CN216060210U - Water outlet nozzle capable of quickly condensing and exhausting gas and instant heating type water dispenser thereof - Google Patents

Abstract

The utility model relates to the technical field of drinking water products, and discloses a quick condensation exhaust water outlet nozzle and an instant heating type water dispenser thereof, which comprise a water outlet shell, wherein a water outlet cavity for water to flow is arranged in the water outlet shell; the condenser pipe is fixed in the first exhaust pipe, one end of the condenser pipe extends into the water outlet cavity along the first exhaust pipe, and the other end of the condenser pipe extends out of the water outlet cavity along the first exhaust pipe. The steam of play water intracavity touches the condenser pipe and can condense into water rapidly to through first exhaust pipe discharge water casing, the effectual temperature that reduces of condenser pipe goes out the water intracavity can reduce the production of play water intracavity steam after the cooling, thereby has reduced the steam and has mixed, plays the effect of improving out the water flow state.

Description

Water outlet nozzle capable of quickly condensing and exhausting gas and instant heating type water dispenser thereof

Technical Field

The utility model relates to the technical field of drinking water products, in particular to a quick-condensation exhaust water outlet nozzle and an instant heating type water dispenser thereof.

Background

Instant heating type drinking water products are popular with consumers, and the instant heating type drinking water products are characterized in that an extremely fast heating body is applied, so that water in the heating body is heated to be boiling at an extremely fast speed and flows out through the same pipeline. However, a large amount of hot gas is generated in the heating process, and a part of water is vaporized during boiling and is mixed with the hot gas, so that the conditions of sudden large and small water flow, left and right fluttering, intermittence, cutoff and the like are caused, the performance and the service life of a heating body are even influenced, and the heating body is dried, jumped for temperature control and the like. A major pain point of instant heating products, such as a balance tank for a faucet mounted water heater of application No. 201210145939.8.

SUMMERY OF THE UTILITY MODEL

The utility model provides a water outlet nozzle capable of quickly condensing and exhausting air and an instant heating type water dispenser thereof, aiming at the defects of great and small hot water outlet, left and right fluttering and intermittence of the water dispenser in the prior art.

In order to solve the technical problem, the utility model is solved by the following technical scheme:

a water outlet nozzle capable of condensing and exhausting quickly comprises a water outlet shell and a cover plate covering the water outlet shell, wherein a water outlet cavity for supplying water to flow is formed in the water outlet shell, one end of the water outlet shell is provided with a water inlet connector communicated with the water outlet cavity, and the other end of the water outlet shell is provided with a water outlet communicated with the water outlet cavity; a first exhaust pipe communicated with the water outlet cavity is arranged on the water outlet shell close to one end of the water inlet connector, one end of the first exhaust pipe extends to the upper end part of the water outlet cavity, and the other end of the first exhaust pipe extends out of the water outlet shell; the condenser pipe is fixed in the first exhaust pipe, one end of the condenser pipe extends into the water outlet cavity along the first exhaust pipe, and the other end of the condenser pipe extends out of the water outlet cavity along the first exhaust pipe. A first exhaust pipe is arranged in the water outlet shell, a condenser pipe is arranged in the first exhaust pipe, water vapor in the water outlet cavity can be rapidly condensed into water when contacting the condenser pipe and is exhausted out of the water outlet shell through the first exhaust pipe, and therefore the effect of rapid condensation and exhaust is achieved; the condenser pipe effectively reduces the temperature in the water outlet cavity, and the generation of hot gas in the water outlet cavity can be reduced after cooling, so that the water-vapor mixing is reduced, and the effect of improving the water outlet flow state is achieved. The other end of the condensation pipe extends out of the water outlet cavity and is effectively contacted with the atmospheric environment to carry out heat dissipation and energy exchange of the condensation pipe and ensure that the effluent flow state and the state are consistent. The condenser pipe design is in first blast pipe, and the comdenstion water is discharged through first blast pipe, and the purpose makes condenser pipe, comdenstion water separate with intaking, avoids condensation tubular product to exert an influence to quality of water, stops harm such as heavy metal.

