CN113294617B - Indoor water supply pipe tail end positioning device and positioning method thereof - Google Patents

Abstract

The invention provides an indoor water supply pipe tail end positioning device and a positioning method thereof, wherein the indoor water supply pipe tail end positioning device comprises a fixed support, a water supply pipe, a fixed vertical shaft and a horizontal positioning instrument, and a plurality of cooling assemblies capable of reducing temperature are fixedly arranged in the inner wall of the water supply pipe in an equal adjacent surrounding manner; each group of cooling components comprises an outer shell, an inner shell, an outer air bag, an inner air bag and a material control component capable of controlling the release of cooling materials. The indoor water supply pipe tail end positioning device and the positioning method thereof can realize the function of cooling the water supply pipe, and the water supply pipe arranged on the outer wall can not be scalded even if the water supply pipe is in the insolated environment for a long time in summer and in the high-temperature weather, so that a user can not take place the accident effect of scalding when using water for the first time indoors.

Description

Indoor water supply pipe tail end positioning device and positioning method thereof

Technical Field

The invention relates to the field of water supply pipelines, in particular to an indoor water supply pipe tail end positioning device and a positioning method thereof.

Background

At present, water leakage often occurs at the joint support of the water supply pipeline due to the reasons of untight sealing, pipeline wall errors, uneven installation position and the like, and effective maintenance and overhaul of the water supply pipeline are inconvenient.

Aiming at the problems, regarding the technical problems of non-horizontal installation of the water supply pipe and the like, a large number of searches are carried out to find out a water supply pipe end positioning device with the patent number of CN202021602519.4, and the tail end of the water supply pipe is provided with a water stopping component; the water stopping assembly comprises a water stopping plate, a water stopping ring and a first sealing piece; the water stopping plate is fixedly arranged at the upper part of the tail end of the water supply pipeline and is connected with the first sealing piece through a water stopping ring; the first sealing piece is connected with the water supply pipeline through the connecting supporting piece; the fixed support is connected with the connecting angle steel through a fixed vertical shaft; the fixed vertical shaft is vertically inserted into the fixed support and is arranged on the upper part of the fixed support; a horizontal positioning instrument is fixedly arranged on the connecting angle steel; the middle position of the fixed support is fixedly clamped with a first clamping plate; the first clamping plate is connected with a connecting plate positioned above the first clamping plate, and the connecting plate is connected with the rib groove assembly; the rib groove component is provided with a water supply pipeline; the device has installed water-proof assembly of water supply pipe additional and can effectively prevent that the end from leaking, installs level locator detectable in the installation simultaneously whether level, standard, be convenient for later stage overhaul and maintenance.

However, the technical scheme provided by the patent does not have a cooling function for the water supply pipeline, when the water supply pipeline is installed on the outer wall in summer and in a insolated environment for a long time, a user is easy to be scalded by water heated at high temperature when the user uses water for the first time indoors.

Disclosure of Invention

The invention aims to solve the technical problems of the background technology and provides an indoor water supply pipe tail end positioning device and a positioning method thereof.

In order to achieve the above purpose, the present invention provides the following technical solutions: the indoor water supply pipe tail end positioning device comprises a fixed support, a water supply pipe, a fixed vertical shaft and a horizontal positioning instrument, wherein a plurality of cooling assemblies capable of reducing the temperature are fixedly arranged in the inner wall of the water supply pipe in an equal adjacent surrounding manner;

each group of cooling components comprises an outer shell, an inner shell, an outer air bag, an inner air bag and a material control component capable of controlling the release of cooling materials.

Further preferred embodiments are as follows: and a cooling plate is fixedly installed between the inner surface of the inner wall of the water supply pipeline and each group of cooling assemblies in a surrounding mode.

