CN108035402A - Can anticorrosion, anti abrasive fire hydrant - Google Patents

Abstract

The present invention provides can anticorrosion, anti abrasive fire hydrant, it includes being embedded in below ground and more than auto-extending to ground and can automatically contract to the hydrant body for being used to provide water source to fire fighter switched between below ground；The hydrant body includes the first standpipe of position fixed setting, coaxial be movably set in inside the first standpipe and move the second standpipe of completion contraction/stretching, extension along the central axis of the first standpipe, the position-limit mechanism moved for limiting the second standpipe along the first standpipe central axis the first standpipe of disengaging is additionally provided between first standpipe and the second standpipe, and when the first standpipe moves to position-limit mechanism, the first standpipe is mutually connected with the second standpipe；Region between first standpipe inner cavity wall portion, conducting block, housing one forms transition cavity, and when positioning conduction mechanism moves to position-limit mechanism, the first standpipe is mutually connected with the second standpipe.

Description

Can anticorrosion, anti abrasive fire hydrant

Technical field

The present invention relates to a kind of fire-fighting equipment, and in particular to a kind of fire hydrant.

Background technology

Fire also brings huge disaster to the mankind while offering convenience to the mankind, fire hydrant is that a city is indispensable Fire fighting device, indicates the development speed in a city, the fire fighting device in city is generally all located at more than ground, often by road The vehicle crossed is miscued or even smashed, and the fire hydrant after being smashed can give off substantial amounts of water, is not only influenced urban transportation, is influenced city City beautifies, and also wastes water resource, in addition, it is also possible to therefore delayed the fire rescue in city, the life to people Property safety brings grave danger.

The content of the invention

To solve the deficiencies in the prior art, it is installed on below ground the object of the present invention is to provide one kind and telescopic disappears Anti- bolt.

To realize above-mentioned technical purpose, the technical solution adopted in the present invention is as follows.

Can anticorrosion, anti abrasive fire hydrant, it includes being embedded in below ground and can be more than auto-extending to ground With the hydrant body for being used to provide water source to fire fighter for automatically contracting to switch between below ground；

The hydrant body includes the first standpipe of position fixed setting, is coaxially movably set in the first standpipe Portion and move the second standpipe of completion contraction/stretching, extension, the first standpipe and along the central axis of the first standpipe It is additionally provided between two standpipes and departs from the first fire-fighting along the first standpipe central axis for limiting the second standpipe The position-limit mechanism of standpipe movement, and when the first standpipe moves to position-limit mechanism, the first standpipe is stood with the second fire-fighting Pipe is mutually connected, and the first standpipe, the second standpipe are the cylindric tube body of both ends open, and first fire-fighting is stood Connection block is laid with along its short transverse on the periphery of pipe, connects in block and coaxially offers runner three, three one end open of runner The inner cavity for extending to the bottom open end of the first standpipe, the other end and the first standpipe is connected；

It is provided with to coordinate with position-limit mechanism on second standpipe and is used to control the first standpipe to stand with the second fire-fighting The positioning conduction mechanism of pipe on/off, positioning conduction mechanism include isometrical coaxially arranged with the second standpipe and mutually interconnect The connecting tube of connection and the coaxially arranged conducting block of connecting tube, the outside diameter of second standpipe are less than the first fire-fighting The internal diameter of standpipe, the inner cavity of conducting block and the first standpipe match, the first standpipe inner cavity wall portion, the second standpipe Region between periphery, conducting block, which is formed, holds water cavity, between the first standpipe inner cavity wall portion, conducting block, housing one Region forms transition cavity, when positioning conduction mechanism moves to position-limit mechanism, the first standpipe and the second standpipe phase Mutually connect.

The further optimization and improvement of the present invention.

The conducting block is to be matched with the first standpipe inner cavity and form slide-and-guide with the first standpipe inner cavity The cylinder of cooperation, coaxially offers groove depth direction and the second standpipe central axis upright on the conducting block periphery Connection annular groove, the slot bottom for connecting annular groove offers the first conduction hole with being connected tube cavity connection, and the conducting block deviates from The second conduction hole connected with connecting annular groove cell wall is offered on the end face of connecting tube, positioned at the center connected annular groove with turn on block Pressure valve is additionally provided between axis, the pressure valve turns on block upper installing hole including being opened in, Matching installation in mounting hole There are the second spool, the first spring, sealing cover, second spool includes stretching out the triggering of conducting block upper surface by mounting hole Bar, be fixedly and coaxially connected with frizzen and form the second insert body that slide-and-guide coordinates with mounting hole in mounting hole, Second insert body can realize the closure to the first conduction hole, and the sealing cover is matched with mounting hole, and the first spring is positioned at the Between two spools and sealing cover, the second spool of resilient force of the first spring is directed away from the direction movement of sealing cover.

The further optimization and improvement of the present invention.

Above-mentioned position-limit mechanism includes being arranged at limit protrusion and the company of being arranged at of the first standpipe water outlet inner cavity Spacing raised line in adapter, the limit protrusion be along the first standpipe lumen circumference thereto the heart narrow it is spacing built-in Step, and the difference between the height of above-mentioned frizzen stretching and spacing raised line height is more than/is equal to the diameter of the first conduction hole.

The further optimization and improvement of the present invention.

Second conduction hole shows several along the Circle-Array for connecting annular groove, and ring is connected on first conduction hole edge The slot bottom array of groove has several.

The beneficial effect of the present invention compared with prior art is that fire hydrant provided by the invention is installed on below earth's surface, When not in use, fire hydrant occupied space and will not be not easy to be damaged by shocks such as vehicles, during use can auto-extending ground complete to supply Water.

Brief description of the drawings

In order to illustrate the embodiments of the present invention more clearly, attached drawing needed in the embodiment will be done simply below Introduce, it should be apparent that, drawings in the following description are only some embodiments of the present invention, for ordinary skill people For member, without creative efforts, other attached drawings can also be obtained according to these attached drawings.

Fig. 1 is the structure diagram that the present invention is under contraction state.

Fig. 2 is the structure diagram that the present invention is under extended configuration.

Fig. 3 is the inside overall structure diagram of the present invention.

Fig. 4 is the inside overall structure diagram of the present invention.

Fig. 5 is the cooperation schematic diagram between the first valve of the present invention and conducting pipe network.

Fig. 6 is Bernoulli Jacob's connecting pipe structure schematic diagram of the present invention.

Fig. 7 is the first valve internal structure diagram of the present invention.

Fig. 8 is the structure diagram of the housing one of the present invention.

Fig. 9 is the structure diagram of the housing one of the present invention.

Figure 10 is the cooperation schematic diagram of one and first spool of housing of the present invention.

Figure 11 is the connection plate structure schematic diagram of the present invention.

Figure 12 is the connection plate structure schematic diagram of the present invention.

Figure 13 is fit structure schematic diagram of the housing one with through plate of the present invention.

Figure 14 is the first valve core structure schematic diagram of the present invention.

