CN115574900B - Trinity automatic water meter detection platform - Google Patents

Abstract

The invention relates to the technical field of wading meter detection, and discloses a trinity automatic water meter detection table, which comprises a bottom plate, a quantitative barrel and a backwater barrel, wherein a water meter is arranged between the quantitative barrel and the backwater barrel, a quantitative mechanism is arranged in the quantitative barrel, and the quantitative mechanism comprises a baffle plate; the baffle is welded inside the quantitative barrel and divides the quantitative barrel; and the movable plate is arranged on one side of the baffle, and the edge of the movable plate is in sealing contact with the inner wall of the quantitative barrel. According to the invention, the motor can drive the movable plate to rotate, so that the movable plate and the baffle plate form a gap, and the space of other parts of the quantitative barrel is changed, so that the volume of the quantitative barrel can be changed according to actual requirements during detection, the detection efficiency is improved, and the detection cost is reduced.

Description

Trinity automatic water meter detection platform

Technical Field

The invention relates to the technical field of water meter detection, in particular to a trinity automatic water meter detection table.

Background

Chinese patent discloses: a trinity automatic water meter detection platform, the publication number is: CN113670418A, which solves the problem that the traditional water meter detection device is difficult to simulate different water flow states; the volume method, the mass method and the contrast method are used for detection, so that the accuracy of water meter detection is greatly improved; meanwhile, detection of the water meter, equipment start-stop and parameter setting and data reading can be completed on the control console, so that the convenience of detection is greatly improved;

however, the above-mentioned technique has problems in that: the technology can not regulate the water storage capacity in the quantitative barrel, so that the water in the quantitative barrel is required to be completely consumed every time when the quantitative barrel is detected, the time and the labor are wasted, the detection efficiency is low, and the detection cost is improved.

Disclosure of Invention

The invention aims to provide a three-in-one automatic water meter detection table so as to solve the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides an automatic water gauge of trinity detects platform, includes bottom plate, ration bucket and return water bucket, install the water gauge between ration bucket and the return water bucket, the inside of ration bucket is provided with quantitative mechanism, quantitative mechanism includes:

a baffle; the baffle is welded inside the quantitative barrel and divides the quantitative barrel; and

the movable plate is arranged on one side of the baffle, and the edge of the movable plate is in sealing contact with the inner wall of the quantitative barrel; and

a motor installed at the top end of the movable plate; the motor can drive the movable plate to rotate in the quantitative barrel;

can drive the fly leaf through the motor and rotate to let fly leaf and baffle formation clearance, thereby let the space of other parts of ration bucket change, thereby when detecting, can change the volume of ration bucket according to actual demand, thereby improved the efficiency of detection, reduced the cost of detection.

Preferably, the bottom of ration bucket and return cask is all welded through the top of supporting legs with the bottom plate, the bottom fixedly connected with inlet tube of ration bucket, the inlet tube passes through the top fixed mounting of clamp and bottom plate, can pour into the inside of ration bucket with outside water through picking up the return tube.

Preferably, the other end of the water inlet pipe is connected with a water source, a valve is further installed at one end of the water inlet pipe, a water pump is fixedly installed in the middle of the water inlet pipe, and the water pump can pump external water into the quantitative barrel.

Preferably, the tops of the quantitative barrel and the backwater barrel are provided with through holes, and the water inside the quantitative barrel and the backwater barrel can be observed through the through holes.

Preferably, the water inlet hole at the top of the quantitative barrel and the water inlet hole at the top of the backwater barrel are respectively and fixedly provided with a first pipeline and a second pipeline, the water meter is arranged between the first pipeline and the second pipeline, the pump body is further arranged between the first pipeline and the second pipeline, water in the quantitative barrel can be pumped into the backwater barrel, the water meter can be used for detecting flow, and finally the flow of the backwater barrel is compared with the flow of the water meter, so that the effect of detecting the water meter is achieved.

Preferably, the inner wall of the quantitative barrel is provided with a vibration mechanism, and the vibration mechanism comprises:

a bump integrally formed with the quantitative barrel; and

the middle part of the convex block is provided with a cavity; and

the baffle is welded in the middle of the cavity; the cavity is divided into a left cavity and a right cavity by the partition board, and the top of the partition board is provided with an opening which can enable the left cavity and the right cavity to be communicated;

when water is injected into the cavity, water can enter the left side of the cavity from the right side of the cavity.

