CN218763537U - Gas stove with water vapor system - Google Patents

Abstract

A gas stove with a water vapor system is provided with a stove body, wherein the stove body is provided with a heat absorption water tank, and a space defined by the inner wall of the heat absorption water tank is a hearth; there is also a steam system, comprising: a tap water pipe is communicated with a first hollow closed shell pipe fitting, the first hollow closed shell pipe fitting is communicated with a second hollow closed shell pipe fitting, the second hollow closed shell pipe fitting is communicated with a first ball float valve arranged in a first ball float water tank, the first ball float water tank is connected with the heat absorption water tank, and the first hollow closed shell pipe fitting is communicated with the heat absorption water tank through a first electromagnetic valve; a water level sensor probe extends into the heat absorption water tank and is electrically connected with the electric control device of the first electromagnetic valve; the set liquid level in the first floating ball water tank is higher than the set liquid level in the heat absorption water tank.

Description

Gas stove with water vapor system

Technical Field

The utility model relates to a kitchen range, concretely relates to gas kitchen range with steam system.

Background

A gas cooking range is disclosed in utility model patent application publication No. CN 111947184A. The gas stove has a body and a combustible gas burner.

The stove body is provided with a hearth inner ring heat absorption water tank, a hearth outer ring heat absorption water tank and an external transverse heat absorption water tank. The external transverse heat absorption water tank is provided with an internal rectangular cylinder and an external rectangular cylinder, and the space between the outer surface of the internal rectangular cylinder and the inner surface of the external rectangular cylinder is the space for accommodating water in the external transverse heat absorption water tank. The bottom of the hearth inner ring heat absorption water tank is communicated with the bottom of the hearth outer ring heat absorption water tank. The heat absorption water tank on the outer ring of the hearth is communicated with the space for accommodating water of the external transverse heat absorption water tank. A short pipe connects the top space of the heat absorption water tank on the inner ring of the hearth with the top space of the heat absorption water tank on the outer ring of the hearth. The space between the outer wall plate of the hearth inner ring heat absorption water tank and the inner wall plate of the hearth outer ring heat absorption water tank is an internal annular flue gas channel of the stove body. The internal rectangular cylinder is a transverse flue gas channel of the stove body. The inner annular flue gas channel is communicated with a space surrounded by the inner rectangular cylinder body as a transverse flue gas channel. The roof wallboard of furnace inner circle heat absorption water tank extends outwards, with the interior cylinder wallboard seal welding of furnace outer lane heat absorption water tank, forms annular roof, seals inside flue gas passageway upper portion, and it has a plurality of through-holes to open on annular roof, or keeps away from outside horizontal heat absorption water tank department on annular roof and opens there is three through-holes, and the upper portion furnace that the space that the interior cylinder wallboard of messenger furnace outer lane heat absorption water tank lies in the part above the annular roof and surrounds communicates with inside annular flue gas passageway. A plurality of communicating pipes of seal welding between the top wallboard and the diapire board of the inside rectangular cylinder of outside horizontal heat absorption water tank, with the outside rectangular cylinder of outside horizontal heat absorption water tank in, the headspace outside the interior rectangular cylinder communicates with the bottom space, can improve the heating effect of the high-temperature gas that the burning of the horizontal flue gas passageway of the body of the kitchen of flowing through produced the water in the outside horizontal heat absorption water tank.

The oven body is also provided with an internal transverse heat absorption water tank. The inner transverse heat absorption water tank is provided with a top wall plate and a bottom wall plate, and is communicated with the hearth inner ring heat absorption water tank. The space surrounded by the part of the inner cylindrical wall plate of the hearth inner ring heat absorption water tank, which is positioned above the top wall plate of the inner transverse heat absorption water tank, forms a lower hearth. The upper hearth is communicated with the lower hearth.

The combustible gas burner is provided with at least one air-gas mixture conduit for conveying to generate main fire combustion and one air-gas mixture conduit for conveying to generate normal open fire combustion, wherein the air-gas mixture conduit for conveying to generate main fire combustion and the air-gas mixture conduit for conveying to generate normal open fire combustion are positioned in the internal transverse heat absorption water tank and in water in the internal transverse heat absorption water tank.

The gas stove does not involve a steam system.

SUMMERY OF THE UTILITY MODEL

The utility model provides a gas stove with a water vapor system.

