CN105178314B - Squeezing type underground continuous wall gapless steering device - Google Patents

Abstract

The invention relates to a squeezing type underground continuous wall gapless steering device, and belongs to the technical field of underground space development static force extrusion. The problem that in the construction process of an existing static pressure underground continuous wall, steering is incoherent, water seepage happens, and the wall forming quality is affected is solved. The squeezing type underground continuous wall gapless steering device comprises a shell, a vibration cooling device and a rotating device, the vibration cooling device is located in the shell, and the rotating device is arranged at the upper end of the shell. The squeezing type underground continuous wall gapless steering device is applied to the axis angle change of a squeezing type underground continuous wall and steering with the angle larger than or smaller than 90 degrees.

Description

Extruding type diaphram wall zero-clearance transfer

Technical field

The present invention relates to a kind of extruding type diaphram wall zero-clearance transfer, belong to underground space development static(al) and clamp-on skill Art field.

Background technology

At present, domestic and international whole hydraulic static pile pressing machine (hereinafter referred to as static(al) stake machine) running gear is walking, piling During when needing to turn to or move linearly, be at earth's surface, stake to be blocked or directly stake top is pressed into earth's surface and realizes；Extruding type Diaphram wall (hereinafter referred to as extruding type ground wall) at least one wall-forming device of construction process requirement is in the wall construction of extruding type ground Ground can not be extracted before termination, otherwise, infiltration can be produced because the intersegmental mechanical type of unit wall connects discontinuous, affect into wall matter Amount；And wall-forming device belongs to that cost is higher, can Reusability equipment it is impossible to because turning to or rectilinear movement is just blocked Or press-in earth's surface cannot reuse to realize.Existing method is according to multilamellar inside and outside implementing in the corresponding angle in Di Qiang corner Overlapping corner body of wall nationality reaches water proof anti-seepage purpose with closed interface；It was verified that extruding type Di Qiang corner overlap closing method Stagnant water effect is not good, is especially in its overlapping corner wall water seal effect in saturation water Soft Soil Layer or complex random systems and substantially reaches not Technical requirements to water proof anti-seepage.Therefore, it is badly in need of a kind of device to solve extruding type ground wall zero-clearance Steering.

Content of the invention

It is an object of the invention to provide a kind of extruding type diaphram wall zero-clearance transfer, do not cut in wall-forming device On the premise of disconnected or press-in earth's surface, it is capable of extruding type ground wall zero-clearance and turns to, ensured extruding type ground wall by design geometric form Shape turns to and does not lose seriality, thus also ensure that diaphram wall gear soil, intercept water, the function such as impervious, load-bearing.

The present invention is to be realized using following technical scheme: a kind of extruding type diaphram wall zero-clearance transfer, bag Include housing, vibration cooling apparatus and rotary apparatuss, vibration cooling apparatus are located in housing, and rotary apparatuss are located at housing upper end.

Described housing includes inner housing, shell body, connecting device and flap, and inner housing is shaped as rectangle or circle, rectangle Inner housing be hollow, rectangular pipe, its internal diameter is 200～1000mm, and external diameter is 210～1180mm, and circular inner housing is hollow Socket shape, internal diameter be 200～1000mm, external diameter be 208～1180mm, shell body appearance be rectangle, shell body medial wall with interior Housing profile matches, and shell body is provided with least two connecting devices, inside four angles of shell body respectively with inner housing lateral wall Uniformly it is adjacent to bolt or be welded and fixed；, vertically along the elongated interruption setting of inner housing lateral wall, housing is by upper and lower more piece for shell body It is formed by connecting, the first paragraph first burying is coxopodite, the shell section connecting more than coxopodite is extension, between more than two sections extensions It is sequentially connected for head and the tail；Coxopodite housing bottom arranges flap, and extension bottom does not set flap and horizontal cyclic water pipe, in addition, Its shape of extension and the same coxopodite of construction；Housing saves joint up and down and is provided with mutually corresponding plug-in type shoulder, wherein one side platform Shoulder side wall is provided with the groove laying rubber seal, and the connection between saving up and down connects all using plug-in type shoulder and with bolt level Connect outside fixing mode, the shell body of joint is lengthened leap and saves abutment joint realization up and down compared with long overlap, connected by force with strengthening Degree.

