollow column 2 is arranged in the mounting hole 16, and a second end of the hollow column 2 is positioned in the filter cartridge 1 or extends out of the filter cartridge 1 from an opening of the filter cartridge 1; the water dispersion head 3 is arranged at the second end of the hollow column 2, a first accommodating cavity 32 is arranged in the water dispersion head 3, a water dispersion hole 34 is formed in the inner wall of the first accommodating cavity 32, and water in the water dispersion head 3 can be sprinkled into the filter cartridge 1 through the water dispersion hole 34.

In the embodiments, the hollow column 2 can be used for installing the water dispersion head 3 on the filter cylinder 1, and the water dispersion head 3 can be arranged to enable the water dispersion head 3 to be communicated with the flow guide piece 4 of the container body 6 through the hollow column 2 when the filter cylinder 1 is used for pouring tea, so that water for operations such as tea pouring and the like can be dispersed through the water dispersion head 3 and then sprayed onto drink materials such as tea leaves, coffee powder and the like through the water dispersion holes 34, the water for operations such as tea pouring and the like can be sprayed out in a large area through the water dispersion head 3, so that water for operations such as tea pouring and the like can be prevented from being sprayed onto a certain local area, the water for operations such as tea pouring and the like can be uniformly sprayed onto the drink materials such as tea leaves, coffee powder and the like through the water dispersion head 3, all the tea leaves and the like can be fully soaked and extracted, the tea leaves and the like can be fully used, so that the utilization rate of the tea leaves and the like can be improved, the operation effects of tea pouring and the like can be improved, so as to improve the taste of the tea water and the like. Meanwhile, in the application, the water dispersion head 3 is installed at the installation hole 16 of the filter cartridge 1 through the hollow column 2, so that the installation of the water dispersion head 3 can be realized through the filter cartridge 1, and the water dispersion head 3 does not need to be installed on other parts such as the flow guide member 4, and the like, so that the water dispersion head 3 and the filter cartridge 1 can be installed into a whole, and the water dispersion head 3 and the filter cartridge 1 can be integrally assembled and disassembled.

In any of the above embodiments, preferably, as shown in fig. 1 to 6, the filter cartridge 1 is a circular filter cartridge, the diameter of the circular filter cartridge is D, and the distance between the water spray hole 34 of the plurality of water spray holes 34 farthest from the bottom wall of the filter cartridge 1 and the bottom wall of the filter cartridge 1 is H, wherein 0.13D is²≤H≤12.5D²Or 0.3D²≤H≤5D²Or the rated speed V when the water in the water spray head 3 flows out from the water spray holes 34₀Wherein, in the step (A),

in these embodiments, on one hand, the height of the highest water spray hole 34 can be reasonably defined by the diameter D of the filter cartridge 1, so that the rated speed of the water flow at the water spray hole 34 can be reasonably defined to ensure the tea pouring range and the tea pouring effect of the water spray head 3, and specifically, H can be set to be greater than or equal to 0.13D²Less than or equal to 12.5D²Further preferably, H may be set to 0.3D or more²Less than or equal to 5D². Meanwhile, on the other hand, the height of the water spray hole 34 at the highest position on the water spray head 3 can be reasonably set through the diameter D of the filter cartridge 1 and the rated speed of the water flow at the water spray hole 34, namely the optimal speed, so that the speed of the water flowing out of the water spray hole 34 can meet the expected requirement when the tea is showered. Wherein, the diameter D of the filter cartridge 1, the distance H between the highest water spray hole 34 and the bottom wall of the filter cartridge 1, and the rated speed V when the water in the water spray head 3 flows out from the water spray hole 34 are preferably set₀The following relation is satisfied:

wherein, the distance between the water spray holes 34 and the bottom wall of the filter cartridge 1 is the distance between the center of the water spray holes 34 and the inner bottom wall of the filter cartridge 1.

In any of the above embodiments, preferably, as shown in fig. 1 to 6, the bubble showering assembly further includes: one end of the flow guide part 4 extends into the container body 6 and is positioned outside the filter cartridge 1, the other end of the flow guide part 4 is communicated with the water dispersion head 3, and the flow guide part 4 can guide water in the container body 6 into the water dispersion head 3.

