CN109566153B

CN109566153B - Environment-friendly greening frame

Info

Publication number: CN109566153B
Application number: CN201811465590.XA
Authority: CN
Inventors: 吕雷松
Original assignee: Xinchang Shuidianxia Municipal Garden Co ltd
Current assignee: Zhongdi Environmental Engineering Co.,Ltd.
Priority date: 2018-12-03
Filing date: 2018-12-03
Publication date: 2021-04-13
Anticipated expiration: 2038-12-03
Also published as: CN109566153A

Abstract

The invention relates to a greening frame, in particular to an environment-friendly greening frame, which comprises a supporting frame, a supporting plate mechanism I, a supporting plate mechanism II, a power mechanism and an irrigation mechanism, the greening plants can be placed on the supporting plate I and the supporting plate II for cultivation, the heights of the supporting plate I and the supporting plate II are adjusted by rotating the threaded rod I and the threaded rod II, so that the supporting plate I and the supporting plate II can be suitable for different heights under different use requirements, the height of the supporting plate I and the height of the supporting plate II can be adjusted together and respectively through the linkage mechanism to increase the use efficiency, the amount of water which falls into the collecting box through the supporting plate I and the supporting plate II is controlled by a feedback plate in the collecting box, when the water yield in the collecting box is more, make power on the power unit can't convey irrigation mechanism and not irrigate through feedback plate extrusion compression spring I, prevent when the energy saving that the plant waters too much on layer board I and the layer board II.

Description

Environment-friendly greening frame

Technical Field

The invention relates to a greening frame, in particular to an environment-friendly greening frame.

Background

For example, publication No. CN205648484U a three-dimensional greening frame assembly relates to afforestation, is used for solving the problem that space greening utilization ratio is low. The greening frame comprises a greening frame base, a supporting rod, a water collecting tank and a greening frame object placing structure, wherein the supporting rod is positioned on a central shaft of the greening frame base; the utility model has the disadvantages that the height of the greening frame can not be adjusted according to the use demand, and the automatic irrigation can not be realized.

Disclosure of Invention

The invention aims to provide an environment-friendly greening frame, which can adjust the height of the greening frame according to different use requirements and can realize automatic irrigation.

The purpose of the invention is realized by the following technical scheme:

an environment-friendly greening frame comprises a supporting frame, a supporting plate mechanism I, a supporting plate mechanism II, a power mechanism and an irrigation mechanism, the support frame comprises a collecting box, a supporting foot I, a supporting foot II, a supporting foot III, a W clamping block, a sliding barrel, a connecting plate, a feedback plate and a feedback sliding column, wherein the left side and the right side of the collecting box are fixedly connected with the supporting foot I, the front side and the rear side of the collecting box are respectively fixedly connected with the supporting foot II and the supporting foot III, the W clamping block is fixedly connected onto the supporting foot III, the sliding barrel is fixedly connected onto the supporting foot III and the supporting foot II, the two connecting plates are fixedly connected onto the upper end of the supporting foot III, the feedback plate is slidably connected into the collecting box, the feedback sliding column is fixedly connected onto the lower end of the feedback plate and is slidably connected onto the collecting box, a compression spring I;

the support plate mechanism I comprises a support plate I, sliding columns, a threaded rod I, a threaded rod II and a lifting handle, wherein a plurality of filter holes I are formed in the support plate I;

the support plate mechanism II comprises a support plate II and a water flow baffle II, a plurality of filter holes II are formed in the support plate II, the lower end of the support plate II is fixedly connected with the water flow baffle II, one end of the support plate II is in clearance fit with the threaded rod I, and the other end of the support plate II is connected to the threaded rod II through threads;

the power mechanism comprises a motor, a power shaft, a friction wheel I, a friction wheel II, a shifting fork, a power sliding column, a triangular clamping block, a power belt wheel, a pushing connecting rod and a connecting key II, the motor is fixedly connected to a supporting leg II, one end of the power shaft is rotatably connected to an output shaft of the motor, the other end of the power shaft is rotatably connected to a connecting plate, the friction wheel I is fixedly connected to the output shaft of the motor, the connecting key II is fixedly connected to the power shaft, the friction wheel II is slidably connected to the connecting key II, the friction wheel II and the friction wheel I are in friction transmission, the shifting fork is rotatably connected to the friction wheel II, the power sliding column is fixedly connected to the shifting fork, the power sliding column is slidably connected to the connecting plate, the triangular clamping block is slidably connected to the power sliding column, the triangular clamping block is clamped to a W clamping block, a compression spring II is sleeved on, the power shaft is fixedly connected with a power belt wheel, the upper end of the pushing connecting rod is hinged to the lower end of the feedback sliding column, and the lower end of the pushing connecting rod is hinged to the shifting fork;