Described flap is divided into taper valve OR gate shape flap, is provided with and inner shell side at the triangle cavity of taper valve The vertically vertical wallboard of wall, wallboard upper surface becomes bladed to become wire-shaped contact with inner shell body sidewall bottom；Taper valve is along center system Become two lobes, every lobe outer end be provided with the first hinge hole and inner housing corresponding sides bottom be provided with the second hinge hole dislocation embedded formed coaxial Heart hole, using pivot pin penetrate the first hinge hole and the second hinge hole realize hinged；Door shape flap make two lobes along center, two lobes in Inner housing bottom formed plane closing, close up midline along two lobes and be provided with reinforcement, first to close up place gap play closing Effect, second strengthens the intensity closed up at gap, the same taper valve with inner housing bottom articulated manner. and coxopodite bottom is embedded with electricity Magnetic device, when acting on the gravity on flap two lobe less than calutron absorption affinity, flap two lobe is attracted by calutron, and two Lobe pin-and-hole rotates along pivot pin and voluntarily closes.When acting on the gravity on flap two lobe more than calutron absorption affinity, flap Two lobes pushed open as two fan door by weight compressive stress, the contained concrete of inner shell intracoelomic cavity (or other mixture) is rapid to flow Go out.When the flap under closed mode is squeezed into underground, two lobes of flap are withstood and can not possibly open by soil body counter-force, and coxopodite is carried When rising, the soil body counter-force of flap bottom disappears, and rises, with coxopodite, the space vacateed and progressively increases, flap two lobe just can be by weight Compressive stress is pushed open vertical with inner housing respective side walls completely and is slightly less than 180 °, if at this moment open vibrator, inner housing simultaneously The contained concrete of inner chamber (or other mixture) will totally flow out rapidly under gravity and exciting force dual function, fill coxopodite Soil body space that upper shifting is vacateed and form underground wall body.

Described vibration cooling apparatus include dither, source of the gas vibrator, vibration wall, horizontal cyclic water pipe, cable Pipe, airduct, cooling water pipe and water spout, vibration wall is vertically overlapped on the corresponding concave station shoulder of two sections shell body, uses spiral shell Bolt is fixed, and horizontal both sides cover on vibratory chamber's side column, are fixed with bolt；Between two sections shell body and inner housing lateral wall Cavern and vibration wall between is vibratory chamber, and vibrator is fixedly connected on inside vibration wall, cable tube and airduct respectively with vibration Device connects；The top vibration that horizontal cyclic water pipe is located at coxopodite bottom and most end extension is indoor, cable tube, airduct and cold But the curved channel that water pipe is coincide along inner housing lateral wall and shell body medial wall with various pipeline profiles, by upper end through vibrator Vertically lay and vibrate interior to lower end, cooling water pipe is connected with horizontal cyclic water pipe.Vibration interior is equipped with water spout, water spout Towards outside vibration wall, water spout is connected outlet with cooling water pipe.When chance dry soil clamp-ons difficulty, close cooling water pipe and go out Water nozzle, forces cooling water pressure to increase and backs down water spout, and water flows out infiltration transfer periphery dry from water spout immediately The soil body, makes soil strength drastically decline, meanwhile, Vibration on Start-up device, and under the conditions of exciting force and amplitude and water infiltration are triple, Limits reduce transfer clamp-oning under complex geological condition and pull-out resistance.