In the embodiments, by providing the flow guiding element 4, the liquid such as water in the container body 6 can be introduced into the water dispersing head 3 through the flow guiding element 4, and then the liquid is uniformly sprinkled on the beverage materials such as tea leaves and coffee powder in the filter cartridge 1 through the water dispersing head 3, so that the liquid such as water in the container body 6 can be directly sprinkled on the beverage materials such as tea leaves and coffee powder, and the operation of sprinkling tea can be realized.

In any of the above embodiments, preferably, as shown in fig. 1 to 6, the flow guide 4 includes: the supporting cover 42 is provided with a through hole, the supporting cover 42 can be buckled on the bottom wall of the container body 6, and a second accommodating cavity is formed by the supporting cover 42 and the bottom wall of the container body 6; and a connection pipe 44, one end of the connection pipe 44 being inserted into the through hole, and the other end of the connection pipe 44 being inserted into and mounted to and communicated with the hollow column.

In these embodiments, the flow guide 4 comprises a support cover 42 and a connection pipe 44, wherein the connection pipe 44 is communicated with the support cover 42 through the through hole, and the other end of the connection pipe 44 can be mounted on the hollow column to be communicated with the filter cartridge 1, so that the water on the support cover 42 side can be guided into the filter cartridge 1 through the connection pipe 44. The supporting cover 42 can be buckled on the bottom wall of the container body 6 to form a second accommodating cavity with the bottom wall of the container body 6, so that after the water in the container body 6 is heated and boiled, steam can be generated in the second accommodating cavity, so that after the steam is gradually increased and the pressure in the second accommodating cavity is gradually increased, the water in the second accommodating cavity can be pressed into the filter cartridge 1 through the connecting pipe 44, and then the tea leaves and the like in the filter cartridge 1 can be sprinkled, so that the tea sprinkling operation can be realized. When the structure is used for tea pouring and other operations, water can be pressed into the filter cartridge 1 from the container body 6 through the pressure generated by the water vapor in the container body 6, and a water pumping structure such as a water pump is not additionally arranged, so that the cost of the filter cartridge 1 can be simplified, and the power consumption of the product can be reduced.

Of course, the diversion member 4 may also be another structure capable of guiding the water in the container body 6 into the filter cartridge 1, for example, a water pumping device, such as a water pump and a water pumping pipe, may also be used as the diversion member 4, so as to pump the water in the container body 6 into the filter cartridge 1, so as to realize the tea-pouring operation.

In any of the above embodiments, preferably, as shown in fig. 1 to 6, after the other end of the connection pipe 44 is detachably inserted and mounted to the hollow column and the connection pipe 44 is detached from the hollow column, as shown in fig. 7, the support cap 42 is detachably fitted over the opening of the filter cartridge 1, and one end of the connection pipe 44 remote from the support cap 42 is detachably mounted to the container body 6.

In these embodiments, the other end of the connecting pipe 44 is detachably mounted to the hollow column, so that the filter cartridge 1 and the water dispersion head 3 can be detached from the connecting pipe 44, after the filter cartridge 1 is detached from the connecting pipe 44, the filter cartridge 1 and the support cover 42 can be mutually covered, and one end of the connecting pipe 44, which is far away from the support cover 42, can be detachably mounted to the container body 6, so that the filter cartridge 1, the support cover 42 and the connecting pipe 44 can assemble the pouring and brewing assembly into an operation form of making tea and the like and can be mounted on the container body 6, and thus the pouring and brewing assembly can be used for making tea and the like. In the arrangement, the filter cartridge 1 can be detachably mounted together with the support cover 42 to realize operations such as tea making and can be mounted at the other end of the connecting pipe 44, and can be assembled into operation forms such as tea pouring and the like with the support cover 42 and the connecting pipe 44 to realize operations such as tea pouring and the like, so that when a user specifically uses the shower assembly, the support cover 42, the connecting pipe 44 and the filter cartridge 1 can be assembled in different modes according to actual needs to combine the operation forms such as tea pouring and the like or combine the operation forms such as tea making and the like, so that the operations such as tea pouring and the like and the operations such as tea making and the like can be realized through the same shower assembly, the functions of the product can be enlarged, the practicability of the product is improved, the requirements of the user in multiple aspects can be better met, and the user experience is improved.

