阅读说明：本技术 保温集水盒及带有该集水盒的饮水机 (Heat preservation water collection box and have water dispenser of this water collection box ) 是由 倪祖根 于 2020-06-09 设计创作，主要内容包括：本发明提供了一种集水盒,包括：底座,包括底板和设在底板周侧的多个侧壁,底板上形成有安装槽,安装槽内形成安装空间,底座的侧壁与安装槽的槽壁之间形成集水空间,安装空间与集水空间通过安装槽的槽壁隔开,安装槽的槽壁上设有连接通道,连接通道贯穿底座的侧壁延伸出底座外；保温组件,安装在安装槽内并将安装空间密封,保温组件具有保温台；顶盖,盖设在底座上,顶盖上开设用于裸露保温台的通槽,顶盖上还开设与集水空间连通的集水槽；连接器,连接器有部分进入安装槽内与保温组件电连接。保温台与安装槽之间密封,使集水盒内的集水空间和安装空间隔开,防止水进入安装槽内,集水盒同时具有保温和集水的功能,且水不会干扰保温组件。(The present invention provides a water collecting box, comprising: the base comprises a bottom plate and a plurality of side walls arranged on the periphery of the bottom plate, a mounting groove is formed in the bottom plate, a mounting space is formed in the mounting groove, a water collecting space is formed between the side wall of the base and the wall of the mounting groove, the mounting space and the water collecting space are separated through the wall of the mounting groove, a connecting channel is arranged on the wall of the mounting groove, and the connecting channel penetrates through the side wall of the base and extends out of the base; the heat insulation component is arranged in the mounting groove and seals the mounting space, and the heat insulation component is provided with a heat insulation platform; the top cover is covered on the base, a through groove used for exposing the heat preservation platform is formed in the top cover, and a water collecting groove communicated with the water collecting space is formed in the top cover; and part of the connector enters the mounting groove and is electrically connected with the heat insulation component. It is sealed between heat preservation platform and the mounting groove, make the water-collecting space in the water-collecting box separate with the installation space, prevent that water from getting into in the mounting groove, the water-collecting box has heat preservation and the function of catchmenting simultaneously, and water can not disturb the heat preservation subassembly.)

1. An insulation water collection box, characterized by comprising:

the water collecting device comprises a base (1), wherein a mounting groove (4) is formed in the base (1), and the space in the base (1) is divided into a mounting space (42) and a water collecting space (15) by a side wall (12) of the mounting groove (4);

the heat insulation assembly (3) is arranged in the installation space (42) and seals the installation space (42), and the heat insulation assembly (3) is provided with a heat insulation table (31);

the top cover (2) is covered on the base (1), and a through groove (22) for exposing the heat preservation table (31) is formed in the top cover (2);

and the connecting channel (5) is arranged on the base (1), and a connector (6) electrically connected with the heat insulation assembly (3) is arranged in the connecting channel (5).

2. An insulating and water collecting box according to claim 1, characterized in that the insulating assembly (3) comprises: the heating piece (32) is positioned in the installation space (42) and is in thermal contact with the heat preservation table (31), and the heating piece (32) is electrically connected with the connector (6).

3. The heat-preservation and water-collection box according to claim 1, characterized in that a sealing element (33) is arranged between the heat-preservation platform (31) and the wall (41) of the installation groove (4), an embedded groove (331) is formed on one side of the sealing element (33) facing the wall (41) of the installation groove (4), and the wall (41) of the installation groove (4) is embedded into the embedded groove (331).

4. The heat-preservation and water-collection box according to claim 1, wherein a plurality of fixing positions (311) are formed on the bottom of the heat-preservation platform (31), a plurality of fixing holes (17) for fixing components to enter are formed on the bottom of the mounting groove (4), each fixing hole (17) corresponds to each fixing position (311) in a one-to-one mode, and the fixing components comprise: mounting (18) and cover are established thermal-insulated sleeve (19) on mounting (18), mounting (18) are connected during fixed orifices (17), thermal-insulated sleeve (19) will fixed position (311) with the tank bottom of mounting groove (4) separates, and will mounting (18) with fixed orifices (17) separate.

