CN201844544U - Instantly heating type water heater with decompression and drip-proof structure - Google Patents

Instantly heating type water heater with decompression and drip-proof structure Download PDF

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Publication number
CN201844544U
CN201844544U CN2010202039446U CN201020203944U CN201844544U CN 201844544 U CN201844544 U CN 201844544U CN 2010202039446 U CN2010202039446 U CN 2010202039446U CN 201020203944 U CN201020203944 U CN 201020203944U CN 201844544 U CN201844544 U CN 201844544U
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water
valve
container
pipe
gas
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Expired - Lifetime
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CN2010202039446U
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Chinese (zh)
Inventor
盛建寅
张振权
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Individual
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Individual
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Abstract

The utility model relates to an instantly heating type water heater with a decompression and drip-proof structure, which consists of a container, an electric heating element, a temperature controller, a temperature sensor, a gas valve, a water valve, a gas outlet pipe, a water inlet pipe, a water outlet pipe and a water and gas outlet tap, wherein the electric heating element with the temperature controller is arranged in the container, the temperature sensor is arranged on the outer wall of the container, and a water inlet connecting pipe is connected with the water inlet pipe of the container; a gas pressure pipe and the water and gas outlet tap are respectively arranged at the top of the container; the gas pressure pipe is connected with the water and gas outlet tap by the gas valve and the gas outlet pipe; and the gas valve and the water valve are in an integral structure for realizing operation synchronism. By adopting the structure, the water heater has the advantages of energy saving and simple structure. With the adoption of the integral gas and water valve structure, the container does not need to have pressure bearing function.