Preferably, a plurality of rotating blades are arranged in the cavity at the left side of the cavity, the rotating blades are vertically arranged in the cavity, a through hole is formed in the left side of the cavity, and the through hole is communicated with the inside of the quantitative barrel;

when water enters into the left side of the cavity, the water rotates the rotating blades, so that the end parts of the rotating blades are knocked against the inner wall of the cavity, the whole quantitative barrel is subjected to tiny vibration, scale is not easily accumulated on the inner wall of the quantitative barrel, and the accuracy of detection cannot be affected.

Preferably, the bottom of ration bucket welds there is the thin water pipe, the other end of thin water pipe is connected with the play water end of water pump to the water injection hole has been seted up to the cavity bottom on cavity right side, the bottom and the top intercommunication of thin water pipe of water injection hole, the inside water of entering into the cavity can follow the water injection hole and get into.

Preferably, a first water diversion pipe and a water outlet are welded at the bottom of the first pipeline, the top of the water meter is in threaded connection with the water outlet, a lower pressing block is arranged in the water outlet, a first spring is welded at the top of the lower pressing block, the top of the first spring is welded with the upper inner wall of the first water diversion pipe, a sealing ring is bonded at the middle part of the lower pressing block, the sealing ring can be tightly contacted with the top end of the water outlet, when the water meter is installed with the water outlet, the lower pressing block can be upwards pushed, so that the water outlet can be enabled to discharge water, otherwise, the water outlet cannot discharge water, the inner diameters of a plurality of water outlets are different, and the water meter with different specifications can be adapted;

the middle part of lower briquetting is hollow setting, a plurality of intercommunicating pore have been seted up down around the briquetting, the top of water gauge offsets with the bottom of lower briquetting.

Preferably, the top of second pipeline and the inlet opening fixed connection at return water bucket top, the bottom welding of second pipeline has the hose, the top of hose is provided with the slip cap, the outer wall welding of slip cap and ration bucket, the top of hose is provided with second branch water pipe and water inlet, the bottom and the middle part sliding connection of slip cap of second branch water pipe, the bottom outer wall cover of second branch water pipe is equipped with the second spring, the bottom and the water inlet grafting of water gauge, set up the briquetting down in the water inlet.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, the motor can drive the movable plate to rotate, so that a gap is formed between the movable plate and the baffle, and the space of other parts of the quantitative barrel is changed, so that the volume of the quantitative barrel can be changed according to actual requirements during detection, the detection efficiency is improved, and the detection cost is reduced;

2. according to the invention, the pump body is arranged between the first pipeline and the second pipeline, so that water in the quantitative barrel can be pumped into the backwater barrel, the flow rate can be detected through the water meter, and finally, the flow rate of the backwater barrel is compared with the flow rate of the water meter, so that the effect of detecting the water meter is achieved;

3. according to the invention, the cavity and the rotating blades positioned in the cavity are arranged on the inner wall of the quantitative barrel, so that when water enters the left side of the cavity, the water rotates the rotating blades, the end parts of the rotating blades are knocked against the inner wall of the cavity, the whole quantitative barrel is subjected to tiny vibration, and therefore, scales are not easily accumulated on the inner wall of the quantitative barrel, and the detection accuracy is not influenced;

4. according to the invention, the lower pressing block is arranged in the water outlet, when the water meter is installed with the water outlet, the lower pressing block can be pushed upwards, so that the water outlet can be used for water, otherwise, the water outlet cannot be used for water, the inner diameters of the water outlets are different, and the water meter with different specifications can be adapted.

Drawings

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

FIG. 2 is a perspective view of the dosing mechanism of the present invention;

FIG. 3 is a block diagram of the dosing barrel and inlet tube of the present invention;

FIG. 4 is an enlarged schematic view of FIG. 3A in accordance with the present invention;

FIG. 5 is a perspective view of a first conduit according to the present invention;

FIG. 6 is a cross-sectional view of the outlet of the present invention;

fig. 7 is a perspective view of a second conduit according to the present invention.