Described rotary apparatuss include upper flange, lower flange, rotary shaft, rotary body, thrust button, thrust bearing and connect spiral shell Stricture of vagina, lower flange is fixed as one with the housing tip that bassets, and upper flange is located above lower flange, its profile and consistent size, on Flange top and shoulder are fixed as one；Rotary shaft positioned vertical in the endoporus of rotary body, shoulder and upper flange, by bolt and platform Shoulder level connection joint is integral, and upper flange bolt is vertically fixedly connected with lower flange by bolt hole.Thrust button is located at rotary body The top, is closely connected with rotary shaft by screw thread, between rotary body top and thrust button bottom and shoulder top and rotation Body is provided with thrust bearing between bottom, to reduce rotary body rotational resistance and to limit the vertical displacement of rotary body.Lower flange with Clamp-on the case top upper flange bolt still basseting a bit of in underground to be fixedly connected；Rotary apparatuss external shape and Size is with coxopodite and extension housing.

The vertical center of described connecting device is elongated to be provided with gathering sill, and gathering sill width of rebate is less than connecting device internal diameter, leads Make a fixed inclination to groove outer rim.

Indoor at least one vibrator of setting of vibration, during the indoor setting two or more vibrator of vibration, its installation site phase Mutually stagger.

The invention has the beneficial effects as follows:

1st, the present invention, on the premise of wall-forming device is not truncated or is pressed into earth's surface, is capable of extruding type ground wall zero-clearance and turns To wall is turned to by design geometries and do not lose seriality with having ensured extruding type, thus also ensure that diaphram wall Gear soil, intercept water, the function such as impervious, load-bearing and make wall-forming device can be recycled and reach the positive effect saving cost.

2nd, shell body is arranged using interruption by the present invention along inner housing lateral wall is vertically elongated, decreases hinged frictional resistance face Long-pending.

3rd, the present invention is directed to groove outer rim beveling, serves the work adjusting track axial angle in appropriate scope With.

Brief description

Fig. 1 is the coxopodite with taper valve and extension elevation；

Fig. 2 is Fig. 1 a-a sectional view；

Fig. 3 is Fig. 1 b-b vibratory chamber sectional view；

Fig. 4 is Fig. 1 c-c taper valve sectional view；

Fig. 5 is Fig. 4 j-j taper valve wallboard sectional view；

Fig. 6 is the circular inner shell coxopodite with gate-type flap and extension elevation；

Fig. 7 is Fig. 6 d-d sectional view；

Fig. 8 is Fig. 6 e-e circulating water pipeline setting figure；

Fig. 9 is Fig. 6 f-f gate-type flap upward view；

Figure 10 is that Fig. 9 gate-type flap opens schematic diagram；

Figure 11 is rotary apparatuss elevation；

Figure 12 is Figure 11 n-n sectional view；

Figure 13 is Figure 11 w-w sectional view；

Figure 14 is many t shape, many swallow-tail forms, ellipse, bevel edge and rhombus connecting device organigram；

Figure 15 is plug-in type shoulder drawing；

Figure 16 is vibration wall overlap joint drawing.

In figure: 1 inner housing, 1 ＇ lateral wall, 2 shell body, 2 ＇ curved channel, 3 connecting device, 3 ＇ mono- circle connecting device 3-2 is many Rhombus connecting device 3-3 many ellipses connecting device 3-4 many bevel edges connecting device 3-5 many swallow-tail forms connecting device 3-6 many t shape socket Device 4 taper valve 4 ＇ door shape flap 5 bolt, 6 coxopodite, 6 ＇ extension, 7 wallboard 8 first hinge hole 8 ＇ the second hinge hole 9 Pivot pin 10 calutron, 11 reinforcement, 12 plug-in type shoulder, 13 groove, 14 gathering sill, 15 vibrator 16 water inlet tap 17 goes out Water nozzle 18 water spout, 19 horizontal cyclic water pipe, 20 cooling water pipe, 20 ＇ airduct 21 vibratory chamber 22 cable tube 23 vibrates wall 24 Side column 24 ＇ concave station shoulder 25 upper flange, 25 ＇ lower flange, 26 rotary shaft, 27 rotary body, 28 thrust button, 29 thrust bearing 30 is even Connect screw thread 31 bolt hole 32 shoulder.