5. An insulating and water collecting box according to claim 1, characterized in that the connection channel (5) comprises: connect linkage segment (52) of mounting groove (4) cell wall (41) run through lateral wall (12) of base (1) and extend grafting section (51) of base (1), connector (6) include: connector (61) and bayonet joint (62), connector (61) certainly grafting section (51) insert in linkage segment (52) and enter in mounting groove (4), bayonet joint (62) are located in grafting section (51).

6. The heat-preservation and water-collection box according to claim 5, characterized in that the cross-sectional area of the insertion section (51) is larger than that of the connection section (52), the insertion section (51) is connected with the connection section (52) through a step surface (53), and a sealing ring (54) is arranged between the step surface (53) and the insertion joint (61).

7. An insulation and water collection box according to claim 5, characterized in that the inner wall of the plug section (51) is provided with a guide slope (55) which is obliquely arranged, and the outer wall of the plug connector (61) is matched with the guide slope (55).

8. An insulating and water collecting box according to claim 1, characterized in that there is a gap between the through slot (22) and the insulating platform (31).

9. The heat-preservation and water-collection box according to claim 1, characterized in that the groove wall (41) of the installation groove (4) is annularly arranged, a side wall (12) of the base (1) close to the groove wall (41) of the installation groove (4) is bent to form an arc-shaped rib position (14), and the connecting channel (5) penetrates through the arc-shaped rib position (14) and is communicated with the installation groove (4).

10. The utility model provides a water dispenser with heat preservation collection water box which characterized in that includes: a water dispenser main body and the heat preservation and water collection box of any one of claims 1 to 9, wherein the heat preservation and water collection box is detachably connected with the water dispenser main body through the connecting channel (5).

Technical Field

The invention relates to the field of water dispensers, in particular to a heat-preservation water collecting box and a water dispenser with the same.

Background

One important function of the water dispenser is heat preservation of a teacup, most of water dispensers in the market at present have a heat preservation function, a heat preservation module needs to be designed in a waterproof mode, but the heat preservation module in the prior art is general in waterproof effect and still has the risk of water leakage and electric shock, water can flow onto a table along the heat preservation module, the teacup can be placed on the water dispenser to preserve heat, and drinking is inconvenient.

Disclosure of Invention

Therefore, the heat preservation water collecting box is needed to solve the problems, the heat preservation water collecting box not only can preserve heat of the tea cup, but also can collect water overflowing from the tea cup, and the water is prevented from entering the heat preservation module.

An insulation water collection box comprising:

the water collecting device comprises a base, a water collecting device and a water collecting device, wherein a mounting groove is formed in the base, and the space in the base is divided into a mounting space and a water collecting space by the side wall of the mounting groove;

the heat insulation assembly is arranged in the installation space and seals the installation space, and the heat insulation assembly is provided with a heat insulation table;

the top cover is covered on the base, and a through groove for exposing the heat preservation table is formed in the top cover;

and the connecting channel is arranged on the base, and a connector electrically connected with the heat insulation assembly is arranged in the connecting channel.

According to the heat-insulation water collecting box, a user can place a teacup in the through groove and place the teacup on the heat-insulation table, overflowed water is received through the water collecting groove, the heat-insulation table is sealed with the mounting groove, so that a water collecting space in the water collecting box is separated from the mounting space, water is prevented from entering the mounting groove, the water collecting box has the functions of heat insulation and water collection, and water cannot interfere with the heat-insulation assembly; meanwhile, the water collecting box is connected to the water dispenser in an inserting mode, the water collecting box is very convenient to move, a user can directly connect the water collecting box with an external power supply, the water collecting box is changed into a movable heat preservation table, water leakage is accepted, the water collecting box and the tea cup can be moved after water taking is completed, drinking is carried out at any place, operation on the water dispenser is not needed, the water collecting box is very convenient, and use experience of the user is greatly improved.

In one embodiment, the heat retention assembly comprises: the heating piece is positioned in the installation space and is in thermal contact with the heat preservation table, and the heating piece is electrically connected with the connector.