Further preferred embodiments are as follows: every shell all fixed mounting in every the inside position of the inner wall of water supply pipe, every the outward appearance of shell all is inside cavity, upper end hemispherical and the lower extreme trapezoidal form's of a longitudinal section assembly, every the inside upper end middle part position of shell all fixed mounting has the inner shell, every the outward appearance of inner shell all is inside hollow hemispherical, every the top side internal surface of shell and every all inlay between the top side surface of inner shell and be equipped with outer gasbag, every the inside position of inner shell all inlays and is equipped with interior gasbag, every the bottom side both ends position all is in every about the bottom side of outer gasbag movable mounting has accuse material subassembly between the outer wall of inner shell and every.

Further preferred embodiments are as follows: the central position of the outer surface of the top side of each shell is fixedly provided with a heat conducting rod in the vertical direction, the tail end of each heat conducting rod is arranged at the position close to the outer surface of the water supply pipeline, and each shell, the cooling plate and the heat conducting rod are made of copper.

Further preferred embodiments are as follows: each group of material control components comprises an outer rotating plate, an inner rotating plate and an arc strip.

Further preferred embodiments are as follows: every the head end of outer commentaries on classics board all rotary mounting in every the inner wall of shell is close to every outer gasbag bottom position, every the head end of interior commentaries on classics board all rotary mounting in every the outer wall of inner shell is close to every outer gasbag bottom position, every group outer commentaries on classics board and the tail end of interior commentaries on classics board all are in under the normal condition and paste the horizontal steady state that stabilizes each other, every the head end of arc strip all fixed mounting in every the inner wall of shell is close to every outer commentaries on classics board below position, every the tail end of arc strip all is arranged in every group outer commentaries on classics board and the tail end of interior commentaries on classics board under the position, every the outward appearance of arc strip all is the arc and the tail end is the pointed cone form.

Further preferred embodiments are as follows: the inner position of each outer air bag is preloaded with ammonium nitrate powder.

Further preferred embodiments are as follows: the inner position of each inner air bag is preloaded with clear water.

Further preferred embodiments are as follows: and each water control assembly comprises a rotating shaft, a lower rotating plate and an upper rotating plate.

Further preferred embodiments are as follows: every the pivot all be around horizontal direction rotation install in every the bottom tail end position of inner shell, every the bottom side surface of pivot all encircles fixed mounting has down the change board, every go up the change board and all be in the static balanced state of level under the normal condition, every down the change board all has with every the same magnetism of interior change board, every the pivot keep away from every one side surface of interior change board all encircles fixed mounting has and goes up the change board, every group go up the change board and down the contained angle between the change board is 90.

Further preferred embodiments are as follows: a plurality of guide pipes are arranged between the bottom end of each inner air bag and the bottom end of each inner shell in an equal adjacent and separate way in the vertical direction.

Further preferred embodiments are as follows: every the inside top position of pipe all movable mounting has the auxiliary assembly that can assist accuse water, every group auxiliary assembly all includes 2 bull sticks, 2 baffles, little gasbag and 2 fixed strips.

Further preferred embodiments are as follows: every 2 the bull stick all is around the horizontal direction rotation respectively install in the every in the inner wall top of pipe is left-hand and well-hand right position, every 2 the bottom side surface of bull stick all fixed mounting has the baffle, every 2 between the opposite side surface of baffle all fixed mounting have little gasbag, every the outward appearance of little gasbag all is isosceles triangle shape on a longitudinal section, every the bottom side surface left and right sides both ends of little gasbag and every the position is homoenergetic to the rotation between the pipe inner wall installs the support bar.

Further, the method for positioning the tail end of the indoor water supply pipe comprises the following steps:

s1: after the water supply pipeline and the fixed vertical shaft are arranged on the fixed support, detecting whether the water supply pipeline is arranged in a horizontal standard or not by observing a horizontal positioning instrument;

s2: in high-temperature weather, after a heat conduction rod on a shell of a cooling component in a water supply pipeline senses high-temperature heat, the heat is transmitted into the shell, and then an outer air bag is triggered to expand according to a heat expansion and cold contraction principle;

s3: the outer rotating plate and the inner rotating plate of the material control assembly are rotated and opened to enable the outer air bag to continuously expand outwards, and the outer air bag touches the arc strips to be punctured to release ammonium nitrate powder;