Description

A kind of instant-heating formula boiler with decompression antidrip structure
Technical field
The utility model relates to field of electric heating, particularly a kind of instant-heating formula boiler with decompression antidrip structure.
Background technology
In traditional boiler, exist following defective: structure is if unenclosed construction, and then it necessarily exists a large amount of outer releases of heat energy and the lower feature of the thermal efficiency in the course of the work; And if be designed to closedly on the structure, then its pressure-bearing property in the course of the work certainly leads to bigger difficulty and the serious feature of water clock water.
The utility model content
The purpose of this utility model is to provide the instant-heating formula boiler with decompression antidrip feature of a kind of not only energy-conservation but also simple structure, and the air water valve arrangement of integral type can realize that the synchronism of operating makes container need not the function of pressure-bearing.
The purpose of this utility model is achieved in that a kind of instant-heating formula boiler with decompression antidrip structure is to be made of container, heating, temperature controller, temperature sensor, air valve, water valve, escape pipe, water inlet pipe, outlet pipe and the water outlet tap of giving vent to anger; Wherein, the heating that has temperature controller is installed in the container, temperature sensor is installed on the container outer wall, the water inlet tube connector is connected with the water inlet pipe of container by water valve; Pneumatic tube and the water outlet tap of giving vent to anger is installed in the top of container respectively; Pneumatic tube is given vent to anger leading the connection with water outlet by air valve and escape pipe.
-described air valve, water valve are structure as a whole; Mainly constitute by valve body 15, penstock 31, air valve 32, outlet pipe component, handle 27 and other parts; Wherein,
Valve rod B25 on penstock 31, the air valve 32, valve rod A1 are connected with handle 27 by pin 26;
Hose coupling 19 connects the container water outlets tap of giving vent to anger;
Hose coupling 30 in the penstock connects the water source, communicates with hydroecium 28 through connecting hole 29, and hose coupling 20 connects the water inlet pipe of container; Sealing gasket 22 is blocked at the following water nozzle 21 of spring 23 effects; Water nozzle 21 is in normally off;
Hose coupling 10 in the air valve connects the container pneumatic tube, and air chamber 5 communicates with outlet passageway 14 through connecting hole 18; Valve piece 8, sealing gasket 7 leave valve 6 under spring 4 effects, valve 6 is in normally open; Gas from container through air chamber 5, connecting hole 18, outlet passageway 14 to atmosphere.
Air water valve arrangement integral type can realize that the synchronism of operating makes container need not the function of pressure-bearing owing to there is above-mentioned structure to make that the utility model is not only energy-conservation but also simple in structure.
Description of drawings
Fig. 1 is the utility model overall structure schematic diagram;
Fig. 2 (a) is the A-A cutaway view of the utility model air valve, water valve integrative-structure figure;
Fig. 2 (b) is the B-B cutaway view of the utility model air valve, water valve integrative-structure figure;
Fig. 2 (c) is the C-C cutaway view of the utility model air valve, water valve integrative-structure figure;
Fig. 2 (d) is the utility model air valve, water valve integrative-structure vertical view;
Fig. 2 (e) is the utility model air valve, water valve integrative-structure upward view.
Among the figure,
The 101-water outlet tap of giving vent to anger; The 102-temperature sensor; The 103-container; 104-heating A; 105-heating B; The 106-escape pipe; The 107-air valve; The 108-pneumatic tube; 109-temperature controller K 1, 110-temperature controller K 2The 111-water valve; The 112-tube connector of intaking; The 113-water inlet pipe;
1-valve rod A, 2-valve gap, 3-sealing ring, 4-spring, the 5-air chamber, 6-valve, 7-sealing ring, 8-slide block, the 9-spring, 10-hose coupling, pipe in the 11-outlet pipe outer tube, 12-outlet pipe, the 13-exhalant canal, 14-outlet passageway, 15-valve body, the 16-trip bolt, 17-sealing ring, 18-connecting hole, the 19-hose coupling, 20-hose coupling, 21-water hole, the 22-sealing gasket, 23-spring, 24-valve gap, 25-valve rod B, 26-pin, 27-handle, the 28-hydroecium, 29-connecting hole, 30-hose coupling, the 31-water valve, 32-air valve, 33-screw.
The specific embodiment
Referring to Fig. 1, operation principle: 1) supply water and water valve 111 when being in opening when water inlet tube connector 112, through water inlet pipe 113 water is injected container 103, on behalf of water, water outlet in the container to fill with in tap 101 is given vent to anger in water outlet, and air valve 107 is in closed condition in the injecting process.
2) after container is filled with water, water valve 111 cuts out and air valve 107 is in opening, this structure is to realize that heating A104 or B105 or A, B 106 discharge through the water outlet tap 101 of giving vent to anger to air valve 107 to escape pipe through pneumatic tube 108 fully to the vapour pressure that produced during the water heating in the container 103, and container 103 need not the function of pressure-bearing.
3) heating A104 and heating B105 structurally see Fig. 1, if when liquid level in the container is lower than the temperature control position, and temperature controller K 1109 or temperature controller K 2110 can cut off corresponding heating A or B-source automatically automatically, have prevented from like this to take place because of the phenomenon that the container lack of water causes heating to burn out.Temperature control circuit is a prior art, is not described in detail at this.
Referring to Fig. 2 (a) and (b), (c), (d), (e), air valve (7) and water valve (11) are structurally realized integrated, with the synchronism that realizes operating,
It mainly is made up of parts such as valve body 15, water valve 31, air valve 32, outlet pipe component, handles 27.
Valve rod B25 on water valve 31, the air valve 32, valve rod A1 are connected with handle 27 by pin 26;
Hose coupling 19 connects the vessel water tap of giving vent to anger.
Water valve 31 structures and operation principle:
Hose coupling 30 connects the water source, communicates with hydroecium 28 through connecting hole 29, and hose coupling 20 connects the water inlet pipe (water inlet pipe 13 among Fig. 1) of container; Sealing gasket 22 is blocked at the following water nozzle 21 of spring 23 effects; Water nozzle 21 is in normally off;
As press handle 27, and then driving valve rod B25 and rise through pin 26, sealing gasket 22 leaves water nozzle 21, and then water nozzle 21 is opened, and water enters the heating container through water nozzle 22, hose coupling 20 from hose coupling 30;
Air valve 32 structures and operation principle:
Hose coupling 10 connects heating container outlet (pneumatic tube 8 among Fig. 1), and air chamber 5 communicates with outlet passageway 14 through connecting hole 18; Valve piece 8, sealing gasket 7 leave valve 6 under spring 4 effects, valve 6 is in normally open; Gas from the heating container through air chamber 5, connecting hole 18, outlet passageway 14 to atmosphere;
As press handle 27, and then driving valve rod A1 and rise through pin 26, valve piece 8, sealing gasket 7 are blocked at the following valve 6 of spring 9 effects, and valve 6 is in closed condition;
During off working state, penstock 31 is in normally off, and air valve 32 is in normally open; When pressing handle 27, pin 26 drives valve rod A1, valve rod B25 and rises simultaneously, thereby make penstock 31, air valve 32 change state simultaneously; Be that penstock 31 becomes unlatching by closure, air valve 32 becomes closure by unlatching;