In one embodiment, a sealing element is arranged between the heat preservation platform and the wall of the mounting groove, an embedded groove is formed in one side, facing the wall of the mounting groove, of the sealing element, and the wall of the mounting groove is embedded into the embedded groove. The sealing member seals between the groove wall of the heat preservation platform and the mounting groove, and prevents water from entering the mounting groove. The sealing element is a U-shaped sealing ring, the upper end of the U-shaped sealing ring is fixed at the bottom of the heat preservation table, the fixing mode can be bonding or other modes, and the embodiment is not particularly limited. The embedded groove is set up to the bottom of U type sealing washer, one side towards the cell wall of mounting groove promptly, and the embedded groove is the ring channel, and the width of embedded groove can equal the cell wall width of mounting groove, and in the embedded groove of the cell wall embedding U type sealing washer of mounting groove, sealed the mounting groove. In some embodiments, the width of the embedded groove can be slightly smaller than the groove wall width of the installation groove, and the U-shaped sealing ring is a flexible sealing ring, so that the embedded groove can tightly wrap the groove wall of the installation groove, and the sealing performance is better.

In one embodiment, a plurality of fixing positions are formed on the bottom of the heat-insulating table, a plurality of fixing holes for fixing components to enter are formed on the bottom of the mounting groove, each fixing hole corresponds to each fixing position one to one, the fixing components penetrate through the fixing holes and are connected to the fixing positions, and the fixing components include: mounting and cover are established thermal-insulated sleeve on the mounting, the mounting is connected during the fixed orifices, thermal-insulated sleeve will fixed position with the tank bottom of mounting groove separates, and will the mounting with the fixed orifices separates.

Because the heat preservation platform generates heat during operation, the double-screw bolt and the mounting generally adopt metal product, and the heat conductivity is better, and the water-collecting box material is lighter, generally adopts plastics to support, and at the heat preservation platform during operation, the temperature rise of mounting probably leads to the fixed orifices department of water-collecting box to warp. In this embodiment, be equipped with thermal-insulated sleeve in the fixed orifices, thermal-insulated sleeve parcel mounting blocks the heat of mounting, avoids the base to warp because of the high temperature.

In one embodiment, the bottom plate is recessed into the mounting groove to form a recessed groove, the bottom of the recessed groove is provided with the fixing hole, the fixing position is a stud arranged at the bottom of the heat preservation table, the fixing member penetrates through the fixing hole to be matched and connected with the stud, the heat insulation sleeve penetrates through the fixing hole, and the top of the heat insulation sleeve is provided with a limiting groove for the stud to be embedded into. When the heat preservation table is installed, firstly, all the studs of the heat preservation table are aligned with all the limiting grooves and embedded into the limiting grooves, and then, the heat preservation table is fixedly installed through the fixing piece. The limiting groove facilitates positioning of the heat preservation table, meanwhile, the position of the heat preservation table is further limited after installation is completed, and the heat insulation sleeve is abutted to the bottom plate through the stud of the heat preservation table without further fixation.

In one embodiment, the connection channel includes: connect the linkage segment of mounting groove cell wall, run through the lateral wall of base extends the grafting section of base, the connector includes: the connector is inserted into the connecting section and enters the mounting groove, and the plug connector is located in the plug section.

In one embodiment, the cross-sectional area of the insertion section is larger than that of the connection section, the insertion section is connected with the connection section through a step surface, and a sealing ring is arranged between the step surface and the insertion joint. The connecting section and the inserting section are both square, so that the problem that the connector rotates in the connecting channel to cause inserting difficulty is avoided. The cross-sectional area of the insertion section is larger than that of the connecting section, the insertion end is connected with the connecting end through a step surface, and the cross-sectional area of the insertion joint is larger than that of the connector. When the connector is inserted into the connecting channel, the step surface plays a limiting role, when one end of the plug connector is abutted against the step surface, the connector completely enters the connecting section and is exposed in the mounting groove, and the connector is positioned at the inserted limit position of the connector. The sealing ring seals the connecting channel communicated with the mounting groove, so that the mounting space is completely sealed, and the heat insulation module is protected.

