CN213429676U - Condensate water discharge structure and steam discharge equipment - Google Patents

Abstract

The utility model discloses a comdenstion water discharge structure and steam discharging equipment relates to kitchen utensils and appliances equipment technical field, include: a container provided with an intake water passage and a first discharge water passage; and the drainage module is arranged in the container and comprises a floating head, the floating head has a first state and a second state, the floating head separates the inner cavity of the container from the first drainage channel in the first state, the floating head rises to enable the inner cavity of the container to be communicated with the first drainage channel in the second state, and the air inlet channel is arranged towards the floating head. This comdenstion water discharge structure and blast pipe switch-on have effectively prevented to take place the comdenstion water accumulation in the blast pipe, avoid hindering the exhaust. Simultaneously, because the inlet channel that admits air sets up towards floating the head, steam is arranged to floating the head and to floating head homodisperse all around, and the steam flow after the dispersion has improved the condensation effect of steam around the container. The steam is converted into condensed water in the container, so that the moisture of the external working environment caused by direct discharge is avoided.

Description

Condensate water discharge structure and steam discharge equipment

Technical Field

The utility model relates to a kitchen utensils and appliances equipment technical field, in particular to comdenstion water discharge structure and steam discharging equipment.

Background

In an exhaust pipe connected with a multi-layer steam box, the treatment of condensed water generated by the exhausted steam is a problem needing to be solved in the technology.

If the blast pipe is sealed, the top is opened for the bottom, then the comdenstion water can be accumulated in the bottom, and then leads to unnecessary water to flow back in the box, has certain probability to cause the phenomenon of steam jam, and this structure can make the steam of a large amount of doing work discharge from the blast pipe top in addition, and then causes the waste, has also led to outside operational environment moist simultaneously.

If the both ends of blast pipe are opened, though the ponding phenomenon of bottom can be improved, this structure can lead to a large amount of steam extravagant, leads to the operational environment of outside more moist.

If the bottom end of the exhaust pipe is opened and the top end of the exhaust pipe is sealed, a mechanism is not additionally arranged outside the exhaust pipe, although the structure is better than the two structures, the ideal state is not achieved.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a comdenstion water discharge structure and steam discharging equipment is applicable to the mode that the bottom was opened, the sealed exhaust pipe structure in top, both can avoid hindering carminative situation to take place because of the comdenstion water accumulation in the blast pipe, also can avoid a large amount of steam to discharge, cause outside operational environment humidity.

The utility model adopts the technical proposal that:

a condensed water drain structure comprising:

a container provided with an intake water passage and a first discharge water passage; and

the drainage module, set up in the container, the drainage module is including floating the head, it has first state and second state to float the head, under the first state float the head and cut off container inner chamber and first drainage channel, under the second state, float the head and rise and make container inner chamber and first drainage channel switch on, the inhalant canal orientation of admitting air float the head setting.

In some embodiments, the drainage module further comprises a drainage pipeline, the drainage pipeline comprises a first port and a second port opposite to the first port, the first port is communicated with the first drainage channel, the second port is higher than the first port, the floating head comprises a sealing part for sealing the second port, the sealing part is movably connected with the second port, and the air inlet channel is higher than the drainage module.

In some of these embodiments, the floating head is a spherical floating head, and the curved surface at the bottom of the spherical floating head is in sealing fit with the second port.

In some of these embodiments, the floating head is provided with a condensing portion opposite the intake inlet passage.

In some of these embodiments, the inlet channel is centrally located on the top of the vessel, and the condensing portion is located on the top of the floating head and faces the outlet of the inlet channel.

In some of these embodiments, the cross-sectional area of the condensing portion is larger than the cross-sectional area of the outlet of the intake water passage.

In some of these embodiments, the bottom of the container is provided with a second drain passage in which an on-off valve is disposed.

In some embodiments, the container comprises a top cover and a barrel body which are detachably connected, the air inlet and water inlet channel is arranged on the top cover, and the first water outlet channel is arranged at the bottom of the barrel body.

In some of these embodiments, a sealing ring is disposed between the lid and the bowl.

The steam discharge equipment comprises a condensed water discharge structure, wherein the steam discharge equipment is provided with an exhaust pipe, and the bottom end of the exhaust pipe is communicated with an air inlet water channel.

Has the advantages that: with this comdenstion water drainage structures and blast pipe switch-on, the comdenstion water in the blast pipe directly enters into to the container through the inhalant canal that admits air in, has effectively prevented to take place the comdenstion water accumulation in the blast pipe, avoids hindering the exhaust. Simultaneously, the steam in the exhaust pipe also enters into to the container through the inhalant canal, because inhalant canal orientation floats the head setting, the steam is arranged to floating the head and to floating head homodisperse all around, and the steam flow after the dispersion has improved the condensation effect of steam around the container. The steam is converted into condensed water in the container, so that the moisture of the external working environment caused by direct discharge is avoided.