Preferably, the top of the water outlet shell is provided with a step groove, the cover plate is covered on the water outlet shell through the step groove, the end surface of the top end of the first exhaust pipe is flush with the end surface of the step groove, and the upper end of the first exhaust pipe is provided with a notch communicated with the water outlet cavity. The first exhaust pipe is used for installing the condensation pipe, so that hot water in the water outlet cavity can be conveniently contacted with the condensation pipe through the notch to form condensed water; the first exhaust pipe can also be used for supporting the cover plate, and the cover plate can be stably installed on the water outlet shell.

Preferably, a second exhaust pipe communicated with the water outlet cavity is arranged on the water outlet cavity close to one end of the water outlet, one end of the second exhaust pipe extends into the water outlet cavity, the other end of the second exhaust pipe penetrates through the water outlet shell, and a gap is formed between the upper port of the second exhaust pipe and the cover plate. Part of water vapor can flow to the water outlet along with water flow, and the second exhaust pipe can further discharge the part of water vapor, so that the phenomena of interruption or sudden change and the like of hot water in the water outlet can be avoided.

Preferably, one side wall of the second exhaust pipe is the inner wall of the water outlet cavity. The second exhaust pipe is compact in structure, no gap exists between the second exhaust pipe and the inner wall of the water outlet cavity, so that later cleaning is facilitated, and meanwhile, due to the adoption of the structural form, materials can be effectively reduced, and the processing cost is saved.

Preferably, a water outlet groove is formed in the water outlet cavity close to one end of the water outlet, the water outlet and the second exhaust pipe are arranged on the water outlet groove, at least one flow guide pipe is arranged on the periphery of the water outlet, and the upper port of each flow guide pipe is lower than the notch of the water outlet groove. The delivery port is in the lower position of relief, makes things convenient for hot water to discharge from the delivery port, and the honeycomb duct also is another delivery port, and the bubble can be better separated out to the delivery port of two height dislocation, guarantees the stability of going out water. The second exhaust pipe and the first exhaust pipe form a space fall, and the discharge of water vapor is further improved.

Preferably, one side wall of the draft tube is the inner wall of the water outlet cavity. The honeycomb duct is compact in structure, and no gap exists between the honeycomb duct and the inner wall of the water outlet cavity, so that later cleaning is facilitated, and meanwhile, due to the structural form, materials can be effectively reduced, and the processing cost is saved.

Preferably, a water outlet pipe communicated with the water outlet is fixed outside the water outlet shell, a water outlet connector sleeved on the water outlet pipe is installed on the water outlet shell, a flow passage is arranged between the water outlet connector and the water outlet pipe, and the lower ports of the second exhaust pipe and the flow guide pipe are communicated with the flow passage.

Preferably, a partition plate is fixed on the inner side wall of the water outlet joint, the partition plate divides the flow passage into an exhaust flow passage and a drainage flow passage, the lower port of the second exhaust pipe is communicated with the exhaust flow passage, and the lower port of the flow guide pipe is communicated with the drainage flow passage. The water and the steam are separated, and the stability of the hot water during discharge is ensured.

An instant heating type water dispenser comprises a water outlet nozzle for rapid condensation and exhaust.

Due to the adoption of the technical scheme, the utility model has the remarkable technical effects that:

the design has first blast pipe in the play water casing, installs the condenser pipe in the first blast pipe, and the vapor in the play water intracavity touches the condenser pipe and can condense into water rapidly to discharge the play water casing through first blast pipe, thereby reach the carminative effect of rapid condensation.

The condenser pipe effectively reduces the temperature in the water outlet cavity, and the generation of hot gas in the water outlet cavity can be reduced after cooling, so that the water-vapor mixing is reduced, and the effect of improving the water outlet flow state is achieved.

The other end of the condensation pipe extends out of the water outlet cavity and is effectively contacted with the atmospheric environment to carry out heat dissipation and energy exchange of the condensation pipe and ensure that the effluent flow state and the state are consistent.

The condenser pipe design is in first blast pipe, and the comdenstion water is discharged through first blast pipe, and the purpose makes condenser pipe, comdenstion water separate with intaking, avoids condensation tubular product to exert an influence to quality of water, stops harm such as heavy metal.

