CN215111221U - Quick-change water feeding port with high safety - Google Patents

Abstract

The utility model discloses a mouth of a river on quick change of high security relates to fluid transport technical field. The utility model discloses an interface, pipeline and connecting pipe, the bottom fixedly connected with pipeline of interface, the one end fixedly connected with connecting pipe of interface is kept away from to the pipeline, and interface and pipeline and connecting pipe are in on the same perpendicular line, and the interface is kept away from and is seted up flutedly on the top inner wall of pipeline one side. The utility model discloses an interface, the rubber circle, the thread groove, the valve, the disk seat, add the anchor bearing, the valve rod, the pressure boost piece, the present mouth of a river of going up of trading has been solved, mouth of a river simple structure, the mouth of a river damage is rapid, extravagant raw and other materials, it is single to connect, circulation speed is uncontrollable, the connector damages easily, the link interface is insecure, overall structure is unstable, lack the security, inner structure is tortuous, cause the delay of bacterium and spot, lead to the dirty use defect of inside, the mouth of a river junction is insecure, the replacement is inconvenient, it is inconvenient to wash inner structure, the poor problem of controllability.

Description

Quick-change water feeding port with high safety

Technical Field

The utility model belongs to the technical field of the fluid transport, especially, relate to a mouth of a river is gone up in quick change of high security.

Background

When the material flows from the mouth in the mould, the switching department is by the delivery port connection of water-feeding mouth, the water-feeding mouth plays the effect of connecting the delivery port still switching other pipelines, the water-feeding mouth sets up at kitchen, lavatory and other scope that use more water usually, in the aspect of the industry, the industry is pour the in-process, be the inlet outlet that the liquid plastics of thermalization flowed out from the water-feeding mouth and reach inside the mould, later flow through the exit, the water-feeding mouth is all damaged and corroded more easily than middle pipeline and lower mouth, the internal structure of water-feeding mouth is tortuous, it is complicated different, cause water-feeding mouth and lower mouth replacement degree inconsistent, the kneck is single, but it still has following drawback in the in actual use:

1. the existing quick-change water feeding port has the advantages of simple structure, unsmooth cut, overlong connection time, quick damage of the water feeding port, raw material waste, single connection, uncontrollable circulation speed, easy damage of a connecting port, insecure connection end interface, unstable integral structure, lack of safety and serious corrosion of the internal structure of the water feeding port;

2. the mouth of a river is gone up in current changing soon, the circulation of the unable control inside material of general mouth of a river, inner structure is tortuous, shines into the delay of bacterium and spot, leads to inside dirty use defect, and the mouth of a river junction is connected insecure, and the replacement is inconvenient, washs inner structure inconvenient, and controllability is poor.

Therefore, the existing quick-change water feeding port with high safety cannot meet the requirement in practical use, so that an improved technology is urgently needed in the market to solve the problem.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a quick-change water feeding port with high safety, which solves the problems of the prior quick-change water feeding port by arranging an interface, a rubber ring, a thread groove, a valve seat, a reinforcing seat, a valve rod and a pressurizing sheet, has simple structure, unsmooth cut, overlong connecting time, rapid water gap damage, raw material waste, single connection, uncontrollable circulation speed, easy damage of the interface, infirm connecting end interface, unstable integral structure and lack of safety; the general water feeding port can not control the circulation of internal materials, the internal structure is tortuous, bacteria and dirt are retained, the defect of dirty use in the interior is caused, the connection of the water feeding port is not firm, the replacement is inconvenient, the internal structure is inconvenient to clean, and the controllability is poor.

In order to solve the technical problem, the utility model discloses a realize through following technical scheme:

the utility model relates to a quick-change water feeding port with high safety, which comprises an interface, a pipeline and a connecting pipe, wherein the bottom end of the interface is fixedly connected with the pipeline, one end of the pipeline, which is far away from the interface, is fixedly connected with the connecting pipe, the interface, the pipeline and the connecting pipe are positioned on the same vertical line, and a groove is arranged on the inner wall of the top end of one side of the interface, which is far away from the pipeline; through having set up interface and pipeline, the inside recess of seting up of interface has increased the firm and seal of interface with the junction, makes things convenient for the joint, and the pipeline is inside to be set up to equip and to prevent that inner structure from blockking up, through having set up the connecting pipe, a plurality of exports are being connected to the connecting pipe bottom, and the efficiency that improve equipment used, interface and pipeline are in an on-line, and the connecting pipe bottom can customize different connecting tube, increases trade company's benefit.