In the figure: 101 bottom plate, 102 quantitative barrel, 103 water return barrel, 104 water inlet pipe, 105 water pump, 106 clamp, 107 supporting leg, 108 through hole, 109 water inlet hole, 2 quantitative mechanism, 201 baffle, 202 motor, 204 movable plate, 3 vibration mechanism, 301 bump, 302 cavity, 303 partition board, 304 rotating blade, 305 through hole, 306 water inlet hole, 401 first pipeline, 402 first water diversion pipe, 403 water outlet, 404 pressing block, 405 first spring, 406 communication hole, 407 second pipeline, 408 sliding sleeve, 409 hose, 410 second spring, 411 second water diversion pipe, 412 water inlet,

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Embodiment one:

referring to fig. 1-2, a three-in-one automatic water meter detection platform includes a bottom plate 101, a quantifying barrel 102 and a backwater barrel 103, a water meter 106 is installed between the quantifying barrel 102 and the backwater barrel 103, a quantifying mechanism 2 is arranged in the quantifying barrel 102, and the quantifying mechanism 2 includes:

a baffle 201; the baffle 201 is welded inside the dosing barrel 102 and partitions the dosing barrel 102; and

a movable plate 204 installed at one side of the baffle 201, the edge of the movable plate 204 being in sealing contact with the inner wall of the dosing barrel 102; and

a motor 202 mounted on the top end of the movable plate 204; the motor 202 may rotate the movable plate 204 inside the dosing barrel 102.

The bottoms of the quantitative barrel 102 and the backwater barrel 103 are welded with the top of the bottom plate 101 through supporting feet 107, the bottom of the quantitative barrel 102 is fixedly connected with a water inlet pipe 104, the water inlet pipe 104 is fixedly arranged on the top of the bottom plate 101 through a clamp 106, and external water can be injected into the quantitative barrel 102 through the backwater pipe 104.

The other end of the water inlet pipe 104 is connected with a water source, a valve is further installed at one end of the water inlet pipe 104, a water pump 105 is fixedly installed in the middle of the water inlet pipe 104, and the water pump 105 can pump external water into the quantitative barrel 102.

The tops of the quantitative barrel 102 and the backwater barrel 103 are respectively provided with a through hole 108, the tops of the quantitative barrel 102 and the backwater barrel 103 are also provided with water inlet holes 109, and the through holes 108 can observe water in the quantitative barrel 102 and the backwater barrel 103;

in this embodiment, the motor 202 may drive the movable plate 204 to rotate, so that the movable plate 204 and the baffle 201 form a gap, so that the space of other parts of the quantitative barrel 102 is changed, and thus, when detecting, the volume of the quantitative barrel 102 can be changed according to actual requirements, thereby improving the detection efficiency and reducing the detection cost.

Embodiment two:

the utility model provides an automatic water gauge of trinity detects platform, includes bottom plate 101, ration bucket 102 and return water bucket 103, installs water gauge 106 between ration bucket 102 and the return water bucket 103, and the inside of ration bucket 102 is provided with ration mechanism 2, and ration mechanism 2 includes:

a baffle 201; the baffle 201 is welded inside the dosing barrel 102 and partitions the dosing barrel 102; and

a movable plate 204 installed at one side of the baffle 201, the edge of the movable plate 204 being in sealing contact with the inner wall of the dosing barrel 102; and

a motor 202 mounted on the top end of the movable plate 204; the motor 202 may rotate the movable plate 204 inside the dosing barrel 102.

The bottoms of the quantitative barrel 102 and the backwater barrel 103 are welded with the top of the bottom plate 101 through supporting feet 107, the bottom of the quantitative barrel 102 is fixedly connected with a water inlet pipe 104, the water inlet pipe 104 is fixedly arranged on the top of the bottom plate 101 through a clamp 106, and external water can be injected into the quantitative barrel 102 through the backwater pipe 104.

The other end of the water inlet pipe 104 is connected with a water source, a valve is further installed at one end of the water inlet pipe 104, a water pump 105 is fixedly installed in the middle of the water inlet pipe 104, and the water pump 105 can pump external water into the quantitative barrel 102.