Specific embodiment

The present invention will be further described with reference to the accompanying drawings and examples.

As shown in Fig. 1, Fig. 6 and Figure 11, extruding type diaphram wall zero-clearance transfer of the present invention include housing, Vibration cooling apparatus and rotary apparatuss.As shown in Figures 1 to 5, described housing, mainly by inner housing 1, shell body 2, connecting device 3, Flap forms, and shell body 2 profile is rectangle, and inner housing 1 is divided into rectangle or circle.For adapting to the different dimensionings of diaphram wall Very little requirement, housing physical dimension is also accordingly divided into plurality of specifications.As shown in Figure 1 to Figure 3, rectangle inner housing 1 is thick walled hollow square Shape pipe, internal diameter divides 200～1000mm, and external diameter is 210～1180mm, and shell body 2 in 90 ° has certain thickness by four The right angle part composition of degree, is set by the center placed opposite of a line in inner housing 1 for two sides of two right angle parts It is set to connecting device 3, the connecting device 3 in Fig. 2 is provided with four and arranges one, outward it is also possible to orthogonal two sides are each wherein Housing 2 medial wall is matched with inner housing 1 lateral wall 1 ＇, and internal diameter size is less than inner housing 1 with inner housing 1 external diameter, monolateral length The 1/2 of monolateral length (circular is diameter), is uniformly close to fix along inner housing 1 outside corner with bolt 5 (or welding) respectively；As figure Shown in 6 to Fig. 8, circular inner shell 1 geometry is hollow circular pipe, internal diameter from 200～1000mm, external diameter from 208～ 1180mm.When shell body 2 is connected with circular inner shell 1, it is fabricated to and circular inner shell 1 also known as bottom surface inside shell body 2 The consistent arc surface of external arc, still makes rectangle flat also known as top surface outside shell body 2, equally uses bolt 5 or welding solid Due to circular inner shell 1 lateral wall 1 ＇；Housing overall length is formed by connecting by upper and lower more piece according to design embedded depth, the first burying One section is referred to as coxopodite 6, length≤50m scope, and the shell section connecting coxopodite more than 6 is referred to as extension 6 ＇, and length is >=1500mm Multiple different length specifications.

As shown in Fig. 4, Fig. 5, Fig. 9 and Figure 10, the bottom of coxopodite 6 is provided with switch flap freely, and flap divides taper valve 4 OR gate shape flap 4 ＇；As shown in Figure 1, Figure 4 and Figure 5, it is provided with wallboard 7 at the triangle cavity of taper valve 4 corresponding with inner housing 1 Side wall is vertically vertical, and wallboard 7 upper surface becomes bladed to become wire-shaped contact to form good envelope with profit when closing with inner housing 1 side wall bottom Close；Taper valve 4 makes two lobes along center, every lobe outer end be provided with the first hinge hole 8 and inner housing 1 corresponding sides bottom be provided with corresponding The second hinge hole 8 ＇ dislocation embedded form concentric axis hole, the first hinge hole 8 is connected with the second hinge hole 8 ＇ shape using pivot pin 9 Become hinged, when taper valve 4 is squeezed into underground in off position, due to the effect of soil body counter-force, hold out against taper valve 4 can not Open；When coxopodite 6 is when being pressed into State Transferring is to be lifted, the soil body counter-force acting on taper valve 4 bottom disappears, taper valve 4 fan doors as two under armored concrete (or the other mixture) action of gravity that inner housing 1 inner chamber contains by downward rapidly Push open, form, with inner housing 1 side wall, the passage being slightly less than 180 °, armored concrete that inner housing 1 inner chamber contains (or other mixing Thing) flow out rapidly the soil body space vacateed when filling coxopodite 6 moves up；As now opened vibrator 15, promote in inner housing 1 Armored concrete (or the other mixture) rate of outflow that chamber contains faster more cuts bottom, and exciting force has to concrete and shakes well Smash densification.Coxopodite 6 bottom face is provided with calutron 10, is less than calutron 10 when acting on the gravity on taper valve 4 During suction, taper valve 4 is attracted by calutron 10, so that two lobe hinge holes is rotated along pivot pin 9 and voluntarily close.As Fig. 6, Fig. 9 With shown in Figure 10, two lobes of door shape flap 4 ＇ form plane closing in shell body 2 bottom, along two lobes close up midline be provided with plus Strong muscle 11, first plays sealing process to closing up place gap, second strengthens the intensity closed up at gap, center seam when preventing from clamp-oning Compressive deformation at gap；Door shape flap 4 its articulated manner of ＇ and switch mechanism are with taper valve 4.