Furthermore, rectangular grooves in an annular array are formed in the periphery of the interface, the depth of each groove on the interface does not reach the position of the rectangular groove on the interface, a fixed end is fixedly connected to the middle of the outer side of the pipeline, an elliptical hole penetrates through the interior of the pipeline, a reinforcing block is fixedly connected to the periphery of the inclined bottom end of the pipeline, a plurality of shunt tubes are fixedly connected to the output end of one side, away from the pipeline, of the connecting pipe, and the pipeline is fixedly connected with the connecting pipe through the reinforcing block; through having set up annular rectangular channel, a plurality of rectangular channels have been set up in the upper end of interface, when the kneck position was held to the staff was connected interface and inlet tube, can improve the frictional force of staff to the interface, increase the security of kneck, improve trade company's rights and interests, through having set up thread groove and shunt tubes, the kneck passes through the thread groove on the inner wall and is connected with the delivery port, the structure seals firmly, the rubber circle of upper end increases the closure of recess and delivery port department, improve the life at the mouth of a river, through having set up the shunt tubes, a plurality of delivery outlets can be connected to the both ends of shunt tubes, can order the output of many styles simultaneously, improve the utilization benefit of article.

Furthermore, a rubber ring is arranged in a groove at the top end of the connector, a thread groove is formed in the inner wall of the connector below the groove, a connecting block is fixedly connected to the other side of the pipeline corresponding to the fixed end on one side of the pipeline, a valve is arranged on one side, away from the pipeline, of the connecting block, the position of the valve is horizontal to the position of the pipeline, and the groove formed in the connector is larger than an elliptical hole in the pipeline below; through having set up pipeline and valve, the valve control the inside smooth degree of pipeline, inner structure has oval lubrication incomparable, inside is difficult to be detained debris and rubbish, the smoothness degree is high, high use efficiency, the valve can prevent against the current, only need very little strength just can control the passing through of the inside rivers of pipeline, or the passing through of other materials, through having set up the recess, the recess of interface top is greater than the diameter hole of one section of elliptical aperture in the pipeline of below, improve the pressure that the material passes through, increase the pressure at the mouth of a river.

Furthermore, a waterproof ring is fixedly clamped on a fixed end on one side of the pipeline, the waterproof ring is clamped at the joint of the outer side surface of the pipeline and the fixed end, a pair of valve seats which are opposite to each other on the elliptical hole are arranged in the pipeline, and the valve seats are distributed above and below the fixed end in the pipeline; through having set up waterproof circle, the stiff end joint is in one side of pipeline, and the inside valve rod that is provided with of stiff end, and the valve rod is fixed on the spheroid, has set up a plurality of waterproof circles between, prevents that rivers from permeating the stiff end outflow, increases the inside leakproofness of pipeline, through having set up the disk seat, and the disk seat is fixed inside the pipeline, and a pair of disk seat is fixed on the upper and lower of stiff end.

Furthermore, a ball body is clamped in the middle of the oval hole in the pipeline, the ball body is clamped on a valve seat in the pipeline, one side of the valve seat, which is far away from the ball body, is fixedly connected with a fixed seat, a limiting groove is formed in the valve seat, a plurality of steel balls are clamped on the valve seat in the limiting groove, the fixed end on one side of the pipeline penetrates through the pipeline and is clamped with the ball body, and a waterproof ring is arranged on the inner side of the inner wall, connected with the fixed end, of the pipeline; through having set up spheroid and disk seat, the spheroid joint runs through there is the hole on the spheroid between the disk seat, and the other end of disk seat is fixed with the fixing base, increases the stability of disk seat, and through having set up the steel ball, the steel ball is at the inside spacing inslot of disk seat, and the spheroid rotates on the disk seat, and the reaction is rapid, and the operation is real-time, and inner structure is meticulous, improves commodity value.

