CN216552197U - Water outlet pipe with heat insulation structure - Google Patents

Abstract

The utility model relates to a water outlet pipe with a heat insulation structure in the technical field of water pipes, which comprises a water outlet pipe body, a first heat insulation mechanism, a second heat insulation mechanism and a partition mechanism, wherein the first heat insulation mechanism is positioned at the outer end of the water outlet pipe body, the second heat insulation mechanism is positioned at the outer end of the first heat insulation mechanism, and the partition mechanism is positioned inside the second heat insulation mechanism. When the temperature is lower, the first heat preservation mechanism can provide first heat preservation for the water outlet pipe body, when the temperature is lower, heat preservation media are injected into the second heat preservation mechanism, the partition mechanism is utilized to gradually heat all positions of the water outlet pipe body, so that heat preservation and unfreezing of the water outlet pipe body are completed, the heat preservation and unfreezing efficiency is improved, and the partition valve is installed to control opening and closing of circulation pipelines of all the first heat preservation media, so that whether all the heat preservation medium accommodating chambers are communicated with each other or not is controlled, and further the water outlet pipe body is subjected to sectional type heat preservation and warming.

Description

Water outlet pipe with heat insulation structure

Technical Field

The utility model relates to the technical field of water pipes, in particular to a water outlet pipe with a heat insulation structure.

Background

The water pipe is a water supply pipeline, modern decoration water pipes are constructed in a wall-buried mode, the water pipes are classified into three types, the first type is a metal pipe such as an inner-lined plastic hot-dip cast iron pipe, a copper pipe, a stainless steel pipe and the like, the second type is a plastic composite metal pipe such as a steel-plastic composite pipe, an aluminum-plastic composite pipe and the like, and the third type is a plastic pipe such as a PB pipe and the like.

In the patent of publication No. CN209325207U, it is low to propose a hot-water line heat preservation performance to have solved the hot-water line, water-proof effects is poor, probably use for a long time and lead to leaking, the running water noise is big, it is with high costs, inconvenient high-efficient stable installation, the structure is complicated, the suitability is low, the inconvenient noise that reduces the production, be difficult to satisfy the problem of current hot-water line heat preservation device's demand, in this patent, it keeps warm to do not propose the different positions of pipeline, because the temperature of each part of various internal and external force factor pipeline is different, when keeping warm to the pipeline, if the medium that keeps warm uses can not in time the heat transfer so can lead to the department of freezing of pipeline can not melt ice for a long time, influence heat preservation efficiency, we propose a outlet pipe that has insulation construction for this reason.

SUMMERY OF THE UTILITY MODEL

Aiming at the problems, the utility model provides the water outlet pipe with the heat insulation structure, which has the effects of providing double heat insulation for the water outlet pipe and heating the water outlet pipe in a sectional mode.

The technical scheme of the utility model is as follows:

the utility model provides an outlet pipe with insulation construction, includes outlet pipe body, first heat preservation mechanism, second heat preservation mechanism and cuts off the mechanism, first heat preservation mechanism is located the outer end of outlet pipe body, second heat preservation mechanism is located the outer end of first heat preservation mechanism, cut off the inside that the mechanism is located second heat preservation mechanism.

The working principle of the technical scheme is as follows:

the first heat preservation mechanism firstly provides first heavy heat preservation for the water outlet pipe body, when the temperature is lower, heat preservation media are injected into the second heat preservation mechanism, and the partition mechanism is utilized to gradually heat all positions of the water outlet pipe body, so that heat preservation and unfreezing of the water outlet pipe body are completed.

In a further technical scheme, the first heat preservation mechanism comprises a heat preservation interlayer, a heat preservation airflow cavity, a heat preservation cotton layer and a water outlet, the heat preservation interlayer is fixedly arranged at the outer end of the water outlet pipe body, the heat preservation airflow cavity is arranged inside the heat preservation interlayer, the heat preservation airflow cavity is equidistantly arranged inside the heat preservation interlayer, the heat preservation airflow cavity is of a cylindrical structure, the heat preservation airflow cavity is consistent with the line type of the water outlet pipe body, the heat preservation cotton layer is filled inside the heat preservation interlayer, and the water outlet is arranged at the left end of the water outlet pipe body.