Figure 15 is the first valve core structure schematic diagram of the present invention.

Figure 16 is the cooperation schematic diagram between the first standpipe, the second standpipe, the first spool of the present invention.

Figure 17 is the first standpipe structure diagram of the present invention.

Figure 18 is the cooperation schematic diagram between the first standpipe, the first spool, housing one of the present invention.

Figure 19 is the positioning conduction mechanism structure diagram of the present invention.

Figure 20 is the positioning conduction mechanism structure diagram of the present invention.

Figure 21 is the structure diagram that the positioning conduction mechanism of the present invention is off.

Figure 22 is the structure diagram of the positioning conduction mechanism of the present invention in an ON state.

Figure 23 is the cooperation schematic diagram between the housing two of the present invention, driving disk, support disk.

Figure 24 is that the water outlet connecting tube of the present invention is in the structure diagram of contraction state.

Figure 25 is that the water outlet connecting tube of the present invention is in the structure diagram of stretching state.

Figure 26 is cooperation schematic diagram of second standpipe with housing two of the present invention.

Figure 27 is the drive sleeve and the cooperation schematic diagram of driving disk of the present invention.

Figure 28 is cooperation schematic diagram of second valve with housing two of the present invention.

Figure 29 is the second valve mechanism schematic diagram of the present invention.

Figure 30 is the structure diagram of the pressing valve pocket of the present invention.

Figure 31 is the cooperation schematic diagram between the guidance set, the first standpipe, housing two of the present invention.

Figure 32 is the guidance set of the present invention and the cooperation schematic diagram of the first standpipe.

It is denoted as in figure：

100th, the first valve；110th, housing one；111st, annular sleeve；112nd, connection mouth one；113rd, connection mouth two；114th, intercommunicating pore One；115th, intercommunicating pore two；116th, the first limited step；117th, dilatation annular groove；120th, the first spool；121st, valve rod；122nd, first Insert body；122a, water-guiding hole one；122b, water-guiding hole two；122c, drainage annular groove；122cc, water-guiding hole three；122d, water-guiding hole Four；130th, through plate；131st, deflector hole one；132nd, deflector hole two；133rd, deflector hole three；134th, deflector hole four；135th, runner one； 136th, runner two；140th, bottom plate；

200th, water circle device；210th, Bernoulli Jacob's connecting tube；211st, taper water inlet；212nd, conical water outlet；213rd, centre is led Water pipe；214th, connection mouth three；220th, conduction pipe one；230th, water tank；240th, conduction pipe 2 240；

300th, hydrant body；310th, the first standpipe；311st, connectivity slot；312nd, runner three；313rd, spacing built-in step；314、 Guide pad；315th, guiding bar；320th, the second standpipe；330th, conduction mechanism is positioned；331st, connecting tube；332nd, block is turned on； 332a, connect annular groove；332aa, the first conduction hole；332b, the second conduction hole；332c, pressure valve；332c1, the second spool； 332c2, the first spring；332c3, sealing cover；332d, the 3rd conduction hole；333rd, drive rod；

400th, open-and-close mechanism；410th, folding component；411st, housing two；411a, stretch out hole；411aa, linear guide groove；411b, water outlet Connecting tube；411bb, support guide bar；411c, the second limited step；411d, support limit step；412nd, disk is driven； 412a, circular arc driver slot；413rd, disk is supported；420th, drive sleeve；421st, guide groove is driven；421a, breeze way；421b, driving Section；421c, boot segment；430th, guidance set；431st, connecting plate；432nd, guide rod；

500th, the second valve；510th, installing plate；520th, valve pocket is pressed；521st, section is pressed；521a, state switching accommodating cavity；521b、 Polygon drive hole；522nd, driving gear；530th, the 3rd spool；540th, second spring；550th, traction component；551st, driven tooth Wheel；552nd, threaded rod；

600th, fire-hydrant cabinet.

Embodiment

With reference to the attached drawing in the embodiment of the present invention, the technical solution in the embodiment of the present invention is carried out clear, complete Ground describes, it is clear that described embodiment only part of the embodiment of the present invention, rather than whole embodiments.Based on this hair Embodiment in bright, those of ordinary skill in the art without making creative work, the every other reality obtained Example is applied, belongs to the scope of the present invention.

As shown in Figure 3-4, the self extending Concealed fire bolt of town road or architecture storey is installed on, it includes embedded In below ground and can be more than auto-extending to ground and being used for of automatically contracting to switch between below ground is to disappearing Anti- personnel provide the hydrant body 300 at water source, are arranged between hydrant body 300 and city supply water pipeline for controlling fire hydrant Body 300 is in stretching state and the first valve 100, the open-and-close mechanism that is sheathed on outside hydrant body 300 of contraction state switching 400, the driving realization that open-and-close mechanism 400 can receive hydrant body 300 switches between open mode and closure state, fire hydrant Body 300 in contraction state and locates below ground level in a non-operative state, when it is desired to be used, opens the first valve 100, disappears Anti- body 300 can be connected more than auto-extending ground and with city supply water pipeline, avoid hydrant body 300 due to being arranged on ground More than face smashed by vehicle or generation phenomena such as corrosion and ageing is serious.

As shown in fig. 7, first valve 100 includes housing 1, the first spool 120, bottom plate 140, housing one The circular cylindrical shape cylinder that 110 be one end open, the other end seals, the sealed end of its middle casing 1 is coaxially installed with and housing The annular sleeve 111 that one 110 inner cavities are connected, be provided with housing 1 annular sleeve 111 end surfaces offer extending direction with Intercommunicating pore 1, the intercommunicating pore 2 115 of one 110 centerline axis parallel of housing, intercommunicating pore 1, intercommunicating pore 2 115 are located at shell Wall portion and the open end connection with housing 1 respectively between one 110 periphery of one 110 inner cavity of body and housing, it is described The region also arranged for interval not overlapped on the periphery of housing 1 with intercommunicating pore 1, intercommunicating pore 2 115 have respectively with shell The connection mouth 1 and connection mouth 2 113 that one 110 inner cavity of body is connected, bottom plate 140 and the openend of housing 1 cooperatively form The accommodating cavity of the first spool 120 is accommodated, the spacing structure for being constrained the first spool 120 is provided with accommodating cavity Part, limit component limit the first spool 120 and are moved along the central axis of housing 1, also set up on first valve 100 It is useful for the first spool of connection 120 and intercommunicating pore 1, the means of communication of intercommunicating pore 2 115.

First spool 120 include valve rod 121, the first insert body 122, the first insert body 122 be with it is above-mentioned Accommodating cavity matches and can be around the cylinder of own axis, and valve rod 121 is fixedly connected with the first insert body 122 and concentric cloth Put, valve rod 121 stretches out 110 inner cavity of housing by annular sleeve 111 and is connected with driving mechanism, structure between valve rod 121 and annular sleeve 111 Coordinating into being slidingly sealed, valve rod 121 can be received from exterior driving force, and the driving force is transferred to the first insert body 122, So as to drive the first insert body 122 to realize unlatching/closing of the first valve 100 around own axis.