s4: in the rotating process of the inner rotating plate, the lower rotating plate and the upper rotating plate of the water control assembly are rotated by utilizing magnetism and a lever principle, and the upper rotating plate extrudes the inner air bag;

s5: under the action of the negative pressure principle, air in the inner air bag surges to strike the 2 baffle plates of the auxiliary assembly in the catheter, so that the small air bag is pressed and deformed, and clean water in the inner air bag flows out;

s6: the clear water absorbs a large amount of heat after contacting with the ammonium nitrate powder, the temperature of the inner wall of the water supply pipeline is reduced through the cooling plate and the shell, and the water temperature is prevented from being too high after water is supplied.

The beneficial effects are that:

1. according to the indoor water supply pipe tail end positioning device, the cooling component is arranged, the heat expansion and contraction, the lever and the negative pressure principle are utilized, when the water supply pipe arranged on the outer wall is in an insolated environment for a long time in summer and high temperature weather, the outside temperature is gradually increased, the heat can be firstly transmitted into the outer shell of the cooling component through the heat conducting rod, the outer air bag of the cooling component is heated and expanded by utilizing the heat expansion and contraction principle, the material control component of the cooling component moves and releases cooling materials along with the heat expansion and contraction principle, the material control component gradually approaches the inner shell of the cooling component in the moving process, the lever and the negative pressure principle are utilized, the inner air bag releases another cooling material into the outer shell, a large amount of heat can be absorbed after the two cooling materials are contacted, the water is cooled, the cooled temperature is transmitted to the inner wall of the water supply pipe through the outer shell and the cooling plate, and the water temperature is prevented from being too high after the water is supplied through the cooling components under the combined action of the cooling components;

2. according to the indoor water supply pipe tail end positioning device, the material control assembly is arranged, and when the outer surface temperature of a water supply pipe is normal, the outer rotating plate and the inner rotating plate of the material control assembly are in a magnetic-contact horizontal static balance state, and the outer air bag of the cooling assembly is not expanded by utilizing the heat expansion and cold contraction principle; when the temperature of the outer surface of the water supply pipeline is increased, the state is gradually broken, namely, when heat is conducted to the outer air bag, the tail parts of the left end and the right end of the outer air bag expand by utilizing the principle of thermal expansion and cold contraction, when the expansion thrust on the outer rotating plate and the inner rotating plate exceeds the magnetic adsorption threshold value between the outer rotating plate and the inner rotating plate, the outer rotating plate and the inner rotating plate are rotated to be opened, the tail parts of the left end and the right end of the outer air bag continue to expand and protrude and approach the tail ends of arc strips of the material control assembly, and when the surface of the outer air bag contacts the tail ends of the arc strips in a pointed cone shape, the tail parts of the arc strips are pricked, so that ammonium nitrate powder in the tail parts of the outer air bag is released outwards, and is convenient to contact with subsequent materials to cool, and thus the release of cooling materials is realized;

3. according to the indoor water supply pipe tail end positioning device, the water control assembly and the auxiliary assembly are arranged, and when the temperature of the outer surface of a water supply pipe is normal, the upper rotating plate of the water control assembly is in a horizontal static balance state, and the inner air bag of the cooling assembly and the small air bag of the auxiliary assembly are both in a natural undeformed state by utilizing the lever and negative pressure principle; however, when the temperature of the outer surface of the water supply pipeline is increased, the state is gradually broken, namely, in the process of rotating the inner rotating plate, the lower rotating plate of the water control assembly has the same magnetism as the inner rotating plate, and can rotate in the same direction under the action of the magnetic principle of mutual exclusion of the same magnetism, so that the upper rotating plate is linked to press the inner air bag through the lever principle, and under the action of the negative pressure principle, the gas in the inner air bag can surge towards the two baffle plates at the position of the guide pipe to press the small air bags between the baffle plates to deform, so that the baffle plates leave the inner wall of the guide pipe, and clean water in the inner air bag is guided out through the guide pipe and is contacted with the ammonium nitrate powder released before for cooling; conversely, the cooling component is positioned at the lower end of the water supply pipeline, and the release direction of the materials is just opposite, namely, the clear water flows into the outer air bag after flowing out and can be still unmixed with the ammonium nitrate powder; so as to realize the control of clear water, and facilitate the timely cooling;