The heat preservation air current intracavity portion is filled with certain gas for keep warm to the outlet pipe body, and the cotton layer of heat preservation then further prevents the heat loss, further keeps warm to the outlet pipe body.

In a further technical scheme, the second heat preservation mechanism includes that insulation shell, heat preservation medium hold room, first heat preservation medium circulation pipeline and second heat preservation medium circulation pipeline, insulation shell fixed mounting is in the interbedded outer end that keeps warm, insulation shell is the loop configuration, the heat preservation medium holds the fixed inside that sets up at insulation shell of room, the heat preservation medium holds the room and keeps warm interbedded lines trend unanimously, the quantity that the heat preservation medium held the room is a plurality of, the heat preservation medium holds the room equidistance and arranges in insulation shell's inside.

The heat preservation medium containing chamber is used for storing the heat preservation medium injected into the heat preservation medium containing chamber, so that the water outlet pipe body is heated.

In a further technical scheme, the first heat-preservation medium circulation pipeline is fixedly communicated between two adjacent heat-preservation medium accommodating chambers, the first heat-preservation medium circulation pipeline is positioned above the outer ends of the heat-preservation medium accommodating chambers, the second heat-preservation medium circulation pipeline is fixedly communicated between two adjacent heat-preservation medium accommodating chambers, and the second heat-preservation medium circulation pipeline is positioned below the outer ends of the heat-preservation medium accommodating chambers.

The first insulating medium circulation pipe and the second insulating medium circulation pipe enable the respective insulating medium accommodating chambers to communicate with each other.

In a further technical scheme, the partition mechanism comprises a medium inlet pipeline, a medium inlet valve, a partition valve, a medium outlet pipeline and a medium outlet valve, the medium inlet pipeline is fixedly communicated with the right side of the upper end of the heat preservation medium accommodating chamber, and the medium inlet valve is installed at the outer end of the medium inlet pipeline.

And opening the medium inlet valve, and injecting heat preservation media into each heat preservation medium accommodating chamber through the medium inlet pipeline.

In a further technical scheme, the isolating valves are installed at the upper end of the first heat-preservation medium circulation pipeline, and the number of the isolating valves is the same as that of the first heat-preservation medium circulation pipeline.

Through the installation and the partition valve, whether each heat preservation medium containing chamber is communicated with each other or not is controlled, and then sectional type heating and heat preservation is carried out on the water outlet pipe body.

In a further technical scheme, the medium outflow pipeline is fixedly communicated with the lower end of the second heat-preservation medium circulation pipeline, the number of the medium outflow pipelines is the same as that of the second heat-preservation medium circulation pipeline, and the medium outflow valve is installed at the outer end of the medium outflow pipeline.

By installing the medium outflow pipe, the medium cooled in each insulating medium accommodating chamber can be discharged so as to facilitate the injection of new insulating medium.

The utility model has the beneficial effects that:

1. when the temperature is lower, the first heat preservation mechanism can provide first heavy heat preservation for the water outlet pipe body, when the temperature is lower, heat preservation media are injected into the second heat preservation mechanism, and the partition mechanism is utilized to gradually heat all positions of the water outlet pipe body, so that heat preservation and unfreezing of the water outlet pipe body are completed, and the heat preservation and unfreezing efficiency is improved;

2. certain gas is filled in the uniformly distributed heat preservation airflow cavity to preserve heat of the water outlet pipe body, the heat distribution of the water outlet pipe is uniform, the heat preservation cotton layer can further prevent heat loss, and the water outlet pipe body is further preserved with heat;

