CN205623443U - Circulating stereoscopic planting system that is suitable for city building environment - Google Patents

Abstract

The utility model discloses a circulating stereoscopic planting system that is suitable for city building environment, including installing circulation conveying support and a plurality of planting mechanism of installing on circulation conveying support on the building wall, circulation conveying support comprises first support and the second support that mirror symmetry set up, the planter framework is established and is installed between first support and second support, plant the mechanism including the back shaft with set up in supporting epaxial planting groove. The utility model discloses structural design is novel, make full use of space on the ground, be applicable to and like horticulture and the green city dwellers that plant the cultivation to plant flowers and plants, vegetables etc. In limited space, the mode that runs cyclically enables on the stereoscopic planting frame all and plants and can both fully accept sunshine and shine, managers does not need the shift position, subaerial managing all kind plants of can relaxing, and, the utility model discloses the operation is stable, and the size of a dimension can be confirmed according to actual conditions are nimble, not receive the restriction of building size.

Description

It is suitable for the circulating type three-dimensional implant system of urban architecture environment

Technical field

This utility model relates to tridimensional planting system, a kind of circulating type three-dimensional implant system being suitable for urban architecture environment.

Background technology

For the environment such as rural area, in city, land resource is more rare, and generally flowers grass and trees can only be planted on the ground, so that the green coverage in city is restricted.It addition, for some plantations fan, self-owned house typically cannot realize the more large-area green plantation planting (such as flowers or vegetable etc.).The space utilizing more than ground then can solve this problem, but current existing three-dimensional plantation frame majority designs for large-scale plantation etc., is not appropriate for being applied in city, it is impossible to meet the requirement of life of urban resident.

Utility model content

The purpose of this utility model is to provide a kind of circulating type three-dimensional implant system being suitable for urban architecture environment, to solve the problem that current existing three-dimensional plantation frame can not meet urban architecture environment.

The purpose of this utility model is achieved in that

A kind of circulating type three-dimensional implant system being suitable for urban architecture environment, includes the circulation transport support being installed on building walls and some growing bodies being installed on circulation transport support；

The first support that described circulation transport support is arranged by specular and second are configured to, and described growing body sets up and is installed between described first support and described second support；

Described first support is made up of rack body and the transport assembly being arranged on rack body；

Described rack body includes up vertical conveying track groove, upper strata axial transport rail groove, descending vertical conveying track groove, lower floor's axial transport rail groove and multi-functional Auxiliary Track groove, and described multi-functional Auxiliary Track groove includes upper strata multi-functional Auxiliary Track groove and lower floor multi-functional Auxiliary Track groove；Wherein, the rail groove of described up vertical conveying track groove, described upper strata axial transport rail groove, described descending vertical conveying track groove and described lower floor axial transport rail groove constitutes circulation transport rail groove；Described upper strata multi-functional Auxiliary Track groove is set in parallel in below the axial transport rail groove of described upper strata, described lower floor multi-functional Auxiliary Track groove is set in parallel in below described lower floor axial transport rail groove, and the rail groove of described upper strata multi-functional Auxiliary Track groove and described lower floor multi-functional Auxiliary Track groove rail groove with the rail groove of described up vertical conveying track groove and described descending vertical conveying track groove respectively is connected；

Described transport assembly includes the drive that conveyer chain and some operations with conveyer chain match, and described drive is arranged at the corner of described circulation transport rail groove, and described conveyer chain is arranged in the notch of described circulation transport rail groove；

Described growing body includes support shaft and the planting groove being arranged in support shaft, realize being connected support by the second bearing between described support shaft with the roller run on the track of described circulation transport rail groove, realize being connected supports by clutch shaft bearing in the spindle nose of described support shaft stretches into the notch of described circulation transport rail groove and with between described conveyer chain, pass through the 3rd bearing realization between described support shaft with described planting groove and be connected support；The bottom of described planting groove is provided with multi-functional auxiliary rod, and the head of described multi-functional auxiliary rod extend in the notch of described multi-functional auxiliary tank.

The described circulating type three-dimensional implant system being suitable for urban architecture environment, also includes drive mechanism, and described drive mechanism includes power output precision, and described power output precision drives described conveyer chain along described circulation transport rail groove cycle rotation.