In any of the above embodiments, preferably, the liquid heating vessel further comprises a heating means provided on the bottom wall of the vessel body 6; when the supporting cover 42 is buckled on the bottom wall of the container body 6, the supporting cover 42 is covered on the heating device; wherein the heating power of the heating device is more than or equal to 150W and less than or equal to 1000W, or the heating power of the heating device is more than or equal to 300W and less than or equal to 600W.

In these embodiments, the heating device is used to heat the water within the container body 6. So that the container body 6 has a heating function. Wherein, preferably, the heating device can be directly arranged in the supporting cover 42 for heating, thus improving the heating efficiency of the water in the supporting cover 42, ensuring that the showering and brewing assembly can generate enough steam and hot water, thus improving the speed and effect of the operation of showering tea and the like and improving the taste of the tea and the like. The heating power of the heating device is set between 150W and 1000W, and further the heating power of the heating device can be reasonably limited between 300W and 600W, so that the amount of steam in the supporting cover 42 can be reasonably limited, the speed of water during tea pouring can be ensured, the water in the supporting cover 42 can be prevented from being boiled excessively, and the water flowing out of the water spray holes 34 can be ensured to have certain speed, so that the tea pouring effect can be ensured.

In any of the above embodiments, preferably, when the end of the connection pipe 44 remote from the support cover 42 is detachably attached to the container body 6, the connection pipe 44 can move up and down in the height direction of the container body 6.

In these embodiments, the end of the connection pipe 44 away from the support cover 42 is detachably mounted on the container body 6 and can move up and down along the height direction of the container body 6, so that when a user uses the pouring and brewing assembly to brew tea, the connection pipe 44 can be lifted upwards to lift the filter cartridge 1 towards the opening of the container body 6, so that the filter cartridge 1 can be lifted upwards above the tea water surface after brewing tea, and beverage materials such as tea leaves and coffee powder are further soaked in water, so that the user can select the soaking time of the beverage materials such as tea leaves and coffee powder according to actual needs, and the situation that the tea water is too thick due to the overlong soaking time of the beverage materials such as tea leaves and coffee powder is prevented. In the next operation of making tea, the filter cartridge 1 can be continuously immersed in water by lowering the connection pipe 44, so that the operation of making tea can be continuously performed.

In any of the above embodiments, preferably, the connecting pipe 44 is provided with an external thread at one end capable of being inserted and installed in the hollow column, an internal thread is provided in the hollow column, and the connecting pipe 44 and the hollow column are connected through the matching thread of the external thread and the internal thread.

In these embodiments, an external thread may be provided at an end of the connection pipe 44 to be inserted into the hollow column, and an internal thread may be provided in the hollow column, so that the connection pipe 44 may be fixed in the hollow column by a threaded connection after the connection pipe 44 is inserted into the hollow column. The threaded connection is reliable in connection and simple in structure, so that the structure of the product is simplified and the cost of the product is reduced while the stable installation of the connecting pipe 44 and the hollow column is ensured.

In any of the above embodiments, preferably, as shown in fig. 1, 4 and 5, the showering assembly further includes: and a fixing member 5, one end of the fixing member 5 being disposed on the filter cartridge 1, and the other end of the fixing member 5 being detachably mounted on the connection pipe 44 when the filter cartridge 1 is detachably mounted on one end of the connection pipe 44 remote from the support cover 42.