3. the heat preservation medium accommodating chamber can be used for storing the heat preservation medium injected into the heat preservation medium accommodating chamber and providing a storage device for the heat preservation medium, so that the water outlet pipe body is heated;

4. the first heat-preservation medium circulation pipeline and the second heat-preservation medium circulation pipeline enable the heat-preservation medium accommodating chambers to be communicated with each other, so that the water outlet pipe body can be heated in a sectional mode;

5. by installing a medium inlet valve and opening the medium inlet valve, heat preservation media can be continuously injected into each heat preservation medium accommodating chamber through a medium inlet pipeline;

6. the water outlet pipe body is provided with a partition valve which can be used for controlling the opening and closing of each first heat-preservation medium circulation pipeline so as to control whether each heat-preservation medium containing chamber is communicated with each other or not and further perform sectional heating and heat preservation on the water outlet pipe body;

7. the medium outflow pipeline and the medium outflow valve are used for timely discharging the cooling medium in each heat preservation medium accommodating chamber, so that heat exchange is timely performed, and the heat preservation efficiency is improved.

Drawings

FIG. 1 is a schematic perspective view of an embodiment of the present invention;

FIG. 2 is a schematic perspective view of a second heat-retaining mechanism according to an embodiment of the present invention;

FIG. 3 is a schematic cross-sectional view of a first heat-retaining mechanism according to an embodiment of the present invention;

fig. 4 is a partial perspective view of a partition mechanism according to an embodiment of the present invention.

Description of reference numerals:

1. a water outlet pipe body; 2. a first heat preservation mechanism; 201. a heat-insulating interlayer; 202. a heat preservation airflow cavity; 203. a heat insulation cotton layer; 204. a water outlet; 3. a second heat preservation mechanism; 301. a heat-insulating shell; 302. a thermal insulation medium accommodating chamber; 303. a first heat-insulating medium circulation pipe; 304. a second insulation medium circulation line; 4. a partition mechanism; 401. a medium inlet pipe; 402. a medium inlet valve; 403. a shut-off valve; 404. a medium outflow conduit; 405. the medium flows out of the valve.

Detailed Description

The embodiments of the present invention will be further described with reference to the accompanying drawings.

Example 1:

as shown in fig. 1-4, an outlet pipe with a thermal insulation structure includes an outlet pipe body 1, a first thermal insulation mechanism 2, a second thermal insulation mechanism 3, and a partition mechanism 4, where the first thermal insulation mechanism 2 is located at an outer end of the outlet pipe body 1, the second thermal insulation mechanism 3 is located at an outer end of the first thermal insulation mechanism 2, and the partition mechanism 4 is located inside the second thermal insulation mechanism 3.

The working principle of the technical scheme is as follows:

when the temperature is lower, the first heat preservation mechanism 2 firstly provides first heavy heat preservation for the water outlet pipe body 1, when the energy provided by the first heat preservation mechanism 2 is not enough to cope with the lower temperature, media with higher temperature, such as hot water, steam and the like, are injected into the second heat preservation mechanism 3, and the partition mechanism 4 is utilized to gradually heat all positions of the water outlet pipe body 1, so that the heat preservation and the unfreezing of the water outlet pipe body 1 are completed.

In another embodiment, as shown in fig. 3, the first thermal insulation mechanism 2 includes a thermal insulation interlayer 201, a thermal insulation airflow chamber 202, a thermal insulation cotton layer 203 and a water outlet 204, the thermal insulation interlayer 201 is fixedly disposed at the outer end of the water outlet pipe body 1, the thermal insulation airflow chamber 202 is disposed inside the thermal insulation interlayer 201, the thermal insulation airflow chambers 202 are equidistantly arranged inside the thermal insulation interlayer 201, the thermal insulation airflow chamber 202 is in a cylindrical structure, the thermal insulation airflow chamber 202 and the water outlet pipe body 1 have the same line type, the thermal insulation cotton layer 203 is filled inside the thermal insulation interlayer 201, and the water outlet 204 is disposed at the left end of the water outlet pipe body 1.