Drawings

The invention will be further described with reference to the following figures and examples:

fig. 1 is an assembly structure diagram of a condensed water discharge structure according to an embodiment of the present invention;

FIG. 2 is a side view of a condensate drain structure according to an embodiment of the present invention;

fig. 3 is a sectional view taken along line a-a of fig. 2.

Detailed Description

This section will describe in detail the embodiments of the present invention, preferred embodiments of the present invention are shown in the attached drawings, which are used to supplement the description of the text part of the specification with figures, so that one can intuitively and vividly understand each technical feature and the whole technical solution of the present invention, but they cannot be understood as the limitation of the protection scope of the present invention.

In the description of the present invention, it should be understood that the orientation or positional relationship indicated with respect to the orientation description, such as up, down, front, rear, left, right, etc., is based on the orientation or positional relationship shown in the drawings, and is only for convenience of description and simplification of description, and does not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the description of the present invention, a plurality of means are one or more, a plurality of means are two or more, and the terms greater than, less than, exceeding, etc. are understood as not including the number, and the terms greater than, less than, within, etc. are understood as including the number. If the first and second are described for the purpose of distinguishing technical features, they are not to be understood as indicating or implying relative importance or implicitly indicating the number of technical features indicated or implicitly indicating the precedence of the technical features indicated.

In the description of the present invention, unless there is an explicit limitation, the words such as setting, installation, connection, etc. should be understood in a broad sense, and those skilled in the art can reasonably determine the specific meanings of the above words in combination with the specific contents of the technical solution.

Referring to fig. 1 to 3, an embodiment of the present invention provides a condensed water drainage structure, which is suitable for a mode of an exhaust pipe structure with a bottom opening and a top sealing, and is communicated with the exhaust pipe for discharging condensed water.

The condensed water drain structure mainly includes a tank 100 and a drain module 200. The container 100 is provided with an intake water passage 400 and a first drain passage 500, and the condensed water drain structure is communicated with the exhaust pipe through the intake water passage 400. The drainage module 200 is arranged in the container 100, the drainage module 200 comprises a floating head 210 and a drainage pipeline 220, the drainage pipeline 220 comprises a first port and a second port arranged opposite to the first port, the first port is communicated with the first drainage channel 500, the second port is arranged to be higher than the first port, the floating head 210 comprises a sealing part used for sealing the second port, the sealing part is movably connected with the second port, the air inlet channel 400 is arranged to be higher than the drainage module 200, and the air inlet channel 400 is arranged towards the floating head 210.

The condensed water in the exhaust pipe directly enters the container 100 through the air inlet water inlet channel 400, thereby effectively preventing the accumulation of the condensed water in the exhaust pipe and avoiding obstructing the exhaust. Meanwhile, steam in the exhaust pipe enters the container 100 through the air inlet water inlet channel 400, the steam is discharged to the floating head 210 and uniformly dispersed around the floating head 210, and the dispersed steam flows around the container 100, so that the condensation effect of the steam is improved. The floating head 210 in the drainage module 200 is in sealing connection with the second port due to the gravity of the floating head, the container 100 is in a sealing state, and the steam is filled in the sealed container 100, cannot be discharged to the outside, and only can flow back to the exhaust pipe through the air inlet water inlet channel 400, so that the waste of the steam and the moisture of the external environment are avoided. When the heat of the steam is gradually absorbed by the outside, the steam is converted into condensed water and accumulated in the container 100. When the condensed water is accumulated to a certain height, the floating head 210 is subjected to buoyancy, the sealing portion is separated from the second port, and the condensed water in the container 100 is discharged through the first water discharge passage 500.

It is understood that the drainage module 200 is used to switch the sealing state of the container 100, and in the initial state, the sealing portion of the drainage module 200 is in sealing connection with the second port, and the container 100 maintains the sealing state. When the amount of water in the container 100 increases, the floating head 210 of the drain module 200 gradually receives buoyancy, the floating head 210 moves upward, the sealing portion is separated from the second port, and the container 100 is communicated with the outside through the drain pipe 220 to realize drainage.

The second port is arranged higher than the first port, so that condensed water can naturally flow out conveniently. The inlet water channel 400 is set higher than the drainage module 200, so as to prevent accumulated water in the container 100 from blocking the inlet water channel 400, and the condensed water drainage structure is disabled.

Referring again to fig. 3, the intake inlet passage 400 is disposed opposite to the floating head 210. In this way, the steam first contacts the surface of the floating head 210, forming a primary condensation. The uncondensed steam is dispersed through the floating head 210, and the dispersed steam flows to the periphery of the container 100, so that secondary condensation of the steam is facilitated, and the condensation effect is improved.

In some embodiments, the top of the floating head 210 is provided with a condensing portion opposite to the inlet channel 400, so that the steam can be condensed by the inlet channel 400, and the condensing effect is good.