The described circulating type three-dimensional implant system being suitable for urban architecture environment, described conveyer chain is aerofoil profile chain, described aerofoil profile chain is to be provided with fin in the outer plate side of at least side of chain, and described fin becomes certain bending angle with described outer plate, offers installing hole on described fin；Described drive is the gear matched with described aerofoil profile chain dimension.

The described circulating type three-dimensional implant system being suitable for urban architecture environment, described conveyer chain is the chain rope that cross-under has chain lock, and described chain lock has the lateral circle surface of parallel upper and lower surface and annular；Upper surface at described chain lock offers arc-shaped slot, lateral circle surface at described chain lock offers the perforation of chain rope or chain wire clips mouth being respectively communicated with respectively with arc-shaped slot two ends, and the distance at the perforation of described chain rope or described chain wire clips mouth place straight line and described chain lock center is slightly larger than the radius of the bearing mounting hole being arranged at described chain lock center；Described drive is the sprocket wheel that the side contacted with described chain lock is engaged.

The described circulating type three-dimensional implant system being suitable for urban architecture environment, the rail groove of described up vertical conveying track groove, described upper strata axial transport rail groove, described descending vertical conveying track groove and described lower floor axial transport rail groove forms O type circulation transport rail groove.

The described circulating type three-dimensional implant system being suitable for urban architecture environment, described upper strata axial transport rail groove is divided into upper strata forward conveying track groove and upper strata reverse conveying track groove, described descending vertical conveying track groove to be divided into the descending vertical conveying track groove of epimere and and the descending vertical conveying track groove of hypomere；Wherein, described up vertical conveying track groove, described upper strata forward conveying track groove, the descending vertical conveying track groove of described epimere, described upper strata reverse conveying track groove, the descending vertical conveying track groove of described hypomere and described lower floor axial transport rail groove inverted L shape circulation transport rail groove is formed.

The described circulating type three-dimensional implant system being suitable for urban architecture environment, described up vertical conveying track groove is divided into the first up vertical conveying track groove and the second up vertical conveying track groove, described descending vertical conveying track groove is divided into the first descending vertical conveying track groove and the second descending vertical conveying track groove, described upper strata axial transport rail groove is divided into upper strata forward conveying track groove and upper strata reverse conveying track groove, and described lower floor axial transport rail groove is divided into first lower floor's axial transport rail groove and second lower floor's axial transport rail groove；Wherein, described first up vertical conveying track groove, described upper strata forward conveying track groove, described first descending vertical conveying track groove, described first lower floor's axial transport rail groove, described second up vertical conveying track groove, described upper strata reverse conveying track groove, described second descending vertical conveying track groove and described second lower floor's axial transport rail groove inverted U circulation transport rail groove is formed.

The described circulating type three-dimensional implant system being suitable for urban architecture environment, described multi-functional auxiliary rod is the drain pipe with hollow cavity.

The described circulating type three-dimensional implant system being suitable for urban architecture environment, described multi-functional auxiliary rod is provided with steady wheel by the 4th bearing, and described steady wheel can run along the track of the rail groove of the rail groove of described upper strata multi-functional Auxiliary Track groove, the rail groove of described lower floor multi-functional Auxiliary Track groove, the rail groove of described up vertical conveying track groove and described descending vertical conveying track groove.

The described circulating type three-dimensional implant system being suitable for urban architecture environment, also includes irrigation mechanism.

Additionally, in this utility model, described up vertical conveying track groove, described upper strata axial transport rail groove, described descending vertical conveying track groove and described lower floor axial transport rail groove all use C-shaped channel steel to make, it is preferred that described multi-functional Auxiliary Track groove is also adopted by C-shaped channel steel and makes.

This utility model novel in structural design, take full advantage of aboveground space, it is applicable to like that gardening and the green urbanite planting cultivation plant flowers and plants, vegetable etc. in limited space, the mode of circular flow can make all kinds of plants on planting pergola fully to expose to sunlight, management personnel are not required to shift position, easily all kinds of plants can be managed on the ground, and, this utility model is stable, size can determine flexibly according to practical situation, is not limited by building size.

Accompanying drawing explanation

Fig. 1 is the perspective structure schematic diagram of embodiment 1 of the present utility model.

