CN213882876U - Circulating cooling structure of direct-drinking type water boiler - Google Patents

Abstract

The utility model discloses a straight formula of drinking water dispensers's circulative cooling structure, including the water tank to and the cooling storehouse of being connected with the water tank, the water tank is equipped with outer room and inner room, and the outer room communicates with each other with inner room, and the cooling storehouse is equipped with the bin, and the bin communicates with each other with outer room, inner room respectively, is equipped with the cooling tube that is used for putting through boiling water in the bin. The cold water in the outer chamber of the water tank of the utility model flows into the chamber of the cooling chamber, one part of the cold water in the chamber is boiled by the heating device in the water boiler and flows into the cooling pipe, the other part of the cold water is left in the chamber and exchanges heat with the cooling pipe, and the water in the cooling pipe can be cooled and finally flows out; in addition, the temperature of cold water in the bin chamber can be increased after heat exchange, one part of the heated water flows back to the inner chamber, and the other part of the heated water flows into the heating device to be boiled, so that the heat exchange effect of the water in the bin chamber is ensured, and the energy-saving effect can be achieved.

Description

Circulating cooling structure of direct-drinking type water boiler

Technical Field

The utility model belongs to the technical field of the water dispensers technique and specifically relates to a circulative cooling structure of straight formula water dispenser is related to.

Background

The water boiler is designed and developed for meeting the requirement of drinking boiled water of more people, is a device for heating boiled water by converting electric energy or chemical energy into heat energy, and is mainly suitable for public occasions such as enterprise units, hotels, troops, stations, airports, factories, hospitals, schools, apartments and the like.

The traditional water boiling machine is generally divided into two types, one type can flow boiled water and unheated normal-temperature water, and the other type can flow boiled water and mixed water, wherein the mixed water is formed by mixing the boiled water and the unheated normal-temperature water, and the temperature of the mixed water is generally the proper temperature according to the needs of users and can be entered.

In order to meet the market demand, the water from the water boiler is boiled and can be drunk directly, and those skilled in the art want to improve the cooling structure of the conventional water boiler.

Disclosure of Invention

The utility model aims to solve the technical problem that a circulating cooling structure of a direct drinking type water boiler is provided.

The utility model provides a technical scheme that above-mentioned technical problem adopted does: the utility model provides a straight formula of drinking water dispensers's circulative cooling structure, includes the water tank to and the cooling bin of being connected with the water tank, the water tank be equipped with ectotheca and inner room, ectotheca and inner room communicate with each other, the cooling bin be equipped with the bin, the bin communicate with each other with ectotheca, inner room respectively, the bin in be equipped with the cooling tube that is used for putting through boiling water.

As a further improvement, the water tank including being equipped with the case shell of ectotheca, the case shell in be equipped with the inner bag of inner room, the case shell be equipped with the communicating first delivery port of ectotheca to and with the communicating first water inlet of inner room, the cooling storehouse including being equipped with at least one cooling storehouse body of bin, the cooling storehouse body be equipped with second water inlet, second delivery port all communicate with each other with the bin, first delivery port be connected with the second water inlet, the second delivery port be connected with first water inlet.

As a further improvement, the second water outlet and the first water inlet are connected with a water pump therebetween.

As a further improvement, the inner container is provided with a through hole, and the inner chamber is communicated with the outer chamber through the through hole.

As a further improvement, the inner container is detachably connected with the inner bottom of the box shell.

As a further improvement, the cooling bin body comprises a bin shell and a bin cover, the cooling pipe is connected to the bin shell, and the bin shell and the bin cover can be detached and connected.

As a further improvement, the second water inlet is arranged on the bin cover, the second water outlet is arranged at the bottom of the bin shell, and the cooling pipe is detachably connected with the bin shell.

As a further improvement, the first water outlet and the first water inlet are both provided with a filter screen.

Compared with the prior art, the utility model has the advantages of: on one hand, cold water in the outer chamber of the water tank flows into a chamber of the cooling chamber, a part of cold water in the chamber is boiled by a heating device in the water boiler and flows into the cooling pipe, the other part of cold water is remained in the chamber and exchanges heat with the cooling pipe, and water in the cooling pipe is cooled and finally flows out; on the other hand, the temperature of the cold water in the bin chamber can be increased after heat exchange, one part of the heated water flows back to the inner chamber, and the other part of the heated water flows into the heating device to be boiled, so that the heat exchange effect of the water in the bin chamber is ensured, and the energy-saving effect can be achieved.