Furthermore, the connecting pipe is fixedly connected with pressure increasing sheets on the inner walls close to different flow dividing pipes, the pressure increasing sheets are fixed at the connecting positions of the connecting pipe and the flow dividing pipes, the bottom end of the valve is provided with a limiting block, a fixing block at one end, far away from the limiting block, of the bottom end of the valve, and the valve is fixed between the fixing block and the limiting block through the fixing block; through having set up the pressure increasing piece, the pressure increasing piece that the connecting pipe bottom set up reduces the rivers of connecting pipe entry and the throughput of other materials by a large scale, improves the through-flow volume that the connecting pipe reachs the reposition of redundant personnel intraductal, improves the pressure at the mouth of a river, and it is more convenient to use, and the security is higher, and equipment replacement is convenient, and life increases, has increased a plurality of fixed blocks and stopper, improve equipment's safety.

Furthermore, one side of the limiting block, which is far away from the valve, is fixedly connected to a rotation controller, one side of the rotation controller, which is close to the pipeline and is perpendicular to the connecting limiting block, is fixedly connected with a connecting body, the other side of the connecting body is fixedly connected with a reinforcing seat, the surface of the reinforcing seat is movably connected with a first nut in an annular array, the reinforcing seat is movably connected with a reinforcing seat through the first nut, the bottom end of the first nut penetrates through the reinforcing seat and is movably connected with a bolt, a valve rod is clamped inside a connecting block at one side of the pipeline, one end of the valve rod penetrates through the reinforcing seat and is fixedly connected to the rotation controller, the other end of the valve rod is fixedly connected to the ball body, one side of the connecting block, which is far away from the pipeline, is fixedly connected with the reinforcing seat, a waterproof cover is movably connected between one side of the reinforcing seat, which is close to the pipeline, and the connecting block, and the surface of the waterproof cover is connected with a second nut in an annular array through a thread, the waterproof cover is fixed on the reinforcing seats through second nuts, the reinforcing seats are arranged on the outer side of the waterproof cover, a pair of the reinforcing seats are movably connected through first nuts, and cylinders in an annular array are fixedly connected between the two pairs of the reinforcing seats; the valve and the rotary controller are arranged, the valve is fixed on the rotary controller through the fixing block, the other end of the rotary controller is fixedly connected with the valve rod, the valve controls the valve rod to control the inner ball body, the reinforcing seat and the first nut are arranged, the pair of reinforcing seats are fixed on the connecting body and the valve rod through the nuts and the bolts, the valve rod is protected, the stability between the valve rod and the valve is reinforced, the surface of the waterproof cover is fixed on the reinforcing seat through the second nut by arranging the waterproof cover, the waterproof ring is arranged in the position, close to the reinforcing seat, of the waterproof cover, the connecting position of the valve rod is further ensured not to leak water, the waterproof ring is fixed in the valve rod and the connecting block, the interior of a pipeline is further sealed, the use safety of the pipeline is improved, the rotary controller and the valve are arranged, the gears in the rotary controller interact, and the purpose of controlling water in real time by controlling the valve to be very small rotation, the structure is exquisite and small, and is firm and safe, and the practicality is strong.

The utility model discloses following beneficial effect has:

1. the utility model discloses a connector, rubber circle, thread groove, valve, disk seat, reinforcement seat, valve rod, pressure boost piece, solved current quick change water inlet, mouth of a river simple structure, the incision is not smooth and smooth, connect the time overlength, mouth of a river damage is rapid, waste raw and other materials, connect single, the circulation speed is uncontrollable, the connector is damaged easily, the link interface is insecure, overall structure is unstable, lack the problem of security; through having set up pipeline and valve, the valve control the inside smooth degree of pipeline, inner structure has oval lubrication incomparable, inside is difficult to be detained debris and rubbish, the smoothness degree is high, high use efficiency, the valve can prevent against the current, only need very little strength just can control the passing through of the inside rivers of pipeline, or the passing through of other materials, through having set up the recess, the recess of interface top is greater than the diameter hole of one section of elliptical aperture in the pipeline of below, improve the pressure that the material passes through, increase the pressure at the mouth of a river.