The utility model discloses a gas stove with a water vapor system, which comprises a stove body, a water tank, a water inlet pipe, a water outlet pipe, a water inlet pipe, a water outlet pipe and a water outlet pipe, wherein the stove body is provided with a heat absorption water tank, and a space limited by the inner wall of the heat absorption water tank is a hearth; it is characterized by also comprising a water vapor system, wherein the water vapor system comprises:

a tap water pipe communicated with a municipal tap water pipe network, wherein the outlet end of the tap water pipe is connected with a first inlet of a first hollow closed shell pipe fitting, a first outlet of the first hollow closed shell pipe fitting is connected with the inlet end of a first cold water pipe, the outlet end of the first cold water pipe is connected with the inlet of a second hollow closed shell pipe fitting, a first outlet of the second hollow closed shell pipe fitting is connected with the inlet of a first ball float valve arranged in a first ball float water tank, the outlet on the bottom wall of the first ball float water tank is connected with the inlet end of a second cold water pipe, the outlet end of the second cold water pipe is connected with a first cold water inlet on the outer wall of the heat absorption water tank, the second outlet of the second hollow closed shell pipe fitting is connected with the inlet end of a fourth cold water pipe, the outlet of the fourth cold water pipe is connected with the inlet of a cold water tap, the second outlet of the first hollow closed shell pipe fitting is connected with the inlet of a first electromagnetic valve, the outlet of the first electromagnetic valve is connected with the inlet of a third cold water pipe, and the inlet of the third cold water pipe is connected with the outlet on the bottom wall of the heat absorption water tank;

a water level sensor probe is arranged on the outer wall of the heat absorption water tank, extends into the heat absorption water tank and is electrically connected with the electric control device of the first electromagnetic valve;

the set liquid level in the first floating ball water tank is higher than the set liquid level in the heat absorption water tank.

The utility model discloses a gas stove with steam system, because the settlement liquid level in the first floater water tank is higher than the settlement liquid level in the heat absorption water tank, like this, when the liquid level in the heat absorption water tank is lower than the settlement liquid level, can mend the running water to the heat absorption water tank simultaneously through first floater water tank and first solenoid valve to make gas stove can put into operation state rapidly, can also prevent when first floater water tank or first solenoid valve from breaking down, the heat absorption water tank can not be burnt out because of the lack of water; when the liquid level in the heat absorption water tank reaches the set liquid level, the tap water can be stopped being supplemented into the heat absorption water tank through the first electromagnetic valve, the tap water can be continuously supplemented into the heat absorption water tank through the first floating ball water tank, and when the liquid level in the heat absorption water tank continuously rises to be the same as the set liquid level in the first floating ball water tank, the tap water is stopped being supplemented into the heat absorption water tank through the first floating ball water tank, so that the first electromagnetic valve is prevented from frequently acting, and the energy is saved.

The moisture system further comprises:

the first steam discharge pipe is arranged in the heat absorption water tank, the top end opening is positioned above the water surface in the heat absorption water tank, the bottom end of the first steam discharge pipe is connected with an inlet of a third hollow closed shell pipe fitting, a first outlet of the third hollow closed shell pipe fitting is connected with an inlet end of a first steam pipe, an outlet end of the first steam pipe is connected with an inlet on the top wall of the first floating ball water tank, a second outlet of the third hollow closed shell pipe fitting is connected with an inlet end of a second steam pipe, an outlet end of the second steam pipe is inserted into a first hole on the top wall of a fourth hollow closed shell pipe fitting, a third outlet of the third hollow closed shell pipe fitting is connected with an inlet end of a first drain pipe, an outlet end of the first drain pipe is inserted into a second hole on the top wall of the fourth hollow closed shell pipe fitting, and an inner cavity of the fourth hollow closed shell pipe fitting is communicated with the atmosphere.

In this way, since the space above the water level in the heat absorption water tank is communicated with the inner space of the third hollow closed shell pipe fitting through the first steam discharge pipe, and the inner space of the third hollow closed shell pipe fitting is communicated with the inner space of the first float ball water tank through the first steam pipe, the pressure of the space above the water level in the heat absorption water tank and the pressure of the space above the water level in the first float ball water tank are kept balanced; because the inner cavity of the fourth hollow closed shell pipe fitting is communicated with the atmosphere, the pressure of the space above the water surface in the heat absorption water tank and the pressure of the space above the water surface in the first floating ball water tank are basically atmospheric pressure, so that the requirements on the strength of materials for manufacturing the heat absorption water tank, the third hollow closed shell pipe fitting, the fourth hollow closed shell pipe fitting, the first floating ball water tank and the like are reduced, the production cost is reduced, and in addition, the gas stove can work safely under the atmospheric pressure.

The outlet on the pipe wall of the fourth hollow closed shell pipe fitting is connected with the inlet end of a second water drain pipe, the outlet end of the second water drain pipe is connected with the inlet on the outer wall of a stove surface sewage discharge pipe, and the top end opening of the stove surface sewage discharge pipe is connected with the opening on the top plate of the shell stove surface of the stove.