Fig. 2 is the bracket side TV structure schematic diagram in embodiment 1 of the present utility model.

Fig. 3 is the chain in embodiment 1 of the present utility model and gear structure schematic diagram.

Fig. 4 is the support in embodiment 1 of the present utility model and planting groove mounting structure schematic diagram.

Fig. 5 is the side-looking structural representation of embodiment 2 of the present utility model.

Fig. 6 is the second structural representation of the inverted L shape support of embodiment 2 of the present utility model.

Fig. 7 is the chain lock in embodiment 2 of the present utility model and sprocket wheel fit structure schematic diagram.

Fig. 8 is the chain lock in embodiment 2 of the present utility model and sprocket wheel fit structure partly cuts open structural representation.

Fig. 9 is the chain lock in embodiment 2 of the present utility model and reverse sprocket wheel fit structure schematic diagram.

Figure 10 is the support in embodiment 2 of the present utility model and planting groove mounting structure schematic diagram.

Figure 11 is the side-looking structural representation of embodiment 3 of the present utility model.

nullIn figure: 1、I type support，2、Planting groove，3、Support shaft，4、Drain pipe，5、Aerofoil profile chain，6、Gear，7、Fin，8、Installing hole，9、Circular connector，10、Roller，11、Clutch shaft bearing，12、Second bearing，13、3rd bearing，14、Water filtration separator，15、Steady wheel，16、4th bearing，17、Inverted L shape support，18、Chain lock，19、Sprocket wheel，20、Steel wire rope，21、Reversely sprocket wheel，22、Arc-shaped slot，23、Sprocket groove，24、Inverted U support，25、Up vertical conveying track groove，26、Descending vertical conveying track groove，27、Upper strata axial transport rail groove，28、Lower floor's axial transport rail groove，29、Upper strata multi-functional Auxiliary Track groove，30、Lower floor's multi-functional Auxiliary Track groove，31、The descending vertical conveying track groove of epimere，32、The descending vertical conveying track groove of hypomere，33、Upper strata forward conveying track groove,34、Upper strata reverse conveying track groove，35、Upper strata forward multi-functional Auxiliary Track groove，36、The reverse multi-functional Auxiliary Track groove in upper strata，37、First up vertical conveying track groove，38、Second up vertical conveying track groove，39、First descending vertical conveying track groove，40、Second descending vertical conveying track groove，41、First lower floor's axial transport rail groove，42、Second lower floor's axial transport rail groove，43、First lower floor's axial transport rail groove，44、Second lower floor's axial transport rail groove.

Detailed description of the invention

Embodiment 1

nullNative system is by circulating transport support and growing body is constituted，Such as Fig. 1、Shown in Fig. 2，Circulation transport support is made for using C-shaped channel steel，The first support and second by structure specular are configured to，The structure of the first support is as shown in Figure 2，It is I type support 1，This I type support 1 is by up vertical conveying track groove 25、Descending vertical conveying track groove 26、Upper strata axial transport rail groove 27、Lower floor's axial transport rail groove 28 and multi-functional Auxiliary Track groove (i.e. the multi-functional Auxiliary Track in upper strata groove 29 and lower floor multi-functional Auxiliary Track groove 30) are constituted，Wherein，Upper end with the upper end of up vertical conveying track groove 25 and descending vertical conveying track groove 26 respectively, the two ends, left and right of upper strata axial transport rail groove 27 is connected,Lower end with the lower end of up vertical conveying track groove 25 and descending vertical conveying track groove 26 respectively, the two ends, left and right of lower floor's multi-functional Auxiliary Track groove 30 is connected,Upper strata multi-functional Auxiliary Track groove 29 is set in parallel in below upper strata axial transport rail groove 27 and two ends are connected on up vertical conveying track groove 25 and descending vertical conveying track groove 26 around，Lower floor's axial transport rail groove 28 is set in parallel in above lower floor's multi-functional Auxiliary Track groove 30 and two ends are connected on up vertical conveying track groove 25 and descending vertical conveying track groove 26 around.Transport assembly is arranged in the O type circulation transport rail groove formed by up vertical conveying track groove 25, descending vertical conveying track groove 26, upper strata axial transport rail groove 27 and lower floor's axial transport rail groove 28.