Through setting up heat preservation air current chamber 202, this heat preservation air current chamber 202 inside packing has certain gas for keep warm to outlet pipe body 1, prevent that the heat from losing at the excessive speed, and heat preservation air current chamber 202 distributes evenly, can carry out comprehensive protection to outlet pipe body 1, and heat preservation cotton layer 203 then can further prevent that the heat from losing, further keeps warm to outlet pipe body 1.

Example 2:

as shown in fig. 4, the second heat insulating mechanism 3 includes a heat insulating housing 301, a heat insulating medium accommodating chamber 302, a first heat insulating medium circulating pipeline 303 and a second heat insulating medium circulating pipeline 304, the heat insulating housing 301 is fixedly mounted at the outer end of the heat insulating interlayer 201, the heat insulating housing 301 is of an annular structure, the heat insulating medium accommodating chamber 302 is fixedly arranged inside the heat insulating housing 301, the lines of the heat insulating medium accommodating chamber 302 and the heat insulating interlayer 201 run in the same direction, the number of the heat insulating medium accommodating chambers 302 is several, and the heat insulating medium accommodating chambers 302 are equidistantly arranged inside the heat insulating housing 301.

Through setting up heat preservation medium and holding room 302, can be used for the heat preservation medium of storage to its inside injection to heating outlet pipe body 1, melting to freeze and heating the rivers that have frozen or will freeze in outlet pipe body 1.

In another embodiment, as shown in fig. 2, a first warm-keeping medium flow pipe 303 is fixedly communicated between the adjacent two warm-keeping medium containing chambers 302, the first warm-keeping medium flow pipe 303 is positioned above the outer ends of the warm-keeping medium containing chambers 302, a second warm-keeping medium flow pipe 304 is fixedly communicated between the adjacent two warm-keeping medium containing chambers 302, and the second warm-keeping medium flow pipe 304 is positioned below the outer ends of the warm-keeping medium containing chambers 302.

Through setting up first heat preservation medium circulation pipeline 303 and second heat preservation medium circulation pipeline 304, can make and can communicate each other between each heat preservation medium holding chamber 302 to only need to hold the inside heat preservation medium that pours into of chamber 302 into of a heat preservation medium and can accomplish and hold the position that the chamber 302 corresponds and heat each heat preservation medium.

Example 3:

as shown in fig. 2, the blocking mechanism 4 includes a medium inlet pipe 401, a medium inlet valve 402, a blocking valve 403, a medium outlet pipe 404 and a medium outlet valve 405, the medium inlet pipe 401 is fixedly communicated with the right side of the upper end of the insulating medium accommodating chamber 302, and the medium inlet valve 402 is installed at the outer end of the medium inlet pipe 401.

By installing the medium inlet pipe 401, the medium inlet valve 402 is opened, and the insulating medium can be injected into each insulating medium accommodating chamber 302 through the medium inlet pipe 401.

In another embodiment, as shown in fig. 4, the shut-off valves 403 are installed at the upper end of the first insulating medium flow passage 303, and the number of the shut-off valves 403 is the same as the number of the first insulating medium flow passage 303.

The partition valve 403 is installed to control the opening and closing of each first heat-preservation medium circulation pipeline 303, so as to control whether each heat-preservation medium accommodating chamber 302 is communicated with each other, and further perform sectional heating and heat preservation on the water outlet pipe body 1.

In another embodiment, as shown in fig. 2, the medium outflow pipe 404 is fixedly communicated with the lower end of the second insulating medium circulation pipe 304, the number of the medium outflow pipes 404 is the same as that of the second insulating medium circulation pipe 304, and the medium outflow valve 405 is installed at the outer end of the medium outflow pipe 404.

By installing the medium outflow pipe 404, the cooled medium in each thermal insulation medium accommodating chamber 302 can be discharged, so that a new thermal insulation medium can be injected to gradually heat each part of the outlet pipe body 1.

