CN204530965U - Large glass steel osmotic cell and plants planter thereof - Google Patents

Abstract

The utility model embodiment discloses a kind of large glass steel osmotic cell and plants planter thereof.Described glass fiber reinforced plastic osmotic cell comprises the basalis in straight-tube shape, the mesh that the described basalis last time forms multiple hollow is formed dictyosome structure with entirety, wherein, described basalis outer wall is wound around or at least one deck filter membrane that has been sticked, and, described glass fiber reinforced plastic osmotic cell is provided with capping, described capping and the one-shot forming of described glass fiber reinforced plastic osmotic cell at its two ends of sealing.By above-mentioned embodiment, glass fiber reinforced plastic osmotic cell forms multiple mesh, its globality is better, and manufacture craft is simple, and structure is simple, reliable, and cost is lower, is applicable to the multiple use such as rainfall regulative pool, osmotic cell.

Description

Large glass steel osmotic cell and plants planter thereof

Technical field

The utility model relates to a kind of large glass steel osmotic cell and plants planter thereof.

Background technology

The diameter of existing large glass cylinder of steel body is often greater than three meters, and length reaches several meters even tens meters.Glass fiber reinforced plastic tank body is good with its intensity, moulding process is relatively simple, quality light, be convenient to the feature of transporting and installing and be used widely.

Existing glass fiber reinforced plastic tank body is usually used in storage of liquids, now need to improve to make this glass fiber reinforced plastic tank body can serve as infiltration pond to glass fiber reinforced plastic tank body, conventional method needs to hole on glass fiber reinforced plastic tank body, it is complex process not only, and waste material, even can cause the destruction of this glass fiber reinforced plastic tank body structure.

Utility model content

The utility model embodiment technical problem to be solved is to provide a kind of large glass steel osmotic cell and plants planter thereof, and its manufacture craft is simple, and structure is simple, reliable, and cost is lower.

For solving the problems of the technologies described above, the utility model embodiment adopts a kind of large glass steel osmotic cell, described glass fiber reinforced plastic osmotic cell comprises the basalis in straight-tube shape, the mesh that the described basalis last time forms multiple hollow is formed dictyosome structure with entirety, wherein, described basalis outer wall is wound around or at least one deck filter membrane that has been sticked, and, described glass fiber reinforced plastic osmotic cell is provided with capping, described capping and the one-shot forming of described glass fiber reinforced plastic osmotic cell at its two ends of sealing.

Wherein, the glass fiber cross winding that described basalis and the described mesh be formed on described basalis adopt resin to infiltrate solidifies one-shot forming.

Wherein, described basalis inwall is provided with multiple reinforcing rib, described reinforcing rib ringwise and with described basalis one-shot forming.

Wherein, described filter membrane is provided with the topping of the mesh with hollow away from the side of described basalis outer wall, and the mesh on described basalis is overlapping with at least part of region of the mesh on described topping.

Wherein, the glass fiber cross winding that described topping and the described mesh be formed on described topping adopt resin to infiltrate solidifies one-shot forming.

The large glass steel osmotic cell of the utility model embodiment, there is following beneficial effect: its basalis by one-shot forming with the mesh of hollow is formed the glass fiber reinforced plastic osmotic cell in dictyosome structure with entirety, it does not need manually or machinery is holed on its surface separately, manufacture craft is simple, structure is also simple, reliable, can not material be wasted, can save production cost.

For solving the problems of the technologies described above, the utility model embodiment adopts a kind of plants planter, comprise the antiseepage film of glass fiber reinforced plastic osmotic cell as described in glass fiber reinforced plastic osmotic cell as described in above-mentioned any one embodiment and collecting, wherein, the filled media being beneficial to planting plants and supplying plant growth is filled with between described glass fiber reinforced plastic osmotic cell and described antiseepage film.

Wherein, described plants planter comprises a filter element, and it is outside that described filter element is arranged at described antiseepage film, and the delivery port of described filter element stretches into described antiseepage film inside and is connected with described glass fiber reinforced plastic osmotic cell.

Wherein, described filter element is rainwater sand sediment trap.

Wherein, described glass fiber reinforced plastic osmotic cell quantity is two or more, is communicated with between adjacent two described glass fiber reinforced plastic osmotic cells by tube connector.

Wherein, each described glass fiber reinforced plastic osmotic cell is linearly arranged to arrange or tile and is arranged or stacked setting.