Drawings

FIG. 1 is a schematic view of the waterway structure of the present invention;

FIG. 2 is a schematic view of a connection structure of a water tank and a cooling chamber;

FIG. 3 is a schematic perspective view of a water tank;

FIG. 4 is a schematic view of a three-dimensional structure of the liner;

FIG. 5 is a schematic cross-sectional view of a water tank;

FIG. 6 is a schematic view of a cooling chamber;

fig. 7 is an exploded view of the cooling chamber body.

Detailed Description

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

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

As shown in fig. 1 to 7

The water boiler comprises a water tank 1, a cooling bin 2, a heating bin 3 and a water outlet end 4;

the water tank 1 comprises a tank shell 101, the tank shell 101 is provided with an outer chamber 1012 for storing cold water, an inner container 102 is arranged in the outer chamber 1012, the inner container 102 is detachably connected with the inner bottom of the tank shell 101, the inner container 102 is provided with an inner chamber 1013 communicated with the outer chamber 1012, the bottom of the tank shell 101 is provided with a first water outlet 104 communicated with the outer chamber 1012 and a first water inlet 105 communicated with the inner chamber 1013, and the tank shell 101 is also provided with a water filling port 106 for filling cold water into the outer chamber 1012;

the cooling bin 2 comprises at least one cooling bin body 201, the cooling bin body 201 is provided with a bin 202 capable of storing cold water, a cooling pipe 203 is arranged in the bin 202, the cooling pipe 203 is detachably connected with the cooling bin body 201, the cooling bin body 201 is provided with a second water inlet 204, a second water outlet 205 and a third water outlet 206, the second water inlet 204, the second water outlet 205 and the third water outlet 206 are all communicated with the bin 202, and the cooling pipe 203 is provided with a water inlet pipe orifice and a water outlet pipe orifice;

the first water outlet 104 is connected with the second water inlet 204, the first inlet 105 is connected with the second water outlet 205, and a water pump 709 is arranged in a waterway connecting the first water inlet 105 and the second water outlet 205 so as to pump water in the chamber 202 to the inner chamber 1013, and then the inner chamber 1013 and the outer chamber 1012 realize water body exchange through a through hole, so that the water temperature of the chamber 202 always has the effect of heat exchange with the cooling pipe 203.

A heating element for boiling water is arranged in the heating bin 3, and the heating bin 3 is respectively connected with the third water outlet 206 and the water inlet pipe mouth of the cooling pipe 203;

the water outlet end 4 is connected with the water outlet pipe opening of the cooling pipe 203.

Cold water is injected into the outer chamber 1012 through the water injection port 106 of the box shell 101, the cold water flows into the chamber 202, a part of the cold water in the chamber 202 flows into the heating chamber 3 to be boiled and then flows into the cooling pipe 203, the cooling pipe 203 exchanges heat with the other part of the cold water in the chamber 202, and the water in the cooling pipe 203 is cooled and flows out from the water outlet end 4. In order to ensure that the water temperature of the bin 202 always has the effect of heat exchange with the cooling pipe 203, a water pump 709 is arranged in a water path connecting the second water inlet 204 and the second water outlet 205, the water in the bin 202 is pumped back to the inner chamber 1013 through the water pump 709, the inner chamber 1013 and the outer chamber 1012 are subjected to water body exchange mixing, and thus, the cold water flows into the bin 202.

In the water tank 1, the inner container 102 is provided with at least one through hole 1021, and the inner chamber 1013 is communicated with the outer chamber 1012 through the through hole 1021. The liner 102 is a tubular structure and includes a barrel 1022, the barrel 1022 includes a nozzle for water inlet, and the nozzle faces downward and is connected with the inner bottom of the box shell.

In the water tank 1, the inner bottom of the tank shell 101 is provided with an edge ring 1023 protruding upwards, and the edge ring 1023 is connected with the nozzle. The barrel 1022 further includes an upwardly disposed barrel bottom 1024, and the barrel bottom 1024 is provided with a through hole 1021. The first water outlet 104 and the first water inlet 105 are both provided with a filter screen 1025.