Transport assembly is made up of conveyer chain and drive, and wherein, drive is installed on the corner of O type circulation transport rail groove, and conveyer chain is positioned at the notch of O type circulation transport rail groove and is installed on drive.As it is shown on figure 3, in the present embodiment, conveyer chain used is aerofoil profile chain 5, drive used is the gear 6 matched with aerofoil profile chain 5, and wherein, aerofoil profile chain 5 is the fin 7 being provided with bending angle 90 ° in the outer plate side of chain, offers installing hole 8 on fin 7.

Growing body sets up between the O type circulation transport rail groove being installed on the first support and the second support.Growing body is mainly made up of support shaft 3 and the planting groove 2 being arranged in support shaft 3, the most as shown in Figure 4, the two ends of planting groove 2 are realized connecting support by support shaft 3 by the 3rd bearing 13, the two ends spindle nose of support shaft 3 is respectively protruding in the notch of O type circulation transport rail groove of the first support and the second support, such as Fig. 4, the spindle nose of support shaft 3 extend in the notch of upper strata axial transport rail groove 27, it is connected on aerofoil profile chain 5 by circular connector 9 and clutch shaft bearing 11, circular connector 9 is connected by screw fixing with the installing hole 7 on aerofoil profile chain 5, clutch shaft bearing 11 is arranged between the spindle nose of circular connector 9 and support shaft 3；Roller 10 runs along the track of O type circulation transport rail groove, is connected support by the second bearing 12 between roller 10 with support shaft 3.

Additionally such as Fig. 4, two ends, bottom at planting groove 2, it is respectively arranged with multi-functional auxiliary rod, it is the drain pipe 4 with hollow cavity, the head of this multi-functional auxiliary rod stretches in the notch of upper strata multi-functional Auxiliary Track groove 29, steady wheel 15 is arranged on upper strata multi-functional Auxiliary Track groove 29, it is along up vertical conveying track groove 25, upper strata multi-functional Auxiliary Track groove 29, multi-functional Auxiliary Track groove 30 circular flow of descending vertical conveying track groove 26 and lower floor, realizes being connected support by the 4th bearing 16 between steady wheel 15 with drain pipe 4.Inside planting groove 2, being additionally provided with water filtration separator 14, in the culture matrix of water filtration separator more than 14, excessive moisture oozes for 14 times through water filtration separator, then flows out through drain pipe 4.

Furthermore it is possible to install drive mechanism additional by existing conventional connected mode, the power output precision of drive mechanism drives aerofoil profile chain 5 to rotate along O type circulation transport rail groove.

Embodiment 2

nullNative system is by circulating transport support and growing body is constituted，Circulation transport support is made for using C-shaped channel steel，The first support and second by structure specular are configured to，The structure of the first support is as shown in Figure 5，It is inverted L shape support 17，This inverted L shape support 17 is by up vertical conveying track groove 25、The descending vertical conveying track groove 31 of separate epimere and the descending vertical conveying track groove 32 of hypomere、Separate upper strata forward conveying track groove 33 and upper strata reverse conveying track groove 34、Lower floor's axial transport rail groove 28 and multi-functional Auxiliary Track groove (include upper strata forward multi-functional Auxiliary Track groove 35、The reverse multi-functional Auxiliary Track groove 36 in upper strata and lower floor's multi-functional Auxiliary Track groove 30) constitute，Wherein，Upper strata forward conveying track groove 33、Upper strata forward multi-functional Auxiliary Track groove 35、Lower floor's axial transport rail groove 28、The left end of lower floor's multi-functional Auxiliary Track groove 30 is connected to the top of up vertical conveying track groove 25、Epimere、Stage casing and hypomere，Upper strata forward conveying track groove 33、Upper strata forward multi-functional Auxiliary Track groove 35、Upper strata reverse conveying track groove 34、The right-hand member of the reverse multi-functional Auxiliary Track groove 36 in upper strata is connected to the top of the descending vertical conveying track groove 31 of epimere、Epimere、Stage casing and bottom，Upper strata reverse conveying track groove 34、The left end of the reverse multi-functional Auxiliary Track groove 36 in upper strata is connected to top and the epimere of the descending vertical conveying track groove 32 of hypomere，Lower floor's axial transport rail groove 28、The right-hand member of lower floor's multi-functional Auxiliary Track groove 30 is connected to stage casing and the hypomere of the descending vertical conveying track groove 32 of hypomere，And upper strata forward conveying track groove 33 and upper strata forward multi-functional Auxiliary Track groove 35、Upper strata reverse conveying track groove 34 and the reverse multi-functional Auxiliary Track groove 36 in upper strata、It is arranged in parallel mutually between lower floor's axial transport rail groove 28 and lower floor multi-functional Auxiliary Track groove 30.Transport assembly is arranged in the inverted L shape circulation transport rail groove formed by up vertical conveying track groove 25, upper strata forward conveying track groove 33, the descending vertical conveying track groove 31 of epimere, upper strata reverse conveying track groove 34, the descending vertical conveying track groove 32 of hypomere, lower floor's axial transport rail groove 28.