2. The utility model discloses a connector, rubber circle, thread groove, valve, disk seat, reinforcement seat, valve rod, pressure boost piece, solved general upper nozzle can't control the circulation of internal material, the inner structure is tortuous, shines the delay of bacterium and spot, leads to inside dirty use defect, and the mouth of a river junction is connected insecurely, and it is inconvenient to replace, washs the inner structure inconvenient, the poor problem of controllability; the valve and the rotary controller are arranged, the valve is fixed on the rotary controller through the fixing block, the other end of the rotary controller is fixedly connected with the valve rod, the valve controls the valve rod to control the inner ball body, the reinforcing seat and the first nut are arranged, the pair of reinforcing seats are fixed on the connecting body and the valve rod through the nuts and the bolts, the valve rod is protected, the stability between the valve rod and the valve is reinforced, the surface of the waterproof cover is fixed on the reinforcing seat through the second nut by arranging the waterproof cover, the waterproof ring is arranged in the position, close to the reinforcing seat, of the waterproof cover, the connecting position of the valve rod is further ensured not to leak water, the waterproof ring is fixed in the valve rod and the connecting block, the interior of a pipeline is further sealed, the use safety of the pipeline is improved, the rotary controller and the valve are arranged, the gears in the rotary controller interact, and the purpose of controlling water in real time by controlling the valve to be very small rotation, the structure is exquisite and small, and is firm and safe, and the practicality is strong.

Of course, it is not necessary for any particular product to achieve all of the above-described advantages at the same time.

Drawings

In order to more clearly illustrate the technical solution of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly described below, and it is apparent that,

the drawings in the following description are only some embodiments of the invention, and other drawings can be obtained by those skilled in the art without inventive effort.

Fig. 1 is a schematic structural view of the present invention;

fig. 2 is an exploded view of the present invention;

FIG. 3 is a detailed structural decomposition and distribution diagram of the present invention;

FIG. 4 is an exploded detail view of the present invention;

FIG. 5 is a detailed view of the inner structure distribution of the pipeline of the present invention;

FIG. 6 is a cut-away view of the connecting tube of the present invention;

fig. 7 is an exploded detail view of a part of the structure of the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

100. an interface; 101. a rectangular groove; 102. a groove; 103. a rubber ring; 104. a thread groove; 200. a pipeline; 201. a fixed end; 202. an elliptical hole; 203. a reinforcing block; 204. connecting blocks; 205. a valve; 206. a waterproof ring; 207. a valve seat; 208. a fixed seat; 209. steel balls; 210. a limiting groove; 211. a sphere; 212. a fixed block; 213. a limiting block; 214. a rotation controller; 215. a linker; 216. a reinforcing seat; 217. a first nut; 218. a bolt; 219. a second nut; 220. a waterproof cover; 221. a valve stem; 222. a cylinder; 300. a connecting pipe; 301. a shunt tube; 302. and (5) tabletting.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

Referring to fig. 1-7, the present invention relates to a high-safety quick-change water feeding port, which includes a connector 100, a pipeline 200 and a connecting pipe 300, wherein the bottom end of the connector 100 is fixedly connected with the pipeline 200, the end of the pipeline 200 far from the connector 100 is fixedly connected with the connecting pipe 300, the connector 100, the pipeline 200 and the connecting pipe 300 are located on the same vertical line, and a groove 102 is formed on the inner wall of the top end of the connector 100 far from the pipeline 200; the equipment is fixed in water outlet department from the staff, through holding interface 100, through the rectangular channel 101 of week side, with thread groove 104 on the interface 100 inner wall, with other end fixed connection, the bottom of interface 100 and the upper end welding of pipeline 200, pipeline 200 passes through the reinforcing block 203 of bottom week side and welds with connecting pipe 300 of below, and the surface is smooth seamless, on a vertical line.