As shown in figure 15, between upper-lower casing, joint is provided with mutually corresponding plug-in type shoulder 12, wherein inserts Formula shoulder 12 side wall appropriate location is provided with the groove 13 laying rubber seal, to strengthen the water proof anti-seepage saving junction up and down. The reinforcement method of attachment of section junction is shell body 2 herein to lengthen and crosses over upper and lower two section seam crossing longer dimensions in fact up and down Row overlap joint, is fixed in bolt 5 and saves on the ＇ of inner housing 1 lateral wall 1 up and down, because the overlap joint of equivalent length can make to save up and down Housing joint tensile strength is greatly improved.

As shown in Fig. 2 described shell body 2 by same size two semicircles the inner housing 1 lateral wall 1 ＇ length of side central part Position closes up one circular connecting device 3 carrying gathering sill 14 of composition relatively, as shown in figure 3, gathering sill 14 vertically sets along connecting device 3 Put its width and be less than connecting device 3 internal diameter, after the circular track structure of corresponding size is inserted in, in addition to can moving up and down, radially can not Depart from, meanwhile, gathering sill 14 outer rim makes a fixed inclination, to adjust axial angle in appropriate scope.

As shown in figure 1, being the friction area reducing connecting device 3 and guide rail, shell body 2 is vertical along inner housing 1 lateral wall 1 ＇ Regular interruption setting.

As shown in figure 14, described connecting device 3 can also make various ways or shape, such as: single rhombus or the socket of many rhombuses Device 3-2, single oval or many ellipse connecting device 3-3, PDX shape or many bevel edges connecting device 3-4, swallow-tail form or many dovetails Shape connecting device 3-5, the form such as single t shape or many t shape connecting device 3-6, list rhombus corresponding with straight line wall-forming device or many rhombuses, list Oval or many oval, PDX shapes or many bevel edges, single swallow-tail form or many swallow-tail forms, the respective rail such as single t shape or many t shape Device matches to merge conveniently to be inserted in be formed and is only capable of hinge-like slidably vertical along connecting device 3, and single circle connecting device 3 ＇ is Good performance is in addition to can realizing 90 ° and turning to, can also realize on the basis of straight line wall-forming device more than or less than 90 ° Steering angle, and during the connecting device 3 of monolateral setting more than two, steering angle is limited to fixed value.