Groove depth direction is coaxially offered on the periphery of first insert body 122 perpendicular to 121 central shaft of valve rod The drainage annular groove 122c of line, the slot bottom of drainage annular groove 122c offer three 122cc of water-guiding hole, and the first insert body 122 is provided with The end surfaces of valve rod 121 offer one 122a of water-guiding hole, two 122b of water-guiding hole, wherein one 122a of water-guiding hole, water-guiding hole two 122b runs through the wall portion of the first insert body 122, the first insert body 122 along the central axis of the first insert body 122 respectively Four 122d of water-guiding hole for being further opened with connecting with three 122cc of water-guiding hole away from the end face of valve rod 121.

More specifically, the limit component is the first limited step 116 being opened in accommodating cavity, and first is spacing Step 116 is used to limit movement of first spool 120 along one 110 central axis of housing towards one 110 sealed end of housing, the first limit Position step 116 closes on the sealed end arrangement of housing 1 and the first insert body 122, the first limited step 116, accommodating sky The water containing space gap of sealing is formed between chamber, above-mentioned 2 113 one end of connection mouth is connected with water containing space gap, the other end and the external world connect It is logical.

More optimize, in order to increase the carrying capacity of 100 current of the first valve, house cavity wall portion and drainage annular groove 122c Corresponding position also coaxially offers groove depth direction and drains the parallel dilatation annular grooves 117 of annular groove 122c, drainage annular groove 122c with Dilatation annular groove 117, which is formed, holds aquaporin, and above-mentioned one 112 one end of connection mouth is with holding aquaporin connection, the other end and urban water supply Pipeline is connected.

As figs 11-13, above-mentioned means of communication is the through plate being arranged between housing 1 and bottom plate 140 130, the medium position of through plate 130 is spaced apart equipped with deflector hole 1, the deflector hole 2 132 through its thickness of slab, through plate 130 marginal positions are spaced apart equipped with deflector hole 3 133, the deflector hole 4 134 through its thickness of slab,

Wherein deflector hole 3 133 is connected connection, deflector hole 4 134 and above-mentioned intercommunicating pore 2 115 with above-mentioned intercommunicating pore 1 Connection is connected, and deflector hole 1, deflector hole 2 132 are located in accommodating cavity and can be realized with the rotation of the first spool 120 and the The on/off of one spool 120.

Mutually connected between the deflector hole 1 and deflector hole 4 134, deflector hole 2 132 and deflector hole 3 133 it Between mutually connect, specific scheme is, the end face that through plate 130 deviates from accommodating cavity offers open opening straight down Runner 1, runner 2 136, wherein runner 1 are between deflector hole 3 133 and deflector hole 2 132 and deflector hole three 133 can be connected with deflector hole 2 132 by runner 1, and runner 2 136 is between deflector hole 4 134 and deflector hole 1 And deflector hole 4 134 can connect with deflector hole 1 by runner 2 136, the bottom plate 140 can coordinate with through plate 130 Realize the sealing to runner 1, runner 2 136, there is the runner of open notch by being opened up on through plate 130 come real Mutual connection between existing deflector hole, greatly reduces the difficulty of actual production processing, reduces production cost.

In open mode, four 122d of water-guiding hole is connected first valve 100 with deflector hole 1, water-guiding hole one 122a is connected with deflector hole 2 132.

First valve 100 is when in the transition state switched from open mode to closed mode, deflector hole one 131st, deflector hole 2 132 is off between the first spool 120.

When the first valve 100 completion transition switching is in off state, four 122d of water-guiding hole connects with deflector hole 2 132 Logical, two 122b of water-guiding hole is connected with deflector hole 1.

As shown in Figure 16,17, the hydrant body includes the first standpipe being vertically arranged on the first valve 100 310th, it is coaxial to be movably set in the inside of the first standpipe 310 and move completion receipts along the central axis of the first standpipe 310 Second standpipe 320 of contracting/stretching, extension, is additionally provided between the first standpipe 310 and the second standpipe 320 for limiting The position-limit mechanism that second standpipe 320 is moved along 310 central axis of the first standpipe the first standpipe 310 of disengaging, and When the first standpipe 310 moves to position-limit mechanism, the first standpipe 310 is mutually connected with the second standpipe 320, the One standpipe 310, the second standpipe 320 are the cylindric tube body of both ends open, wherein the first standpipe 310 and Be provided with the support seal receptacle to match with housing 1 on the end face that one valve 100 coordinates, support offered on seal receptacle with The connectivity slot 311 that first standpipe, 310 inner cavity is connected, above-mentioned intercommunicating pore 2 115 connects with connectivity slot 311, and described the Connection block is laid with along its short transverse on the periphery of one standpipe 310, connects in block and coaxially offers runner 3 312, 3 312 one end of runner and the inner cavity of the connection of intercommunicating pore 1, the other end and the first standpipe 310 are connected, and runner three 312 and 310 inner cavity of the first standpipe connection at close on end of first standpipe 310 away from the first valve 100.

It is additionally provided with to coordinate with position-limit mechanism between second standpipe 320 and support seal receptacle and is used to controlling the The positioning conduction mechanism 330 of one standpipe 310 and the second standpipe 320 on/off, positioning conduction mechanism 330 include It is coaxially arranged with the second standpipe 320 connecting tube 331 and connecting tube 331 isometrical coaxially arranged and that be connected with each other connection Block 332 is turned on, the outside diameter of second standpipe 320 is less than the internal diameter of the first standpipe 310, turns on block 332 and the The inner cavity of one standpipe 320 matches, 310 inner cavity wall portion of the first standpipe, 320 periphery of the second standpipe, conducting Region between block 332, which is formed, holds water cavity, the area between 310 inner cavity wall portion of the first standpipe, conducting block, housing 1 Domain forms transition cavity, and when positioning conduction mechanism 330 moves to position-limit mechanism, the first standpipe 310 is stood with the second fire-fighting Pipe 320 is mutually connected.

The conducting block 332 is to match with 310 inner cavity of the first standpipe and formed with 310 inner cavity of the first standpipe The cylinder that slide-and-guide coordinates, the center of conducting block 332 offer avoid holes, and rotating Matching installation in avoid holes has drive rod 333,333 one end of drive rod is connected with valve rod 121, the other end is connected through 320 inner cavity of the second standpipe with driving mechanism, is Prevent from positioning 330 motion process of conduction mechanism that drive rod 333 departs from valve rod 121 to coordinate, inside the drive rod 333 Drive hole is offered along its center axis, the valve rod 121 is stretched into drive hole, and valve rod 121 can be along the central shaft of drive hole Line moves and can receive the driving of drive hole rotate around own axes, and when positioning conduction mechanism 330 moves to position-limit mechanism, Valve rod 121 is still located in drive hole.