The moisture system further comprises:

the inlet end of the first hot water pipe is connected with the outlet on the bottom wall of the heat absorption water tank, the outlet end of the first hot water pipe is connected with the inlet of a first water pump, the outlet of the water pump is connected with the inlet end of a fifth hollow closed shell pipe fitting, the first outlet of the fifth hollow closed shell pipe fitting is connected with the inlet of a second electromagnetic valve, the outlet of the second electromagnetic valve is connected with the inlet end of a second hot water pipe, the outlet end of the second hot water pipe is connected with the inlet of a second ball float valve arranged in a hot water floating ball water tank, the second outlet of the fifth hollow closed shell pipe fitting is connected with the inlet end of a third hot water pipe, and the outlet end of the third hot water pipe is connected with the inlet on the outer wall of the heat absorption water tank;

and a temperature control sensor probe is arranged on the outer wall of the fifth hollow closed shell pipe fitting, extends into the fifth hollow closed shell pipe fitting and is electrically connected with the electric control device of the second electromagnetic valve.

Therefore, the hot water in the heat absorption water tank is pumped out when reaching the set temperature, and the use is convenient.

The moisture system further comprises:

the inlet end of the first water pipe is connected with an opening on the bottom wall of a cooking surface water tank, the outlet end of the first water pipe is connected with an inlet of a second water pump, an outlet of the second water pump is connected with an inlet end of a second water pipe, an outlet end of the second water pipe is connected with an inlet of a second one-way valve, and an outlet of the second one-way valve is connected with a second inlet of the first hollow closed shell pipe fitting.

Therefore, water in the stove water tank flows into the first hollow closed shell pipe fitting after being pressurized by the second water pump, and then can enter the heat absorption water tank, and when the tap water pipe communicated with the municipal tap water pipe network cannot supply water into the heat absorption water tank, the heat absorption water tank is prevented from being burnt out due to water supply interruption.

The moisture system further comprises:

the second steam discharge pipe is arranged in the heat absorption water tank, an opening at the top end of the second steam discharge pipe is positioned above the water surface in the heat absorption water tank, the bottom end of the second steam discharge pipe is connected with an inlet of a third steam pipe, and the outlet end of the third steam pipe is connected with equipment using steam; or the outlet end of the third steam pipe is connected with the first inlet of a sixth hollow closed shell pipe fitting, the first outlet of the sixth hollow closed shell pipe fitting is connected with the inlet end of a fourth steam pipe, the outlet end of the fourth steam pipe is connected with the inlet on the pipe wall of the external smoke exhaust pipe of the stove body, the second outlet of the sixth hollow closed shell pipe fitting is connected with the inlet end of a third water drain pipe, the outlet end of the third water drain pipe is connected with the third inlet on the pipe wall of the fourth hollow closed shell pipe fitting, the outlet on the pipe wall of the bottom of the external smoke exhaust pipe of the stove body is connected with the inlet end of a fourth water drain pipe, and the outlet end of the fourth water drain pipe is connected with the second inlet of the sixth hollow closed shell pipe fitting.

Therefore, the hot steam above the water surface in the heat absorption water tank can be discharged in time and is provided for the equipment using the hot steam.

Drawings

FIG. 1 is a first axis schematic view of a gas stove with a water vapor system of the present invention showing a stove support and a stove housing;

FIG. 2 is a second axis schematic view of the gas stove with the water vapor system of the present invention, without the stove support and stove housing;

FIG. 3 is a third axis view of the gas stove with the water vapor system of the present invention, without the stove support and the stove housing;

FIG. 4 is a fourth axis schematic view of the gas stove with a steam system of the present invention, shown without the stove support and the stove housing;

fig. 5 is a fifth axis schematic view of a gas range with a steam system of the present invention, without showing the range support and range housing.

Detailed Description

The features and advantages of the gas cooking stove with a steam system according to the present invention will become more apparent from the following description of the preferred embodiments of the gas cooking stove with a steam system according to the present invention with reference to the accompanying drawings.

The utility model discloses gas stove with steam system is to the utility model patent application of publication No. CN111947184A the kitchen body make the change, cancelled the outside horizontal heat absorption water tank of the kitchen body, the horizontal flue gas passageway of the kitchen body cancels thereupon, the kitchen body after the change has a furnace inner circle heat absorption water tank furnace outer lane heat absorption water tank and an inside horizontal heat absorption water tank, the import of the outside pipe of discharging fume and the inside annular flue gas passageway intercommunication of the kitchen body.