As shown in fig. 1-2, rectangular grooves 101 in an annular array are formed on the periphery of the interface 100, the depth of the groove 102 on the interface 100 does not reach the position of the rectangular groove 101 on the interface 100, the middle part of the outer side of the pipeline 200 is fixedly connected with a fixed end 201, an elliptical hole 202 penetrates through the interior of the pipeline 200, a reinforcing block 203 is fixedly connected to the periphery of the inclined bottom end of the pipeline 200, a plurality of shunt tubes 301 are fixedly connected to the output end of the connecting tube 300 far away from the pipeline 200, and the pipeline 200 is fixedly connected with the connecting tube 300 through the reinforcing block 203; when the device is stably connected with an upper water outlet through a thread groove 104 at the interface 100, a rubber ring 103 is arranged inside a groove 102 at the interface 100 to seal the environment at the interface 100, and then when water flow or other substances flow out from the interface 100, the water flow reaches an elliptical hole 202 in the pipeline 200 from the groove 102, and the radius is reduced.

As shown in fig. 1-3, a rubber ring 103 is disposed in a groove 102 at the top end of the connector 100, a thread groove 104 is disposed on the inner wall of the connector 100 below the groove 102, a connecting block 204 is fixedly connected to the other side of the pipeline 200 corresponding to a fixed end 201 on one side of the pipeline 200, a valve 205 is disposed on one side of the connecting block 204 away from the pipeline 200, the positions of the valve 205 are horizontal to the pipeline 200, and the inner diameter of the groove 102 disposed in the connector 100 is greater than the inner diameter of an elliptical hole 202 in the pipeline 200 below; the recess 102 of interface 100 department is connected with the assorted of delivery port department, and the stiff end 201 has been welded to one side of pipeline 200, and waterproof circle 206 has all been connected with the interface 100 inside and outside both ends of pipeline 200 department to stiff end 201, and the corresponding other end fixed connection's of stiff end 201 connecting block 204 is on same horizontal plane, and the valve 205 of back one side is in one side of pipeline 200, towards the place ahead, the operation of real time control internal plant, and the size of valve 205 can be adjusted, and is moderate can.

As shown in fig. 1-4, a waterproof ring 206 is fixedly clamped on a fixed end 201 on one side of the pipeline 200, the waterproof ring 206 is clamped at a joint of the outer side surface of the pipeline 200 and the fixed end 201, a pair of valve seats 207 at opposite positions on the elliptical hole 202 are arranged inside the pipeline 200, and the valve seats 207 are distributed above and below the fixed end 201 in the pipeline 200; a pair of valve seats 207 in relative position have been fixed in the elliptical aperture 202 of the inside of pipeline 200, and valve seat 207 is the ring shape and matches with the inside elliptical aperture 202 internal surface of pipeline 200, and valve seat 207 plays the supporting role to inner structure, and fixed connection is inside pipeline 200, can make the corner of valve seat 207 inner circle smooth being the arc, guarantees inner structure's smoothness.

As shown in fig. 1-5, a sphere 211 is clamped in the middle of an elliptical hole 202 in the pipeline 200, the sphere 211 is clamped on a valve seat 207 in the pipeline 200, a fixing seat 208 is fixedly connected to one side of the valve seat 207, which is far away from the sphere 211, a limiting groove 210 is formed in the valve seat 207, a plurality of steel balls 209 are clamped in the valve seat 207 in the limiting groove 210, a fixing end 201 on one side of the pipeline 200 penetrates through the pipeline 200 and is clamped with the sphere 211, and a waterproof ring 206 is arranged on the inner side of the inner wall, which is connected with the fixing end 201, of the pipeline 200; the ball body 211 clamped between the valve seats 207 is provided with a hole, the diameter of the hole corresponds to that of the valve seat 207, in order to control the valve 205, the valve seat 207 can feel relative to the ball body 211, so that real-time control is achieved, the limiting groove 210 and the steel ball 209 arranged in the valve seat 207 can play a role in rotating the ball body 211 in a shaft mode, and the other end of the valve seat 207 is fixedly connected with the fixing seat 208 to further reinforce the position of the valve seat 207 so as to control the ball body 211.