The plants planter of the utility model embodiment, there is following beneficial effect: this plants planter comprises glass fiber reinforced plastic osmotic cell, the antiseepage film of accommodating this glass fiber reinforced plastic osmotic cell and the filled media be filled in therebetween, utilize this glass fiber reinforced plastic osmotic cell can the rainy day or to plant water in this filled media time, osmotic absorption and storage are carried out to unnecessary moisture, and carry out infiltration moisturizing when the filled media water yield lacks to filled media, it is arranged by integral structure, easy to install, long service life, and it does not need additionally to arrange sprinkling, the equipment such as drip irrigation, water and electric saving less manpower, planting cost can be saved greatly.

Accompanying drawing explanation

Fig. 1 is the front view of large glass steel osmotic cell moulding form under the state of stretching out of the utility model embodiment.

Fig. 2 is the lateral view of mould shown in Fig. 1.

Fig. 3 is the large glass steel osmotic cell moulding form front view in a contracted state of the utility model embodiment.

Fig. 4 is the lateral view of mould shown in Fig. 2.

Fig. 5 is the view of the large glass steel osmotic cell manufacturing equipment formed glass steel osmotic cell of the utility model embodiment.

Fig. 6 adopts the view that shown in Fig. 5, manufacturing equipment shrinkage die is separated with mould to make glass fiber reinforced plastic osmotic cell.

Glass fiber reinforced plastic osmotic cell is cut into the view of two sections by Fig. 7 as shown in Figure 6.

Fig. 8 is the view being carried out by two sections of glass fiber reinforced plastic osmotic cells being as shown in Figure 7 separated.

Fig. 9 is the front view of the glass fiber reinforced plastic osmotic cell after the utility model embodiment has been assembled.

Figure 10 is the fragmentary, perspective view of the osmotic cell of glass fiber reinforced plastic shown in Fig. 9.

Figure 11 is the hierarchical structure schematic diagram of the osmotic cell of glass fiber reinforced plastic shown in Figure 10.

Figure 12 is the sectional view of the utility model plants planter.

Figure 13 is the arrangement schematic diagram of glass fiber reinforced plastic osmotic cell one embodiment in plants planter shown in Figure 12.

Detailed description of the invention

It should be noted that, when not conflicting, the embodiment in the application and the feature in embodiment can be combined with each other, and are described in further detail the utility model below in conjunction with the drawings and specific embodiments.

Composition graphs 9-Figure 11 consults, and the utility model embodiment provides a kind of large glass steel osmotic cell, and glass fiber reinforced plastic osmotic cell 100 comprises the basalis 1001 in straight-tube shape.Wherein, the mesh 1000(that forms multiple hollow is equivalent to through hole basalis 1001 last time) formed dictyosome structure with entirety.The size of this mesh 1000 can design according to actual needs.In a specific embodiment, this basalis 1001 and be formed at the glass fiber cross winding solidification one-shot forming that the mesh 1000 on basalis 1001 adopts resin to infiltrate, wherein, when forming the basalis 1001 in dictyosome structure, need the viscosity of glass fiber and width control system at OK range, flow to prevent glass fiber and block mesh 1000, do not specifically describe herein.

The large glass steel osmotic cell 100 of the utility model embodiment, there is following beneficial effect: its basalis 1001 by one-shot forming with the mesh 1000 of hollow is formed the glass fiber reinforced plastic osmotic cell 100 in dictyosome structure with entirety, it does not need manually or machinery is holed, manufacture craft is simple, structure is also simple, reliable, can not material be wasted, can save production cost.

In a preferred embodiment, basalis 1001 inwall is provided with multiple reinforcing rib 102, reinforcing rib 102 ringwise and with basalis 1001 one-shot forming.Multiple reinforcing rib 102 can adopt the mode arranged at equal intervals to be arranged at basalis 1001(and glass fiber reinforced plastic osmotic cell 100) inwall, to make the stressed more even of glass fiber reinforced plastic osmotic cell 100.By forming reinforcing rib 102 at basalis 1001 inwall, the structural strength of glass fiber reinforced plastic osmotic cell 100 can be improved, and, reinforcing rib 102 is arranged at the inwall of basalis 1001, neither the structure of fragile reinforcing rib 102 itself makes again glass fiber reinforced plastic osmotic cell 100 more attractive in appearance, can conveniently transport simultaneously.

In another preferred embodiment, basalis 1001 outer wall is provided with at least one deck filter membrane 1002.Wherein, by the mode be wound around or be sticked, filter membrane 1002 can be set at basalis 1001 outer wall.By arranging filter membrane 1002 at the outer wall of basalis 1001, this glass fiber reinforced plastic osmotic cell 100 can be used as sink, it can be used as Adjusting rainwater, as time rainy, can by rainwater-collecting in this glass fiber reinforced plastic osmotic cell 100, after rainy stopping, slowly outwards penetrate the rainwater be stored within glass fiber reinforced plastic osmotic cell 100 by the mesh 1000 on basalis 1001, it is inner that this filter membrane 1002 can effectively prevent outside mud from entering into glass fiber reinforced plastic osmotic cell 100.