Drawings

FIG. 1 is a schematic structural diagram of the present invention in a first position.

Fig. 2 is a schematic structural view in a second position state of the present invention.

Fig. 3 is a schematic view of the present invention without a cover plate.

Fig. 4 is a schematic cross-sectional view of the present invention without a cover plate.

Fig. 5 is a schematic structural view of the present invention without the water outlet joint.

Fig. 6 is a schematic structural view of the water outlet joint of the present invention.

The names of the parts indicated by the numerical references in the above figures are as follows:

1-Water outlet casing

2-cover plate

3-condenser tube

4-water outlet joint

10-Water outlet chamber

11-water inlet joint

12-water outlet

13-first exhaust pipe

14-step groove

15-second exhaust pipe

16-water outlet groove

17-honeycomb duct

18-outlet pipe

41-divider plate

100-flow channel

131-notch

Detailed Description

The utility model will be described in further detail below with reference to the accompanying figures 1-6 and examples.

Example 1

A rapid condensation exhaust water outlet nozzle comprises a water outlet shell 1 and a cover plate 2 covering the water outlet shell 1, wherein the water outlet shell 1 and the cover plate 2 are respectively integrally formed. A water outlet cavity 10 for flowing water is arranged in the water outlet shell 1, one end of the water outlet shell 1 is provided with a water inlet joint 11 communicated with the water outlet cavity 10, the water inlet joint 11 is used for connecting other equipment and guiding hot water into the water outlet cavity 10, and the water inlet joint 11 is integrally formed on the water outlet shell 1; the other end of the water outlet shell 1 is provided with a water outlet 12 communicated with the water outlet cavity 10.

Be equipped with the first blast pipe 13 with going out the water cavity 10 intercommunication on the play water casing 1 that is close to water supply connector 11 one end, first blast pipe 13 one end extends to the upper end of going out water cavity 10, and outside its other end extended to play water casing 1, this embodiment goes out to be equipped with two first blast pipes 13 on the water casing 1, first blast pipe 13 integrated into one piece on a water casing 1.

First blast pipe 13 internal fixation has condenser pipe 3, and condenser pipe 3 one end stretches into out the water cavity 10 along first blast pipe 13 in, and outside its other end extended to out water cavity 10 along first blast pipe 13, the hot water that water supply connector 11 flows out can enter into condenser pipe 3 of first blast pipe 13 earlier to the rapid condensation becomes water, discharges the faucet, thereby reaches the carminative effect of rapid condensation.

The first exhaust pipe 13 is designed in the water outlet shell 1, the condensation pipe 3 is installed in the first exhaust pipe 13, water vapor in the water outlet cavity 10 can be rapidly condensed into water when contacting the condensation pipe 3 and is exhausted out of the water outlet shell 1 through the first exhaust pipe 13, and therefore the effect of rapid condensation and exhaust is achieved

The condenser pipe 3 effectively reduces the temperature in the water outlet cavity 10, and the generation of hot gas in the water outlet cavity 10 can be reduced after the temperature is reduced, so that the water-vapor mixing is reduced, and the effect of improving the water outlet flow state is achieved.

The other end of the condensation pipe 3 extends out of the water outlet cavity 10 and is effectively contacted with the atmospheric environment to carry out heat dissipation and energy exchange of the condensation pipe 3 and ensure that the effluent flow state and the state are consistent.

Condenser pipe 3 designs in first blast pipe 13, and the comdenstion water is discharged through first blast pipe 13, and the purpose makes condenser pipe 3, comdenstion water and the intaking separate, avoids 3 materials of condenser pipe to exert an influence to quality of water, stops harm such as heavy metal.

The top of the water outlet shell 1 is provided with a step groove 14, the step groove 14 is arranged around the port of the water outlet cavity 10, the cover plate 2 is covered on the water outlet shell 1 through the step groove 14, the top end face of the first exhaust pipe 13 is flush with the end face of the step groove 14, the upper end of the first exhaust pipe 13 is provided with a notch 131 used for being communicated with the water outlet cavity 10, and the notch 131 facilitates water vapor to enter the first exhaust pipe 13 through the notch and contact with the condensation pipe 3.