As shown in fig. 1 to 6, the inner walls of the connecting pipes 300 close to the different flow dividing pipes 301 are fixedly connected with pressurizing sheets 302, the pressurizing sheets 302 are fixed at the joints of the connecting pipes 300 and the flow dividing pipes 301, the bottom ends of the valves 205 are provided with limit blocks 213, the bottom ends of the valves 205 are far away from the fixed blocks 212 at the ends of the limit blocks 213, and the valves 205 are fixed between the fixed blocks 212 and the limit blocks 213 through the fixed blocks 212; after the connecting pipe 300 is connected with a substance flowing out from the upper pipeline 200, the pressurizing sheet 302 connected with the bottom end of the connecting pipe 300 plays a role in pressurizing the substance, the position of the pressurizing sheet 302 is horizontal relative to the position of the outlet of the connecting pipe 300, the area of the outlet is reduced, the use efficiency of the device is increased, the shunt pipe 301 flows out, the joint of the connecting pipe 300 and the shunt pipe 301 is easy to damage, and the arrangement of the shunt port is thickened.

As shown in fig. 1-7, one side of the limiting block 213 away from the valve 205 is fixedly connected to the rotation controller 214, one side of the rotation controller 214 perpendicular to the connecting limiting block 213, which is close to the pipeline 200, is fixedly connected with a connecting body 215, the other side of the connecting body 215 is fixedly connected with a reinforcing base 216, the surface of the reinforcing base 216 is movably connected with a first nut 217 in an annular array, the reinforcing base 216 is movably connected with the reinforcing base 216 through the first nut 217, the bottom end of the first nut 217 penetrates through the reinforcing base 216 and is movably connected with a bolt 218, a valve rod 221 is clamped inside the connecting block 204 on one side of the pipeline 200, one end of the valve rod 221 penetrates through the reinforcing base 216 and is fixedly connected to the rotation controller 214, the other end of the valve rod 221 is fixedly connected to the sphere 211, one side of the connecting block 204 away from the pipeline 200 is fixedly connected with the reinforcing base 216, and a waterproof cover 220 is movably connected between one side of the reinforcing base 216, which is close to the pipeline 200, and the connecting block 204, the surface of the waterproof cover 220 is connected with second nuts 219 in an annular array through threads, the waterproof cover 220 is fixed on the reinforcing seats 216 through the second nuts 219, the outer side of the waterproof cover 220 is provided with one reinforcing seat 216, a pair of reinforcing seats 216 are movably connected through first nuts 217, and columns 222 in an annular array are fixedly connected between two pairs of reinforcing seats 216; when the valve 205 is rotated, the valve 205 rotates through the limit block 213 and the fixed block 212, the valve 205 controls the gear of the internal rotation controller 214 to rotate, the valve rod 221 penetrating through the middle of the connecting body 215 at the other end is connected with the rotation controller 214 in real time, the valve 205 controls the valve rod 221 to control the internal sphere 211, the pair of reinforcing seats 216 are fixed on the connecting body 215 and the valve rod 221 through the first nut 217 and the bolt 218 to protect the valve rod 221 and reinforce the stability between the valve rod 221 and the valve 205 at the same time, the surface of the waterproof cover 220 is fixed on the reinforcing seat 216 through the second nut 219, the waterproof ring 206 is arranged inside the waterproof cover 220 close to the reinforcing seat 216 to further ensure that the connecting part of the valve rod 221 cannot leak water, the waterproof ring 206 is fixed inside the valve rod 221 and the connecting block 204 to further seal the inside of the pipeline 200, the gear inside the rotation controller 214 interacts with each other, and the purpose of controlling water in real time can be achieved by controlling small rotation of the valve 205, the structure is exquisite and small, and is firm and safe, and the practicality is strong.

