CN215260530U - Multifunctional gas water heater - Google Patents

Abstract

The utility model discloses a multifunctional gas water heater, include: the furnace body is internally provided with a heat exchanger, and the heat exchanger comprises a water inlet end and a water outlet end; the functional component is arranged at the water inlet end and/or the water outlet end and comprises a water inlet flow dividing mechanism, a raw water channel, a functional channel and a functional module capable of treating water, the functional module is arranged in the functional channel, and the water inlet flow dividing mechanism controls water to enter the raw water channel or the functional channel; the use function of the water heater is effectively increased by utilizing the functional components, and the flow direction of water is controlled by the water inlet flow dividing mechanism to select functions.

Description

Multifunctional gas water heater

Technical Field

The utility model relates to a water heater, in particular to multi-functional gas heater.

Background

The water heater is generally used for heating water, and the function is single. In the process of using water, people often need to connect a water heater with a water purifier to filter and purify water for use; or the medicated bath is carried out when bathing, and the medicated bath is generally used after the medicine and the hot water are mixed in a bathtub; these water requirements are cumbersome to use, and how to combine these functions into a water heater to increase the function of the water heater is a problem that needs to be solved.

SUMMERY OF THE UTILITY MODEL

The present invention aims to solve at least one of the above-mentioned technical problems in the related art to a certain extent. Therefore, the utility model provides a multi-functional gas heater.

In order to achieve the above purpose, the technical scheme of the utility model is as follows:

according to the utility model discloses a multi-functional gas heater of first aspect embodiment, include:

the furnace body is internally provided with a heat exchanger, and the heat exchanger comprises a water inlet end and a water outlet end;

the functional assembly is installed the end of intaking and/or go out the water end, the functional assembly includes into water reposition of redundant personnel mechanism, raw water passageway, functional channel and can carry out the functional module that handles to water, the functional module is installed in the functional channel, the reposition of redundant personnel mechanism that intakes controls water and gets into raw water passageway or the functional channel.

According to the utility model discloses multi-functional gas heater has following beneficial effect at least: the use function of the water heater is effectively increased by utilizing the functional components, and the flow direction of water is controlled by the water inlet flow dividing mechanism to select functions.

According to some embodiments of the present invention, the functional assembly comprises a bin body, the functional channel is communicated with the raw water channel, and the raw water channel is provided with a water outlet; when the functional component is arranged at the water inlet end of the heat exchanger, the water outlet interface corresponding to the functional component is connected with the water inlet end; when the functional component is arranged at the water outlet end of the heat exchanger, the water inlet flow dividing mechanism corresponding to the functional component is connected with the water outlet end.

According to the utility model discloses a some embodiments, the internal baffle that is equipped with in storehouse is in order to with the internal portion in storehouse is left and right sides separated for the function passageway with raw water channel, the upper portion of function passageway with raw water channel's upper portion intercommunication.

According to some embodiments of the utility model, the functional module is a water purification filter core.

According to some embodiments of the invention, the functional module is a container in which the medicament is stored.

According to some embodiments of the utility model, be equipped with the sealed lid of detachable on the function passageway.

According to the utility model discloses a some embodiments, the reposition of redundant personnel mechanism of intaking is equipped with the interface of intaking, follows two runners are shunted out to the interface of intaking, two the runner communicates respectively to the function passageway raw water passageway, the reposition of redundant personnel mechanism of intaking includes two electric control switch, two electric control switch controls two respectively the runner goes out opening and close of water end.

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 the present invention;

FIG. 2 is a schematic structural diagram of the functional components of the present invention;

fig. 3 is a schematic view of fig. 2 in the direction of a.

Reference numerals: a furnace body 100; a heat exchanger 200; a water inlet end 210; a water outlet end 220; a functional component 300; a bin body 301; an inlet diversion mechanism 310; a water inlet interface 311; a flow passage 312; an electric control switch 313; a raw water passage 320; a water outlet port 321; a functional channel 330; a function block 340; a spacer 350; and a sealing cover 360.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present invention, and should not be construed as limiting the present invention.

As shown in fig. 1, a multi-functional gas water heater includes a boiler body 100 and a functional assembly 300. The furnace body 100 is provided with a heat exchanger 200, and the heat exchanger 200 comprises a water inlet end 210 and a water outlet end 220. The functional component 300 is installed at the water inlet end 210 and/or the water outlet end 220, the functional component 300 can be separately installed at the water inlet end 210 or the water outlet end 220 of the heat exchanger 200, or the functional component 300 can be installed at both the water inlet end 210 and the water outlet end 220 of the heat exchanger 200 as shown in fig. 1. As shown in fig. 2, the functional module 300 includes an inlet water diversion mechanism 310, a raw water passage 320, a functional passage 330, and a functional module 340, and the functional module 340 is disposed in the functional passage 330. The water inlet diversion mechanism 310 controls water to enter the raw water passage 320 or the functional passage 330. The function module 340 can process water, and the processing mode can be filtration and purification processing, and can be medicine mixing processing and the like.