The water tank 1 further includes a cover 1026 for covering the filling opening 106, and a handle movably connected to the case 101. The fill port 106 is located on the upper portion of the housing 101 and the cover 1026 is removably attached to the upper portion of the housing 101.

In the cooling bin 2, the cooling bin body 201 comprises a bin shell 2011 and a bin cover 2012, the cooling pipe 203 is connected to the bin shell 2011, and the bin shell 2011 is detachably connected to the bin cover 2012. A sealing ring 2013 is arranged between the bin shell 2011 and the bin cover 2012.

In the cooling bin 2, the top of the bin shell 2011 is provided with a lower annular groove 2014 along the outline of the outer edge of the bin shell, the bottom of the bin cover 2012 is provided with an upper annular groove along the outline of the outer edge of the bin shell, the upper annular groove is adaptively combined with the lower annular groove 2014, and the sealing ring 2013 is embedded between the upper annular groove and the lower annular groove 2014.

In the cooling bin 2, a second water inlet is formed in the bin cover 2012, a second water outlet is formed in the bottom of the bin shell 2011, and a third water outlet 206 is formed in the side of the bin shell 2011.

The cooling bin 2 comprises two cooling bin bodies 201, the two cooling bin bodies 201 are respectively a first cooling bin body 201 and a second cooling bin body 201, a bin of the first cooling bin body 201 is communicated with a bin of the second cooling bin body 201, and a cooling pipe 203 of the first cooling bin body 201 is communicated with a cooling pipe 203 of the second cooling bin body 201.

The first cooling bin body 201 and the second cooling bin body 201 are arranged in an up-down overlapping mode.

The shell 2011 of the first cooling bin body 201 and the bin cover 2012 of the second cooling bin body 201 are arranged in an up-down overlapping manner, and a second water outlet of the first cooling bin body 201 is connected with a second water inlet of the second cooling bin body 201.

The water outlet pipe mouth of the cooling pipe 203 of the first cooling bin body 201 is connected with the water inlet pipe mouth of the cooling pipe 203 of the second cooling bin body 201.

The cooling pipe 203 is helical.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (8)

1. The utility model provides a straight formula of drinking water dispensers's circulative cooling structure which characterized in that: the water tank is provided with an outer chamber and an inner chamber, the outer chamber is communicated with the inner chamber, the cooling bin is provided with a bin, the bin is respectively communicated with the outer chamber and the inner chamber, and a cooling pipe for communicating with boiling water is arranged in the bin.

2. A circulation cooling structure of a direct-drinking water boiler according to claim 1, characterized in that: the water tank including be equipped with the case shell of outer room, the case shell in be equipped with the inner bag of inner room, the case shell be equipped with the communicating first delivery port of outer room to and with the communicating first water inlet of inner room, the cooling bin including be equipped with at least one cooling bin body of bin, the cooling bin body be equipped with second water inlet, second delivery port, second water inlet, second delivery port all communicate with each other with the bin, first delivery port be connected with the second water inlet, the second delivery port be connected with first water inlet.

3. A circulation cooling structure of a direct-drinking water boiler according to claim 2, characterized in that: and a water pump is arranged between the second water outlet and the first water inlet.

4. A circulation cooling structure of a direct-drinking water boiler according to claim 2, characterized in that: the inner container is provided with a through hole, and the inner chamber is communicated with the outer chamber through the through hole.

5. A circulation cooling structure of a direct-drinking water boiler according to claim 2, characterized in that: the inner container is detachably connected with the inner bottom of the box shell.

6. A circulation cooling structure of a direct-drinking water boiler according to claim 2, characterized in that: the cooling bin body comprises a bin shell and a bin cover, the cooling pipe is connected to the bin shell, and the bin shell is detachably connected with the bin cover.

7. A circulation cooling structure of a direct-drinking water boiler according to claim 6, characterized in that: the second water inlet is arranged on the bin cover, the second water outlet is arranged at the bottom of the bin shell, and the cooling pipe is detachably connected with the bin shell.

8. A circulation cooling structure of a direct-drinking water boiler according to claim 2, characterized in that: the first water outlet and the first water inlet are both provided with filter screens.

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