Further, at filter membrane 1002, the side of basalis 1001 outer wall can be provided with the topping 1003 of the mesh 1000 with hollow, the structure of this topping 1003 is substantially identical with the structure of basalis 1001.This topping 1003 and be formed at the glass fiber cross winding solidification one-shot forming that the mesh 1000 on topping 1003 adopts resin to infiltrate.Wherein, region is overlapping at least partly, to form fluid flow paths for the mesh 1000 on basalis 1001 and the mesh 1000 on topping 1003.Wherein, by regulating the size of mesh 1000 in basalis 1001 and topping 1003 to realize the adjustment to fluid flow paths, the adjustment to fluid flow paths can also can be realized by the size adjusting overlapping region area.Now; basalis 1001 is as the kernel of glass fiber reinforced plastic osmotic cell 100; again by having the topping 1003 of mesh 1000 in the outer formation of filter membrane 1002, the structural strength of this glass fiber reinforced plastic osmotic cell 100 can be improved, especially can effectively prevent diaphragm destroyed in transport, installation process.

During application, multiple glass fiber reinforced plastic osmotic cell 100 can be interconnected and be communicated with and form longer permeate channel with applicable different use scenes and demand.

In another embody rule embodiment, glass fiber reinforced plastic osmotic cell 100 is provided with the capping 1004 at its two ends of sealing, capping 1004 and glass fiber reinforced plastic osmotic cell 100 one-shot forming, be specifically as follows basalis 1001 one-shot forming with glass fiber reinforced plastic osmotic cell 100, namely make this capping 1004 continuously shaped with glass fiber reinforced plastic osmotic cell 100.By one-shot forming technique, glass fiber reinforced plastic osmotic cell 100 is set to the structure of two ends sealing, glass fiber reinforced plastic osmotic cell 100 moulding process can be simplified, and the sealing of glass fiber reinforced plastic osmotic cell 100 can be improved.

In above-mentioned embodiment, basalis 1001 and topping 1003 all can be shaping by mould cross winding.As Figure 1-Figure 4, this mould comprises main shaft 1, moving platen, capping template (can arrange according to specific needs or not arrange) and haulage gear 3.Moving platen is at least three pieces, arranges respectively around main shaft 1; Capping template is generally two pieces, i.e. capping template 41,42, capping template 41,42 can be arc surfaced as dome shape, can certainly be other shape, this capping template 41,42 be installed in main shaft 1 two ends respectively; The quantity of the quantity Matching moving platen of haulage gear 3, each haulage gear 3 is connected between main shaft 1 and corresponding moving platen, stretches back and forth diametrically relative to main shaft 1 to drive this moving platen.Wherein, when each moving platen stretches out certain length (as extension elongation is maximum), each moving platen and capping template 41, 42 abut against and are jointly encircled into straight-tube shape and the die 6 of two ends sealing, further, the lateral wall of die 6 is provided with multiple tracks reinforcing rib groove 61, reinforcing rib groove 61 can be arranged on moving platen and/or capping template 41, on the lateral wall of 42, to strengthen the structural strength of respective regions in the glass fiber reinforced plastic osmotic cell 100 made by this mould of employing, this reinforcing rib groove 61 can be arranged ringwise along die circumference, it can certainly be arranged in a crossed manner or other vibrational power flow, be described to be set to example ringwise in full, the reinforcing rib 102(molded accordingly is as Fig. 6) be ring-type.Wherein, die 6 can rotate under main shaft 1 drives.Capping template 41,42 can be installed in main shaft 1 two ends in a welding manner; Certainly, capping template 41,42 also can by being spirally connected, the removably such as clamping is connected to main shaft 1 two ends, now, the length-specific that each moving platen of the capping template 41,42 of suitable dimension coupling can be selected to stretch out surrounds the straight-tube shape die 6 forming two ends sealing, make die 6 size can variation, conveniently produce the glass fiber reinforced plastic osmotic cell 100 of different size.