Referring to fig. 1, a cooktop body 1 and a cooktop water tank 2 are supported by a range bracket 80.

The body 1 is protected by the range housing 90 coupled to the range bracket 80 and looks good.

Referring to fig. 2 to 5, the present invention provides a water vapor system for a gas cooker, comprising:

the water tank 2, the dead weight type safety valve 3, the water level sensor probe 4, the first water pump 6, the second water pump 8, the temperature control sensor probe 7 and the electric control device (not shown).

The moisture system further comprises:

a first float water tank 300 and a hot water float water tank 500;

a first float valve 101 and a second float valve 103;

a first check valve 201 and a second check valve 202;

a first solenoid valve 401 and a second solenoid valve 402;

a first drain valve 701 and a first drain valve 702;

a first tee 901 and a second tee 902, which are respectively three openings on the wall of the closed shell;

a first cross 301, a second cross 302, a first square tube 303 and a second square tube 304, which are respectively four openings on the wall of the closed shell;

a bottom bracket 602, which is a closed housing having five openings in the wall;

cold water faucet 200 and hot water faucet 600;

a first cold water pipe 501, a second cold water pipe 502, a third cold water pipe 503, and a fourth cold water pipe 504;

a first hot water pipe 505, a second hot water pipe 506, a third hot water pipe 507, and fourth hot water pipes 20-508;

a first in-tank steam discharge pipe 509, a first steam pipe 511, a second steam pipe 512, a third steam pipe 522, a fourth steam pipe 523, and a second in-tank steam discharge pipe 521;

a first water drain pipe 513, a second water drain pipe 516, a third water drain pipe 524, a fourth water drain pipe 525, a stove surface sewage draining pipe 517, a first water pipe 518 and a second water pipe 519.

The outlet end of the tap water pipe 100 communicating with the municipal tap water pipe network is connected to the inlet of the first check valve 201. The outlet of the first one-way valve 201 is connected to the first inlet of the first four-way valve 301. The first outlet of the first four-way joint 301 is connected with the inlet end of the first cold water pipe 501. The outlet end of the first cold water pipe 501 is connected with the inlet of the first tee 901. A first outlet of the first tee 901 is connected with an inlet of a first float valve 101 installed in the first float water tank 300. The outlet on the bottom wall of the first float tank 300 is connected to the inlet end of the second cold water pipe 502. The outlet end of the second cold water pipe 502 is connected with a first cold water inlet on the outer wall of a heat absorption water tank on the outer ring of the hearth of the stove body 1. The second outlet of the first tee 901 is connected to the inlet end of the fourth cold water pipe 504. The outlet end of the fourth cold water pipe 504 is connected to the inlet of the cold water faucet 200. The second outlet of the first four-way valve 301 is connected to the inlet of the first solenoid valve 401. The outlet of the first solenoid valve 401 is connected to the inlet end of a third cold water pipe 503. The outlet end of the third cold water pipe 503 is connected to the second cold water inlet on the bottom wall of the heat absorption water tank on the outer ring of the hearth of the stove body 1. The second inlet of the first four-way valve 301 is connected to the outlet of the second one-way valve 202.

The water level sensor probe 4 is installed on the outer wall of the furnace outer ring heat absorption water tank of the stove body 1, extends into the furnace outer ring heat absorption water tank, and is electrically connected with an electric control device (not shown) of the first electromagnetic valve 401.

The outlet on the top wall of the first float water tank 300 is connected with a dead weight type safety valve 3.

An outlet on the bottom wall of the heat absorption water tank on the outer ring of the hearth of the stove body 1 is connected with an inlet end of a first hot water pipe 505. The outlet end of the first hot water pipe 505 is connected with the inlet of the first water pump 6. The outlet of the first water pump 6 is connected with the inlet of the five-way pipe 602. The first outlet of the five-way valve 602 is connected to the inlet of the second solenoid valve 402. The outlet of the second solenoid valve 402 is connected to the inlet end of a second hot water pipe 506. The outlet end of the second hot water pipe 506 is connected to the inlet of the second ball cock 103 installed in the hot water float tank 500. The outlet on the bottom wall of the hot water float tank 500 is connected to the inlet of the first drain valve 702. The second outlet of the five-way valve 602 is connected to the inlet end of a third hot water pipe 507. The outlet end of the third hot water pipe 507 is connected with the inlet on the outer wall of the heat absorption water tank on the outer ring of the hearth of the stove body 1. The third outlet of the five-way valve 602 is connected to the inlet end of the fourth hot water pipe 508. The outlet end of the fourth hot water pipe 508 is connected to the inlet of the hot water tap 600. The fourth outlet of the five-way valve 602 is connected to the inlet of the first waste valve 701. The five-way valve 602 further has an interface through which the temperature sensor probe 7 extends into the inner cavity of the five-way valve 602 and is electrically connected with an electric control device (not shown) of the second solenoid valve 402. A first restriction orifice plate (not shown) is mounted in the second outlet of the five-way valve 602.