In these embodiments, a fixing member 5 may be provided on the filter cartridge 1 so that the connection pipe 44 can be fixed by the fixing member 5 when the filter cartridge 1 is detachably mounted on the other end of the connection pipe 44, and specifically, for example, an elastic buckle may be provided on the filter cartridge 1, and then the detachable mounting between the connection pipe 44 and the filter cartridge 1 may be achieved by the elastic buckle. Meanwhile, an external thread may be provided on the connection pipe 44, and an internal thread may be provided on the filter cartridge 1, etc., so that the connection pipe 44 and the filter cartridge 1 may be detachably engaged by screwing the internal and external threads, and thus the connection pipe 44 may be doubly fixed to ensure the installation reliability between the connection pipe 44 and the filter cartridge 1.

In any of the above embodiments, preferably, as shown in fig. 1 to 7, at least one water inlet and outlet hole 12 is provided on the side wall of the filter cartridge 1.

In these embodiments, it is preferable to provide the water inlet/outlet holes 12 on the side wall of the filter cartridge 1, so that the exchange of water between the filter cartridge 1 and the container body 6 can be realized through the water inlet/outlet holes 12 on the side wall of the filter cartridge 1. In this case, the bottom wall of the filter cartridge 1 may be provided with the water inlet/outlet holes 12 or may not be provided with the water inlet/outlet holes 12.

In any of the above embodiments, the diffuser head 3 is preferably in the shape of an umbrella or shower or mushroom or cone.

In these embodiments, the water dispersion head 3 is preferably in the shape of an umbrella, a shower, a mushroom, or a cone, because the shape of an umbrella, a shower, a mushroom, or a cone is common, and thus, the water dispersion head can be easily manufactured and purchased, thereby reducing the cost. Of course, the water dispersion head 3 may have any other shape, which is not listed here.

In any of the above embodiments, preferably, the water dispersion head 3 is detachably mounted on the hollow column 2, or the water dispersion head 3 and the hollow column 2 are of an integral structure.

In the embodiments, the hollow column and the water dispersion head 3 are preferably of an integrated structure, because the integrated structure has good mechanical properties, the connection strength between the hollow column and the water dispersion head 3 can be ensured, and in addition, the hollow column and the water dispersion head 3 can be integrally manufactured for mass production, so that the production efficiency of products is improved, and the production and processing cost of the products is reduced. Of course, the hollow column and the filter cylinder 1 and the hollow column and the water dispersion head 3 can be of a split structure, namely a detachable structure, so that the filter cylinder 1, the hollow column and the water dispersion head 3 can be detached to be separately stored and stored when the shower assembly is not used, the storage and storage convenience is improved, meanwhile, the hollow column and the filter cylinder 1 and the hollow column and the water dispersion head 3 can be detachably connected, and the hollow column, the water dispersion head 3 and the filter cylinder 1 can be independently replaced after the hollow column, the water dispersion head 3 and the filter cylinder 1 are stained, so that the maintenance convenience of products is improved. In addition, the hollow column and the filter cartridge 1 and the hollow column and the water dispersion head 3 are detachably structured, and when the filter cartridge 1 is not used for operations such as tea pouring, the hollow column and the water dispersion head 3 can be detached to enable the filter cartridge 1 to achieve other functions, so that the utilization rate of the filter cartridge 1 can be improved, and specifically, for example, when the filter cartridge 1 is used for operations such as tea making, the hollow column and the water dispersion head 3 can be detached to increase the accommodating space of the filter cartridge 1.

In any of the above embodiments, preferably, one end of the hollow post 2 is detachably mounted in the mounting hole 16.

In these embodiments, the filter cartridge 1, the hollow column and the water dispersion head 3 can be detached to be separately stored and stored when the shower assembly is not used, so that the storage and storage convenience is improved, and meanwhile, the hollow column and the filter cartridge 1 can be detachably connected, and the hollow column and the water dispersion head 3 can be independently replaced after the hollow column, the water dispersion head 3 and the filter cartridge 1 are stained, so that the maintenance convenience of the product is improved. In addition, the hollow column and the filter cartridge 1 are detachably structured, and the hollow column and the water dispersion head 3 can be detached when the filter cartridge 1 is not used for operations such as tea pouring, so that the filter cartridge 1 can achieve other functions, and thus, the utilization rate of the filter cartridge 1 can be improved, and specifically, for example, when the filter cartridge 1 is used for operations such as tea making, the hollow column and the water dispersion head 3 can be detached to increase the accommodating space of the filter cartridge 1. Of course, in other solutions, the hollow column 2 and the bottom wall of the filter cartridge 1 can also be of one-piece construction.