In above-described embodiment, this haulage gear 3 comprises the screw rod 31 axially arranged along main shaft 1, be arranged at the motor 30(composition graphs 9 rotated clockwise or counterclockwise in order to drive screw 31 on main shaft 1), and be arranged at first support member 33 and second support member 34 at screw rod 31 two ends respectively, wherein, screw rod 31 is installed with gear 32, the output shaft of motor 30 engages with gear 32, output shaft rotation driven gear 32 rotates and then drives screw rod 31 to rotate, first support member 33, the two ends of the second support member 34 are movably connected on main shaft 1 and same moving platen respectively, wherein, first support member 33, second support member 34 stretches and then drives moving platen to stretch back and forth relative to main shaft 1 under the drive of screw rod 31.For adjusting the rotary speed of screw rod 31, change-speed gearing can be set between motor 30 and gear 32, specifically can depend on the needs.

Specifically, screw rod 31 two ends are provided with the contrary screw thread of rotation direction, and the thread pitch at two ends is equal, and the first support member 33 is identical with the structure of the second support member 34, and it includes push rod 331(341), bottom bar 332(342) and pull bar 333(343), in first support member 33, push rod 331 one end is articulated to moving platen (as cope match-plate pattern 21), bottom bar 332 one end is articulated to main shaft 1, push rod 331 other end is articulated to bottom bar 332 other end, and pull bar 333 one end is articulated to position that push rod 331 is connected with bottom bar 332, the other end establishes threaded thread bush 334 in being provided with and thread bush 334 spiral is connected to screw rod 31 one end, in second support member 34, push rod 341 one end is articulated to moving platen (as cope match-plate pattern 21), bottom bar 342 one end is articulated to main shaft 1, push rod 341 other end is articulated to bottom bar 342 other end, pull bar 343 one end is articulated to the position that push rod 341 is connected with bottom bar 342, threaded thread bush 334 is established and thread bush 334 spiral is connected to screw rod 31 other end in the other end is provided with, wherein, as each push rod 331(341), bottom bar 332(342) when being launched into a straight line perpendicular to main shaft 1 completely, the pull bar 333(343 at two ends) identical with the angle of this straight line, and thread bush 334(344) respectively distance screw rod 31 two ends the pitch of thread from equal.When motor 30 drive screw 31 rotates, under the effect of the contrary screw thread of rotation direction, the pull bar direction of motion of the first support member 33 and the second support member 34 is contrary all the time, the pull bar 333(343 of this first support member 33 and the second support member 34) on stroke, also remain consistent.Be described along screw rod 31 move toward one another for the pull bar of the first support member 33 and the pull bar of the second support member 34 under screw rod 31 driving, it is close to each other that the push rod 331 of the first support member 33 and bottom bar 332 rotate around its interconnective end points one end that push rod 331 and bottom bar 332 are not connected, in like manner, it is close to each other that the push rod 341 of the second support member 34 and bottom bar 342 rotate around its interconnective end points one end that push rod 341 and bottom bar 342 are not connected, namely, make moving platen radially close to main shaft 1 under the acting in conjunction of the first support member 33 and the second support member 34, because the first support member 33 and pull bar 333(343 respective in the second support member 34) direction of motion is contrary and stroke is consistent, each pull bar 333(343) pulling force identical, make the first support member 33 and each push rod 331(341 in the second support member 34) with bottom bar 332(342) stressed identical and then contracted length keeps identical, make two ends, corresponding moving platen left and right can synchronous, contribute to the synchronized contraction of mould.Further, because screw rod 31 and each pull bar 333(343) between adopt threaded engagement to connect, its frictional force is comparatively large, makes pull bar 333(343) be not easy to appear at the synchronized contraction towards the direction motion effects mould deviated from mutually in the process of move toward one another.Since, the pull bar 333(343 at two ends) and towards the situation deviating from direction motion mutually, its principle synchronously stretches out to drive corresponding moving platen to launch to similar first support member 33, second support member 34 that namely can make of both move toward one another, no longer describes in detail.Haulage gear structure on each moving platen (cope match-plate pattern 21, lower bolster 22, left template 23 and right template 23) is identical, and operating principle is also identical, does not do repeated description herein.

Certainly, the screw rod 31 of haulage gear 3 also can replace with turbine, first support member 33 and the second support member 34 can realize with worm screw, the forward and reverse rotation of turbine is driven by motor, drive worm screw to stretch and then drive moving platen to stretch back and forth relative to main shaft 1, this situation is not described specifically herein; Or this haulage gear 3 can also adopt cylinder assembly to replace, this cylinder assembly comprises the cylinder body and piston rod that are used in conjunction with each other, and now, cylinder body is fixed on main shaft 1, and piston rod and moving platen are fixedly linked, and is not also described specifically for this situation herein.