4. to sum up, this kind of indoor feed pipe end positioner through the combined action of cooling subassembly, accuse material subassembly, accuse water subassembly and auxiliary assembly etc. can make the feed pipe possess the cooling function, when summer high temperature weather, installs the feed pipe on the outer wall even if in the exposure environment for a long time, the user can not take place the accident of being scalded when indoor first water.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic cross-sectional view of the present invention;

FIG. 3 is an enlarged schematic view of the structure of FIG. 2A according to the present invention;

FIG. 4 is an enlarged schematic view of the structure of FIG. 3B according to the present invention;

FIG. 5 is an enlarged schematic view of the structure of FIG. 4C according to the present invention;

FIG. 6 is an enlarged schematic view of the structure of FIG. 4D according to the present invention;

FIG. 7 is an enlarged schematic view of the structure of FIG. 6E according to the present invention;

in fig. 1-7: 1-fixing a support; 2-a water supply pipeline; 3-fixing a vertical shaft; 301-a horizontal positioning instrument;

4-cooling assembly; 401-a housing; 402-an inner shell; 403-outer balloon; 404-an inner balloon; 405-a material control component;

201-a cooling plate;

4011-a heat conducting rod;

4051-an outer swivel plate; 4052-an inner rotating plate; 4053 arc bars;

4031-ammonium nitrate powder;

4041-clear water;

4021-a water control assembly; 40211-a spindle; 40212-a lower rotating plate; 40213-an upturned plate;

4022-catheters;

40221-auxiliary components; 40222-rotating rod; 40223-a baffle; 40224—a small balloon; 40225-support bar.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to fig. 1 to 7 in the embodiments of the present invention.

Example 1

Referring to fig. 1-4, in an embodiment of the present invention, an indoor water supply pipe end positioning device includes a fixed support 1, a water supply pipe 2, a fixed vertical shaft 3 and a horizontal positioning instrument 301, wherein a plurality of cooling components 4 capable of reducing temperature are fixedly installed around the inner wall of the water supply pipe 2 in an equal adjacent manner;

each set of cooling modules 4 comprises an outer shell 401, an inner shell 402, an outer air bag 403, an inner air bag 404 and a material control module 405 capable of controlling the release of cooling materials.

In the embodiment of the invention, a cooling plate 201 is fixedly arranged between the inner surface of the inner wall of the water supply pipeline 2 and each group of cooling components 4 in a surrounding manner;

the temperature-reducing plate 201 is used for conducting the temperature of the temperature-reducing component 4 after being reduced to the inner wall of the water supply pipeline 2, and can reduce the water temperature after water is introduced to prevent the water temperature from overheating.

In the embodiment of the invention, each outer shell 401 is fixedly arranged at the inner position of the inner wall of each water supply pipeline 2, the appearance of each outer shell 401 is a combination body with hollow inside, hemispherical upper end and trapezoid lower end on a longitudinal section, each inner shell 402 is fixedly arranged at the middle position of the inner upper end of each outer shell 401, each inner shell 402 is in the shape of a hemispherical inner hollow inside, an outer air bag 403 is embedded between the inner surface of the top side of each outer shell 401 and the outer surface of the top side of each inner shell 402, an inner air bag 404 is embedded at the inner position of each inner shell 402, and a material control assembly 405 is movably arranged between the inner wall of each outer shell 401 and the outer wall of each inner shell 402 at the left and right end positions of the bottom side of each outer air bag 403;

the appearance of the shell 401 is set as a combination body with hollow inside, hemispherical upper end and trapezoidal lower end on a longitudinal section, so that the hemispherical upper end is used for storing cooling materials, the trapezoidal lower end is used for cooling, and the cooling temperature is conducted to the inner wall of the water supply pipeline 2 in the maximum range; the inner casing 402 is designed to have a hollow hemispherical shape, and is configured to accommodate the inner bag 404, and the left and right ends of the outer bag 403 are more easily expanded and protruded in the direction of the material control unit 405 after the outer bag is expanded.