Preferably, the floating head 210 is a spherical floating head, and the curved surface at the bottom of the spherical floating head is in sealing fit with the second port. On the one hand, the sphere does benefit to the dispersion of steam, and on the other hand need not to set up other structures and can be fine and the sealed cooperation of second port realization, simple structure. It should be noted that the shape of the spherical floating head includes, but is not limited to, hemispherical, ellipsoidal, and spherical; the spherical surface mentioned above is understood to be an arc-shaped curved surface and is not limited to a regular spherical surface.

In some of these embodiments, the drain module 200 is a conventional overflow ball valve mounted on the threads of the first drain channel 500 by threads and a green tape.

In order to make the steam uniformly distributed in the container 100 and improve the condensation efficiency, the inlet water channel 400 is arranged at the center of the top of the container 100, the spherical floating head is arranged at the center of the inside of the container 100, and the outlet of the inlet water channel 400 is opposite to the top of the spherical floating head.

In some of the embodiments, the bottom of the container 100 is provided with a second drain passage 600, and an on-off valve 610 is provided in the second drain passage 600. When the steam using device stops operating, the opening and closing valve 610 is opened to discharge the excessive water remaining at the bottom of the container 100 to the outside. The switching valve 610 may be a manual switching valve.

With continued reference to fig. 1, in some embodiments thereof, the container 100 is provided as a one-piece construction for ease of assembly, disassembly, and manufacture. The vessel 100 includes a top cover 110 and a tub 120 detachably connected, an intake water inlet passage 400 is provided on the top cover 110, and a first drain passage 500 is provided at the bottom of the tub 120. Specifically, the intake water inlet passage 400 is welded to the top cap 110 by an anti-rust seal, and the first drain passage 500 is welded to the bottom of the tub 120 by an anti-rust seal.

Further, in order to ensure the sealability of the container 100, a sealing ring 300 is disposed between the top cap 110 and the tub 120.

In order to facilitate the disassembly and assembly, at least two protrusions 111 extending towards the periphery are arranged on the assembly surface of the top cover 110 and the barrel body 120, and the protrusions 111 matched up and down are fixedly connected through bolts.

Another embodiment of the utility model provides a steam discharging equipment, including above-mentioned comdenstion water discharge structure. This steam discharge equipment is provided with the blast pipe, and the bottom of blast pipe and the inlet channel 400 intercommunication that admits air of comdenstion water drainage structures, the top of blast pipe is sealed. The steam discharge equipment with the condensed water discharge structure can effectively prevent the accumulation of condensed water in the exhaust pipe and avoid the obstruction of exhaust. Meanwhile, the steam can be ensured to be filled in the closed container 100, cannot be discharged to the outside, and can only flow back to the exhaust pipe through the air inlet water inlet channel 400, so that the waste of the steam and the moisture of the external environment are avoided.

In some of these embodiments, the steam discharge device is at least any one of a steam cabinet, a steam box, and a steam car.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the above embodiments, and various changes can be made without departing from the gist of the present invention within the scope of knowledge possessed by those skilled in the art.

Claims (10)

1. A condensed water drain structure, comprising:

a container provided with an intake water passage and a first discharge water passage; and

the drainage module, set up in the container, the drainage module is including floating the head, it has first state and second state to float the head, under the first state float the head and cut off container inner chamber and first drainage channel, under the second state, float the head and rise and make container inner chamber and first drainage channel switch on, the inhalant canal orientation of admitting air float the head setting.

2. The condensate water drain structure according to claim 1, wherein: the drainage module still includes drainage pipe, drainage pipe includes first port and the second port that sets up relatively with first port, first port with first drainage channel intercommunication, the second port set to be higher than first port, it is including being used for sealing to float the head the sealing of second port, the sealing with second port swing joint, the inhalant canal that admits air sets to be higher than the drainage module.

3. The condensate water drain structure according to claim 2, wherein: the floating head is a spherical floating head, and the curved surface at the bottom of the spherical floating head is in sealing fit with the second port.

4. The condensate water drain structure according to claim 1, wherein: the floating head is provided with a condensing part opposite to the air inlet and water inlet channel.

5. The condensate water drain structure according to claim 4, wherein: the air inlet water channel is arranged in the center of the top of the container, and the condensing part is positioned at the top of the floating head and is just opposite to the outlet of the air inlet water channel.

6. The condensate water drain structure according to claim 5, wherein: the cross-sectional area of the condensing portion is larger than the cross-sectional area of the outlet of the intake water passage.

7. The condensate water drain structure according to any one of claims 1 to 6, wherein: and a second drainage channel is arranged at the bottom of the container, and a switch valve is arranged in the second drainage channel.

8. The condensate water drain structure according to any one of claims 1 to 6, wherein: the container is including dismantling top cap and the staving of connection, the inhalant canal setting of admitting air is in on the top cap, first drainage channel sets up the bottom of staving.

9. The condensate water drain structure according to claim 8, wherein: and a sealing ring is arranged between the top cover and the barrel body.

10. A steam discharge apparatus, characterized in that: including the condensed water drain structure according to any one of claims 1 to 9, the steam discharge device is provided with an exhaust pipe having a bottom end communicating with the intake water inlet passage.

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