Groove depth direction is coaxially offered on 332 periphery of conducting block to hang down with 320 central axis of the second standpipe Straight connection annular groove 332a, the slot bottom for connecting annular groove 332a offer the first conduction hole connected with 331 inner cavity of connecting tube 332aa, the conducting block offer the second drainage connected with connecting annular groove 332a cell walls on the end face of connecting tube 332 Hole 332b, pressure valve 332c, the pressure are additionally provided with positioned at connecting between annular groove 332a and the central axis for turning on block 332 Valve 332c includes the mounting hole being opened on conducting block 332, and Matching installation has the second spool 332c1, the first spring in mounting hole 332c2, sealing cover 332c3, the second spool 332c1 include stretching out by mounting hole the frizzen for turning on block upper surface, Coaxially it is solidly connected with frizzen and forms the second insert body that slide-and-guide coordinates, the second valve with mounting hole in mounting hole Core body can realize the closure to the first conduction hole 332aa, and the sealing cover 332c3 is matched with mounting hole, the first spring 332c2 is between the second spool 332c1 and sealing cover 332c3, the second spool of resilient force of the first spring 332c2 332c1 be directed away from sealing cover 332c3 direction movement, when position conduction mechanism 330 move to position-limit mechanism when, frizzen with Position-limit mechanism contacts, so that promote the elastic force that the second spool 332c1 overcomes the first spring 332c2 to move downward, the first drainage Hole 332aa is opened, and current are entered to connect annular groove 332a and by the first conduction hole 332aa enter by the second conduction hole 332b to be connected Pipe 331, therewith into the second standpipe 320.

More specifically, above-mentioned position-limit mechanism includes the limit convex for being arranged at 310 water outlet inner cavity of the first standpipe Rise and the spacing raised line that is arranged in connecting tube 331, the limit protrusion be along 310 lumen circumference of the first standpipe to The spacing built-in step 313 that its center is narrowed, and the difference between the height of above-mentioned frizzen stretching and spacing raised line height is big In/be equal to the first conduction hole 332aa diameter, when position conduction mechanism 330 move to position-limit mechanism when, frizzen with it is spacing interior Step 313 is put to contradict, the second spool 332c1 overcomes the elastic force of the first spring 332c2 to move downward, when spacing raised line with it is spacing When built-in step 313 contacts, 330 stop motion of conduction mechanism is positioned, the second spool 332c1 stop motions, at this time, first drains Hole 332aa is opened completely.

More perfect, in order to increase the current carrying capacity in positioning 330 unit interval of conduction mechanism, described second draws Discharge orifice 332b shows several along the Circle-Array for connecting annular groove 332a, and the first conduction hole 332aa connects annular groove 332a in edge Slot bottom array have several.

The open-and-close mechanism 400 include coaxially being movably set in drive sleeve 420 outside the first standpipe 310, Drive shell 420 is installed on away from 310 end of the first standpipe and the folding group connected is connected with the second standpipe 320 Part 410, folding component 410 can be synchronized with the movement with the second standpipe 320, and drive sleeve 420 receives the second standpipe 320 Drive and drive folding component 410 to switch between open mode and closed mode under the constraint of the first standpipe 310.

The folding component 410 includes housing 2 411, drive disk coaxially arranged with housing 2 411 and rotation connection 412nd, support disk 413 that is coaxially arranged with housing 2 411 and being fixedly connected, wherein driving disk 412 be located at housing 2 411 and Between supporting disk 413, the housing 2 411 is connected with the second standpipe 320, driving disk 412 and drive sleeve 420 Connection.

The cylindrical housings that the housing 2 411 is one end open, the other end seals, the sealing of its middle casing 2 411 The circular connector sleeve connected with its inner cavity and matched with the second standpipe 320 is provided with the center at end, the second fire-fighting is stood 320 coaxial sleeve of pipe is arranged on inside circular connector sleeve, is offered at above-mentioned 412 center of driving disk and is matched with circular connector sleeve Sleeve joint hole, drive disk 412 is arranged on the outside of circular connector sleeve by sleeve joint hole coaxial sleeve and can be driven around own axis The end face of disk 412 towards support disk 413 is provided with the driving round platform coaxially arranged with sleeve joint hole, the support disk 413 Center at offer with the slide opening that matches of driving round platform periphery, support disk 413 is rotated coaxially by slide opening to be sheathed on Drive outside round platform, support and be fixedly connected between disk 413 and housing 2 411 by fastener, driving disk 412 can support Around own axis in the cavity that disk 413 is cooperatively formed with housing 2 411, drive sleeve 420 is with driving the coaxial cloth of round platform Put and be detachably connected by fastener.

The stretching hole 411a connected with its inner cavity is offered on the periphery of the housing 2 411, stretches out hole 411a's Radially outward radiation of the extending direction along housing 2 411, the wall portion for stretching out hole 411a are further opened with and 2 411 bottom end face of housing The guide direction of the linear guide groove 411aa connected, linear guide groove 411aa and the centerline axis parallel for stretching out hole 411a.

Circular arc driver slot 412a is offered on the driving disk 412, the starting point of circular arc driver slot 412a is close to driving The center of disk 412, center of the terminal of circular arc driver slot 412a away from driving disk 412, wherein arc-shaped driver slot 412a The distance that starting point to the end is radially offset from along driving disk 412 when being rotated with driving disk 412 be less than/is equal to linear guide groove The length of 411aa.

The folding component 410 further includes shiding matching and is installed on the water outlet connecting tube 411b and line for stretching out hole 411a Shape guide groove 411aa shiding matchings and with the support guide bar 411bb of circular arc driver slot 412a shiding matchings, wherein support guide bar 411bb one end is through linear guide groove 411aa is connected with water outlet connecting tube 411b, the other end is slideably positioned in circular arc driver slot 412a It is interior, support guide bar 411bb can with driving disk 412 rotation at the same time along arc guide groove 412a guide direction and linear lead The guide direction movement of groove 411aa, and drive disk 412 support guide bar 411bb is by circular arc driver slot when rotating clockwise The terminal of from the starting point of 412a to circular arc driver slot 412a move while support guide bar 411bb is along linear guide groove 411aa to remote The central motion of housing 2 411, at this time, the water outlet connecting tube 411b being connected with support guide bar 411bb are synchronized with the movement and pass through Stretch out hole 411a and stretch out housing 2 411, facilitate fire fighter to connect water pipe, when driving disk 412 rotates counterclockwise, support guide The starting point of bar 411bb from terminal to the circular arc driver slot 412a of circular arc driver slot 412a are moved while support guide bar 411bb edges Linear guide groove 411aa to close to housing 2 411 central motion, at this time, the water outlet connecting tube being connected with support guide bar 411bb 411b, which is synchronized with the movement and is stretched by stretching out hole 411a, collapses into housing 2 411, avoids water outlet connecting tube 411b exposed outside and old Change.