Transport assembly is made up of conveyer chain and drive, and wherein drive is installed on the corner of inverted L shape circulation transport rail groove, and conveyer chain is positioned at the notch of inverted L shape circulation transport rail groove and is installed on drive.As shown in Fig. 7,8,9, in the present embodiment, drive has two kinds, it is respectively sprocket wheel 19 and reverse sprocket wheel 21, wherein, sprocket wheel 19 is arranged at the inner corner trim corner of inverted L shape circulation transport rail groove, and reverse sprocket wheel 21 is arranged at the external corner corner of inverted L shape circulation transport rail groove, and conveyer chain is the chain rope (i.e. steel wire rope 20) that cross-under has chain lock 18.Chain lock 18 has parallel upper and lower surface and the lateral circle surface of sub-elliptical annular, arc-shaped slot 22 is offered at upper surface, the bayonet socket and perforation connected respectively is offered with arc-shaped slot two ends at lateral circle surface, and the vertical dimension at bayonet socket and perforation place straight line and chain lock 18 center is slightly larger than the radius of the bearing mounting hole being arranged on chain lock 18 center, additionally, chain lock 18 with on the lateral circle surface (i.e. relative with arc-shaped slot) that sprocket wheel 19 contacts, it is additionally provided with two sprocket grooves 23, it is kicker baffle between two sprocket grooves 23, kicker baffle and the cross-under steel wire rope 20 on sprocket wheel is coplanar；Sprocket wheel 19 has I-shaped semi-section, engages with sprocket groove 23；Reversely sprocket wheel 21(is shown in Fig. 9) also there is I-shaped semi-section, engage close to arc-shaped slot 22 lateral circle surface with chain lock 18.

Growing body sets up between the inverted L shape circulation transport rail groove being installed on the first support and the second support.Growing body is mainly made up of support shaft 3 and the planting groove 2 being arranged in support shaft 3, the most as shown in Figure 10, the two ends of planting groove 2 are realized connecting support by support shaft 3 by the 3rd bearing 13, the two ends spindle nose of support shaft 3 is respectively protruding in the notch of inverted L shape circulation transport rail groove of the first support and the second support, such as Figure 10, the spindle nose of support shaft 3 extend in the notch of upper strata forward conveying track groove 33, it is installed in the bearing mounting hole of chain lock 18 of conveyer chain by clutch shaft bearing 11, roller 10 runs along the track of inverted L shape circulation transport rail groove, it is connected support by the second bearing 12 between roller 10 with support shaft 3.Additionally, two ends, bottom at planting groove 2, it is respectively arranged with multi-functional auxiliary rod, it is the drain pipe 4 with hollow cavity, the head of this multi-functional auxiliary rod stretches in the notch of upper strata forward multi-functional Auxiliary Track groove 35, steady wheel 15 is arranged on upper strata forward multi-functional Auxiliary Track groove 35, it is along upper strata forward multi-functional Auxiliary Track groove 35, the descending vertical conveying track groove 31 of epimere, the reverse multi-functional Auxiliary Track groove 36 in upper strata, the descending vertical conveying track groove 32 of hypomere, lower floor's multi-functional Auxiliary Track groove 30, the circular flow of up vertical conveying track groove 25, realize being connected support by the 4th bearing 16 between steady wheel 15 with drain pipe 4.