An in-tank first steam discharge pipe 509 is installed in the heat absorption water tank of the outer ring of the furnace of the body 1. The top opening of the first vapor outlet pipe 509 in the tank is inclined and is positioned above the water surface in the heat absorption water tank on the outer ring of the hearth of the stove body 1, and the bottom end of the first vapor outlet pipe 509 in the tank is connected with the inlet of the second cross 302. The first outlet of the second cross 302 is connected to the inlet end of a first vapor tube 511. The outlet end of the first vapor tube 511 is connected to the inlet on the top wall of the first float water tank 300. The second outlet of the second cross 302 is connected to the inlet end of a second vapor tube 512. A second restriction orifice plate (not shown) is mounted in the second outlet of the second cross 302. The outlet end of the second vapor tube 512 is inserted into a first hole in the top wall of the first tube 303. The third outlet of the second cross 302 is connected to the inlet end of a first downcomer 513. A third restriction orifice plate (not shown) is mounted within the third outlet of the second cross 302. The outlet end of the first downcomer 513 is inserted into a second opening in the top wall of the first tube 303. The lumen of the first tube 303 is open to the atmosphere. The outlet of the first square pipe 303 is connected with the inlet of the second drain pipe 516. The outlet end of the second drain pipe 516 is connected with the inlet on the outer wall of the kitchen surface sewage pipe 517. The top opening of the top drain 517 is connected to the opening on the top plate of the cooking range housing.

The inlet end of the first water pipe 518 is connected to an outlet on the bottom wall of the cooktop water tank 2. The outlet end of the first water pipe 518 is connected with the inlet of the second water pump 8. The outlet of the second water pump 8 is connected to the inlet end of a second water pipe 519. The outlet end of the second water tube 519 is connected to the inlet of a second check valve 202. The outlet of the second one-way valve 202 is connected to the second inlet of the first four-way valve 301.

Referring to fig. 4, an in-tank second steam discharge pipe 521 is installed in the heat absorption water tank at the outer periphery of the furnace of the oven body 1. The top end opening of the second steam discharge pipe 521 in the tank is inclined and is positioned above the water surface in the heat absorption water tank on the outer ring of the hearth of the stove body 1, and the bottom end of the second steam discharge pipe 521 in the tank is connected with the inlet end of the third steam pipe 522. The outlet end of the third vapor tube 522 is connected to the first inlet of the second square tube 304. The first outlet of the second square pipe 304 is connected to the inlet end of the fourth steam pipe 523. The outlet end of the fourth steam pipe 523 is connected with the inlet on the pipe wall of the external smoke exhaust pipe 39-50 of the stove body 1. The second outlet of the second square pipe 304 is connected to the inlet end of a third downcomer 524. The outlet end of the third drainage pipe 524 is connected with the third inlet on the pipe wall of the first square pipe 303. The outlet on the bottom wall of the outer smoke exhaust duct 50 is connected to the inlet end of a fourth downcomer 525. The outlet end of the fourth downcomer 525 is connected to the second inlet of the second square pipe 304.

Referring to fig. 3, alternatively, the outlet end of the third steam pipe 522 is not connected to the first inlet of the second square pipe 304, but is connected to a device (not shown) using steam.

The inlet end of the outer flue pipe 50 communicates with the inner annular flue gas channel of the oven body.

The utility model discloses gas kitchen range's with steam system's specific operation as follows:

referring to fig. 2 and 5, the tap water flows into the first four-way valve 301 from the first inlet of the first four-way valve 301 through the tap water pipe 100 and the first check valve 201 in sequence, and then flows out of the first four-way valve 301 from the two outlets of the first four-way valve 301:

tap water flowing out of the first outlet of the first four-way joint 301 flows into an inlet of the first three-way joint 901 through the first cold water pipe 501, flows into an inlet of the first ball float valve 101 installed in the first ball float water tank 300 from the first outlet of the first three-way joint 901, when the liquid level in the first ball float water tank 300 is lower than a set liquid level, the first ball float valve 101 is opened, the tap water flows into the first ball float water tank 300 from the outlet of the first ball float valve 101, then flows into the furnace outer ring heat absorption water tank of the stove body 1 through the second cold water pipe 502, and when the liquid level in the first ball float water tank 300 reaches the set liquid level, the first ball float valve 101 is closed, and the tap water supply into the first ball float water tank 300 is stopped. The tap water flowing out of the second outlet of the first three-way joint 901 flows to the inlet of the cold water tap 200 through the fourth cold water pipe 504, and when the cold water tap 200 is manually opened to use the tap water, the tap water flows out of the cold water tap 200.