Claims (2)

1. instant-heating formula boiler with decompression antidrip structure is characterized in that: be to be made of container, heating, temperature controller, temperature sensor, air valve, water valve, escape pipe, water inlet pipe, outlet pipe and the water outlet tap of giving vent to anger; Wherein, the heating that has temperature controller is installed in the container, temperature sensor is installed on the container outer wall, the water inlet tube connector is connected with the water inlet pipe of container by water valve; Pneumatic tube and the water outlet tap of giving vent to anger is installed in the top of container respectively; Pneumatic tube is given vent to anger leading the connection with water outlet by air valve and escape pipe.
2. a kind of instant-heating formula boiler according to claim 1 with decompression antidrip structure, it is characterized in that: described air valve, water valve are structure as a whole; Mainly constitute by valve body, penstock, air valve, outlet pipe component, handle; Wherein,
Valve rod B, valve rod A on penstock, the air valve are connected with handle by pin;
Hose coupling connects the container water outlet tap of giving vent to anger;
Hose coupling in the penstock connects the water source, communicates with hydroecium through connecting hole, and hose coupling connects the water inlet pipe of container; Sealing gasket is blocked water nozzle under spring action; Water nozzle is in normally off;
Hose coupling in the air valve connects the container pneumatic tube, and air chamber communicates with outlet passageway through connecting hole; Valve piece, sealing gasket leave valve under spring action, valve is in normally open; Gas from container through air chamber, connecting hole, outlet passageway atmosphere.
CN2010202039446U 2010-05-26 2010-05-26 Instantly heating type water heater with decompression and drip-proof structure Expired - Lifetime CN201844544U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN2010202039446U CN201844544U (en) 2010-05-26 2010-05-26 Instantly heating type water heater with decompression and drip-proof structure

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN2010202039446U CN201844544U (en) 2010-05-26 2010-05-26 Instantly heating type water heater with decompression and drip-proof structure

Publications (1)

Publication Number Publication Date
CN201844544U true CN201844544U (en) 2011-05-25

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ID=44039432

Family Applications (1)

Application Number Title Priority Date Filing Date
CN2010202039446U Expired - Lifetime CN201844544U (en) 2010-05-26 2010-05-26 Instantly heating type water heater with decompression and drip-proof structure

Country Status (1)

Country Link
CN (1) CN201844544U (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102466316A (en) * 2011-09-29 2012-05-23 冼光 Overflowing instantaneous water boiler without water storage tank

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102466316A (en) * 2011-09-29 2012-05-23 冼光 Overflowing instantaneous water boiler without water storage tank
CN102466316B (en) * 2011-09-29 2014-03-19 冼光 Overflowing instantaneous water boiler without water storage tank

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Addressee: Zhang Zhenquan

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Granted publication date: 20110525