Furthermore it is possible to install irrigation mechanism additional by existing usual manner.

It addition, the structure of inverted L shape support can also be designed to structure as shown in Figure 6, i.e. remove the reverse multi-functional Auxiliary Track groove 36 in upper strata in inverted L shape support shown in Fig. 5.

Embodiment 3

nullNative system is by circulating transport support and growing body is constituted，Circulation transport support is made for using C-shaped channel steel，The first support and second by structure specular are configured to，The structure of the first support is as shown in figure 11，It is inverted U support 24，Should be to U-shaped support 24 by the first up vertical conveying track groove 37、Second up vertical conveying track groove 38、First descending vertical conveying track groove 39、Second descending vertical conveying track groove 40、Upper strata forward conveying track groove 33、Upper strata reverse conveying track groove 34、Upper strata forward multi-functional Auxiliary Track groove 35、The reverse multi-functional Auxiliary Track groove 36 in upper strata、First lower floor's axial transport rail groove 41、Second lower floor's axial transport rail groove 42、First lower floor's axial transport rail groove 43、Second lower floor's axial transport rail groove 44 is constituted，Wherein，Upper strata forward conveying track groove 33、Upper strata forward multi-functional Auxiliary Track groove 35、First lower floor's axial transport rail groove 41、The left end of first lower floor's axial transport rail groove 43 connects the top of the first up vertical conveying track groove 37、Epimere、Stage casing and hypomere，Upper strata forward conveying track groove 33、Upper strata forward multi-functional Auxiliary Track groove 35、Second lower floor's axial transport rail groove 42、The right-hand member of second lower floor's axial transport rail groove 44 connects the top of the first descending vertical conveying track groove 39、Epimere、Stage casing and hypomere，Upper strata reverse conveying track groove 34、The left end of the reverse multi-functional Auxiliary Track groove 36 in upper strata and right-hand member connect the second descending vertical conveying track groove 40 and the top of the second up vertical conveying track groove 38 and epimere respectively，First lower floor's axial transport rail groove 41、The right-hand member of first lower floor's axial transport rail groove 43 connects stage casing and the hypomere of the second descending vertical conveying track groove 40，Second lower floor's axial transport rail groove 42、The left end of second lower floor's axial transport rail groove 44 connects stage casing and the hypomere of the second up vertical conveying track groove 38，And between upper strata forward conveying track groove 33 and upper strata forward multi-functional Auxiliary Track groove 35、Between the reverse multi-functional Auxiliary Track groove 36 of upper strata reverse conveying track groove 34 and upper strata、Between first lower floor's axial transport rail groove 41 and first lower floor's axial transport rail groove 43、It is arranged in parallel mutually between second lower floor's axial transport rail groove 42 and second lower floor's axial transport rail groove 44.Transport assembly is arranged in the inverted U circulation transport rail groove formed by the first up vertical conveying track groove 37, upper strata forward conveying track groove 33, first descending vertical conveying track groove the 39, second lower floor axial transport rail groove the 42, second up vertical conveying track groove 38, upper strata reverse conveying track groove 34, second descending vertical conveying track groove the 40, first lower floor axial transport rail groove 41.

Transport assembly is made up of conveyer chain and drive, and wherein drive is installed on the corner of inverted U circulation transport rail groove, and conveyer chain is positioned at the notch of inverted L shape circulation transport rail groove and is installed on drive.As shown in Fig. 7,8,9, in the present embodiment, drive has two kinds, it is respectively sprocket wheel 19 and reverse sprocket wheel 21, wherein, sprocket wheel 19 is arranged at the inner corner trim corner of inverted L shape circulation transport rail groove, and reverse sprocket wheel 21 is arranged at the external corner corner of inverted U circulation transport rail groove, and conveyer chain is the chain rope (i.e. steel wire rope 20) that cross-under has chain lock 18.Chain lock 18 has parallel upper and lower surface and the lateral circle surface of sub-elliptical annular, arc-shaped slot 22 is offered at upper surface, the bayonet socket and perforation connected respectively is offered with arc-shaped slot two ends at lateral circle surface, and the vertical dimension at bayonet socket and perforation place straight line and chain lock 18 center is slightly larger than the radius of the bearing mounting hole being arranged on chain lock 18 center, additionally, chain lock 18 with on the lateral circle surface (i.e. relative with arc-shaped slot) that sprocket wheel 19 contacts, it is additionally provided with two sprocket grooves 23, it is kicker baffle between two sprocket grooves 23, and kicker baffle is coplanar with cross-under steel wire rope 20 on sprocket wheel；Sprocket wheel 19 has I-shaped semi-section, engages with sprocket groove 23；Reversely sprocket wheel 21(is shown in Fig. 9) also there is I-shaped semi-section, engage close to arc-shaped slot 22 lateral circle surface with chain lock 18.