The drive sleeve 420 is sheathed on the outside of the first standpipe 310, and the wall portion of drive sleeve 420 is high along it Degree direction, which offers, promotes the rotating driving guide groove 421 of drive sleeve 420, and the first standpipe 310 is close to the cylindrical of water outlet The guiding bar 315 to match with driving guide groove 421 is installed, the guiding bar 315 can drive on edge in driving guide groove 421 on face The guide direction of dynamic guide groove 421 is slided, and guiding bar 315 forms slide-and-guide with driving guide groove 421 and coordinates, the driving guide groove 421 include being used to guide drive sleeve 420 to stretch out movement with the second standpipe 320 positioned at 420 periphery top of drive sleeve Linear pattern boot segment 421c, be arranged at the linear pattern breeze way 421a of 420 periphery lower part of drive sleeve and positioned at guiding It is used to promote drive sleeve around the drive section 421b of own axis, the drive section between section 421a and breeze way 421a 421b respectively with boot segment 421c, the angled connections of breeze way 421a, and when guiding bar 315 by boot segment 421c through drive section During 421b moves to breeze way 421a, drive sleeve 420 rotates clockwise, and guiding bar 315 is by breeze way 421a through driving During dynamic section 421b moves to boot segment 421c, drive sleeve 420 rotates counterclockwise.

In order to avoid causing guiding bar 315 due to unbalance stress in the stuck phenomenon of driver slot 421, the driver slot 421 are provided with two, it is preferred that two driver slots are placed in 420 diameter side of drive sleeve.

The scheme more optimized, the length of boot segment 421c is above-mentioned spacing built-in maximum between step and spacing raised line 4th/3rd to five/4ths of distance, so designing is advantageous in that, the second standpipe 320 is protruding but does not rotate And when not connected with the first standpipe 310, fire hose can be connected to folding group by fire fighter using this neutral gear time On part 410, subsequent water outlet connecting tube 411b stretches out housing 2 411 under the driving of drive sleeve 420 and extends to fire hose Inner cavity, has striven for valuable time for quick extinguishing.

In order to increase the number of fire hydrant connection fire-fighting fire hose so as to improve fire-fighting efficiency, the water outlet connecting tube 411b shows several along the Circle-Array of housing 2 411, similarly stretches out hole 411a, linear guide groove 411aa, circular arc driver slot 412a It is correspondingly arranged.

In order to avoid drive sleeve 420 receive folding component 410 draw moved upwards along the first standpipe 310 when, Occur rocking in 410 motion process of folding component and cause 420 and first standpipe of drive sleeve, 310 periphery to produce friction Phenomena such as even stuck, also have additional guidance set 430, guidance set 430 between 2 411 and first standpipe 310 of housing Including matching somebody with somebody with being arranged at the composition of guide pad 314 slide-and-guide on the first standpipe 310 along 310 short transverse of the first standpipe Two guide rods 432 closed, the connecting plate 431 for being arranged between two guide rods 432 and being connected with circular connector sleeve, the second fire-fighting Standpipe 320 is during folding component movement is promoted, laying direction synchronous slide of the guide rod 432 along guide pad 314, into one The accuracy that ensure that folding component movement of step.

Above-mentioned drive rod 333 stretches into 2 411 inner cavity of housing, housing 2 411 by the water outlet of the second standpipe 320 Openend be hinged with sealing cover, when needing to use fire hydrant, open sealing cover, rotation of drive rod 333 is so as to driving first Valve 100 is opened, and closes sealing cover, and current enter the inner cavity of housing 2 411 and by water outlet connecting tube by the second standpipe 320 Discharge.

Due to the second standpipe 320 by be stretched over connect during the time it is relatively short, fire fighter is difficult at this The short connection for completing fire hose and fire hydrant, if the connection with hydrant body cannot be completed in time, once high pressure water After source is sprayed by water outlet connecting tube 411b, it is desirable to reconnect the hardly possible realization of fire hose, so not only cause a large amount of water The waste of resource, also affects the efficiency of fire extinguishing, therefore the scheme more optimized as this programme, the folding component 410 The second valve 500 is inside additionally provided with, the second valve 500 is used to control water outlet connecting tube 411b connecting with 2 411 inner cavity of housing Switching between state and off-state, i.e., when the second standpipe 320 is connected with 2 411 inner cavity of housing, can pass through control Whether the water outlet of second valve 500 control water outlet connecting tube 411b, thus fire fighter first can distinguish fire hose After connection is connected with water outlet connecting tube 411b, then the second valve 500 is opened, so as to fulfill the fire extinguishing disaster relief.

Second valve 500 is arranged at the inner cavity of housing 2 411, and the second valve 500 includes being open with housing 2 411 The sealing plate to match, installing plate 510, pressing valve pocket 520, the 3rd spool 530 are held, the openend of housing 2 411 is provided with use The support limit step 411d of end motion is sealed along 2 411 central axis of housing towards housing 2 411 in limitation installing plate 510, The inner cavity of above-mentioned circular connector sleeve sets restricted 3rd spool 530 to be directed away from shell nozzle end motion along housing 2 411 The second limited step 411c, while the second limited step 411c is also used for the second standpipe 320 of limitation along its center axis Towards the opening end motion of housing 2 411.

More specifically, 510 center of installing plate offer for drive rod 333 stretch out through hole, the described the 3rd Spool 530 is coaxially movably set in the outside of drive rod 333, and pressing valve pocket 520 is sheathed on the end of drive rod 333, drive rod 333 nested domain between pressing 520 and the 3rd spool 530 of valve pocket, which is equipped with, promotes pressing valve pocket 520 away from the 3rd spool 530 The second spring 540 of movement, and interlinked mechanism is provided between pressing valve pocket 520 and drive rod 333, interlinked mechanism includes master Dynamic separation member, driven separation member, active separation member are installed on pressing valve pocket 520, and driven separation member is installed on drive rod 333, when When active separation member, driven separation member are in contact, realize that pressing valve pocket 520 drives the rotation of drive rod 333；Valve pocket is pressed when connecting 520 when moving downward, you can triggering interlinked mechanism, realizes the transmission of power.

As shown in figure 30, the pressing valve pocket 520 includes pressing section 521, presses and is provided with and drive rod in section 521 The 333 state switching accommodating cavity 521a to match, it is preferable that above-mentioned interlinked mechanism can be to be arranged at shape in pressing section 521 Polygon drive hole 521b above state switching accommodating cavity 521a, and it is arranged at upper and and polygon at the top of drive rod 333 The polygon cylinder that drive hole 521b matches；Interlinked mechanism can also be to be arranged at state switching accommodating cavity in pressing section 521 Internal spline above 521a, and it is arranged at the external splines that the top of drive rod 333 is upper and matches with external splines；For example, work as When pressing valve pocket 520 overcomes the elastic force of second spring 540 to move downward, the external splines on drive rod 333 is with pressing in section 521 Internal spline matching, so as to fulfill pressing valve pocket 520 drive drive rod 333 rotation.