In actual operation, when the functional module 300 is installed at the water inlet end 210 of the heat exchanger 200, raw water (tap water) is first introduced into the functional module 300, and if the raw water does not need to be treated, the water inlet flow dividing mechanism 310 communicates the raw water to the raw water channel 320, and the raw water directly enters the heat exchanger 200 to be heated after passing through the raw water channel 320; if the raw water needs to be treated, the water inlet diversion mechanism 310 communicates the raw water to the functional channel 330, the raw water is treated in the functional channel 330 through the functional module 340, and the treated water enters the heat exchanger 200 again to be heated.

When the functional module 300 is installed at the water outlet end 220 of the heat exchanger 200, heated water enters the functional module 300, hot water enters the raw water channel 320 or the functional channel 330 under the control of the water inlet flow dividing mechanism 310, and if the hot water does not need to be treated, the hot water can be directly discharged through the raw water channel 320 for users to use; if the hot water needs to be treated, the hot water enters the functional channel 330 under the control of the water inlet diversion mechanism 310, and the hot water is treated by the functional module 340 and then discharged for the user to use.

The functional component 300 is used for effectively increasing the service function of the water heater, and the flow direction of water is controlled by the water inlet diversion mechanism 310 to perform function selection.

In some embodiments of the present invention, the functional assembly 300 includes a cabin 301, a functional channel 330 is communicated with a raw water channel 320, and the raw water channel 320 is provided with a water outlet 321; when the functional component 300 is installed at the water inlet end 210 of the heat exchanger 200, the water outlet port 321 corresponding to the functional component 300 is connected with the water inlet end 210; when the functional module 300 is installed on the water outlet end 220 of the heat exchanger 200, the water inlet shunting mechanism 310 of the corresponding functional module 300 is connected to the water outlet end 220.

When the functional component 300 is installed at the water inlet end 210 of the heat exchanger 200, as shown in fig. 1, the water inlet end 210 of the heat exchanger 200 is located at the right side of the water heater, the water inlet diversion mechanism 310 of the functional component 300 is located at the bottom, the water outlet port 321 is located at the upper portion, and the water outlet port 321 is connected with the water inlet end 210 of the heat exchanger 200. When raw water enters the raw water channel 320, the raw water can be directly discharged to the water inlet end 210 of the heat exchanger 200 through the water outlet port 321; if the raw water enters the functional channel 330, the raw water treated by the functional module 340 flows into the raw water channel 320 and is discharged to the water inlet 210 of the heat exchanger 200 through the water outlet 321.

When the functional module 300 is installed at the water inlet end 210 of the heat exchanger 200, as shown in fig. 1, the water inlet end 210 of the heat exchanger 200 is located at the left side of the water heater, the water inlet diversion mechanism 310 of the functional module 300 is located at the upper portion, the water outlet port 321 is located at the bottom portion, and the water inlet diversion mechanism 310 is connected with the water outlet end 220 of the heat exchanger 200. The hot water heated by the heat exchanger 200 selectively enters the raw water channel 320 or the functional channel 330 under the control of the water inlet flow dividing mechanism 310, and if the hot water directly enters the raw water channel 320, the hot water is directly discharged through the water outlet interface 321 for the user to use; when the hot water enters the functional channel 330, the hot water is processed by the functional module 340, flows into the raw water channel 320, and is finally discharged from the water outlet 321. Through the arrangement of the raw water channel 320, the functional channel 330 and the water outlet port 321, the number of ports can be reduced, and the structure is simplified.

In some embodiments of the present invention, a partition 350 is disposed in the cabin 301 to divide the interior of the cabin 301 into the functional channel 330 and the raw water channel 320, and the upper portion of the functional channel 330 is communicated with the upper portion of the raw water channel 320. As shown in fig. 2, the partition 350 is vertically disposed in the cartridge 301, and a gap is formed between the top of the partition 350 and the top of the inner wall of the cartridge 301, so that the upper parts of the raw water passage 320 and the functional passage 330 are communicated. The water treated by the functional module 340 gradually rises in the functional channel 330, and when the water level rises above the top of the partition 350, the water flows into the raw water channel 320 and is discharged through the outlet 321.