The tops of the quantitative barrel 102 and the backwater barrel 103 are respectively provided with a through hole 108, and the tops of the quantitative barrel 102 and the backwater barrel 103 are also provided with a water inlet hole 109;

a first pipeline 401 and a second pipeline 407 are respectively and fixedly arranged in the water inlet hole 109 at the top of the quantifying barrel 102 and the water inlet hole 109 at the top of the backwater barrel 103, and a water meter 106 is arranged between the first pipeline 401 and the second pipeline 407;

in this embodiment, a pump body is installed between the first pipe 401 and the second pipe 407, so that water in the quantitative barrel 102 can be pumped into the backwater barrel 103, the flow rate can be detected through the water meter 106, and then the flow rate of the backwater barrel 103 is compared with the flow rate of the water meter 106, so that the effect of detecting the water meter is achieved.

Embodiment III:

with continued reference to fig. 3-4, a three-in-one automated water meter detection station comprises a bottom plate 101, a quantitative barrel 102 and a backwater barrel 103, a water meter 106 is arranged between the quantitative barrel 102 and the backwater barrel 103,

the inside of the quantitative barrel 102 is provided with a quantitative mechanism 2, and the quantitative mechanism 2 includes:

a baffle 201; the baffle 201 is welded inside the dosing barrel 102 and partitions the dosing barrel 102; and

a movable plate 204 installed at one side of the baffle 201, the edge of the movable plate 204 being in sealing contact with the inner wall of the dosing barrel 102; and

a motor 202 mounted on the top end of the movable plate 204; the motor 202 may rotate the movable plate 204 inside the dosing barrel 102.

The bottoms of the quantitative barrel 102 and the backwater barrel 103 are welded with the top of the bottom plate 101 through supporting feet 107, the bottom of the quantitative barrel 102 is fixedly connected with a water inlet pipe 104, the water inlet pipe 104 is fixedly arranged on the top of the bottom plate 101 through a clamp 106, and external water can be injected into the quantitative barrel 102 through the backwater pipe 104.

The other end of the water inlet pipe 104 is connected with a water source, a valve is further installed at one end of the water inlet pipe 104, a water pump 105 is fixedly installed in the middle of the water inlet pipe 104, and the water pump 105 can pump external water into the quantitative barrel 102.

The tops of the quantitative barrel 102 and the backwater barrel 103 are respectively provided with a through hole 108, and the tops of the quantitative barrel 102 and the backwater barrel 103 are also provided with a water inlet hole 109;

the inner wall of the quantitative barrel 102 is provided with a vibration mechanism 3, and the vibration mechanism 3 includes:

a bump 301 integrally formed with the dosing barrel 102;

a cavity 302 is formed in the middle of the bump 301;

a partition 303 welded to the middle of the cavity 302; the partition 303 divides the cavity 302 into a left cavity and a right cavity, and an opening is formed in the top of the partition 303, and the opening can enable the left cavity and the right cavity to be communicated;

when water is injected into the cavity 302, water may enter the left side of the cavity 302 from the right side of the cavity 302.

The left side chamber of cavity 302 is provided with rotor blade 304 in, and rotor blade 304 is equipped with a plurality of and is vertical setting in the inside of cavity 302, and through-hole 305 has been seted up to the left side of cavity 302, and through-hole 305 communicates with the inside of ration bucket 102.

A water pipe 307 is welded at the bottom of the quantitative barrel 102, the other end of the water pipe 307 is connected with the water outlet end of the water pump 105, a water injection hole 306 is formed at the bottom of the cavity at the right side of the cavity 302, the bottom end of the water injection hole 306 is communicated with the top of the water pipe 307, and water entering the cavity 302 can enter from the water injection hole 306;

in this embodiment, the cavity 302 and the rotating blade 304 located inside the cavity 302 are disposed on the inner wall of the quantitative barrel 102, so that when water enters the left side of the cavity 302, the water rotates the rotating blade 304, so that the end of the rotating blade 304 knocks against the inner wall of the cavity 302, and the whole quantitative barrel 102 is slightly vibrated, so that scale is not easily accumulated on the inner wall of the quantitative barrel 102, and the accuracy of detection is not affected.