In any of the above embodiments, the support cover 42 and/or the filter cartridge 1 are preferably provided with transparent zones.

In these embodiments, by providing the transparent region on the support cover 42 and/or the filter cartridge 1, the inside of the support cover 42 and/or the filter cartridge 1 can be clearly seen through the transparent region, specifically, for example, by providing the transparent region on the support cover 42, the process of the operation such as pouring tea can be seen, and by providing the transparent region on the filter cartridge 1, the condition of soaking and extracting the beverage materials such as tea leaves and coffee powder in the filter cartridge 1 can be seen, and the process of the operation such as pouring tea and making tea can be seen when the operation such as pouring tea or making tea is performed.

In any of the above embodiments, preferably, the support cover 42 is of a fully transparent or partially transparent construction, and/or the filter cartridge 1 is of a fully transparent or partially transparent construction.

In these embodiments, the support cover 42 and/or the filter cartridge 1 may be entirely transparent or the support cover 42 and/or the filter cartridge 1 may be partially transparent, and the transparency of the support cover 42 and/or the connection pipe 44 and/or the filter cartridge 1 may be selected according to actual circumstances, in principle to see the inside of the support cover 42 and/or the filter cartridge 1.

As shown in fig. 8, an embodiment of the second aspect of the present invention provides a liquid heating vessel comprising: a container body 6, wherein a container opening is arranged on the container body 6; a container cover 7, wherein the container cover 7 can be covered on the container opening of the container body 6; and the bubble pouring assembly provided by any embodiment of the first aspect, wherein the filter cartridge 1 of the bubble pouring assembly can be installed in the container body 6 through the container opening.

According to the liquid heating container provided by the embodiment of the present invention, the container body 6, the container cover 7 and the bubbling assembly provided by any one of the embodiments of the first aspect are provided, and therefore, the liquid heating container provided by the embodiment of the present invention has all the beneficial effects of the bubbling assembly provided by any one of the embodiments of the first aspect, which are not listed here.

In any of the above embodiments, preferably, the liquid heating vessel further comprises a heating device disposed within the vessel body 6 or disposed outside the vessel body 6.

In these embodiments, heating means are provided to heat the water in the container body 6. Preferably, the heating device and the power supply device are directly arranged on the container body 6, so that the liquid heating container can be arranged into a liquid heating cup or a structure similar to the liquid heating cup. In this case, the heating device may be installed inside the container body 6 or may be installed outside the container body 6.

In the above-mentioned another embodiment, preferably, as shown in fig. 8, the liquid heating vessel further comprises a base 8, the vessel body 6 can be mounted on the base 8, and the heating means is provided on the vessel body 6 or in the base 8.

In these embodiments, a base 8 may be further disposed at the bottom of the container body 6, and the base 8 can provide a platform for placing the container body 6, and on the other hand, the base 8 can provide power for the heating device, or the base 8 can control the specific operation of the container body 6, such as controlling the heating power, the heating time, and the like. And the heating device is used for heating the container body 6, wherein, in particular, the heating device can be installed in the base 8 or on the container body 6, and the position of the heating device can be set according to the actual situation. In this configuration, the liquid heating vessel includes the vessel body 6, the vessel lid 7 and the base 8, so that the liquid heating vessel can be provided as a teapot or teapot-like structure.

In the above embodiment, preferably, the heating means is provided on the inner bottom wall of the container body 6; wherein, when the bubble sprinkling assembly comprises the supporting cover 42, the supporting cover 42 can cover the heating device.

In these embodiments, it is preferable that the heating device is disposed on the inner bottom wall of the container body 6, and the supporting cover 42 is covered on the heating device, so that the heating device is directly disposed in the supporting cover 42 for heating, thereby improving the heating efficiency of the water in the supporting cover 42, ensuring that the liquid heating container can generate enough steam and hot water, improving the tea pouring speed, ensuring the effects of tea pouring and the like, and improving the taste of the tea water.