It is additionally provided between 520 and the 3rd spool 530 of pressing valve pocket for drawing the 3rd spool 530 along drive rod The traction component 550 of 333 central axis movement, the inner cavity of housing two, which is additionally provided with along its center axis direction, to be extended and is used for Guide guiding groove that the 3rd spool 530 moves, be provided with the bootstrap block to match with guiding groove on the 3rd spool 530, by leading The traction for drawing component 550 blocks/separates connection so that the 3rd spool 530 is realized with the coincidence of the second limited step 411c, described Traction component 550 include be sheathed on pressing 520 periphery of valve pocket and with pressing valve pocket 520 be fixedly connected driving gear 522, The driven gear 551 that is rotatably dispose on installing plate 510 and is engaged with driving gear, be arranged at the 3rd spool 530 and driven tooth The threaded rod 552 being arranged in parallel between wheel 551 and with drive rod 333,552 one end of threaded rod is by being opened in the 3rd spool 530 It is upper and be threadedly coupled with the tapped through hole that threaded rod 552 matches with the 3rd spool 530, the rotation of the other end and driven gear 551 Shaft is fixedly connected, and the 3rd spool 530 can be realized along the central axis of drive rod 333 with the rotation of threaded rod 552 and moved up and down, Connection is blocked/separates so as to fulfill the coincidence with the second limited step 411c, and when interlinked mechanism triggers, driving gear 522 It is disengaged from driven gear 551, when active separation member, driven separation member separate, driving gear 522 recovers and driven gear 551 engagement, i.e., when fire fighter pushes down on pressing valve pocket 520 and rotates, pressing valve pocket 520 is so that 333 turns of drive rod Move and further so that the first valve 100 is opened, driving gear 522 loses with driven gear 551 and engages at this time, the second valve 500 still in closed mode, and after removing external force, pressing valve pocket 520 resets under the promotion of second spring 540, at this time, driving tooth Wheel 522 recovers to engage with driven gear 551, and the second standpipe 320 is protruding until the second standpipe 320 disappears with first Anti- standpipe 310 is connected, and fire fighter connects fire hose, directly rotates pressing valve pocket 520, driving gear 522 drives driven Gear 551 rotates, and further, driving threaded rod 552 rotates, and the 3rd spool 530 moves upwards, the 3rd spool 530 and second Limited step 411c, which departs from, to be coordinated, and circular connector sleeve is connected with 2 411 inner cavity of housing, and current are entered by the second standpipe 320 2 411 inner cavity of housing simultaneously finally enters fire hose through water outlet connecting tube 411b.

In order to avoid due to unbalance stress cause the 3rd spool 530 moved along drive rod 333 during with drive rod 333 Stuck phenomenon occurs, and the driven gear 551 shows several along through hole Circle-Array, and threaded rod 552 corresponds to arrangement.

During work, the first valve 100 is opened, at this time, four 122d of water-guiding hole is connected with deflector hole 1, water-guiding hole one 122a is connected with deflector hole 2 132, and current are entered the appearance water in the first valve 100 by city supply water pipeline through connection mouth 1 Passage, further, current enter three 122cc of water-guiding hole, and current enter four 122d of water-guiding hole, and therewith, current enter deflector hole One 131, current enter deflector hole 4 134 by runner 2 136, and further, current enter intercommunicating pore 2 115, therewith, current Into groove 311 is connected, current enter transition cavity, and current are contacted with positioning conduction mechanism 330, under the action of hydraulic pressure, current The second standpipe 320 is promoted to disappear along the water inlet end of 310 central axis of the first standpipe from the first standpipe 310 to first The water outlet end motion of anti-standpipe 310, in the process, folding component 410 is stood under the guiding of guidance set 430 with the second fire-fighting Pipe 320 is synchronous to stretch out movement, drive sleeve 420 be synchronized with the movement with guidance set 430 and meanwhile drive sleeve in guiding bar 315 and Drive and rotated clockwise under the driving of guide groove 421 around own axes, the driving driving disk 412 of drive sleeve 420 rotates synchronously, and goes out Water connecting tube 411b is protruding by stretching out hole 411a, and transition cavity gradually increases, and holds water cavity and is gradually reduced, holds water cavity In water and/or air by runner 3 312 by intercommunicating pore 1 enter deflector hole 3 133, further, current pass through stream Road 1 enters deflector hole 2 132, and therewith, water flows through one 122a of water-guiding hole and enters water containing space gap, and final current pass through connection mouth 2 113 the first valves 100 of discharge, until when positioning conduction mechanism 330 moves to position-limit mechanism, frizzen and spacing built-in step 313 contradict, and the second spool 332c1 overcomes the elastic force of the first spring 332c2 to move downward, when spacing raised line and spacing built-in platform When rank 313 contacts, positioning 330 stop motion of conduction mechanism, the second spool 332c1 stop motions, at this time, the first conduction hole 332aa is opened completely, and current are entered by the second conduction hole 332b connects annular groove 332a, and further, current draw by first Discharge orifice 332aa enters connecting tube 331, eventually enters into the second standpipe 320, and at this time, fire fighter is by fire hose with stretching out The 411b connections of water outlet pipe connected pipe, open the second valve, current by the second standpipe pass through water outlet connecting tube 411b enter Fire hose is used for the disaster relief of putting out a fire.

When use finishes, fire hose is removed from water outlet connecting tube 411b, the first valve 100 is closed, when first Valve 100 when in the transition state switched from open mode to closed mode, deflector hole 1, deflector hole 2 132 with It is off between first spool 100, the second standpipe 320 stops water outlet and still in extended configuration at this time.

When the first valve, which completes transition, is in closure state, four 122d of water-guiding hole is connected with deflector hole 2 132 at this time, is led Two 122b of water hole is connected with deflector hole 1, and current are entered in the first valve 100 by city supply water pipeline through connection mouth 1 Appearance aquaporin, further, current enter three 122cc of water-guiding hole, and current enter four 122d of water-guiding hole, therewith, current enter Deflector hole 2 132, current enter deflector hole 3 133 by runner 1, and further, current are entered by intercommunicating pore 1 Runner 3 312, current, which enter, holds water cavity, and current are contacted with positioning conduction mechanism 330, under the action of hydraulic pressure, water jet propulsion Water outlet direction first fire-fighting of second standpipe 320 along 310 central axis of the first standpipe by the first standpipe 310 The water inlet end motion of standpipe 310, positioning conduction mechanism 330 depart from position-limit mechanism and coordinate, frizzen and spacing built-in step 313 Depart from, elastic forces of the second spool 332c1 in the first spring 332c2 is moved upwards, and the first conduction hole 332aa is by the second spool 332c1 is blocked, in the process, the receipts synchronous with the second standpipe 320 under the guiding of guidance set 430 of folding component 410 Contracting movement, drive sleeve 420 is synchronized with the movement with guidance set 430 while drive sleeve is in guiding bar 315 and driving guide groove 421 Driving under rotated counterclockwise around own axes, drive sleeve 420 driving driving disk 412 rotate synchronously, water outlet connecting tube 411b holds water cavity and gradually increases, transition cavity is gradually reduced, the water in transition cavity by stretching out hole 411a to contract And/or air enters deflector hole 4 134 by connection groove 311 by intercommunicating pore 2 115, further, current pass through runner 2 136 Into deflector hole 1, therewith, water flows through two 122b of water-guiding hole and enters water containing space gap, and final current pass through 2 113 row of connection mouth Go out the first valve 100, until the second standpipe 320 collapses into the first standpipe 310 completely.