In one embodiment, the inner wall of the plug section has an obliquely arranged guide bevel, and the outer wall of the plug head is matched with the guide bevel. The guiding inclined plane positions the plug connector to a proper position in the plug section, so that the pre-positioning of the connector is realized, and the subsequent fixed installation of the connector is facilitated.

In one embodiment, a gap exists between the through slot and the heat-insulating table. The lower heat preservation table can enable the tea cup to be embedded into the through groove, so that the tea cup can be fixed conveniently; meanwhile, water overflowing from the tea cup is easy to leave along the cup wall and can directly enter the base through the gap between the through groove and the heat preservation platform, and the water remaining on the top cover is avoided. Because it is sealed between heat preservation platform and the mounting groove, water can directly get into in the space that catchments, can not flow into in the mounting groove.

In one embodiment, a side wall of the base, which is close to the wall of the mounting groove, is bent to form an arc-shaped rib position, and the connecting channel penetrates through the arc-shaped rib position. Arc muscle position provides for the mounting groove and sets up the space, if set up the base into the cuboid that can hold the mounting groove, then the space that occupies is too big, is unfavorable for the dismouting removal of water-collecting box.

The invention also discloses a water dispenser with the water collecting box, which comprises a water dispenser main body and the heat-preservation water collecting box, wherein the heat-preservation water collecting box is detachably connected with the water dispenser main body through the connecting channel.

Drawings

FIG. 1 is a schematic view of a water collection box according to an embodiment;

FIG. 2 is an exploded view of the water collection box in one embodiment;

FIG. 3 is a schematic diagram of an embodiment of an insulation assembly;

FIG. 4 is a schematic view of an internal structure of the water collecting box according to an embodiment;

FIG. 5 is a cross-sectional view taken at A-A of FIG. 1;

FIG. 6 is a cross-sectional view taken at B-B of FIG. 4;

FIG. 7 is a cross-sectional view taken at C-C of FIG. 1;

fig. 8 is an exploded view of a water dispenser in an embodiment.

Wherein: 1. a base; 11. a base plate; 12. a side wall; 13. reinforcing ribs; 14. an arc rib position; 15. a water collection space; 16. a recessed groove; 17. a fixing hole; 18. a fixing member; 19. a heat insulating sleeve; 191. a limiting groove; 2. a top cover; 21. a water collection tank; 22. a through groove; 3. a heat preservation assembly; 31. a heat preservation table; 311. fixing the position; 32. a heat generating member; 321. a contact; 33. a seal member; 331. a groove is embedded; 4. mounting grooves; 41. a trench wall; 42. an installation space; 5. a connecting channel; 51. a plug section; 52. a connecting section; 53. a step surface; 54. a seal ring; 55. a guide ramp; 6. a connector; 61. a connector; 62. a plug-in connector; 7. a boss portion; 8. a plug-in unit; 9. a water dispenser main body; 91. an arc-shaped recess; 92. a connection bit; 93. and (6) inserting the plug-in position.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail below with reference to the accompanying drawings and the detailed description. It should be understood that the detailed description and specific examples, while indicating the scope of the invention, are intended for purposes of illustration only and are not intended to limit the scope of the invention.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

The first embodiment of the present invention relates to a water collecting box, which can be applied to a tea making machine, a water dispenser, a coffee machine, or other machines. The water collecting box has the heat preservation effect, places the drinking cup on the heat preservation chassis of water collecting box, and the heat preservation chassis has the function of generating heat, can keep warm to the water in the drinking cup, still sets up water catch bowl 21 on the water collecting box, and the water in the drinking cup or the water that spills over can pass through water catch bowl 21 and get into in the water collecting box, prevent that water from falling on ground or the desktop.