In the embodiment of the invention, the central position of the outer surface of the top side of each shell 401 is fixedly provided with a heat conducting rod 4011 in the vertical direction, the tail end of each heat conducting rod 4011 is arranged at the position close to the outer surface of the water supply pipeline 2, and the materials of each shell 401, the cooling plate 201 and the heat conducting rod 4011 are all copper;

here, the materials of the housing 401, the cooling plate 201 and the heat conductive rod 4011 are copper, so that the temperature is conveniently and timely conducted.

This kind of indoor water supply pipe end positioner, through being provided with cooling subassembly 4, utilize expend with heat and contract with cold, lever and negative pressure principle, when in summer high temperature weather, water supply pipe 2 on the outer wall is in insolated environment for a long time, outside temperature rises gradually, this heat can be at first through heat conduction stick 4011 transfer to cooling subassembly 4's shell 401 in, utilize expend with heat and contract with cold principle, make cooling subassembly 4's outer gasbag 403 be heated and take place to expand, make cooling subassembly 4's accuse material subassembly 405 take place to remove and release the cooling material thereupon, accuse material subassembly 405 can be close to cooling subassembly 4's inner shell 402 gradually in the in-process of removal, utilize lever and negative pressure principle, make interior gasbag 404 release another kind of cooling material to shell 401 in, can absorb a large amount of heat after two kinds of cooling material contact, cool down, the temperature after the cooling is through shell 401 and cooling board 201 conduction to water supply pipe 2 inner wall, so under the combined action of a plurality of cooling subassemblies 4, can prevent that water supply pipe 2 water temperature is too high after the water.

Example 2

Referring to fig. 4-5, the embodiment of the present invention is different from embodiment 1 in that: each set of material control assemblies 405 includes an outer rotor plate 4051, an inner rotor plate 4052, and an arc 4053.

In the embodiment of the invention, the head end of each outer rotating plate 4051 is rotatably mounted on the inner wall of each outer shell 401 near the bottom end of each outer air bag 403, the head end of each inner rotating plate 4052 is rotatably mounted on the outer wall of each inner shell 402 near the bottom end of each outer air bag 403, the tail ends of each outer rotating plate 4051 and inner rotating plate 4052 are in a magnetic contact horizontal static balance state under normal conditions, the head end of each arc strip 4053 is fixedly mounted on the inner wall of each outer shell 401 near the lower position of each outer rotating plate 4051, the tail end of each arc strip 4053 is arranged at the position right below the tail ends of each outer rotating plate 4051 and inner rotating plate 4052, and the appearance of each arc strip 4053 is arc-shaped and the tail end is in a pointed cone shape;

the tail ends of the outer and inner rotating plates 4051 and 4052 are normally in a magnetically-adhered horizontal rest equilibrium state with each other, so as to block the outer air bag 403 from protruding when not heated normally; the arc 4053 is provided with an arc shape and a tapered tail end, so that the tail end of the arc 4053 can be conveniently contacted with the outer air bag 403 to be punctured after the outer air bag is expanded and protruded by heating, and the cooling material is released.

In the embodiment of the present invention, the inner position of each outer balloon 403 is preloaded with ammonium nitrate powder 4031.

In the embodiment of the present invention, the inner position of each inner air bag 404 is preloaded with clear water 4041;

the clear water 4041 and the ammonium nitrate powder 4031 can be convenient for absorbing heat and reducing temperature after the contact.