One specific application of this embodiment is: the equipment is fixed at a water outlet from hands, the interface 100 is held, the pipeline 200 is welded with a connecting pipe 300 below through a reinforcing block 203 on the periphery of the bottom end, when the equipment is stably connected with a water outlet above through the thread groove 104 on the interface 100, a rubber ring 103 is arranged inside a groove 102 on the interface 100 to seal the environment at the interface 100, then when water flow or other substances flow out from the interface 100, the water flow reaches an elliptical hole 202 in the pipeline 200 from the groove 102, the radius is reduced, the groove 102 on the interface 100 is connected with the water outlet in a matching way, a fixed end 201 is welded on one side of the pipeline 200, waterproof rings 206 are connected with the inner end and the outer end of the interface 100 at the fixed end 201 and the pipeline 200, and a connecting block 204 fixedly connected with the other end corresponding to the fixed end 201 is on the same horizontal plane, the valve 205 on the rear side is arranged on one side of the pipeline 200 and faces the front, the operation of internal equipment is controlled in real time, the size of the valve 205 can be adjusted to be proper, a hole is formed in a sphere 211 clamped between valve seats 207, the diameter of the hole corresponds to that of the valve seat 207, in order to control the valve 205, the valve seat 207 can feel the feel relative to the sphere 211, and real-time control is achieved, a limiting groove 210 and a steel ball 209 arranged in the valve seat 207 can play a role in rotating the sphere 211 in a shaft mode, the other end of the valve seat 207 is fixedly connected with a fixing seat 208 to further reinforce the position of the valve seat 207, the sphere 211 is controlled, when the valve 205 is rotated, the valve 205 rotates through a limiting block 213 and a fixing block 212, the valve 205 controls the gear of an internal rotation controller 214 to rotate, a valve rod 221 penetrating through the middle of a connecting body 215 at the other end is connected with the rotation controller 214 in real time, the valve 205 controls the valve rod 221 so as to control the ball 211 inside, the pair of reinforcing seats 216 are fixed on the connecting body 215 and the valve rod 221 through the first nut 217 and the bolt 218, the valve rod 221 is protected, meanwhile, the stability between the valve rod 221 and the valve 205 is reinforced, the surface of the waterproof cover 220 is fixed on the reinforcing seats 216 through the second nut 219, the waterproof ring 206 is arranged inside the waterproof cover 220 close to the reinforcing seats 216, the connection position of the valve rod 221 is further ensured not to leak water, the waterproof ring 206 is fixed inside the valve rod 221 and the connecting block 204, the inside of the pipeline 200 is further sealed, the gears inside the rotary controller 214 interact, and the purpose of controlling water in real time can be achieved by controlling small rotation of the valve 205.

The above is only the preferred embodiment of the present invention, and the present invention is not limited thereto, any technical solutions recorded in the foregoing embodiments are modified, and some technical features thereof are replaced with equivalent ones, and any modification, equivalent replacement, and improvement made thereby all belong to the protection scope of the present invention.

Claims (7)

1. A quick-change upper nozzle with high safety comprises an interface (100), a pipeline (200) and a connecting pipe (300), and is characterized in that: the bottom end of the connector (100) is fixedly connected with a pipeline (200), one end, far away from the connector (100), of the pipeline (200) is fixedly connected with a connecting pipe (300), the connector (100), the pipeline (200) and the connecting pipe (300) are located on the same vertical line, and a groove (102) is formed in the inner wall of the top end, far away from one side of the pipeline (200), of the connector (100).

2. The quick-change water feeding port with high safety according to claim 1, wherein the interface (100) is provided with rectangular grooves (101) in an annular array on the periphery, the depth of the groove (102) on the interface (100) does not reach the position of the rectangular groove (101) on the interface (100), the outer middle of the pipeline (200) is fixedly connected with a fixed end (201), an elliptical hole (202) penetrates through the interior of the pipeline (200), a reinforcing block (203) is fixedly connected with the periphery of the inclined bottom end of the pipeline (200), a plurality of shunt tubes (301) are fixedly connected with the output end of the connecting tube (300) far away from the pipeline (200), and the pipeline (200) is fixedly connected with the connecting tube (300) through the reinforcing block (203).