In any of the above embodiments, preferably, the heating power of the heating device is 150W or more and 1000W or less, or the heating power of the heating device is 300W or more and 600W or less.

In these embodiments, the heating device can be preferably directly disposed in the container body 6 for heating, so as to improve the heating efficiency of the product, thereby improving the speed and effect of the tea pouring operation and the like, and improving the taste of the tea water and the like. The heating power of the heating device is set between 150W (W is a power unit and represents watt) and 1000W, and further between 300W and 600W, so that the heating power of the heating device can be reasonably limited, the amount of steam in the supporting cover 42 can be reasonably limited, and the speed of water during tea pouring can be ensured, so that the excessive boiling of the water in the supporting cover 42 can be prevented, and the water flowing out from the water spray holes 34 can be ensured to have a certain speed, and the operation effects of tea pouring and the like can be ensured.

In any of the above embodiments, preferably, as shown in fig. 8, the container body 6 is provided with a handle 62. Wherein, the handle 62 can make the container body 6 move more conveniently, thereby being more beneficial to the operations of pouring tea, cleaning and the like.

In any of the above embodiments, preferably, the container mouth is provided on the side wall of the container body 6. By providing the container mouth on the side wall of the container body 6, the tea or the like in the container body 6 can be poured out through the container mouth, so that the tea or the like can be poured out without opening the container cover 7 and taking out the pouring and brewing assembly or the like, thereby enabling the tea or the like to be poured out more conveniently.

In any of the above embodiments, the container body 6 is preferably further provided with a cover body, and the cover body can open or close the container mouth.

In these embodiments, a cover body can be disposed at the mouth of the container body 6, so that the mouth of the container can be opened and closed through the cover body, and the mouth of the container can be prevented from being opened for a long time, so that the mouth of the container can be closed during operations of making tea and the like to lock heat, tea aroma and the like in the container body 6, and thus, the heat can be prevented from leaking, the heating efficiency of the product can be improved, and the tea making effect can be ensured.

Wherein, specifically, the base 8 is provided with an operation panel, a control panel, a housing, a power supply and other structures.

Wherein the liquid heating vessel is preferably a heating cup, a teapot or a coffee pot, although the liquid heating vessel may also be other products than a heating cup, a teapot and a coffee pot.

In the description of the present specification, the terms "connect", "mount", "fix", and the like are to be understood in a broad sense, for example, "connect" may be a fixed connection, a detachable connection, or an integral connection; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In the description herein, the description of the terms "one embodiment," "some embodiments," "specific embodiments," 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 invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes will occur to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (11)

1. A trickle bubble assembly for a liquid heating vessel, the liquid heating vessel including a vessel body, the trickle bubble assembly comprising:

the filter cartridge can be installed in the container body, at least one water inlet and outlet hole is formed in the bottom wall and/or the side wall of the filter cartridge, and the cross section area S of the water inlet and outlet hole is larger than or equal to 0.2mm²Less than or equal to 7.1mm²The bottom wall of the filter cylinder is provided with a mounting hole, the side wall of the filter cylinder is also provided with at least one overflow hole, and the cross sectional area of the overflow hole is larger than that of the water inlet and outlet hole;

a hollow post having a first end mounted within the mounting aperture and a second end located within the filter cartridge or extending out of the filter cartridge from an opening of the filter cartridge;

a diffuser head mounted on the second end of the hollow column;

one end of the flow guide piece extends into the container body and is positioned outside the filter cylinder, the other end of the flow guide piece is communicated with the water dispersion head, and the flow guide piece can guide water in the container body into the water dispersion head;

the guide member includes:

the supporting cover is provided with a through hole and can be buckled on the bottom wall of the container body, and a second accommodating cavity is formed between the supporting cover and the bottom wall of the container body;

one end of the connecting pipe is inserted into the through hole, and the other end of the connecting pipe is detachably inserted into the hollow column and is communicated with the hollow column;

after the connecting pipe is detached from the hollow column, the supporting cover can be detachably covered on the opening of the filter cartridge, and one end of the connecting pipe, which is far away from the supporting cover, can be detachably installed on the container body; when one end of the connecting pipe, which is far away from the supporting cover, is detachably mounted to the container body, the connecting pipe can move up and down along the height direction of the container body.