According to the indoor water supply pipe tail end positioning device, by the aid of the material control assembly 405, when the temperature of the outer surface of the water supply pipe 2 is normal, the outer rotating plate 4051 and the inner rotating plate 4052 of the material control assembly 405 are in a magnetic contact horizontal static balance state, and the outer air bag 403 of the cooling assembly 4 is not inflated; however, when the temperature of the outer surface of the water supply pipe 2 increases, the state is gradually broken, that is, when heat is conducted to the outer air bag 403 as described above, the tail parts at the left and right ends of the outer air bag 403 expand by using the principle of thermal expansion and cold contraction, when the expansion thrust on the outer rotating plate 4051 and the inner rotating plate 4052 exceeds the magnetic adsorption threshold between the outer rotating plate 4051 and the inner rotating plate 4052, the outer rotating plate 4051 and the inner rotating plate 4052 rotate and open, the tail parts at the left and right ends of the outer air bag 403 continue to expand and protrude and approach the tail ends of the arc strips 4053 of the material control assembly 405, and when the surface of the outer air bag 403 contacts the tapered tail ends of the arc strips 4053, the tail parts are torn, so that the ammonium nitrate powder 4031 in the tail parts is released outwards, and is convenient to contact with subsequent materials to cool, so that the release of the cooled materials is realized.

Example 3

Referring to fig. 4 and fig. 6-7, the embodiment of the present invention is different from embodiment 1 in that: the left and right ends of the bottom of each inner shell 402 are movably provided with water control assemblies 4021 capable of controlling release of clear water 4041, and each group of water control assemblies 4021 comprises a rotating shaft 40211, a lower rotating plate 40212 and an upper rotating plate 40213.

In the embodiment of the invention, each rotating shaft 40211 is rotatably mounted at the bottom tail end position of each inner shell 402 in a front-back horizontal direction, a lower rotating plate 40212 is fixedly mounted on the outer surface of the bottom side of each rotating shaft 40211 in a surrounding manner, each upper rotating plate 40212 is in a horizontal static balance state under normal conditions, each lower rotating plate 40212 has the same magnetism as each inner rotating plate 4052, an upper rotating plate 40213 is fixedly mounted on the outer surface of one side, far away from each inner rotating plate 4052, of each rotating shaft 40211 in a surrounding manner, and an included angle between each group of upper rotating plates 40213 and each lower rotating plate 40212 is 90 degrees;

the lower rotating plate 40212 has the same magnetism as the inner rotating plate 4052, and the included angle between the upper rotating plate 40213 and the lower rotating plate 40212 is 90 degrees, so that the lower rotating plate 40212 can be pressed by the same property to rotate in the same direction after the inner rotating plate 4052 rotates, and the upper rotating plate 40213 is pressed by the inner air bag 404 to release the clean water 4041.

In the embodiment of the present invention, a plurality of catheters 4022 are arranged in an equal adjacent array in the vertical direction between the bottom end of each inner bag 404 and the bottom end of each inner shell 402.

In the embodiment of the present invention, an auxiliary component 40221 capable of assisting in controlling water is movably mounted at the top end position inside each catheter 4022, and each group of auxiliary components 40221 includes 2 rotating rods 40222, 2 baffles 40223, a small air bag 40224 and 2 fixing strips 40225.

In the embodiment of the invention, each 2 rotating rods 40222 are respectively rotatably mounted at left and right positions in the top end of the inner wall of each catheter 4022 in the front-back horizontal direction, a baffle 40223 is fixedly mounted on the outer surface of the bottom side of each 2 rotating rods 40222, a small air bag 40224 is fixedly mounted between the opposite side surfaces of each 2 baffle 40223, the appearance of each small air bag 40224 is in an isosceles triangle shape on a longitudinal section, and support bars 40225 are obliquely rotatably mounted at positions between the left and right ends of the outer surface of the bottom side of each small air bag 40224 and the inner wall of each catheter 4022;

the small air bag 40224 is in an isosceles triangle shape on a longitudinal section, so that under the support of the support bar 40225, the baffle 40223 can be ensured to block the inlet of the head end of the catheter 4022 under the condition that the baffle 40223 is not impacted by the air flow surge in the inner air bag 404 by utilizing the stability of the triangle, and the clear water 4041 is prevented from overflowing.