As shown in Fig. 6, Fig. 7 and Fig. 8, described vibration cooling apparatus include vibrator 15, water inlet tap 16, faucet 17, spray Water nozzle 18, horizontal cyclic water pipe 19, cooling water pipe 20, airduct 20 ＇, cable tube 22.When vibrator 15 adopts dither, The cable passage that cable tube 22 is powered is special, and cooling water pipe 20 implements cooling circulation by dither；When vibrator 15 During using source of the gas vibrator, cable tube 22 is changed into airduct 20 ＇, and cooling water pipe 20 only supplies needed for water spout 18.Each pipeline is in vibration Connect in room 21, and inner housing 1 lateral wall 1 ＇ corresponding site is fixed on by bolt 5.Coxopodite 6 bottom and most end extension 6 ＇ it Horizontal cyclic water pipe 19 is set up in topmost appropriate location, and cooling water pipe 20 is adopted with horizontal cyclic water pipe 19 and connects, cooling water warp Water pump is pressed into water inlet tap 16, flows through around dither 15 and absorbs the cooled water pipe of heat 20 under stress and cycle through out Water nozzle 17 passes through water inlet tap 16 injection again after flowing out to heat dissipation of water tank and recirculates.As shown in figure 16, in two sections shell body 2 Place is provided with concave station and takes on 24 ＇ relatively, and the vibration vertical two ends of wall 23 are overlapped on corresponding concave station up and down and take on 24 ＇, fixing with bolt 5, As shown in figure 3, horizontal both sides cover on vibratory chamber 21 side column 24, fixing with bolt 5；Then, define two sections shell Cavern between body 2 and inner housing 1 lateral wall 1 ＇ and vibration wall 23 is vibratory chamber 21, fully meets vibrator 15 and water spout 18 dispose requirement with other pipelines；Vibrator 15 is fixed on inside vibration wall 23 through bolt 5, cooling water pipe 20, airduct 20 ＇, electricity Cable pipe 22 is attached thereto respectively；More than at least one vibrator is arranged according to each vibratory chamber 21 of transfer size, many Individual vibrator 15 installation site should misplace up and down, prevents from causing resonance.All pipelines are along inner housing 1 lateral wall 1 ＇ and shell body 2 Curved channel 2 ＇ of medial wall vertically lays always and vibrates interior to foot；Curved channel 2 ＇ of shell body 2 medial wall, plays Protective conduit exempts from effect of damage.In vibratory chamber 21 appropriate location, water spout 18 is installed, water spout 18 outlet is towards vibration Outside wall 23, when chance dry soil is clamp-oned or extracted difficulty, close cooling water faucet 17, force cooling water pressure to increase and exceed During water spout 18 preset pressure value, water sprays the infiltration transfer periphery dry soil body from water spout 18 immediately, makes the soil body strong Degree drastically declines, if Vibration on Start-up device 15 simultaneously, under the conditions of exciting force and amplitude and water infiltration are triple, subtracts to greatest extent Few transfer clamp-oning under complex geological condition and pull-out resistance.

Need exist for illustrating, as shown in Figures 2 and 3, cooling water pipe 20 includes airduct 20 ＇, cable tube 22 figure In only illustrate several.Depending on concrete setting quantity should be according to cooling effect to be reached and vibrating effect.

As shown in Figure 11 to Figure 13, described rotary apparatuss include upper flange 25, lower flange 25 ＇, rotary shaft 26, rotary body 27th, thrust button 28, thrust bearing 29, connection screw thread 30 and bolt hole 31.Upper flange 25 is arranged on the bottom of rotary apparatuss, with platform Shoulder 32 is fixed as one, and lower flange 25 ＇ is firmly connected with the top still exposing little piece housing in squeezed burying.Rotary shaft 26 is vertically hung down Directly it is installed in rotary body 27, shoulder 32 and upper flange 25 endoporus, pass through bolt 5 level connection joint at shoulder 32 integral；Rotation Turning 27 inner chambers is circle, and its internal diameter is freely rotatable with rotary shaft 26 major diameter fit.Its profile be provided with lower flange 25 ＇'s Housing profile is unanimously equivalently-sized；Rotary shaft 26 is hollow circle tube, and top is formed with connection screw thread 30, and thrust button 28 passes through to connect Screw thread 30 is firmly connected with rotary shaft 26.In rotary body 27 top end face and thrust button 28 bottom face and shoulder 32 top end face and rotation Turn and between 27 bottom faces, be provided with thrust bearing 29, in order to reduce rotary body 27 rotational resistance and to limit the upper and lower of rotary body 27 Displacement.The total length of transfer housing should add, according to default embedded depth, the certain length that bassets, using coxopodite 6 and some Extension 6 ＇ forms in advance on ground, and being then located at gathering sill 14 centrage of the connecting device 3 of housing needs to turn to Angle after, the connecting device 3 of corresponding another side is inserted in the straight line automatic wall-forming device track clamp-oned underground to default Depth, rotary apparatuss upper flange 25 is passed through the lower flange of bolt 5 and the transfer case top of the certain altitude that bassets 25 ＇ are affixed, at this moment, then static(al) stake machine multifunction clips wall device is promoted to is placed exactly in ground rotary body 27 vertical height model Enclose, static(al) stake machine starts to turn to, and the rotary body 27 being clamped is forced synchronous rotary to respective angles around rotary shaft 26, and this New angle must be basically identical with gathering sill 14 predetermined angle of the transfer housing connecting device 3 having clamp-oned underground；Then Static(al) stake machine moves ahead after a step connecting device 3 again another straight line wall-forming device track being inserted in the new angle of rotary apparatuss simultaneously Vertically in succession it is inserted in the transfer ground corresponding new axial connecting device 3 of lower house and clamp-on underground desired depth, then, ground Newly axial body of wall after lower diaphragm wall zero-clearance turns to starts again.