Tap water flowing out of the second outlet of the first four-way valve 301 flows to the inlet of the first electromagnetic valve 401, when the water level sensor probe 4 mounted on the outer wall of the hearth outer ring heat absorption water tank of the stove body 1 detects that the liquid level in the hearth outer ring heat absorption water tank is lower than the height position of the hearth outer ring heat absorption water tank, namely the set liquid level, the first electromagnetic valve 401 is opened, tap water flows out of the outlet of the first electromagnetic valve 401 and then flows into the hearth outer ring heat absorption water tank of the stove body 1 through the third cold water pipe 503, and when the water level sensor probe 4 detects that the liquid level in the hearth outer ring heat absorption water tank reaches the set liquid level, the first electromagnetic valve 401 is closed, and tap water is stopped being supplemented into the hearth outer ring heat absorption water tank.

The heat absorption water tank of the inner ring of the hearth, the heat absorption water tank of the outer ring of the hearth and the set liquid levels in the transverse heat absorption water tank are the same. The set liquid level in the first floating ball water tank 300 is higher than the set liquid levels in the hearth inner ring heat absorption water tank, the hearth outer ring heat absorption water tank and the inner transverse heat absorption water tank. Therefore, when the liquid levels in the hearth inner ring heat absorption water tank, the hearth outer ring heat absorption water tank and the inner transverse heat absorption water tank are lower than the set liquid level, tap water can be simultaneously supplemented into the hearth inner ring heat absorption water tank, the hearth outer ring heat absorption water tank and the inner transverse heat absorption water tank through the first floating ball water tank 300 and the first electromagnetic valve 401; when the liquid levels in the hearth inner ring heat absorption water tank, the hearth outer ring heat absorption water tank and the inner transverse heat absorption water tank reach the set liquid levels, tap water can be stopped from being supplied into the hearth inner ring heat absorption water tank, the hearth outer ring heat absorption water tank and the inner transverse heat absorption water tank through the first electromagnetic valve 401, tap water can be continuously supplied into the hearth inner ring heat absorption water tank, the hearth outer ring heat absorption water tank and the inner transverse heat absorption water tank through the first floating ball water tank 300, and when the liquid levels in the hearth inner ring heat absorption water tank, the hearth outer ring heat absorption water tank and the inner transverse heat absorption water tank continue to rise to the same set liquid level as that in the first floating ball water tank 300, the first floating ball water tank 300 stops supplying tap water into the hearth inner ring heat absorption water tank, the hearth outer ring heat absorption water tank and the inner transverse heat absorption water tank.

The hot water flowing out from the outlet on the bottom wall of the heat absorption water tank on the outer ring of the hearth of the stove body 1 flows into the first water pump 6 through the first hot water pipe 505, flows into the five-way pipe 602 after being pressurized, and then flows out from the five-way pipe 602 from the four outlets of the five-way pipe 602:

when the temperature control sensor probe 7 mounted on the outer wall of the five-way 602 detects that the temperature of the hot water in the five-way 602 is higher than a set temperature, the second electromagnetic valve 402 is opened, the hot water flows out from the first outlet of the five-way 602, then flows to the inlet of the second ball float valve 103 mounted in the hot water ball float tank 500 through the second electromagnetic valve 402 and the second hot water pipe 506 in sequence, when the liquid level in the hot water ball float tank 500 is lower than the set liquid level, the second ball float valve 103 is opened, the hot water flows into the hot water ball float tank 500 from the outlet of the second ball float valve 103, when the liquid level in the hot water ball float tank 500 reaches the set liquid level, the second ball float valve 103 is closed, the hot water supply into the hot water ball float tank 500 is stopped, and when the temperature control sensor probe 7 detects that the temperature of the hot water in the five-way 602 is lower than the set temperature, the second electromagnetic valve 402 is closed.

The hot water flowing out from the second outlet of the five-way pipe 602 flows into the heat absorption water tank on the outer ring of the hearth of the stove body 1 through the third hot water pipe 507. The first flow-limiting orifice plate installed in the second outlet of the five-way valve 602 limits the flow of hot water flowing to the furnace outer heat-absorbing water tank of the furnace body 1, and prevents most of the hot water from flowing into the furnace outer heat-absorbing water tank of the furnace body 1 when the hot water is replenished into the hot water floating ball water tank 500, and only a small part of the hot water flows into the hot water floating ball water tank 500 through the second floating ball valve 103, thereby affecting the speed of replenishing hot water into the hot water floating ball water tank 500.