Continue to consult Fig. 1, this haulage gear 3 also comprises the first directing assembly 51, second directing assembly 52 being arranged at screw rod 31 two ends, its include be fixed on sleeve 501 on main shaft 1 and one end slide be arranged at sleeve 501 inside the body of rod 502, first directing assembly 51 and the second directing assembly 52 in one end of the body of rod 502 be all fixed on same moving platen (as cope match-plate pattern 21).When the first support member 33, second support member 34 drives moving platen to stretch, the first directing assembly 51, second directing assembly 52 synchronization telescope, makes corresponding moving platen can not rock back and forth left and right when flexible, is conducive to the steadily flexible of mould.Especially, coordinate the first support member 33, second support member 34 to drive the synchronized contraction of moving platen, the part reinforcing rib 102 of glass fiber reinforced plastic osmotic cell 100 inwall adopting this mould to make can be prevented still to be stuck in reinforcing rib groove 61 affects the demoulding.

Wherein, composition graphs 9, the electric wire connecting each motor (as motor 30) to be laid within main shaft 1 and to draw through main shaft 1 two ends, not only clean and tidy but also can affect main shaft 1 and rotate.

Preferably, composition graphs 3 and Fig. 4, moving platen quantity is four pieces, is left template 23, right template 24, cope match-plate pattern 21 and lower bolster 22 respectively, and left template 23 is centrosymmetric with right template 24, and cope match-plate pattern 21 and lower bolster 22 are centrosymmetric.Each template is all connected to main shaft 1 by haulage gear 3, when left template 23, right template 24, cope match-plate pattern 21, lower bolster 22 stretch out certain length and the capping template 41,42 at two ends be jointly encircled into the die 6 that two ends seal.In a preferred embodiment, each screw rod is also provided with and relatively-stationary sprocket wheel (not shown) coaxial with gear, this gear and sprocket wheel can integrated molding structure or package assemblies.Driving the sprocket wheel of left template 23 to adopt chain (not shown) to link with driving the sprocket wheel of right template 24, driving the sprocket wheel of cope match-plate pattern 21 to adopt chain (not shown) to link with driving the sprocket wheel of lower bolster 22.As only start the machine operation corresponding to left template 23 drive this bolt rotary time, under the induced effect of chain, in right template 24, corresponding screw rod also along with synchronous axial system, and then can realize the synchronization telescope of left template 23 and right template 24; When the sprocket sizes corresponding to right template 24 when the sprocket wheel that left template 23 is corresponding, tooth pitch are consistent, the screw rod of left template 23 and right template 24 can Complete Synchronization, rotation with speed, the mode adopting sprocket wheel and chain the to match net synchronization capability making two haulage gears flexible that not easily skids is more reliable and more stable, and then makes symmetrical one group of moving platen (cope match-plate pattern 21 and lower bolster 22; Left template 23 and right template 24) can synchronously, the carrying out of equal extent stretch.Certainly, by the control to corresponding motor, definition cope match-plate pattern 21 and the corresponding motor of lower bolster 22 are one group, left template 23 and the corresponding motor of right template 24 are one group, speed difference is there is as made the velocity of rotation of two groups of motors, to drive cope match-plate pattern 21, the velocity of rotation of one group of motor that lower bolster 22 is flexible is greater than the left template 23 of driving, the velocity of rotation of one group of motor that right template 24 is flexible is example, especially when shrinking, cope match-plate pattern 21, lower bolster 22 is compared to left template 23, right template 24 is shunk faster, and then can not stop mutually when each piece of template is shunk and cause and cannot shrink.In addition, the motor of the motor of the haulage gear of left template 23 and the haulage gear of right template 24 can select one work, the motor of the motor of the haulage gear 3 of cope match-plate pattern 21 and the haulage gear of lower bolster 22 can select one work, in the process manufacturing glass fiber reinforced plastic osmotic cell 100, if when in arbitrary group of motor, arbitrary motor breaks down, select another machine operation in this group to solve, do not need to destroy structure that is molded or half-formed glass fiber reinforced plastic osmotic cell 100.Certainly, also can not be connect by chain between each motor, and control separately, but two motors stretched compared to driving cope match-plate pattern 21 and lower bolster 22 and two motors driving left template 23 and right template 24 to stretch all adopt chain to link, its stretching speed is slower, and needing to arrange accurately the stretching speed and degree that could control each template, motor is if there is fault simultaneously, cannot continue the making of glass fiber reinforced plastic osmotic cell 100 and/or take out from mould.