By the above-mentioned course of work it is recognised that no matter disappearing in the 320 stretching stage of the second standpipe or second The contraction phase of anti-standpipe 320, the water in transition cavity/appearance water cavity all can discharge the first valve body 100 by connection mouth 2 113, This part of water is not utilized, and causes the waste of water resource, in order to realize that energy conservation and environmental protection reduces the purpose of water resource utility model, This programme is solved using water circle device 200 is added on the first valve 100.

As shown in Fig. 3,5, the water circle device 200 includes Bernoulli Jacob's connecting tube 210, conduction pipe 1, water tank 230th, conduction pipe 2 240, Bernoulli Jacob's connecting tube 210 are the pipe of both ends open, and be provided with its periphery with The connection mouth 3 214 that its inner cavity is connected, when current flow through Bernoulli Jacob's connecting tube 210, is connected by connection mouth 3 214 and Bernoulli Jacob The water in water pipe that adapter 210 connects can automatically into Bernoulli Jacob's connecting tube 210, the water tank for offer water inlet, The circular tank of water outlet, described 210 one end of Bernoulli Jacob's connecting tube are connected connection, the other end and city with connection mouth 1 Water supply line connection is connected, and described one 220 one end of conduction pipe is connected connection, the other end and water tank 230 with connection mouth 3 214 Water outlet connection connect, the water inlet of described 2 240 one end of conduction pipe and water tank 230 is connected, the other end and connection mouth 2 113 connections are connected.

As shown in fig. 6, Bernoulli Jacob's connecting tube 210 include taper water inlet 211, conical water outlet 212, taper into Middle aqueduct 213, middle 213 one end of aqueduct and taper water inlet 211 are provided between the mouth of a river 211, conical water outlet 212 Connect, the other end and conical water outlet 212 are connected, the openings of sizes of the taper water inlet 211 is along Bernoulli Jacob's connecting tube 210 Central axis taper water inlet 211 be directed toward by middle aqueduct 213 gradually increase, the openings of sizes edge of conical water outlet 212 The central axis of Bernoulli Jacob's connecting tube 210 is directed toward conical water outlet 212 by middle aqueduct 213 and gradually increases, the connection Mouth 3 214 is connected connection with middle aqueduct 213, its significance lies in that so that the cross-sectional area of Bernoulli Jacob's connecting tube 210 is by taper Water inlet 211 to conical water outlet 212 realizes the switching for being gradually decrease to gradually increase, according to flow formula Q=V*A（Wherein Q For flow, V is flow velocity, and A is flow cross-sectional area）Can the timing of proper flow one, conduit cross-sectional area diminishes（That is when A reduces）, After the speed V that fluid flows through pipeline will increase, therefore water flows into middle aqueduct by taper water inlet, the flow velocity of water will increase； By Bernoulli equation：(wherein, p is pressure to p+1/2 ρ v^2+ ρ gh=constant, and ρ is fluid density, and v is fluid velocity, and g is gravity Acceleration, h are height) understand, when fluid density ρ, gravity acceleration g, the timing of height h mono-, fluid velocity v is bigger, fluid with Pressure on the interface of object contact is smaller, and therefore, current are when middle aqueduct 213 flows, current and middle aqueduct 213 Wall portion between pressure reduce, at this time, under the action of inside and outside atmospheric pressure difference, pass through conduction pipe 1 and middle water guide Current in the water tank 230 that pipe 213 connects can flow into middle aqueduct 213, and together be converged with the water in city supply water pipeline Enter to hold in aquaporin.

Further optimize, in order to make the present apparatus easily facilitate dismounting, maintenance, maintenance, present invention additionally comprises fire-hydrant cabinet 600, the first above-mentioned valve 100, water circle device 200, hydrant body 300, open-and-close mechanism 400, the second valve 500 be all provided with It is placed in fire-hydrant cabinet 600, the top of fire hydrant babinet 600 offers the extending port stretched out for hydrant body 300.

The contraction of fire hydrant is hidden and the method for high pressure water is sprayed from stretching, extension, its step is：

（One）The stretching, extension stage；

S1：The first valve 100 is opened, at this time, four 122d of water-guiding hole is connected with deflector hole 1, one 122a of water-guiding hole and water conservancy diversion Hole 2 132 is connected, and current are entered the appearance aquaporin in the first valve 100 by city supply water pipeline through connection mouth 1, further , current enter three 122cc of water-guiding hole, and current enter four 122d of water-guiding hole, and therewith, current enter deflector hole 1, and water flows through Cross runner 2 136 and enter deflector hole 4 134, further, current enter intercommunicating pore 2 115, and therewith, current, which enter, connects groove 311, current enter transition cavity, and current are contacted with positioning conduction mechanism 330, and under the action of hydraulic pressure, water jet propulsion second disappears Water inlet end of the anti-standpipe 320 along 310 central axis of the first standpipe from the first standpipe 310 is to the first standpipe 310 Water outlet end motion；

S2：In the process, folding component 410 is transported under the guiding of guidance set 430 with 320 synchronous stretch out of the second standpipe Dynamic, drive sleeve 420 and guidance set 430 are synchronized with the movement drive of the drive sleeve in guiding bar 315 and driving guide groove 421 at the same time Rotated clockwise under dynamic around own axes, drive sleeve 420 drives disk 412 to rotate synchronously, and 411b is by stretching for water outlet connecting tube The 411a that portals is protruding, and transition cavity gradually increases, hold water cavity be gradually reduced, hold water cavity in water and/or air by Runner 3 312 enters deflector hole 3 133 by intercommunicating pore 1, and further, current enter deflector hole by runner 1 2 132, therewith, water flows through one 122a of water-guiding hole and enters water containing space gap, and final current discharge the first valve by connection mouth 2 212 100；

S3：Until when positioning conduction mechanism 330 moves to position-limit mechanism, frizzen is contradicted with spacing built-in step 313, the second valve Core 332c1 overcomes the elastic force of the first spring 332c2 to move downward, fixed when spacing raised line is contacted with spacing built-in step 313 Position 330 stop motion of conduction mechanism, the second spool 332c1 stop motions, at this time, the first conduction hole 332aa is opened completely, current Entered by the second conduction hole 332b and connect annular groove 332a, further, current enter connecting tube by the first conduction hole 332aa 331, the second standpipe 320 is eventually entered into, at this time, fire fighter connects fire hose with the water outlet pipe connected pipe 411b stretched out Connect, open the second valve, the second valve 500 be used to controlling water outlet connecting tube 411b and 2 411 inner cavity of housing on-state with Switching between off-state, current enter fire water by the second standpipe by water outlet connecting tube 411b, the second valve 500 Band is used for the disaster relief of putting out a fire.