The hot water flowing out of the third outlet of the five-way valve 602 flows to the inlet of the hot water tap 600 through the fourth hot water pipe 508, and when the hot water tap 600 is manually opened in order to use the hot water, the hot water flows out of the hot water tap 600.

Hot water flowing out from the fourth outlet of the five-way pipe 602 flows to the inlet of the first waste water discharge valve 701, and when waste water in the bottom of the hot water absorption tank needs to be discharged, the first waste water discharge valve 701 can be manually opened.

The hot steam above the water surface in the hearth outer ring heat absorption water tank of the oven body 1 enters the first vapor discharge pipe 509 in the tank from the top-end inclined opening of the first vapor discharge pipe 509 in the tank installed in the hearth outer ring heat absorption water tank of the oven body 1, then flows into the second four-way 302 from the inlet of the second four-way 302, and then flows out of the second four-way 302 from three outlets of the second four-way 302:

the hot steam flowing out from the first outlet of the second cross 302 flows into the first float water tank 300 through the first steam pipe 511, and is used for balancing the working pressure of the space above the water surface in the hearth outer ring heat absorption water tank, the hearth inner ring heat absorption water tank and the inner transverse heat absorption water tank of the oven body 1 and the space above the water surface in the first float water tank 300.

The hot steam flowing out of the second outlet of the second cross 302 flows into the first square pipe 303 through the second steam pipe 512, so that the working pressure above the water surface in the hearth outer ring heat absorption water tank, the hearth inner ring heat absorption water tank, the inner transverse heat absorption water tank and the first floating ball water tank 300 is equal to the atmospheric pressure.

The steam condensate flowing out of the third outlet of the second cross 302 flows into the first square tube 303 through the first drain pipe 513.

The hot steam above the water surface in the heat absorption water tank on the outer ring of the hearth of the stove body 1 enters the second steam discharge pipe 521 in the stove body from the inclined opening at the top end of the second steam discharge pipe 521 in the stove body 1, then flows into the second square pipe 304 through the third steam pipe 522, the second square pipe 304 is a steam-water separator, and the hot steam entering the second square pipe 304 is separated into water and then flows into the external smoke discharge pipe 50 of the stove body 1 through the fourth steam pipe 523. The condensed water in the bottom of the external smoke exhaust pipe 50 flows into the second square pipe 304 through the fourth drain pipe 525. The separated water and condensed water in the bottom of the second square pipe 304 flow into the first square pipe 303 through the third drain pipe 524.

The condensed water in the first square tube 303 flows into a drainage pipe 517 of the kitchen top through a second drainage pipe 516.

Referring to fig. 4, the water in the cooktop water tank 2 flows into the second water pump 8 through the first water pipe 518, is pressurized, and then flows into the second check valve 202 through the second water pipe 519. Under the condition of the supply interruption of tap water, the second water pump 8 is started to convey water in the stove water tank 2 into the first four-way joint 301, so that the water supply interruption in the heat absorption water tank is prevented.

Alternatively, the cooktop water tank 2, first water pipe 518, second water pump 8, second water pipe 519, first check valve 201, and second check valve 202 of fig. 4 may be eliminated, and the four-way valve 301 may be replaced with a second three-way valve 902, as shown in fig. 2.

Claims (6)

1. A gas stove with a water vapor system is provided with a stove body, wherein the stove body is provided with a heat absorption water tank, and a space defined by the inner wall of the heat absorption water tank is a hearth; it is characterized by also comprising a water vapor system, wherein the water vapor system comprises:

a tap water pipe communicated with a municipal tap water pipe network, wherein the outlet end of the tap water pipe is connected with a first inlet of a first hollow closed shell pipe fitting, a first outlet of the first hollow closed shell pipe fitting is connected with the inlet end of a first cold water pipe, the outlet end of the first cold water pipe is connected with the inlet of a second hollow closed shell pipe fitting, a first outlet of the second hollow closed shell pipe fitting is connected with the inlet of a first ball float valve arranged in a first ball float water tank, the outlet on the bottom wall of the first ball float water tank is connected with the inlet end of a second cold water pipe, the outlet end of the second cold water pipe is connected with a first cold water inlet on the outer wall of the heat absorption water tank, the second outlet of the second hollow closed shell pipe fitting is connected with the inlet end of a fourth cold water pipe, the outlet of the fourth cold water pipe is connected with the inlet of a cold water tap, the second outlet of the first hollow closed shell pipe fitting is connected with the inlet of a first electromagnetic valve, the outlet of the first electromagnetic valve is connected with the inlet of a third cold water pipe, and the inlet of the third cold water pipe is connected with the outlet on the bottom wall of the heat absorption water tank;

a water level sensor probe is arranged on the outer wall of the heat absorption water tank, extends into the heat absorption water tank and is electrically connected with the electric control device of the first electromagnetic valve;

the set liquid level in the first floating ball water tank is higher than the set liquid level in the heat absorption water tank.