Wherein, drive the motor of the haulage gear of left template 23 consistent with driving the motor model of haulage gear of right template 24, with guarantee this two motor can with in the same way, synchronous, same to rotating speed, with power work; Drive the motor of the haulage gear 3 of cope match-plate pattern 21 consistent with the motor model of haulage gear of driving lower bolster 22, with guarantee this two motor also can in the same way, synchronous, same to rotating speed, with power work.When two groups of motors motor model is separately consistent; coordinate with two motors in group by chain with the connection of engagement system; when all working with group motor two motors; being equivalent to can increasing power; all less to the load of each motor; can motor be protected, even if one of them motor breaks down, also still can continue the making of follow-up glass fiber reinforced plastic osmotic cell 100 and/or take out from mould.

In above-described embodiment, the lateral wall of each moving platen (i.e. cope match-plate pattern 21, lower bolster 22, left template 23 and right template 24) can be all cambered surface.At least part of region of moving platen is solid construction 20, all non-solid structure of the Zone Full compared to moving platen, because mould itself has larger deadweight, can facilitate during the follow-up demoulding and supports mould and do not damage mould structure.

Composition graphs 5-Fig. 8, the utility model also provides a kind of large glass steel osmotic cell manufacturing equipment, plastic go out two ends there is capping 103 and the glass fiber reinforced plastic osmotic cell 100 that is made of one piece of reinforcing rib 102 and glass fiber reinforced plastic osmotic cell 100, and to be convenient in demoulding.

This manufacturing equipment comprises previously described mould, also comprise the main drive motor 7 for driving mould to rotate, for rotary support mould and the mould rack 91 that can shift out from mould, 92, for supply the glass fiber that resin fully infiltrates feeding device 10, for glass fiber reinforced plastic osmotic cell 100 is cut into two sections with the cutter sweep 11 of assisted demoulding, for the supported cart 121,122 of assisted demoulding and after cut glass fiber reinforced plastic osmotic cell 100 open at cutter sweep 11 the liftable bracing or strutting arrangement 13 be supported in the moving platen of mould.This control main drive motor 7, mould and feeding device 10 can control (not shown) by control device, and certain cutter sweep 11, bracing or strutting arrangement 13 and supported cart 91,92 etc. also can be controlled by control device, in the lump to realize automated production as far as possible.This feeding device 10 is along mould shaft to being located at by die side movably.This mould rack 91,92 abuts the position of main shaft 1 and is provided with roller (not shown) and unaffectedly can be supported by it again to make main shaft 1 opposing mold support 91,92 rotate; This supported cart 121,122 energy Free-rolling, the upper end of supported cart 121,122 is provided with the curved support face matched with glass fiber reinforced plastic osmotic cell 100, and the bottom being positioned at this curved support face in supported cart 121,122 is provided with Lift Part realizes bearing height free adjustment to drive curved support face to be elevated; This feeding device 10 controls it by control device and moves and send glass fiber reinforced plastic raw material, and it is provided with glass fiber reinforced plastic raw material storage case and can along mould axially reciprocating in its dedicated track 1001; This cutter sweep 11 can relatively rotate with mould, and cutter sweep 11 can be laser cutting machine, flame cutting machine, high-pressure water knife etc.

Mould is when installing and use, the main shaft 1 of mould is arranged in horizontal direction, main shaft 1 two ends of this mould rack 91,92 rotary support mould, wherein one end of the main shaft 1 of mould is connected with a rotating shaft 93 by shaft coupling 71, this rotating shaft 93 is rotatably supported on mould rack 94,95, rotating shaft 93 is installed with sprocket wheel 72, the output shaft of main drive motor 7 is linked by chain 73 and this sprocket wheel 72, and therefore mould is horizontally-mounted mould.When needs make glass fiber reinforced plastic osmotic cell 100, the control device each machine operation first controlled in mould drives each moving platen and capping template 41,42 to abut against and is jointly encircled into straight-tube shape and the complete die 6 that seals of two ends, then control device control main drive motor 7 task driven mould is rotated, utilize the rotation of mould and automatically by winding of raw stock such as glass fiber good for mixed preparing and resins in the outer circumferential walls of die 6, until the thickness be wound around and length reach designing requirement, after main drive motor 7 stops, mould rotates and stops.This glass fiber reinforced plastic osmotic cell 100 is generated after glass fiber reinforced plastic raw material cooling forming.