In some embodiments of the present invention, the functional module 340 is a water purification cartridge. And water is purified by the water purification filter element. Preferably, the water purification cartridge is disposed in the functional assembly 300 corresponding to the water inlet end 210 of the heat exchanger 200.

In some embodiments of the present invention, the functional module 340 is a container for storing medicine. Preferably, the container storing the medicine is arranged in the functional component 300 corresponding to the water outlet end 220 of the heat exchanger 200, and the water is mixed with the medicine in the container and then discharged for the user to perform medicated bath.

In some embodiments of the present invention, a detachable sealing cap 360 is disposed on the functional channel 330. After removal of the seal cap 360, the functional module 340 may be replaced.

As shown in fig. 3 sushi, in some embodiments of the present invention, the water inlet diversion mechanism 310 is provided with a water inlet interface 311, two runners 312 are branched from the water inlet interface 311, the two runners 312 are respectively communicated to the functional channel 330 and the raw water channel 320, the water inlet diversion mechanism 310 includes two electric control switches 313, and the two electric control switches 313 respectively control the opening and closing of the water outlet end 220 of the two runners 312. When the functional module 300 is installed at the water inlet end 210 of the heat exchanger 200, the water inlet interface 311 of the water inlet shunting mechanism 310 of the functional module 340 is connected to an external tap water pipe. When the functional module 300 is installed on the water outlet end 220 of the heat exchanger 200, the water inlet interface 311 of the water inlet shunting mechanism 310 of the functional module 340 is connected to the water outlet end 220 of the heat exchanger 200. The outlet of each flow channel 312 corresponds to one electric control switch 313, and the outlet of each flow channel 312 is blocked or opened by the electric control switch 313. The electronic control switch 313 can utilize the cooperation of an electromagnetic valve and a spring, when the electronic control switch 313 is in a power-on state, the electronic control switch 313 is opened under the action of the electromagnetic valve and compresses the spring to open the outlet of the flow passage 312, and when the electronic control switch 313 is in a power-off state, the spring resets the electronic control switch 313 to block the outlet of the flow passage 312.

In the description herein, references to the description of "some specific embodiments" or the like are intended to mean 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.

While embodiments of the present invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Claims (7)

1. A multifunctional gas water heater, comprising:

the furnace body (100) is internally provided with a heat exchanger (200), and the heat exchanger (200) comprises a water inlet end (210) and a water outlet end (220);

functional unit (300), install intake end (210) and/or go out water end (220), functional unit (300) is including intaking reposition of redundant personnel mechanism (310), former water passageway (320), function passageway (330) and can carry out the function module (340) handled to water, function module (340) are installed in function passageway (330), it gets into to intake reposition of redundant personnel mechanism (310) former water passageway (320) or function passageway (330).

2. The multi-functional gas water heater of claim 1, wherein: the functional assembly (300) comprises a bin body (301), the functional channel (330) is communicated with the raw water channel (320), and the raw water channel (320) is provided with a water outlet interface (321); when the functional component (300) is installed at the water inlet end (210) of the heat exchanger (200), the water outlet interface (321) corresponding to the functional component (300) is connected with the water inlet end (210); when the functional component (300) is arranged at the water outlet end (220) of the heat exchanger (200), the water inlet flow dividing mechanism (310) corresponding to the functional component (300) is connected with the water outlet end (220).

3. The multi-functional gas water heater of claim 2, wherein: a partition plate (350) is arranged in the bin body (301) to divide the interior of the bin body (301) into the functional channel (330) and the raw water channel (320) in a left-right mode, and the upper portion of the functional channel (330) is communicated with the upper portion of the raw water channel (320).

4. The multi-functional gas water heater of claim 1, wherein: the functional module (340) is a water purification filter element.

5. The multi-functional gas water heater of claim 1, wherein: the functional module (340) is a container for storing medicine.

6. The multifunctional gas water heater as claimed in claim 1, 4 or 5, wherein: and a detachable sealing cover (360) is arranged on the functional channel (330).

7. The multi-functional gas water heater of claim 2, wherein: the water inlet distribution mechanism (310) is provided with a water inlet interface (311), two flow channels (312) are distributed from the water inlet interface (311), the two flow channels (312) are communicated to the functional channel (330) and the raw water channel (320) respectively, the water inlet distribution mechanism (310) comprises two electric control switches (313), and the two electric control switches (313) control the opening and closing of the water outlet ends (220) of the flow channels (312) respectively.

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