Embodiment four:

with continued reference to fig. 5-7, a three-in-one automatic water meter detection platform includes a bottom plate 101, a quantitative barrel 102 and a backwater barrel 103, a water meter 106 is installed between the quantitative barrel 102 and the backwater barrel 103, a quantitative mechanism 2 is provided in the quantitative barrel 102, and the quantitative mechanism 2 includes:

a baffle 201; the baffle 201 is welded inside the dosing barrel 102 and partitions the dosing barrel 102; and

a movable plate 204 installed at one side of the baffle 201, the edge of the movable plate 204 being in sealing contact with the inner wall of the dosing barrel 102; and

a motor 202 mounted on the top end of the movable plate 204; the motor 202 can drive the movable plate 204 to rotate in the quantitative barrel 102;

the motor 202 can drive the movable plate 204 to rotate, so that the movable plate 204 and the baffle 201 form a gap, and the space of other parts of the quantitative barrel 102 is changed, so that when the quantitative barrel 102 is detected, the volume of the quantitative barrel 102 can be changed according to actual requirements, the detection efficiency is improved, and the detection cost is reduced.

The bottoms of the quantitative barrel 102 and the backwater barrel 103 are welded with the top of the bottom plate 101 through supporting feet 107, the bottom of the quantitative barrel 102 is fixedly connected with a water inlet pipe 104, the water inlet pipe 104 is fixedly arranged on the top of the bottom plate 101 through a clamp 106, and external water can be injected into the quantitative barrel 102 through the backwater pipe 104.

The other end of the water inlet pipe 104 is connected with a water source, a valve is further installed at one end of the water inlet pipe 104, a water pump 105 is fixedly installed in the middle of the water inlet pipe 104, and the water pump 105 can pump external water into the quantitative barrel 102.

The tops of the quantitative barrel 102 and the backwater barrel 103 are respectively provided with a through hole 108, and the tops of the quantitative barrel 102 and the backwater barrel 103 are also provided with a water inlet hole 109;

the bottom of the first pipeline 401 is welded with a first water diversion pipe 402 and a water outlet 403, the top of the water meter 106 is in threaded connection with the water outlet 403, a lower pressing block 404 is arranged in the water outlet 403, a first spring 405 is welded at the top of the lower pressing block 404, the top of the first spring 405 is welded with the upper inner wall of the first water diversion pipe 402, a sealing ring is bonded at the middle part of the lower pressing block 404, the sealing ring can be tightly contacted with the top end of the water outlet 403, when the water meter 106 is installed with the water outlet 403, the lower pressing block 404 can be pushed upwards, so that the water outlet 403 can be discharged, otherwise, the water outlet 403 cannot discharge water, and the inner diameters of the water outlets 403 are different in specification, so that the water meter 106 with different specifications can be adapted;

the middle part of the lower pressing block 404 is hollow, a plurality of communication holes 406 are formed around the lower pressing block 404, and the top of the water meter 106 is propped against the bottom of the lower pressing block 404.

The top end of the second pipeline 407 is fixedly connected with a water inlet 109 at the top of the backwater barrel 103, a hose 409 is welded at the bottom end of the second pipeline 407, a sliding sleeve 408 is arranged at the top of the hose 409, the sliding sleeve 408 is welded with the outer wall of the quantitative barrel 102, a second water diversion pipe 411 and a water inlet 412 are arranged above the hose 409, the bottom of the second water diversion pipe 411 is slidably connected with the middle part of the sliding sleeve 408, a second spring 410 is sleeved on the outer wall of the bottom of the second water diversion pipe 411, the bottom of the water meter 106 is spliced with the water inlet 412, and a pressing block 404 is arranged in the water inlet 412;

in this embodiment, by arranging the lower pressing block 404 inside the water outlet 403, when the water meter 106 is installed with the water outlet 403, the lower pressing block 404 can be pushed upwards, so that the water outlet 403 can be discharged, otherwise, the water outlet 403 cannot discharge water, and the inner diameters of the water outlets 403 are different, so that the water meter 106 with different specifications can be adapted.