3. The quick-change water feeding port with high safety according to claim 1, wherein a rubber ring (103) is arranged in a groove (102) at the top end of the port (100), a threaded groove (104) is formed in the port (100) on the inner wall below the groove (102), a connecting block (204) is fixedly connected to the other side of the pipeline (200) corresponding to the fixed end (201) at one side of the pipeline (200), a valve (205) is arranged on one side, away from the pipeline (200), of the connecting block (204), the position of the valve (205) is horizontal relative to the position of the pipeline (200), and the groove (102) formed in the port (100) is larger than an elliptical hole (202) in the pipeline (200) below.

4. The quick-change upper nozzle with high safety according to claim 1, characterized in that a waterproof ring (206) is fixedly clamped on the fixed end (201) at one side of the pipeline (200), the waterproof ring (206) is clamped at the joint of the outer side surface of the pipeline (200) and the fixed end (201), a pair of valve seats (207) which are oppositely arranged on the elliptical hole (202) are arranged inside the pipeline (200), and the valve seats (207) are distributed above and below the fixed end (201) in the pipeline (200).

5. The quick-change water feeding port with high safety according to claim 1, wherein a ball body (211) is clamped in the middle of the inside of the oval hole (202) of the pipeline (200), the ball body (211) is clamped on the valve seat (207) in the pipeline (200), a fixing seat (208) is fixedly connected to one side, away from the ball body (211), of the valve seat (207), a limiting groove (210) is formed in the inside of the valve seat (207), a plurality of steel balls (209) are clamped on the valve seat (207) in the limiting groove (210), a fixing end (201) on one side of the pipeline (200) penetrates through the pipeline (200) and is clamped with the ball body (211), and a waterproof ring (206) is arranged on the inner side of the inner wall, connected with the fixing end (201), of the pipeline (200).

6. The quick-change upper nozzle with high safety as claimed in claim 3, wherein the connecting pipe (300) is fixedly connected with a pressurizing piece (302) on the inner wall close to different shunt tubes (301), the pressurizing piece (302) is fixed at the joint of the connecting pipe (300) and the shunt tubes (301), the bottom end of the valve (205) is provided with a stop block (213), the bottom end of the valve (205) is far away from a fixed block (212) at one end of the stop block (213), and the valve (205) is fixed between the fixed block (212) and the stop block (213) through the fixed block (212).

7. The quick-change water feeding port with high safety according to claim 6, wherein one side of the limiting block (213) far away from the valve (205) is fixedly connected to a rotating controller (214), one side of the rotating controller (214) perpendicular to the connecting limiting block (213) and close to the pipeline (200) is fixedly connected with a connecting body (215), the other side of the connecting body (215) is fixedly connected with a reinforcing base (216), the surface of the reinforcing base (216) is movably connected with a first nut (217) in an annular array, the reinforcing base (216) is movably connected with the reinforcing base (216) through the first nut (217), the bottom end of the first nut (217) penetrates through the reinforcing base (216) and is movably connected with a bolt (218), a valve rod (221) is clamped inside the connecting block (204) on one side of the pipeline (200), and one end of the valve rod (221) penetrates through the reinforcing base (216) and is fixedly connected to the rotating controller (214), the other end fixed connection is on spheroid (211), one side fixedly connected with reinforcement seat (216) of pipeline (200) are kept away from in connecting block (204), one side that reinforcement seat (216) are close to pipeline (200) and swing joint have waterproof cover (220) between connecting block (204), there is second nut (219) that is the ring array on the surface of waterproof cover (220) through threaded connection, waterproof cover (220) are fixed on reinforcement seat (216) through second nut (219), the outside of waterproof cover (220) is equipped with one and adds reinforcement seat (216), and is a pair of reinforcement seat (216) is through first nut (217) swing joint, and is two pairs fixedly connected with cylinder (222) that are the ring array between reinforcement seat (216).

Images