Growing body sets up between the inverted U circulation transport rail groove being installed on the first support and the second support.Growing body is mainly made up of support shaft 3 and the planting groove 2 being arranged in support shaft 3, the most as shown in Figure 10, the two ends of planting groove 2 are realized connecting support by support shaft 3 by the 3rd bearing 13, the two ends spindle nose of support shaft 3 is respectively protruding in the notch of inverted U circulation transport rail groove of the first support and the second support, the spindle nose of support shaft 3 extend in the notch of upper strata forward conveying track groove 33, it is installed in the bearing mounting hole of chain lock 18 of conveyer chain by clutch shaft bearing 11, roller 10 runs along the track of inverted U circulation transport rail groove, it is connected support by the second bearing 12 between roller 10 with support shaft 3.Additionally, two ends, bottom at planting groove 2, it is respectively arranged with multi-functional auxiliary rod, it is the drain pipe 4 with hollow cavity, the head of this multi-functional auxiliary rod stretches in the notch of upper strata forward multi-functional Auxiliary Track groove 35, steady wheel 15 is arranged on upper strata forward multi-functional Auxiliary Track groove 35, it is along upper strata forward multi-functional Auxiliary Track groove 35, first descending vertical conveying track groove 39, second lower floor's axial transport rail groove 44, second up vertical conveying track groove 38, the reverse multi-functional Auxiliary Track groove 36 in upper strata, second descending vertical conveying track groove 40, first lower floor's axial transport rail groove 43, first up vertical conveying track groove 37 runs, realize being connected support by the 4th bearing 16 between steady wheel 15 with drain pipe 4.

Further, support shaft 3 can use steel pipe to replace, and offers some weepers on steel pipe, then connects water source, makes support shaft 3 while playing a supporting role, also functions to the effect irrigated.

Claims (10)

1. it is suitable for a circulating type three-dimensional implant system for urban architecture environment, it is characterized in that, include the circulation transport support being installed on building walls and some growing bodies being installed on circulation transport support；

The first support that described circulation transport support is arranged by specular and second are configured to, and described growing body sets up and is installed between described first support and described second support；

Described first support is made up of rack body and the transport assembly being arranged on rack body；

Described rack body includes up vertical conveying track groove, upper strata axial transport rail groove, descending vertical conveying track groove, lower floor's axial transport rail groove and multi-functional Auxiliary Track groove, and described multi-functional Auxiliary Track groove includes upper strata multi-functional Auxiliary Track groove and lower floor multi-functional Auxiliary Track groove；Wherein, the rail groove of described up vertical conveying track groove, described upper strata axial transport rail groove, described descending vertical conveying track groove and described lower floor axial transport rail groove constitutes circulation transport rail groove；Described upper strata multi-functional Auxiliary Track groove is set in parallel in below the axial transport rail groove of described upper strata, described lower floor multi-functional Auxiliary Track groove is set in parallel in below described lower floor axial transport rail groove, and the rail groove of described upper strata multi-functional Auxiliary Track groove and described lower floor multi-functional Auxiliary Track groove rail groove with the rail groove of described up vertical conveying track groove and described descending vertical conveying track groove respectively is connected；

Described transport assembly includes the drive that conveyer chain and some operations with conveyer chain match, and described drive is arranged at the corner of described circulation transport rail groove, and described conveyer chain is arranged in the notch of described circulation transport rail groove；

Described growing body includes support shaft and the planting groove being arranged in support shaft, realize being connected support by the second bearing between described support shaft with the roller run on the track of described circulation transport rail groove, realize being connected supports by clutch shaft bearing in the spindle nose of described support shaft stretches into the notch of described circulation transport rail groove and with between described conveyer chain, pass through the 3rd bearing realization between described support shaft with described planting groove and be connected support；The bottom of described planting groove is provided with multi-functional auxiliary rod, and the head of described multi-functional auxiliary rod extend in the notch of described multi-functional auxiliary tank.