After this glass fiber reinforced plastic osmotic cell 100 cooling forming, take out glass fiber reinforced plastic osmotic cell 100.Specifically: each machine operation first controlled in mould by control device makes each moving platen shrink vertically relative to main shaft 1, reinforcing rib groove 61 outside the reinforcing rib 102 of glass fiber reinforced plastic osmotic cell 100 and mould is departed from completely and keeps certain interval (composition graphs 4 and Fig. 6, Fig. 4 ectomesoderm represents reinforcing rib 102 in glass fiber reinforced plastic osmotic cell 100, and internal layer represents outside each moving platen); Then, bottom mobile at least two supported cart 121,122 to glass fiber reinforced plastic osmotic cell 100, the curved support face of supported cart 121,122 is risen with bottom abutting or adjacent glass steel osmotic cell 100.Supported cart 121, time bottom 122 abutting glass fiber reinforced plastic osmotic cells 100, cutter sweep 11 is driven to move along its dedicated track, this cutter sweep 11 is along the circumferential direction moved relative to glass fiber reinforced plastic osmotic cell 100, move while carry out ring cutting to this glass fiber reinforced plastic osmotic cell 100, glass fiber reinforced plastic osmotic cell 100 is cut into two sections, or, can in supported cart 121, the curved support face of 122 arranges roller, cutter sweep 11 is arranged on permanent position, glass fiber reinforced plastic osmotic cell 100 rotates and namely relatively rotates relative to this cutter sweep 11 under the drive of main drive motor 7, utilize cutter sweep 11 that this glass fiber reinforced plastic osmotic cell 100 is carried out ring cutting and cuts into two sections, or, time bottom supported cart 121,122 adjacent glass steel osmotic cell 100, cutter sweep 11 fixing (not needing to be exclusively used in the track of cutter sweep 11) can be made, and make main drive motor 7 drive main shaft 1 rotation that glass fiber reinforced plastic osmotic cell 100 is along the circumferential direction moved relative to cutter sweep 11, ring cutting is carried out to make cutter sweep 11 pairs of glass fiber reinforced plastic osmotic cells 100, and then glass fiber reinforced plastic osmotic cell 100 is cut into two sections, after having cut, these two sections of glass fiber reinforced plastic osmotic cells 100 fall under gravity on the curved support face of supported cart 121,122, two supported cart 121,122 being supported with the glass fiber reinforced plastic osmotic cell 100 of different section being deviated from mutually to move a certain distance along the axis of mould main shaft 1 respectively makes two sections of glass fiber reinforced plastic osmotic cells 100 separate, bracing or strutting arrangement 13 is inserted between the glass fiber reinforced plastic osmotic cell 100 of two-phase seperation, rise the moving platen that this bracing or strutting arrangement 13 abuts to mould and fix this mould to support, this bracing or strutting arrangement 13 preferably abuts the position to the solid construction 20 on moving platen, remove the mould rack 91 of side, the supported cart 121,122 moving axially this side contiguous along main shaft 1 makes it move until taken out from mould by the glass fiber reinforced plastic osmotic cell 100 be supported in this supported cart 121,122 to the side removing mould rack 91, install the mould rack 91 that is removed and remove the mould rack 92 of opposite side, the supported cart 121,122 moving axially this side contiguous along main shaft 1 makes it move until taken out from mould by the glass fiber reinforced plastic osmotic cell 100 be supported in this supported cart 121,122 to the side removing mould rack 92.So far, the work that glass fiber reinforced plastic osmotic cell 100 takes out from mould is completed.The large glass steel osmotic cell manufacturing equipment of the utility model embodiment, pass through shrinkage die, and coordinate the accessory such as cutter sweep 11, supported cart 121,122, can conveniently take out glass fiber reinforced plastic osmotic cell 100, the smooth demoulding of glass fiber reinforced plastic osmotic cell 100 and mould is separated, and to the crimp of glass fiber reinforced plastic osmotic cell 100 or damage in separation process both avoiding, while ensure that product quality, substantially increase the production efficiency of glass fiber reinforced plastic osmotic cell 100 product.

The utility model also provides a kind of and utilizes this glass fiber reinforced plastic osmotic cell thus the plants planter realized.Specifically as shown in figure 12, this plants planter comprises the antiseepage film 200 of glass fiber reinforced plastic osmotic cell 100 as above-mentioned any one embodiment and collecting glass fiber reinforced plastic osmotic cell 100, wherein, the filled media 300 being beneficial to planting plants and supplying plant growth is filled with between glass fiber reinforced plastic osmotic cell 100 and antiseepage film 200.This filled media 300 can be soil etc. usually.

Specifically, when planting is built as urban green belts, on road surface, excavate groove in advance, this plants planter has been arranged in this groove, the trench wall of fitting of the antiseepage film 200 in this plants planter is arranged.This antiseepage film 200 effectively can prevent water loss, using water wisely.