According to the indoor water supply pipe tail end positioning device, by the aid of the water control assembly 4021 and the auxiliary assembly 40221, when the outer surface of the water supply pipe 2 is normal in temperature, the upper rotating plate 40212 of the water control assembly 4021 is in a horizontal static balance state, and the inner air bag 404 of the cooling assembly 4 and the small air bag 40224 of the auxiliary assembly 40221 are in a natural undeformed state; however, when the temperature of the outer surface of the water supply pipe 2 increases, the state is gradually broken, that is, in the process of rotating the inner rotating plate 4052 as described above, as the lower rotating plate 40213 of the water control assembly 4021 has the same magnetism as the inner rotating plate 4052, under the action of the magnetic principle of mutual exclusion of the same magnetism, the lower rotating plate 40213 is made to rotate in the same direction, and then the upper rotating plate 40212 is linked to press the inner air bag 404 through the lever principle, under the action of the negative pressure principle, the gas in the inner air bag 404 is made to surge towards the two baffles 40223 at the position of the conduit 4022, so that the small air bag 40224 between the baffles 40223 is pressed to deform, the baffles 40223 are separated from the inner wall of the conduit 4022, and clean water 4041 in the inner air bag 404 is led out through the conduit 4022 and is contacted with the ammonium nitrate powder 4031 released before; conversely, the temperature reducing component 4 positioned at the lower end of the water supply pipeline 2 has the material release direction just opposite, namely clear water 4041 flows into the outer air bag 403 after flowing out and can be still unmixed with ammonium nitrate powder 4031; so as to realize the control of clear water 4041, and facilitate the timely cooling.

Example 4

Referring to fig. 1 to 7, the embodiment of the present invention is different from embodiment 1 in that: an indoor water supply pipe end positioning method comprises the following steps:

s1: after the water supply pipeline 2 and the fixed vertical shaft 3 are installed on the fixed support 1, detecting whether the installation of the water supply pipeline 2 is in a horizontal standard or not by observing the horizontal positioning instrument 301;

s2: in high-temperature weather, after the heat conduction rod 4011 on the shell 401 of the cooling component 4 in the water supply pipeline 2 senses high-temperature heat, the heat is transmitted into the shell 401, and the outer air bag 403 is triggered to expand by the principle of thermal expansion and contraction;

s3: the outer rotating plate 4051 and the inner rotating plate 4052 of the material control assembly 405 rotate to open so as to continuously expand the outer air bag 403 outwards, and the outer air bag 403 touches the arc bar 4053 to be punctured so as to release the ammonium nitrate powder 4031;

s4: in the rotating process of the inner rotating plate 4052, the lower rotating plate 40212 and the upper rotating plate 40213 of the water control assembly 4021 are rotated by utilizing magnetism and a lever principle, and the upper rotating plate 40213 extrudes the inner air bag 404;

s5: under the action of the negative pressure principle, air in the inner air bag 404 surges to strike the 2 baffles 40223 of the auxiliary component 40221 in the catheter 4022, so that the small air bag 40224 is pressed and deformed, and clean water 4041 in the inner air bag 404 flows out;

s6: the clear water 4041 absorbs a large amount of heat after contacting with the ammonium nitrate powder 4031, and the temperature of the inner wall of the water supply pipeline 2 is reduced through the cooling plate 201 and the shell 401, so that the water temperature is prevented from being too high after water is supplied.