The circulating type three-dimensional implant system being suitable for urban architecture environment the most according to claim 1, it is characterized in that, also including drive mechanism, described drive mechanism includes power output precision, and described power output precision drives described conveyer chain along described circulation transport rail groove cycle rotation.

The circulating type three-dimensional implant system being suitable for urban architecture environment the most according to claim 1, it is characterized in that, described conveyer chain is aerofoil profile chain, described aerofoil profile chain is to be provided with fin in the outer plate side of at least side of chain, described fin becomes certain bending angle with described outer plate, offers installing hole on described fin；Described drive is the gear matched with described aerofoil profile chain dimension.

The circulating type three-dimensional implant system being suitable for urban architecture environment the most according to claim 1, is characterized in that, described conveyer chain is the chain rope that cross-under has chain lock, and described chain lock has the lateral circle surface of parallel upper and lower surface and annular；Upper surface at described chain lock offers arc-shaped slot, lateral circle surface at described chain lock offers the perforation of chain rope or chain wire clips mouth being respectively communicated with respectively with arc-shaped slot two ends, and the distance at the perforation of described chain rope or described chain wire clips mouth place straight line and described chain lock center is slightly larger than the radius of the bearing mounting hole being arranged at described chain lock center；Described drive is the sprocket wheel that the side contacted with described chain lock is engaged.

The circulating type three-dimensional implant system being suitable for urban architecture environment the most according to claim 1, it is characterized in that, the rail groove of described up vertical conveying track groove, described upper strata axial transport rail groove, described descending vertical conveying track groove and described lower floor axial transport rail groove forms O type circulation transport rail groove.

The circulating type three-dimensional implant system being suitable for urban architecture environment the most according to claim 1, it is characterized in that, described upper strata axial transport rail groove is divided into upper strata forward conveying track groove and upper strata reverse conveying track groove, described descending vertical conveying track groove to be divided into the descending vertical conveying track groove of epimere and and the descending vertical conveying track groove of hypomere；Wherein, described up vertical conveying track groove, described upper strata forward conveying track groove, the descending vertical conveying track groove of described epimere, described upper strata reverse conveying track groove, the descending vertical conveying track groove of described hypomere and described lower floor axial transport rail groove inverted L shape circulation transport rail groove is formed.

The circulating type three-dimensional implant system being suitable for urban architecture environment the most according to claim 1, it is characterized in that, described up vertical conveying track groove is divided into the first up vertical conveying track groove and the second up vertical conveying track groove, described descending vertical conveying track groove is divided into the first descending vertical conveying track groove and the second descending vertical conveying track groove, described upper strata axial transport rail groove is divided into upper strata forward conveying track groove and upper strata reverse conveying track groove, described lower floor axial transport rail groove is divided into first lower floor's axial transport rail groove and second lower floor's axial transport rail groove；Wherein, described first up vertical conveying track groove, described upper strata forward conveying track groove, described first descending vertical conveying track groove, described first lower floor's axial transport rail groove, described second up vertical conveying track groove, described upper strata reverse conveying track groove, described second descending vertical conveying track groove and described second lower floor's axial transport rail groove inverted U circulation transport rail groove is formed.

The circulating type three-dimensional implant system being suitable for urban architecture environment the most according to claim 1, is characterized in that, described multi-functional auxiliary rod is the drain pipe with hollow cavity.

9. according to the circulating type three-dimensional implant system being suitable for urban architecture environment described in claim 1 or 8, it is characterized in that, described multi-functional auxiliary rod is provided with steady wheel by the 4th bearing, and described steady wheel can run along the track of the rail groove of the rail groove of described upper strata multi-functional Auxiliary Track groove, the rail groove of described lower floor multi-functional Auxiliary Track groove, the rail groove of described up vertical conveying track groove and described descending vertical conveying track groove.

The circulating type three-dimensional implant system being suitable for urban architecture environment the most according to claim 1, is characterized in that, also include irrigation mechanism.