the irrigation mechanism comprises an irrigation cylinder, a water inlet cylinder, a pushing shaft, a pushing inclined plate, a pushing belt wheel, an irrigation sliding column, a spring baffle plate, an irrigation sliding plate I, an irrigation sliding plate II, a conical block I, a one-way sliding column I, an irrigation fixing plate II, a conical block II and a one-way sliding column II, wherein the irrigation cylinder is fixedly connected between the two connecting plates, the upper end of the irrigation cylinder is fixedly communicated with the water inlet cylinder, one end of the pushing shaft is rotatably connected to the irrigation cylinder, the other end of the pushing shaft is fixedly connected with the pushing belt wheel, the pushing belt wheel is connected with the power belt wheel through belt transmission, the pushing inclined plate is fixedly connected to the power belt wheel, the irrigation sliding column is slidably connected to the irrigation cylinder, the irrigation sliding column is fixedly connected with the spring baffle plate, the irrigation sliding column is sleeved with a compression spring III, the compression spring III is positioned between the irrigation cylinder and the spring, the other end of the irrigation sliding column is fixedly connected with an irrigation sliding plate II, the irrigation sliding column is fixedly connected with an irrigation sliding plate I, the irrigation sliding plate II and the irrigation sliding plate I are both connected in an irrigation cylinder in a sliding mode, a tapered hole I is formed in the irrigation sliding plate I, a water passing hole I is formed in the irrigation sliding plate II, a one-way sliding column I is connected on the irrigation sliding plate II in a sliding mode, a tapered block I is fixedly connected on the one-way sliding column I and abuts against the tapered hole I formed in the irrigation sliding plate I, a compression spring IV is sleeved on the one-way sliding column I and is located between the irrigation sliding plate II and the tapered block I, an irrigation fixing plate I and an irrigation fixing plate II are fixedly connected in the water inlet cylinder, a tapered hole II is formed in the irrigation fixing plate I, a water passing hole II is formed in the irrigation fixing plate II, fixed connection is at toper piece II on the one-way slip post II, and II tops of toper piece are in irrigating II tapered holes that set up on fixed plate I, and fixedly connected with compression spring V is gone up on the one-way slip post II, and compression spring V is located and irrigates between fixed plate II and the toper piece II.

As a further optimization of the technical scheme, the support frame further comprises a vertical waist hole, and the vertical waist hole is formed in the support leg II.

As further optimization of the technical scheme, the environment-friendly greening frame comprises a supporting plate mechanism I; still include lift band pulley, connection key I and rivers baffle I, the equal fixedly connected with connection key I of lower extreme of threaded rod I and threaded rod II, the lower extreme of threaded rod I and threaded rod II all rotates and is connected with the lift band pulley, and two lift band pulleys are mutually communicated and are taken the transmission to be connected, the lower extreme fixedly connected with rivers baffle I of layer board I.

As a further optimization of the technical scheme, the environment-friendly greening frame further comprises an irrigation bushing plate, wherein the irrigation bushing plate is provided with a plurality of water outlet holes, and the irrigation bushing plate is fixedly connected to an irrigation cylinder.

As further optimization of the technical scheme, the environment-friendly greening frame is characterized in that the conical block I and the conical block II are identical in structure, the diameter of the rear end of the conical block I is smaller than that of the front end of the conical block I, and the diameter of the upper end of the conical block II is smaller than that of the lower end of the conical block II.

As a further optimization of the technical scheme, the environment-friendly greening frame further comprises a linkage mechanism, the linkage mechanism comprises a linkage plate I, a linkage plate II, linkage friction wheels, a linkage screw rod and a linkage connecting plate, one end of the linkage plate I is fixedly connected with the linkage plate II, the other end of the linkage plate I is connected with the linkage screw rod through threads, the linkage plate I penetrates through a vertical waist hole, the lower end of the linkage screw rod is rotatably connected with the linkage connecting plate, the linkage connecting plate is fixedly connected to a supporting foot II, two ends of the linkage plate II are rotatably connected with the linkage friction wheels, and the two linkage friction wheels are respectively connected to two connecting keys I in a sliding mode.