The first exhaust 13 pipe is used for installing the condensation pipe 3, so that hot water in the water outlet cavity 10 can be conveniently contacted with the condensation pipe 3 through the notch 131 to form condensed water; the first exhaust pipe 13 can also be used for supporting the cover plate 2, and the cover plate 2 can be stably installed on the water outlet housing 1.

A second exhaust pipe 15 communicated with the water outlet cavity 10 is arranged on the water outlet cavity 10 close to one end of the water outlet 12, the second exhaust pipe 15 is integrally formed on the water outlet shell 1, one end of the second exhaust pipe 15 extends into the water outlet cavity 10, the other end of the second exhaust pipe penetrates through the water outlet shell 1, and a gap is formed between the upper port of the second exhaust pipe 15 and the cover plate 2.

Part of the water vapor flows to the water outlet 12 along with the water flow, and the second exhaust pipe 115 can further exhaust the part of the water vapor, so that the hot water does not have the phenomena of intermittence or sudden change and the like in the outlet water.

One side wall of the second exhaust pipe 15 is the inner wall of the water outlet cavity 10. The second exhaust pipe 15 is compact in structure, no gap exists between the second exhaust pipe 15 and the inner wall of the water outlet cavity 10, so that later-period cleaning is facilitated, meanwhile, due to the adoption of the structural form, materials can be effectively reduced, and the processing cost is saved.

A water outlet groove 16 is arranged on the water outlet cavity 10 close to one end of the water outlet 12, the water outlet 12 and the second exhaust pipe 15 are both arranged on the water outlet groove 16, at least one guide pipe 17 is arranged on the periphery of the water outlet 12, and the upper port of the guide pipe 17 is lower than the notch of the water outlet groove 16. The water outlet 12 is positioned lower than the water inlet of the water inlet joint 11, so that the hot water can be conveniently discharged from the water outlet 12. The honeycomb duct 17 is also another delivery port, and the bubble can be better separated out to two delivery ports of dislocation of height, guarantees the stability of going out water. The second exhaust pipe 15 forms a spatial fall with the first exhaust pipe 13, and further improves the discharge of moisture.

One side wall of the draft tube 17 is the inner wall of the water outlet cavity 10. The honeycomb duct 17 is compact in structure, no gap exists between the honeycomb duct 17 and the inner wall of the water outlet cavity 10, so that later cleaning is facilitated, and meanwhile, due to the structural form, materials can be effectively reduced, and the processing cost is saved.

A water outlet pipe 18 communicated with the water outlet 12 is fixed outside the water outlet shell 1, the water outlet pipe 18 is integrally formed on the water outlet shell 1, the upper port of the water outlet pipe 18 is the water outlet 12, a water outlet connector 4 sleeved on the water outlet pipe 18 is installed on the water outlet shell 1, the water outlet connector 4 is connected with the water outlet shell 1 in a clamping mode, a clamping groove is formed in the water outlet shell 1, a clamping block is arranged on the water outlet connector 4, and the water outlet connector 4 is clamped on the clamping groove of the water outlet shell 1 through the clamping block. A flow passage 100 is arranged between the water outlet joint 4 and the water outlet pipe 18, and the lower ports of the second exhaust pipe 15 and the draft tube 17 are communicated with the flow passage 100.

The inner side wall of the water outlet joint 4 is fixed with a partition plate 41, the partition plate 41 is integrally formed on the inner wall of the water outlet joint 4, the number of the partition plates 41 is 3 in the embodiment, the partition plate 41 divides the flow passage 100 into an exhaust flow passage and a drain flow passage, the lower port of the second exhaust pipe 15 is communicated with the exhaust flow passage, and the lower port of the flow guide pipe 17 is communicated with the drain flow passage.

Example 2

The embodiment 2 has substantially the same characteristics as the embodiment 1, except that the top end of the water outlet housing 1 is provided with a step groove 14, the step groove 14 is arranged around the port of the water outlet cavity 10, the cover plate 2 is covered on the water outlet housing 1 through the step groove 14, a gap is arranged between the end surface of the top end of the first exhaust pipe 13 and the end surface of the step groove 14, and water vapor can enter the first exhaust pipe 13 through the gap and can contact with the condensation pipe 3. The first exhaust 13 pipe is not only used for installing the condensation pipe 3, so that hot water in the water outlet cavity 10 can be contacted with the condensation pipe 3 through the notch 131 to form condensed water.