In the use process, the water-soluble fiber is prepared,

although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. The utility model provides an automatic water gauge of trinity detects platform, includes bottom plate (101), ration bucket (102) and return water bucket (103), its characterized in that: install water gauge (106) between ration bucket (102) and return water bucket (103), the inside of ration bucket (102) is provided with ration mechanism (2), ration mechanism (2) include:

a baffle (201); the baffle (201) is welded inside the quantitative barrel (102) and divides the quantitative barrel (102); and

a movable plate (204) arranged on one side of the baffle plate (201), wherein the edge of the movable plate (204) is in sealing contact with the inner wall of the quantitative barrel (102); and

a motor (202) mounted on the top end of the movable plate (204); the motor (202) can drive the movable plate (204) to rotate in the quantitative barrel (102);

the inner wall of ration bucket (102) is provided with vibration mechanism (3), vibration mechanism (3) include:

a bump (301) integrally formed with the dosing barrel (102); and

a cavity (302) is formed in the middle of the convex block (301); and

a baffle plate (303) welded in the middle of the cavity (302); the cavity (302) is divided into a left cavity and a right cavity by the partition board (303), and an opening is formed in the top of the partition board (303) and can enable the left cavity and the right cavity to be communicated;

a plurality of rotating blades (304) are arranged in the left side chamber of the cavity (302), the rotating blades (304) are vertically arranged in the cavity (302), a through hole (305) is formed in the left side of the cavity (302), and the through hole (305) is communicated with the inside of the quantitative barrel (102);

the bottom of ration bucket (102) is welded with thin water pipe (307), the other end of thin water pipe (307) is connected with the play water end of water pump (105) to water injection hole (306) have been seted up to cavity bottom on cavity (302) right side, the bottom of water injection hole (306) communicates with the top of thin water pipe (307).

2. The automated three-in-one water meter test stand of claim 1, wherein: the bottom of ration bucket (102) and return water bucket (103) all pass through supporting legs (107) and bottom plate (101) top welding, the bottom fixedly connected with inlet tube (104) of ration bucket (102), inlet tube (104) pass through clamp (106) and bottom plate (101) top fixed mounting.

3. The automated three-in-one water meter test stand of claim 2, wherein: the other end of inlet tube (104) is connected with the water source, the valve is still installed to the one end of inlet tube (104), the middle part fixed mounting of inlet tube (104) has water pump (105), and this water pump (105) can draw in the inside of ration bucket (102) with outside water.

4. The automated three-in-one water meter test stand of claim 1, wherein: the top of ration bucket (102) and return water bucket (103) has all been seted up through-hole (108), the top of ration bucket (102) and return water bucket (103) has still been seted up water inlet (109).

5. The automated three-in-one water meter test stand of claim 4, wherein: the water meter is characterized in that a water inlet (109) at the top of the quantitative barrel (102) and a water inlet (109) at the top of the backwater barrel (103) are respectively and fixedly provided with a first pipeline (401) and a second pipeline (407), and the water meter (106) is arranged between the first pipeline (401) and the second pipeline (407).

6. The automated water meter test stand of claim 5, wherein: the bottom of the first pipeline (401) is welded with a first water diversion pipe (402) and a water outlet (403), the top of the water meter (106) is in threaded connection with the water outlet (403), a lower pressing block (404) is arranged in the water outlet (403), a first spring (405) is welded at the top of the lower pressing block (404), the top of the first spring (405) is welded with the upper inner wall of the first water diversion pipe (402), a sealing ring is bonded at the middle part of the lower pressing block (404), and the sealing ring can be in close contact with the top of the water outlet (403);

the middle part of lower briquetting (404) is hollow setting, a plurality of intercommunicating pore (406) have been seted up around lower briquetting (404), the top of water gauge (106) offsets with the bottom of lower briquetting (404).

7. The automated water meter test stand of claim 6, wherein: the top of second pipeline (407) and inlet (109) fixed connection at return water bucket (103) top, hose (409) are welded to the bottom of second pipeline (407), the top of hose (409) is provided with slip cap (408), the outer wall welding of slip cap (408) and ration bucket (102), the top of hose (409) is provided with second branch water pipe (411) and water inlet (412), the bottom of second branch water pipe (411) and the middle part sliding connection of slip cap (408), the bottom outer wall cover of second branch water pipe (411) is equipped with second spring (410), the bottom and the water inlet (412) grafting of water gauge (106), set up briquetting (404) in water inlet (412).