As shown in fig. 1 and 2, the water collecting box in the present embodiment includes: the base 1, cover 2, the heat preservation subassembly 3 of establishing in base 1 that the lid was established on base 1. Wherein base 1 detachably connects on the water dispenser, and base 1 includes bottom plate 11 and establishes a plurality of lateral walls 12 on 11 week sides of bottom plate, and base 1's whole shape can be for cuboid or other shapes, is equipped with four lateral walls 12 on base 1 at least, and each lateral wall 12 encloses bottom plate 11 and closes, and when top cap 2 was installed on base 1, top cap 2 and each lateral wall 12 laminating are sealed base 1. Wherein be equipped with a plurality of strengthening ribs 13 on base 1's lateral wall 12 to promote the holding power to top cap 2, top cap 2 is taken on strengthening rib 13, and the setting of strengthening rib 13 avoids base 1's lateral wall 12 to warp, and the condition that top cap 2 got into in the base 1 takes place. Referring to fig. 1 and 3, the heat-insulating assembly 3 includes a heat-insulating table 31 and a heating element 32 disposed below the heat-insulating table 31, a through slot 22 is disposed on the top cover 2, the heat-insulating table 31 is exposed by the through slot 22, a user can directly place a cup on the heat-insulating table 31, and the heating element 32 is used for heating and thermally contacting with the heat-insulating table 31, so that the heat-insulating table 31 has functions of heating and insulating the cup, wherein the heat-insulating table 31 can be in any shape, and is suitable for adapting to a teacup of a drinking water machine. The top cover 2 is provided with a water collecting tank 21, the water collecting tank 21 is a through groove, and water leaked from the tea cup can enter the base 1 through the water collecting tank 21. The water collecting grooves 21 are provided in plural, at least one of which has a size allowing a user's finger to enter, facilitating the detachment of the top cover 2.

As shown in fig. 2 and 4, the bottom plate 11 is formed with an installation groove 4, a groove wall 41 of the installation groove 4 protrudes above the bottom plate 11, the groove wall 41 of the installation groove 4 encloses an installation space 42, and the heat preservation assembly 3 is installed in the installation groove 4 and seals the installation space 42. The mounting groove 4 has the same shape as the heat retaining table 31, and is circular in the present embodiment, and the groove wall 41 of the mounting groove 4 is annularly provided on the bottom plate 11 to surround the circular mounting groove 4. The shapes having the same size, the area surrounded by the circle is the largest, and setting the mounting groove 4 to the circle can maximize the volume of the mounting space 42, minimize the size of the sump case, and maximize the volume of accumulated water. Be water collecting space 15 between lateral wall 12 of base 1 and the cell wall 41 of mounting groove 4, separate through the cell wall 41 of mounting groove 4 between water collecting space 15 and the installation space 42, wherein water catch bowl 21 staggers mutually with the position of mounting groove 4, and the water that the teacup spills over passes through water catch bowl 21 and gets into water collecting space 15, because isolated between water collecting space 15 and the installation space 42, water can't get into installation space 42, and the safety of insulating component 3 has been protected in the setting of mounting groove 4.

As shown in FIG. 2, the thermal insulation platform 31 and the mounting groove 4 are both circular, and one side wall 12 of the base 1 near the groove wall 41 of the mounting groove 4 is bent outwards to form an arc rib position 14, so as to provide a setting space for the mounting groove 4. If set up base 1 into the cuboid that can hold mounting groove 4, then the space that occupies is too big, is unfavorable for the dismouting removal of water-collecting box. Arc muscle position 14 is semi-circular, and bottom plate 11 is the convex semicircular plate body in rectangle one side, and mounting groove 4 is established on bottom plate 11, and partly lie in on the convex semicircular plate body of bottom plate 11, and the crooked internal diameter of arc muscle position 14 is greater than the internal diameter of mounting groove 4, makes to form an arc space between arc muscle position 4 and the cell wall 41 of mounting groove 4, and top cap 2 is the same with the shape of bottom plate 11, and bellied semicircle plate body and the top laminating of arc muscle position 14 on the top cap 2.