（Two）Transition stage；

S4：When use finishes, the second valve 500 is closed, fire hose is removed from water outlet connecting tube 411b, close first Valve 100, when the first valve 100 is when in the transition state switched from open mode to closed mode, deflector hole 1, Deflector hole 2 132 is off between the first spool 100, and the second standpipe 320 stops water outlet and still locates at this time In extended configuration.

（Three）Contraction phase；

S5：First valve completes transition and is in closure state, and four 122d of water-guiding hole is connected with deflector hole 2 132 at this time, water-guiding hole Two 122b are connected with deflector hole 1, and current are entered the appearance in the first valve 100 by city supply water pipeline through connection mouth 1 Aquaporin, further, water flow into three 122cc of blasthole, and current enter four 122d of water-guiding hole, and therewith, current enter deflector hole 2 132, current enter deflector hole 3 133 by runner 1, and further, current are by intercommunicating pore 1 into air stream enter runner three 312, current, which enter, holds water cavity, and current are contacted with positioning conduction mechanism 330, and under the action of hydraulic pressure, water jet propulsion second disappears Water outlet direction first standpipe of the anti-standpipe 320 along 310 central axis of the first standpipe by the first standpipe 310 310 water inlet end motion, positioning conduction mechanism 330 depart from position-limit mechanism and coordinate, and frizzen is de- with spacing built-in step 313 From elastic forces of the second spool 332c1 in the first spring 332c2 is moved upwards, and the first conduction hole 332aa is by the second spool 332c1 is blocked；

S6：In the process, folding component 410 is transported under the guiding of guidance set 550 with 320 synchronous of the second standpipe Dynamic, drive sleeve 420 and guidance set 550 are synchronized with the movement drive of the drive sleeve in guiding bar 315 and driving guide groove 421 at the same time Rotated counterclockwise under dynamic around own axes, drive sleeve 420 drives disk 412 to rotate synchronously, and 411b is by stretching for water outlet connecting tube 411a portal to contract, holds water cavity and gradually increases, transition cavity is gradually reduced, the water and/or air in transition cavity by Connect groove 311 and deflector hole 4 134 is entered by intercommunicating pore 2 115, further, current enter deflector hole by runner 2 136 One 131, therewith, water flows through two 122b of water-guiding hole and enters water containing space gap, and final current discharge the first valve by connection mouth 2 212 100, until the second standpipe 320 collapses into the first standpipe 310 completely.

The foregoing description of the disclosed embodiments, enables professional and technical personnel in the field to realize or use the present invention； A variety of modifications to these embodiments will be apparent for those skilled in the art, defined in the present invention General Principle can not depart from the present invention spirit or scope in the case of, realize in other embodiments.Therefore, originally Invention will not be defined to the embodiments shown herein, and be to fit to and the principles and novel features disclosed herein Consistent most wide scope.

Claims (4)

1. can anticorrosion, anti abrasive fire hydrant, it is characterised in that it includes being embedded in below ground and can be in auto-extending extremely More than ground and the hydrant body for being used to provide water source to fire fighter that automatically contracts to switch between below ground；

The hydrant body includes the first standpipe of position fixed setting, is coaxially movably set in the first standpipe Portion and move the second standpipe of completion contraction/stretching, extension, the first standpipe and along the central axis of the first standpipe It is additionally provided between two standpipes and departs from the first fire-fighting along the first standpipe central axis for limiting the second standpipe The position-limit mechanism of standpipe movement, and when the first standpipe moves to position-limit mechanism, the first standpipe is stood with the second fire-fighting Pipe is mutually connected, and the first standpipe, the second standpipe are the cylindric tube body of both ends open, and first fire-fighting is stood Connection block is laid with along its short transverse on the periphery of pipe, connects in block and coaxially offers runner three, three one end open of runner The inner cavity for extending to the bottom open end of the first standpipe, the other end and the first standpipe is connected；

It is provided with to coordinate with position-limit mechanism on second standpipe and is used to control the first standpipe to stand with the second fire-fighting The positioning conduction mechanism of pipe on/off, positioning conduction mechanism include isometrical coaxially arranged with the second standpipe and mutually interconnect The connecting tube of connection and the coaxially arranged conducting block of connecting tube, the outside diameter of second standpipe are less than the first fire-fighting The internal diameter of standpipe, the inner cavity of conducting block and the first standpipe match, the first standpipe inner cavity wall portion, the second standpipe Region between periphery, conducting block, which is formed, holds water cavity, between the first standpipe inner cavity wall portion, conducting block, housing one Region forms transition cavity, when positioning conduction mechanism moves to position-limit mechanism, the first standpipe and the second standpipe phase Mutually connect.

2. according to claim 1 can anticorrosion, anti abrasive fire hydrant, it is characterised in that the conducting block be with First standpipe inner cavity matches and the cylinder of slide-and-guide cooperation, the conducting block is formed with the first standpipe inner cavity The connection annular groove in groove depth direction and the second standpipe central axis upright is coaxially offered on periphery, connects the slot bottom of annular groove The first conduction hole with being connected tube cavity connection is offered, the conducting block is offered and connected on the end face of connecting tube The second conduction hole that annular groove cell wall is connected, is additionally provided with pressure valve, institute positioned at connecting between annular groove and the central axis for turning on block The pressure valve stated includes being opened in conducting block upper installing hole, and Matching installation has the second spool, the first spring, sealing in mounting hole Lid, second spool include stretching out the frizzen of conducting block upper surface by mounting hole, are fixedly and coaxially connected with frizzen And the second insert body that slide-and-guide coordinates is formed with mounting hole in mounting hole, the second insert body can be realized to first The closure of conduction hole, the sealing cover are matched with mounting hole, and the first spring is between the second spool and sealing cover, the first bullet The second spool of resilient force of spring is directed away from the direction movement of sealing cover.

3. according to claim 1 or 2 can anticorrosion, anti abrasive fire hydrant, it is characterised in that above-mentioned position-limit mechanism It is described including the spacing raised line for being arranged at the limit protrusion of the first standpipe water outlet inner cavity and being arranged in connecting tube Limit protrusion is along the first standpipe lumen circumference spacing built-in step that the heart narrows thereto, and above-mentioned frizzen stretches out Difference between height and spacing raised line height is more than/is equal to the diameter of the first conduction hole.

4. according to claim 3 can anticorrosion, anti abrasive fire hydrant, it is characterised in that second conduction hole Several are shown along the Circle-Array for connecting annular groove, first conduction hole there are several along the slot bottom array for connecting annular groove.