Example 3

An instant heating type water dispenser comprises a water outlet nozzle for rapid condensation and exhaust in embodiment 1 or 2.

Claims (9)

1. A rapid condensation exhaust water outlet nozzle comprises a water outlet shell (1) and a cover plate (2) covered on the water outlet shell (1), wherein a water outlet cavity (10) for supplying water to flow is arranged in the water outlet shell (1), one end of the water outlet shell (1) is provided with a water inlet joint (11) communicated with the water outlet cavity (10), and the other end of the water outlet shell is provided with a water outlet (12) communicated with the water outlet cavity (10); the method is characterized in that: a first exhaust pipe (13) communicated with the water outlet cavity (10) is arranged on the water outlet shell (1) close to one end of the water inlet joint (11), one end of the first exhaust pipe (13) extends to the upper end part of the water outlet cavity (10), and the other end of the first exhaust pipe extends out of the water outlet shell (1); a condensation pipe (3) is fixed in the first exhaust pipe (13), one end of the condensation pipe (3) extends into the water outlet cavity (10) along the first exhaust pipe (13), and the other end of the condensation pipe extends out of the water outlet cavity (10) along the first exhaust pipe (13).

2. A rapid condensing exhaust nozzle as claimed in claim 1, wherein: the top of the water outlet shell (1) is provided with a step groove (14), the cover plate (2) is covered on the water outlet shell (1) through the step groove (14), the top end face of the first exhaust pipe (13) is flush with the end face of the step groove (14), and the upper end part of the first exhaust pipe (13) is provided with a notch (131) communicated with the water outlet cavity (10).

3. A rapid condensing exhaust nozzle as claimed in claim 1, wherein: a second exhaust pipe (15) communicated with the water outlet cavity (10) is arranged on the water outlet cavity (10) close to one end of the water outlet (12), one end of the second exhaust pipe (15) extends into the water outlet cavity (10), the other end of the second exhaust pipe penetrates through the water outlet shell (1), and a gap is formed between the upper port of the second exhaust pipe (15) and the cover plate (2).

4. A rapid condensing exhaust nozzle as claimed in claim 3, wherein: one side wall of the second exhaust pipe (15) is the inner wall of the water outlet cavity (10).

5. A rapid condensation exhaust nozzle according to claim 3 or 4, characterized in that: a water outlet groove (16) is arranged on the water outlet cavity (10) close to one end of the water outlet (12), the water outlet (12) and the second exhaust pipe (15) are arranged on the water outlet groove (16), at least one flow guide pipe (17) is arranged on the periphery of the water outlet (12), and the upper port of the flow guide pipe (17) is lower than the notch of the water outlet groove (16).

6. A rapid condensing exhaust nozzle as claimed in claim 5, wherein: one side wall of the draft tube (17) is the inner wall of the water outlet cavity (10).

7. A rapid condensing exhaust nozzle as claimed in claim 5, wherein: a water outlet pipe (18) communicated with the water outlet (12) is fixed outside the water outlet shell (1), a water outlet connector (4) sleeved on the water outlet pipe (18) is installed on the water outlet shell (1), a flow channel (100) is arranged between the water outlet connector (4) and the water outlet pipe (18), and the lower ports of the second exhaust pipe (15) and the flow guide pipe (17) are communicated with the flow channel (100).

8. A rapid condensing exhaust nozzle as claimed in claim 7, wherein: a partition plate (41) is fixed on the inner side wall of the water outlet joint (4), the flow channel (100) is divided into an exhaust flow channel and a drainage flow channel by the partition plate (41), the lower port of the second exhaust pipe (15) is communicated with the exhaust flow channel, and the lower port of the guide pipe (17) is communicated with the drainage flow channel.

9. An instant heating type water dispenser is characterized in that: a nozzle comprising the rapid condensation exhaust of any of claims 1-8.

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