Wherein, as shown in fig. 3, fig. 4 and fig. 5, the heat preservation platform 31 of the heat preservation assembly 3 can be located in the installation groove 4 or outside the installation groove 4, the heating element 32 is located inside the installation groove 4, in order to ensure the safety of the heating element 32, the heating element 32 is installed on the heat preservation platform 31 and has a certain gap with the bottom of the installation groove 4, even if water is mistakenly entered into the installation groove 4, the heating element 32 is difficult to be damaged. In some embodiments, the heat-insulating table 31 is disposed in the mounting groove 4, a sealing member 33 is disposed between the peripheral side of the heat-insulating table 31 and the inner wall of the mounting groove 4, and the sealing member 33 seals the heat-insulating table 31 and the mounting groove 4, so as to seal the mounting space 42, prevent water from entering the mounting space 42 through the upper opening of the mounting groove 4, and protect the heat-generating member 32. In the present embodiment, the heat retaining table 31 is disposed above the mounting groove 4, and the bottom of the heat retaining table 31 is provided with a sealing member 33, wherein the sealing member 33 seals between the heat retaining table 31 and the groove wall 41 of the mounting groove 4 to prevent water from entering the mounting groove 4. The sealing member 33 is a U-shaped sealing ring, and the upper end of the U-shaped sealing ring is fixed at the bottom of the heat-insulating table 31, and the fixing manner may be bonding or other manners, which is not specifically limited in this embodiment. The bottom of the U-shaped sealing ring, i.e. the side facing the groove wall 41 of the mounting groove 4, is provided with an embedded groove 331, the embedded groove 331 is an annular groove, the width of the embedded groove 331 can be equal to the width of the groove wall 41 of the mounting groove 4, and the groove wall 41 of the mounting groove 4 is embedded into the embedded groove 331 of the U-shaped sealing ring to seal the mounting groove 4. In some embodiments, the width of the insertion groove 331 may be slightly smaller than the width of the groove wall 41 of the installation groove 4, and the U-shaped sealing ring is a flexible sealing ring, so that the insertion groove 331 may tightly wrap the groove wall 41 of the installation groove 4, and the sealing performance is better. The seal 33 provides galvanic isolation of the installation space 42 from the water collecting space 15, preventing water in the water collecting space 15 from entering the installation space 42.

The heat preservation platform 31 is arranged in a disc shape, a plurality of fixing positions 311 are formed at the bottom of the heat preservation platform 31, a plurality of fixing holes 17 are formed in the bottom of the installation groove 4, each fixing hole 17 corresponds to each fixing position 311, and the fixing assembly penetrates through the fixing hole 17 and is connected to the fixing position 311, wherein the fixing assembly comprises a fixing member 18, in the embodiment, the fixing member 18 is a bolt, the fixing position 311 on the heat preservation platform 31 can be a bolt hole formed in the bottom of the heat preservation platform 31 or a stud protruding from the bottom of the heat preservation platform 31, preferably, the fixing position 311 in the embodiment is a stud protruding from the bottom of the heat preservation platform 31, and the fixing member 18 penetrates through the fixing hole 17 to be matched with the stud to fix the heat preservation platform 31. Because the heat preservation platform 31 heats up when working, the stud and the mounting 18 generally adopt metal product, and the heat conductivity is better, and the water-collecting box material is lighter, generally adopts plastics to support, and when the heat preservation platform 31 worked, the temperature rise of mounting 18 probably led to the fixed orifices 17 department of water-collecting box to warp. In this embodiment, the fixing member further includes: the heat insulation sleeve 19 is sleeved on the fixing piece 18, the fixing piece 18 is wrapped by the heat insulation sleeve 19, heat of the fixing piece 18 is prevented from being transmitted to the bottom of the mounting groove 4, and the base 1 is prevented from being deformed due to overhigh temperature. The heat insulating sleeve 19 may be made of any heat insulating material, and in the present embodiment, the heat insulating sleeve 19 is merely an example of a nylon sleeve, and is not particularly limited.