As a further optimization of the technical scheme, the area of the supporting plate I is larger than that of the supporting plate II.

The environment-friendly greening frame has the beneficial effects that:

according to the environment-friendly greening frame, greening plants can be placed on the supporting plate I and the supporting plate II to be cultivated, the heights of the supporting plate I and the supporting plate II are adjusted by rotating the threaded rod I and the threaded rod II, so that the supporting plate I and the supporting plate II can be suitable for different heights under different use requirements, the heights of the supporting plate I and the supporting plate II can be adjusted together and respectively adjusted to increase the use efficiency through the linkage mechanism, the amount of water falling into the collecting box through the supporting plate I and the supporting plate II is controlled through the feedback plate in the collecting box, when the water in the collecting box is large, the compression spring I is extruded through the feedback plate to enable power on the power mechanism to be incapable of being transmitted to the irrigation mechanism for not irrigating, energy is saved, and excessive watering of the plants on the supporting plate I and the.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic view of the overall structure of the environmental greening frame of the present invention;

FIG. 2 is a schematic structural view of a sectional view of the environmental greening frame of the present invention;

FIG. 3 is a schematic view of the support frame structure of the present invention;

FIG. 4 is a schematic cross-sectional view of the support of the present invention;

FIG. 5 is a schematic structural view of a pallet mechanism I of the present invention;

FIG. 6 is a schematic cross-sectional view of a pallet mechanism I of the present invention;

FIG. 7 is a schematic structural diagram of a pallet mechanism II of the present invention;

FIG. 8 is a schematic cross-sectional view of the pallet mechanism II of the present invention;

FIG. 9 is a schematic view of the power mechanism of the present invention;

FIG. 10 is a schematic cross-sectional view of a power mechanism according to the present invention;

FIG. 11 is a first schematic view of the irrigation mechanism of the present invention;

FIG. 12 is a schematic cross-sectional view of the irrigation mechanism of the present invention;

FIG. 13 is a second schematic structural view of the irrigation mechanism of the present invention;

fig. 14 is a schematic view of the linkage structure of the present invention.

In the figure: a support frame 1; a collection box 1-1; supporting legs I1-2; supporting legs II 1-3; 1-4 of vertical waist holes; 1-5 of supporting legs III; 1-6 of a W clamping block; 1-7 of a sliding cylinder; connecting plates 1-8; feedback plates 1-9; feedback sliding columns 1-10; the supporting plate mechanism I2; a supporting plate I2-1; 2-2 of a sliding column; 2-3 parts of a threaded rod; 2-4 parts of a threaded rod; 2-5 of a lifting handle; 2-6 of a lifting belt wheel; a connecting bond I2-7; 2-8 parts of a water flow baffle plate; a supporting plate mechanism II 3; a supporting plate II 3-1; a water flow baffle II 3-2; a power mechanism 4; a motor 4-1; a power shaft 4-2; 4-3 of a friction wheel; 4-4 of a friction wheel; 4-5 of a shifting fork; 4-6 of a power sliding column; 4-7 of a triangular clamping block; 4-8 of a power belt wheel; pushing a connecting rod 4-9; a connecting bond II 4-10; an irrigation mechanism 5; 5-1 of an irrigation cylinder; 5-2 of a water inlet cylinder; pushing the shaft 5-3; pushing the inclined plate 5-4; 5-5 of a push belt wheel; 5-6 parts of an irrigation sliding column; 5-7 parts of a spring baffle plate; 5-8 parts of an irrigation sliding plate I; an irrigation sliding plate II 5-9; 5-10 parts of a conical block I; 5-11 parts of a one-way sliding column I; 5-12 parts of an irrigation fixing plate I; 5-13 parts of an irrigation fixing plate; 5-14 parts of a conical block II; 5-15 parts of a one-way sliding column II; 5-16 parts of irrigation drain boards; a link mechanism 6; the linkage plate I6-1; a linkage plate II 6-2; 6-3 of a linkage friction wheel; 6-4 of a linkage screw rod; linkage connecting plates 6-5.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Before describing the embodiments, to avoid repetitive language, it is explained that the "fixed connection" described below may be: the fixing device is fixed through modes such as bolt connection, welding and rivet connection, and technicians in the field can select different fixing and connecting modes according to different application scenes, and the fixing device is mainly used for fixing two parts.