Claims (5)

1. The utility model provides an indoor water supply pipe end positioner, includes fixed bolster (1), water supply pipe (2), fixed vertical scroll (3) and horizontal positioning appearance (301), its characterized in that: the water supply pipeline (2) is provided with a plurality of cooling assemblies (4) capable of reducing the temperature; each cooling component (4) comprises an outer shell (401), an inner shell (402), an outer air bag (403), an inner air bag (404) and a material control component (405) capable of controlling cooling material release, each material control component (405) comprises an outer rotating plate (4051) and an inner rotating plate (4052), each outer rotating plate (4051) and each inner rotating plate (4052) are in a magnetic-contact horizontal static balance state under normal conditions, each material control component (405) further comprises an arc strip (4053), the appearance of each arc strip (4053) is arc-shaped, the tail end of each arc strip is in a sharp cone shape, each outer air bag (403) is preloaded with ammonium nitrate powder (4031), each inner air bag (404) is preloaded with a clear water (4041), each inner shell (402) is provided with a water control component (4021) capable of controlling clear water (4041) release, and each inner air bag (404) is provided with a plurality of catheters (4022);

the water supply pipeline (2) is positioned above the fixed support (1), the fixed vertical shaft (3) is positioned above the fixed support (1) and sleeved outside the water supply pipeline (2), and the horizontal positioning instrument (301) is arranged on the fixed vertical shaft (3);

each outer shell (401) is fixedly arranged on the inner wall of the water supply pipeline (2), an inner shell (402) is fixedly arranged at the middle position of the inner upper end of each outer shell (401), an outer air bag (403) is embedded between the inner surface of the top side of each outer shell (401) and the outer surface of the top side of each inner shell (402), an inner air bag (404) is embedded at the inner position of each inner shell (402), and a material control assembly (405) is movably arranged between the inner wall of each outer shell (401) and the outer wall of each inner shell (402) at the left and right end positions of the bottom side of each outer air bag (403);

the head end of each outer rotating plate (4051) is rotatably arranged at the position, close to the bottom end of the outer air bag (403), of the inner wall of the outer shell (401), and the head end of each inner rotating plate (4052) is rotatably arranged at the position, close to the bottom end of the outer air bag (403), of the outer wall of the inner shell (402);

the head end of each arc strip (4053) is fixedly arranged on the inner wall of the shell (401) close to the lower position of the outer rotating plate (4051), and the tail end of each arc strip (4053) is arranged at the positions right below the tail ends of the outer rotating plate (4051) and the inner rotating plate (4052).

2. An indoor water supply pipe end positioning device as claimed in claim 1, wherein: each of the housings (401) has an appearance of a combination of hollow interior, hemispherical upper end and trapezoidal lower end in a longitudinal section.

3. An indoor water supply pipe end positioning device as claimed in claim 1, wherein: each of the inner shells (402) has an external appearance of a hemispherical shape having a hollow interior.

4. An indoor water supply pipe end positioning device as claimed in claim 1, wherein: the material of each shell (401) is copper.

5. An indoor water supply pipe end positioning method, according to any one of claims 1-4, characterized in that: the method comprises the following steps:

s1: after the water supply pipeline (2) and the fixed vertical shaft (3) are arranged on the fixed support (1), detecting whether the water supply pipeline (2) is arranged in a horizontal standard or not by observing the horizontal positioning instrument (301);

s2: in high-temperature weather, after the shell (401) of the cooling component (4) in the water supply pipeline (2) senses high-temperature heat and transmits the heat into the shell (401), the outer air bag (403) is triggered to expand by the principle of thermal expansion and cold contraction;

s3: the outer rotating plate (4051) and the inner rotating plate (4052) of the material control assembly (405) are rotated and opened to continuously expand the outer air bag (403) outwards, and the outer air bag (403) contacts the arc strips (4053) to be punctured to release ammonium nitrate powder (4031);

s4: the inner rotating plate (4052) utilizes magnetism and lever principle to squeeze the inner air bag (404) through the water control component (4021) in the rotating process; s5: under the action of the negative pressure principle, air in the inner air bag (404) surges to the position of the catheter (4022) to flow out clean water (4041) in the inner air bag (404);

s6: the clear water (4041) absorbs a large amount of heat after contacting with the ammonium nitrate powder (4031), and the temperature of the inner wall of the water supply pipeline (2) is reduced through the shell (401) so as to prevent the water temperature from being too high after water is supplied.