The part of bottom plate 11 that is located mounting groove 4 is sunken in to mounting groove 4, forms depressed groove 16, and the tank bottom at depressed groove 16 is seted up to fixed orifices 17, and mounting 18 is when installation heat preservation platform 31, and the nut is located depressed groove 16, and mounting 18 can be hidden in the setting of depressed groove 16, keeps leveling and the stability of base 1 bottom. The recessed groove 16 can be closed to prevent the fastener 18 from loosening. The heat insulation sleeve 19 penetrates through the fixing hole 17, the outer diameter of the lower end of the heat insulation sleeve 19 is larger than the inner diameter of the fixing hole 17, the heat insulation sleeve can be fixed in the concave groove 16 through the fixing piece 18, the fixing piece 18 and the fixing hole 17 are separated by the heat insulation sleeve 19, and the heat emission of the groove bottom of the mounting groove 4 is avoided. Meanwhile, the top of the heat insulation sleeve 19 is provided with a limiting groove 191 for embedding the studs, when the heat insulation table 31 is installed, the studs of the heat insulation table 31 are aligned with the limiting grooves 191 and are embedded into the limiting grooves 191, then the studs are fixedly installed through the fixing piece 18, the fixing position 311 of the heat insulation table 31 is embedded into the limiting groove of the heat insulation sleeve 19, the fixing position is separated from the groove bottom of the installation groove 4 through the heat insulation sleeve 19, the fixing position 311 and the fixing piece 18 are separated from the groove bottom of the installation groove 4 through the heat insulation sleeve 19, and heat transfer of the fixing piece 18 is avoided. The limiting groove 191 facilitates the positioning of the heat preservation table 31, and simultaneously further limits the position of the heat preservation table 31 after the installation is completed, and the heat insulation sleeve 19 is abutted to the bottom plate 11 by the stud of the heat preservation table 31 without further fixing. It should be noted that the water collecting box in this embodiment is a detachable water collecting box and can be detached from the water dispenser, as shown in fig. 1 and 4, a connecting channel 5 is provided on a groove wall 41 of the mounting groove 4, the connecting channel 5 penetrates through a side wall 12 of the base 1, in this embodiment, the arc-shaped rib 14 of the base 1 extends out of the base 1, and the connecting channel 5 can be inserted into the water dispenser. The heating element 32 is provided with a contact 321, the connecting channel 5 is internally provided with a connector 6, the connector 6 enters the mounting groove 4 and is electrically connected with the contact 321, when the water collecting box is plugged on the water dispenser, the heating element 32 is communicated with the water dispenser through the contact 321 and the connector 6 and can be electrified to heat.

Wherein, with reference to fig. 4 and 6, the connection channel 5 comprises: the connecting section 52 connected with the groove wall 41 of the mounting groove 4 and the inserting section 51 penetrating through the base 1 and extending out of the base 1 are used for inserting the inserting section 51 into the water dispenser. The connector 6 then comprises: a connector 61 and a plug 62, wherein the sub-plug section 51 of the connector 61 is inserted into the connecting channel 5, until the connector 61 is located in the connecting section 52, and the plug 62 is located in the plug section 51. The connecting section 52 and the plugging section 51 may be formed in any shape, and preferably, the connecting section 52 and the plugging section 51 in the embodiment are both square, so that the difficulty in plugging caused by the rotation of the connector 6 in the connecting channel 5 is avoided. The cross-sectional area of the plug section 51 is larger than that of the connecting section 52, the plug end is connected with the connecting end through a step surface 53, and the cross-sectional area of the plug 62 is larger than that of the connector 61. When the connector 6 is inserted into the connecting passage 5, the step surface 53 has a limiting function, and when one end of the plug 62 abuts against the step surface 53, the connector 61 completely enters the connecting section 52 and is exposed in the mounting groove 4, which is the limit position for inserting the connector 6. The connector 61 enters the mounting groove 4 and is electrically connected with the contact 321 of the heating element 32, and the plug 62 is located in the plug section 51 and is electrically connected with the connector of the water dispenser when the plug section 51 is inserted into the water dispenser, so as to realize the electrification of the heating element 32.

When the connector 6 is inserted into the connecting channel 5, in order to facilitate the insertion of the connector 6 and to achieve the pre-positioning of the connector 6, the groove wall 41 of the plugging end has a certain inclination to form a guiding inclined surface 55, and the side wall 12 of the plug 62 is also obliquely arranged to cooperate with the guiding inclined surface 55 to position the plug 62 to a proper position in the plugging section 51. A mating stud is arranged in the plug section 51, and when the connector 6 is inserted into the connecting channel 5 to the limit position, the plug 62 is locked on the mating stud by a screw, so that the connector 6 is fixed in the connecting channel 5. It is worth noting that a sealing ring 54 is arranged between the step surface 53 and the plug 62 to seal the connecting channel 5 communicated with the mounting groove 4, so as to realize complete sealing of the mounting space 42 and protect the heat preservation module.