Above example is merely to illustrate the technical scheme of the embodiment of the present invention, rather than is limited；Although reference Above-described embodiment has been described in detail to the embodiment of the present invention, it will be understood by those within the art that: it is still The technical scheme that foregoing embodiments can be recorded is modified, or wherein some technical characteristics are replaced；And these Modification or replacement, do not make the principle and the scope that itself depart from various embodiments of the present invention technical scheme of technical scheme.

Claims (8)

1. a kind of extruding type diaphram wall zero-clearance transfer it is characterised in that: include housing, vibration cooling apparatus and rotation Device, vibration cooling apparatus are located in housing, and rotary apparatuss are located at housing upper end；

Described housing includes inner housing (1), shell body (2), connecting device (3) and flap, and inner housing (1) is shaped as rectangle or circle Shape, the inner housing (1) of rectangle is hollow, rectangular pipe, and shell body (2) appearance is rectangle, shell body (2) medial wall and inner housing (1) Profile matches, and shell body (2) is provided with least two connecting devices (3), and shell body (2) the single right angle length of side is less than inner housing (1) the 1/2 of the rectangle length of side or circular outer diameter, is uniformly pasted with inner housing (1) lateral wall (1 ＇) inside (2) four angles of shell body respectively Tight blending bolt (5) or be welded and fixed；Shell body (2) vertical along the setting of inner housing (1) lateral wall (1 ＇) elongated interruption, housing by More piece is formed by connecting up and down, and the first paragraph first burying is coxopodite (6), and shell section more than coxopodite (6) is extension (6 ＇), coxopodite (6) inner housing (1) bottom setting flap, extension (6 ＇) bottom does not set flap and horizontal cyclic water pipe (19), extension During (6 ＇) setting two or more, it is sequentially connected from beginning to end between extension (6 ＇), in addition, extension (6 ＇) its shape and construction are same Coxopodite (6)；Upper and lower two section housing joints are provided with mutually corresponding plug-in type shoulder (12), and wherein shoulder (12) side wall sets Have the groove (13) laying rubber seal, the shell body (2) of joint need to lengthen and cross over up and down section abutment joint realize longer Overlap joint.