2. The gas range with a water vapor system of claim 1, further comprising:

the first steam discharge pipe is arranged in the heat absorption water tank, the top end opening is positioned above the water surface in the heat absorption water tank, the bottom end of the first steam discharge pipe is connected with an inlet of a third hollow closed shell pipe fitting, a first outlet of the third hollow closed shell pipe fitting is connected with an inlet end of a first steam pipe, an outlet end of the first steam pipe is connected with an inlet on the top wall of the first floating ball water tank, a second outlet of the third hollow closed shell pipe fitting is connected with an inlet end of a second steam pipe, an outlet end of the second steam pipe is inserted into a first hole on the top wall of a fourth hollow closed shell pipe fitting, a third outlet of the third hollow closed shell pipe fitting is connected with an inlet end of a first drain pipe, an outlet end of the first drain pipe is inserted into a second hole on the top wall of the fourth hollow closed shell pipe fitting, and an inner cavity of the fourth hollow closed shell pipe fitting is communicated with the atmosphere.

3. A gas range with a water vapor system as set forth in claim 2 wherein the outlet of the fourth hollow closed housing tube member is connected to the inlet of a second downcomer, the outlet of the second downcomer being connected to the inlet of the outer wall of a cooktop waste pipe, the top opening of the cooktop waste pipe being connected to the opening in the cooktop top of the range housing.

4. The gas range having a water vapor system according to claim 3, wherein the water vapor system further comprises:

the inlet end of the first hot water pipe is connected with the outlet on the bottom wall of the heat absorption water tank, the outlet end of the first hot water pipe is connected with the inlet of a first water pump, the outlet of the water pump is connected with the inlet end of a fifth hollow closed shell pipe fitting, the first outlet of the fifth hollow closed shell pipe fitting is connected with the inlet of a second electromagnetic valve, the outlet of the second electromagnetic valve is connected with the inlet end of a second hot water pipe, the outlet end of the second hot water pipe is connected with the inlet of a second ball float valve arranged in a hot water floating ball water tank, the second outlet of the fifth hollow closed shell pipe fitting is connected with the inlet end of a third hot water pipe, and the outlet end of the third hot water pipe is connected with the inlet on the outer wall of the heat absorption water tank;

and a temperature control sensor probe is arranged on the outer wall of the fifth hollow closed shell pipe fitting, extends into the fifth hollow closed shell pipe fitting and is electrically connected with the electric control device of the second electromagnetic valve.

5. The gas range having a moisture system of claim 4, further comprising:

the inlet end of the first water pipe is connected with an opening on the bottom wall of a cooking surface water tank, the outlet end of the first water pipe is connected with an inlet of a second water pump, an outlet of the second water pump is connected with an inlet end of a second water pipe, an outlet end of the second water pipe is connected with an inlet of a second one-way valve, and an outlet of the second one-way valve is connected with a second inlet of the first hollow closed shell pipe fitting.

6. The gas range having a moisture system of claim 5, further comprising:

the second steam discharge pipe is arranged in the heat absorption water tank, an opening at the top end of the second steam discharge pipe is positioned above the water surface in the heat absorption water tank, the bottom end of the second steam discharge pipe is connected with an inlet of a third steam pipe, and the outlet end of the third steam pipe is connected with equipment using steam; or the outlet end of the third steam pipe is connected with the first inlet of a sixth hollow closed shell pipe fitting, the first outlet of the sixth hollow closed shell pipe fitting is connected with the inlet end of a fourth steam pipe, the outlet end of the fourth steam pipe is connected with the inlet on the pipe wall of the external smoke exhaust pipe of the stove body, the second outlet of the sixth hollow closed shell pipe fitting is connected with the inlet end of a third water drain pipe, the outlet end of the third water drain pipe is connected with the third inlet on the pipe wall of the fourth hollow closed shell pipe fitting, the outlet on the pipe wall of the bottom of the external smoke exhaust pipe of the stove body is connected with the inlet end of a fourth water drain pipe, and the outlet end of the fourth water drain pipe is connected with the second inlet of the sixth hollow closed shell pipe fitting.

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