Wherein, a waterproof pad (not shown in the figure) is padded between the nut of the fixing piece 18 and the bottom of the heat insulation sleeve 19, and the waterproof pad can prevent water from entering the mounting groove 4 from a gap between the fixing piece 18 and the heat insulation sleeve 19; from the above, the top of the installation space 42 is sealed by the heat-insulating table 31, the bottom is sealed by the fixing member 18 and the waterproof gasket, and the side is sealed by the components in the connecting passage 5, so that the overall sealing is realized, and the safety of the heat-insulating assembly 3 is completely guaranteed.

As shown in fig. 1 and 7, the through groove 22 formed in the top cover 2 is a circular through groove 22, and the top cover 2 forms a tapered inclined surface on the periphery of the circular through groove 22, so that the teacup can be conveniently positioned and prevented from being separated from the through groove 22. In this embodiment, the waterproof setting of heat preservation platform 31 has certain clearance between leading to groove 22 and the heat preservation platform 31, if heat preservation platform 31 is less than logical groove 225mm or other distances, the high 26mm of length 235mm wide 89mm, this water-collecting box realizes the volume minimizing on the basis that has the heat preservation effect, and is lightly small and exquisite, makes things convenient for the dismouting to take and washs. The lower part of the heat preservation table 31 can enable the teacup to be embedded into the through groove 22, so that the teacup can be fixed conveniently; meanwhile, water overflowing from the tea cup is easy to leave along the cup wall and can directly enter the base 1 through the gap between the through groove 22 and the heat preservation table 31, and the water remaining on the top cover 2 is avoided. Because the heat preservation platform 31 is sealed with the installation groove 4, water can directly enter the water collecting space 15 and cannot flow into the installation groove 4.

The side wall 12 of the base 1 is also provided with a plug connector 8, the plug connector 8 and the connecting channel 5 are positioned on the same side of the base 1, when the connecting channel 5 is inserted into a water dispenser, the plug connector 8 is also inserted into the water dispenser at the same time, and the water collecting box is fixed on the water dispenser. The bottom of the base 1 can be provided with a plurality of convex parts 7, and the convex parts 7 enable the water collecting box to stand on a desktop or a table top for improving the height of the water collecting box to match with the water dispenser.

In the water collecting box in the embodiment, the heat preservation platform 31 and the installation groove 4 are sealed, so that the water collecting space 15 and the installation space 42 in the water collecting box are separated, water is prevented from entering the installation groove 4, the water collecting box has the functions of heat preservation and water collection at the same time, and water does not interfere with the heat preservation component 3; meanwhile, the water collecting box is connected to the water dispenser in an inserted mode, the water collecting box is very convenient to move, a user can directly connect the water collecting box with an external power supply, the water collecting box is changed into a movable heat preservation table 31, water leakage is accepted, the water collecting box and a tea cup can be moved after water taking is completed, drinking is carried out at any place, operation on the water dispenser is not needed, the water collecting box is very convenient, and use experience of the user is greatly improved.

The second embodiment of the invention relates to a water dispenser, as shown in fig. 4 and 8, which comprises a water dispenser main body 9 and a water collecting box as in the first embodiment, wherein the water dispenser is provided with an arc-shaped recess 91, so that a user can conveniently place a tea cup under a water dispenser, the arc-shaped recess 91 is provided with a connecting position, a connecting channel 5 of the water collecting box can be inserted into the connecting position 92, and meanwhile, an arc-shaped rib position 14 of the water collecting box is attached to the arc-shaped recess 91 of the water dispenser main body 9. The other position of the water dispenser is provided with a plug-in position 93, and the plug-in position 93 corresponds to the plug-in connector 8. When the connecting channel 5 is inserted into the connecting position 92, the plug connector 8 is simultaneously inserted into the plug-in position 93, so that water collection and installation on the water dispenser are realized. When the connecting channel 5 is inserted into the connecting position 92, the connector 6 in the connecting channel 5 is communicated with the circuit in the water dispenser main body 9, so that the heat preservation component 3 is electrified and heated.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.