The above examples only express the specific embodiments of the present invention, and the description thereof is more specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention.

Claims (7)

1. The utility model provides an outlet pipe with insulation construction, includes outlet pipe body (1), first heat preservation mechanism (2), second heat preservation mechanism (3) and cuts off mechanism (4), its characterized in that: the first heat preservation mechanism (2) is located at the outer end of the water outlet pipe body (1), the second heat preservation mechanism (3) is located at the outer end of the first heat preservation mechanism (2), and the partition mechanism (4) is located inside the second heat preservation mechanism (3).

2. The water outlet pipe with the heat preservation structure as claimed in claim 1, wherein: first heat preservation mechanism (2) are including heat preservation intermediate layer (201), heat preservation air current chamber (202), the cotton layer of heat preservation (203) and delivery port (204), heat preservation intermediate layer (201) are fixed to be set up in the outer end of outlet pipe body (1), heat preservation air current chamber (202) set up in the inside of heat preservation intermediate layer (201), heat preservation air current chamber (202) equidistance is arranged in the inside of heat preservation intermediate layer (201), heat preservation air current chamber (202) are cylindric structure, heat preservation air current chamber (202) are unanimous with the line type of outlet pipe body (1), the inside at heat preservation intermediate layer (201) is filled in heat preservation cotton layer (203), delivery port (204) set up the left end at outlet pipe body (1).

3. The water outlet pipe with the heat insulation structure as claimed in claim 2, wherein: second heat preservation mechanism (3) hold room (302), first heat preservation medium circulation pipeline (303) and second heat preservation medium circulation pipeline (304) including lagging casing (301), heat preservation medium, lagging casing (301) fixed mounting is in the outer end of heat preservation intermediate layer (201), lagging casing (301) are loop configuration, the heat preservation medium holds the fixed inside that sets up at lagging casing (301) of room (302), the heat preservation medium holds the line trend of room (302) and heat preservation intermediate layer (201) and is unanimous, the quantity that the heat preservation medium held room (302) is a plurality of, the heat preservation medium holds room (302) equidistance and arranges in the inside of lagging casing (301).

4. The water outlet pipe with the heat preservation structure as claimed in claim 3, wherein: the first heat preservation medium circulation pipeline (303) is fixedly communicated between two adjacent heat preservation medium accommodating chambers (302), the first heat preservation medium circulation pipeline (303) is positioned above the outer ends of the heat preservation medium accommodating chambers (302), the second heat preservation medium circulation pipeline (304) is fixedly communicated between two adjacent heat preservation medium accommodating chambers (302), and the second heat preservation medium circulation pipeline (304) is positioned below the outer ends of the heat preservation medium accommodating chambers (302).

5. The outlet pipe with the heat preservation structure as claimed in claim 4, wherein: the partition mechanism (4) comprises a medium inlet pipeline (401), a medium inlet valve (402), a partition valve (403), a medium outlet pipeline (404) and a medium outlet valve (405), the medium inlet pipeline (401) is fixedly communicated with the right side of the upper end of the heat-insulation medium accommodating chamber (302), and the medium inlet valve (402) is installed at the outer end of the medium inlet pipeline (401).

6. The water outlet pipe with the heat preservation structure as claimed in claim 5, wherein: the blocking valves (403) are installed at the upper end of the first heat-preserving medium flow pipeline (303), and the number of the blocking valves (403) is the same as that of the first heat-preserving medium flow pipeline (303).

7. The water outlet pipe with the heat preservation structure as claimed in claim 6, wherein: the medium outflow pipeline (404) is fixedly communicated with the lower end of the second heat-preservation medium circulation pipeline (304), the number of the medium outflow pipelines (404) is the same as that of the second heat-preservation medium circulation pipeline (304), and the medium outflow valve (405) is installed at the outer end of the medium outflow pipeline (404).

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