In an embody rule embodiment, plants planter comprises a filter element 400, it is outside that filter element 400 is arranged at antiseepage film 200, the delivery port 401 of filter element 400 stretches into antiseepage film 200 inside and is connected with glass fiber reinforced plastic osmotic cell 100, by arranging filter element 400, and the water inlet 402 of this filter element 400 can be set to slightly be beneficial to rainwater inflow lower than road surface.The setting of this filter element 400 can to rainwater or from outside the supplementing water of pouring into into glass fiber reinforced plastic osmotic cell 100 filter, prevent the impurity such as mud from entering the inner or blocking corresponding pipeline of glass fiber reinforced plastic osmotic cell 100, affect follow-up use.Wherein, this filter element 400 can adopt rainwater sand sediment trap.

In an embody rule embodiment, consult Figure 13, glass fiber reinforced plastic osmotic cell 100 quantity is two or more, is communicated with between adjacent two glass fiber reinforced plastic osmotic cells 100 by tube connector 500.Wherein, each glass fiber reinforced plastic osmotic cell 100 is linearly arranged to arrange or tile and is arranged or stacked setting, certainly, also can be that wherein two or more combination uses, specifically depend on the circumstances.

The plants planter of the utility model embodiment, there is following beneficial effect: this plants planter comprises glass fiber reinforced plastic osmotic cell 100, the antiseepage film 200 of accommodating this glass fiber reinforced plastic osmotic cell 100 and the filled media 300 be filled in therebetween, utilize this glass fiber reinforced plastic osmotic cell 100 can the rainy day or to plant water in this filled media 300 time, osmotic absorption and storage are carried out to unnecessary moisture, and carry out infiltration moisturizing when filled media 300 water yield lacks to filled media 300, it is arranged by integral structure, easy to install, long service life, and it does not need additionally to arrange sprinkling, the equipment such as drip irrigation, water and electric saving less manpower, planting cost can be saved greatly.

Although illustrate and described embodiment of the present utility model, it should be noted that, when not conflicting, embodiment in the application and the feature in embodiment can be combined with each other, for the ordinary skill in the art, be appreciated that and can carry out multiple change, amendment, replacement and modification to these embodiments when not departing from principle of the present utility model and spirit, scope of the present utility model is limited by claims and equivalency range thereof.

Claims (10)

1. a large glass steel osmotic cell, is characterized in that:

Described glass fiber reinforced plastic osmotic cell comprises the basalis in straight-tube shape, the mesh that the described basalis last time forms multiple hollow is formed dictyosome structure with entirety, wherein, described basalis outer wall is wound around or at least one deck filter membrane that has been sticked, and, described glass fiber reinforced plastic osmotic cell is provided with capping, described capping and the one-shot forming of described glass fiber reinforced plastic osmotic cell at its two ends of sealing.

2. glass fiber reinforced plastic osmotic cell according to claim 1, is characterized in that:

The glass fiber cross winding solidification one-shot forming that described basalis and the described mesh be formed on described basalis adopt resin to infiltrate.

3. glass fiber reinforced plastic osmotic cell according to claim 1, is characterized in that:

Described basalis inwall is provided with multiple reinforcing rib, described reinforcing rib ringwise and with described basalis one-shot forming.

4. glass fiber reinforced plastic osmotic cell according to claim 1, is characterized in that:

Described filter membrane is provided with the topping of the mesh with hollow away from the side of described basalis outer wall, and the mesh on described basalis is overlapping with at least part of region of the mesh on described topping.

5. glass fiber reinforced plastic osmotic cell according to claim 4, is characterized in that:

The glass fiber cross winding solidification one-shot forming that described topping and the described mesh be formed on described topping adopt resin to infiltrate.

6. a plants planter, it is characterized in that, comprise at least one glass fiber reinforced plastic osmotic cell as described in any one of claim 1 to 5 and the antiseepage film of glass fiber reinforced plastic osmotic cell as described in collecting, wherein, the filled media being beneficial to planting plants and supplying plant growth is filled with between described glass fiber reinforced plastic osmotic cell and described antiseepage film.

7. plants planter according to claim 6, is characterized in that:

Described plants planter comprises a filter element, and it is outside that described filter element is arranged at described antiseepage film, and the delivery port of described filter element stretches into described antiseepage film inside and is connected with described glass fiber reinforced plastic osmotic cell.

8. plants planter according to claim 7, is characterized in that:

Described filter element is rainwater sand sediment trap.

9. plants planter according to claim 6, is characterized in that:

Described glass fiber reinforced plastic osmotic cell quantity is two or more, is communicated with between adjacent two described glass fiber reinforced plastic osmotic cells by tube connector.

10. plants planter according to claim 9, is characterized in that:

Each described glass fiber reinforced plastic osmotic cell is linearly arranged to arrange or tile and is arranged or stacked setting.