2. extruding type diaphram wall zero-clearance transfer according to claim 1 it is characterised in that: described vibration is cold But device includes vibrator (15), vibration wall (23), horizontal cyclic water pipe (19), cooling water pipe (20), airduct (20 ＇) and cable Pipe (22), vibration wall (23) is vertically overlapped on corresponding concave station shoulder (24 ＇) of two sections shell body (2), solid with bolt (5) Fixed, horizontal both sides cover on the side column (24) of vibratory chamber (21), fixing with bolt (5)；Between two sections shell body (2) and Cavern between inner housing (1) lateral wall (1 ＇) and vibration wall (23) is vibratory chamber (21), and vibrator (15) is fixedly connected on and shakes Inside dynamic wall (23), cooling water pipe (20), cable tube (22), airduct (20 ＇) are connected with vibrator (15) respectively；Horizontal cyclic water Pipe (19) is located in the vibratory chamber (21) of the topmost of coxopodite (6) bottom and most end extension (6 ＇), cable tube (22), airduct (20 ＇) and cooling water pipe (20) are matched along inner housing (1) lateral wall (1 ＇) and shell body (2) medial wall with various pipeline profiles Curved channel (2 ＇), vertically laid in lower end vibratory chamber (21) through vibrator (15) by upper end, cooling water pipe (20) and water Flat circulating water pipe (19) series connection.

3. extruding type diaphram wall zero-clearance transfer according to claim 1 it is characterised in that: described rotating dress Put including upper flange (25), lower flange (25 ＇), rotary shaft (26), rotary body (27), thrust button (28), thrust bearing (29) and Connection screw thread (30), lower flange (25 ＇) is fixed as one with the case top basseted, and upper flange (25) is located at lower flange Above (25 ＇), upper flange (25) top is fixed as one with shoulder (32)；Rotary shaft (26) positioned vertical is in rotary body (27), platform Shoulder (32) and the endoporus of upper flange (25), integral with shoulder (32) level connection joint by bolt (5), upper flange (25) uses bolt (5) vertically it is fixedly connected with lower flange (25 ＇) by bolt hole (31), thrust button (28) is located at rotary body (27) the top, lead to Cross connection screw thread (30) to be closely connected with rotary shaft (26), between rotary body (27) top and thrust button (28) bottom and shoulder (32) thrust bearing (29) is installed between top and rotary body (27) bottom.

4. extruding type diaphram wall zero-clearance transfer according to claim 1 it is characterised in that: described flap divides For taper valve (4) OR gate shape flap (4 ＇), it is provided with vertical with inner housing (1) side wall at the triangle cavity of taper valve (4) Vertical wallboard (7), wallboard (7) upper surface becomes bladed to become wire-shaped contact with inner housing (1) side wall bottom；Taper valve (4) edge Two lobes are made at center, and every lobe outer end is provided with the embedded formation of hinge hole dislocation that hinge hole is provided with inner housing (1) corresponding sides bottom Concentric hole, using pivot pin (9) penetrate hinge hole realize hinged；Door shape flap (4 ＇) makes two lobes along center, and two lobes are in inner shell Body (1) bottom forms plane closing, closes up midline along two lobes and is provided with reinforcement (11), door shape flap (4 ＇) and inner housing (1) the same taper valve of bottom articulated manner (4)；Coxopodite (6) bottom is embedded with calutron (10).

5. extruding type diaphram wall zero-clearance transfer according to claim 1 it is characterised in that: described connecting device (3) vertically center is elongated is provided with gathering sill (14), and gathering sill (14) width of rebate is less than connecting device (3) internal diameter, guiding Groove (14) outer rim makes a fixed inclination.

6. extruding type diaphram wall zero-clearance transfer according to claim 2 it is characterised in that: in vibratory chamber (21) At least one vibrator (15) is set, and in vibratory chamber (21) during setting two or more vibrator (15), its installation site is mutually wrong Open.

7. extruding type diaphram wall zero-clearance transfer according to claim 2 it is characterised in that: vibrator (15) bag Include dither or source of the gas vibrator, when using dither, vibrator (15) passes through cooling water pipe (20) recirculated water Radiating, cable connects dither by cable tube (22), and when using source of the gas vibrator, cable tube (22) is transformed to airduct (20 ＇), it is used that water spout (18) specialized in by cooling water pipe (20).

8. extruding type diaphram wall zero-clearance transfer according to claim 2 it is characterised in that: described vibratory chamber (21) it is provided with water spout (18) in, water spout (18) outlet is towards vibration wall (23) outside, water spout (18) and cooling water pipe (20) connect.