2. The showering assembly of claim 1,

the number of the overflow holes is multiple, and/or the overflow holes are circular holes, polygonal holes or elliptical holes; and/or

The overflow holes are equal in size, or the cross-sectional area of the overflow hole close to the bottom wall of the filter cartridge is smaller than that of the overflow hole far away from the bottom wall of the filter cartridge.

3. The showering assembly of claim 1,

the number of the overflow holes is multiple, and the cross-sectional area of the overflow hole with the largest cross-sectional area in the overflow holes is larger than or equal to pi mm²Less than or equal to 100 pi mm²Or the cross-sectional area of the overflow hole with the largest cross-sectional area among the plurality of overflow holes is more than or equal to 4 pi mm²Less than or equal to 25 pi mm²(ii) a And/or

The number of the overflow holes is multiple, the distance between the overflow hole which is farthest away from the bottom wall of the filter cylinder and the bottom wall of the filter cylinder in the overflow holes is h, the height of the inner wall of the filter cylinder is L, wherein h/L is more than or equal to 0.2 and less than or equal to 0.8, or h/L is more than or equal to 0.33 and less than or equal to 0.67.

4. The showering assembly of claim 1,

and a flow guide surface which is obliquely arranged towards the outer side of the filter cylinder is arranged on the bottom wall of the filter cylinder from the direction close to the edge of the bottom wall of the filter cylinder to the direction close to the middle part of the bottom of the filter cylinder.

5. The showering assembly of claim 4,

the flow guide surface is an arc-shaped surface or an inclined plane, and/or the bottom wall of the filter cartridge is recessed from the edge of the bottom wall of the filter cartridge to the middle of the bottom wall of the filter cartridge to the outer side of the filter cartridge.

6. The shower assembly according to any one of claims 1 to 5,

the water distributor is characterized in that a first accommodating cavity is formed in the water dispersion head, a water dispersion hole is formed in the inner wall of the first accommodating cavity, and water in the water dispersion head can be sprayed into the filter cylinder through the water dispersion hole.

7. The showering assembly of claim 6,

the filter cylinder is a circular filter cylinder, the diameter of the circular filter cylinder is D, the distance between the water spray hole farthest from the bottom wall of the filter cylinder and the bottom wall of the filter cylinder is H, and 0.13D²≤H≤12.5D²Or 0.3D²≤H≤5D²Or the rated speed of the water in the water spray head flowing out of the water spray holes is V₀Wherein, in the step (A),

8. the showering assembly of claim 1,

the liquid heating container also comprises a heating device which is arranged on the bottom wall of the container body; when the supporting cover is buckled on the bottom wall of the container body, the supporting cover is arranged on the heating device; wherein the heating power of the heating device is more than or equal to 150W and less than or equal to 1000W, or the heating power of the heating device is more than or equal to 300W and less than or equal to 600W.

9. The showering assembly of claim 1,

at least one water inlet and outlet hole is formed in the side wall of the filter cartridge; and/or

The water dispersion head is in an umbrella shape, a shower head shape, a mushroom shape or a round table shape; and/or

The water dispersion head can be detachably arranged on the hollow column, or the water dispersion head and the hollow column are in an integrated structure; and/or

One end of the hollow column is detachably mounted in the mounting hole.

10. A liquid heating vessel, comprising:

the container comprises a container body, wherein a container opening is formed in the container body;

a container lid which can be attached to a container opening of the container body; and

the trickle assembly as claimed in any one of claims 1 to 9, a filter cartridge of the trickle assembly being mountable within the container body through the container mouth.

11. A liquid heating vessel as claimed in claim 10,

the liquid heating container further comprises a heating device arranged in the container body or arranged outside the container body; or

The liquid heating container also comprises a base and a heating device, wherein the container body can be arranged on the base, and the heating device is arranged on the container body or in the base.

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