The first embodiment is as follows:

the embodiment is described below with reference to fig. 1-14, and an environment-friendly greening frame comprises a support frame 1, a supporting plate mechanism I2, a supporting plate mechanism II 3, a power mechanism 4 and an irrigation mechanism 5, wherein greening plants can be placed on a supporting plate I2-1 and a supporting plate II 3-1 for cultivation, the heights of the supporting plate I and the supporting plate II are adjusted by rotating a threaded rod I2-3 and a threaded rod II 2-4, so that the supporting plate I and the supporting plate II can be suitable for different heights under different use requirements, the heights of the supporting plate I2-1 and the supporting plate II 3-1 can be adjusted together and respectively adjusted by a linkage mechanism 6 to increase the use efficiency, the amount of water falling into a collecting box 1-1 through the supporting plate I2-1 and the supporting plate II 3-1 is controlled by a feedback plate in the collecting box 1-1, when the water in the collecting box 1-1 is large, the compression spring I is extruded through the feedback plates 1-9, so that the power on the power mechanism 4 cannot be transmitted to the irrigation mechanism 5 to be irrigated, energy is saved, and excessive watering of plants on the supporting plate I2-1 and the supporting plate II 3-1 is prevented.

The support frame 1 comprises a collection box 1-1, support legs I1-2, support legs II 1-3, support legs III 1-5, W clamping blocks 1-6, a sliding cylinder 1-7, connecting plates 1-8, feedback plates 1-9 and feedback sliding columns 1-10, wherein the left side and the right side of the collection box 1-1 are fixedly connected with the support legs I1-2, the front side and the rear side of the collection box 1-1 are respectively and fixedly connected with the support legs II 1-3 and the support legs III 1-5, the support legs III 1-5 are fixedly connected with the W clamping blocks 1-6, the support legs III 1-5 and the support legs II 1-3 are respectively and fixedly connected with the sliding cylinder 1-7, the upper ends of the support legs III 1-5 are fixedly connected with the two connecting plates 1-8, the feedback plates 1-9 are slidably connected in the collection, the lower end of the feedback plate 1-9 is fixedly connected with a feedback sliding column 1-10, the feedback sliding column 1-10 is connected to the collection box 1-1 in a sliding mode, a compression spring I is sleeved on the feedback sliding column 1-10 and located between the collection box 1-1 and the feedback plate 1-9;

the support plate mechanism I2 comprises a support plate I2-1, sliding columns 2-2, a threaded rod I2-3, a threaded rod II 2-4 and a lifting handle 2-5, a plurality of filter holes I are formed in the support plate I2-1, the sliding columns 2-2 are fixedly connected to the front end and the rear end of the support plate I2-1, the two sliding columns 2-2 are respectively connected into two sliding cylinders 1-7 in a sliding mode, the threaded rod I2-3 is connected to the left end of the support plate I2-1 through threads, the threaded rod II 2-4 is in clearance fit with the right end of the support plate I2-1, and the lifting handle 2-5 is fixedly connected to each of the threaded rod I2-3 and the threaded rod II 2-4;

the supporting plate mechanism II 3 comprises a supporting plate II 3-1 and a water flow baffle II 3-2, a plurality of filtering holes II are formed in the supporting plate II 3-1, the lower end of the supporting plate II 3-1 is fixedly connected with the water flow baffle II 3-2, one end of the supporting plate II 3-1 is in clearance fit with the threaded rod I2-3, and the other end of the supporting plate II 3-1 is connected to the threaded rod II 2-4 through threads;

the power mechanism 4 comprises a motor 4-1, a power shaft 4-2, a friction wheel I4-3, a friction wheel II 4-4, a shifting fork 4-5, a power sliding column 4-6, a triangular clamping block 4-7, a power belt wheel 4-8, a pushing connecting rod 4-9 and a connecting key II 4-10, the motor 4-1 is fixedly connected to the supporting leg II 1-3, one end of the power shaft 4-2 is rotatably connected to an output shaft of the motor 4-1, the other end of the power shaft 4-2 is rotatably connected to the connecting plate 1-8, the friction wheel I4-3 is fixedly connected to an output shaft of the motor 4-1, and the connecting key II is fixedly connected to the power shaft 4-2

4-10, a friction wheel II 4-4 is connected on the connecting key II 4-10 in a sliding manner, the friction wheel II 4-4 and the friction wheel I4-3 are in friction transmission, a shifting fork 4-5 is connected on the friction wheel II 4-4 in a rotating manner, a power sliding column 4-6 is fixedly connected on the shifting fork 4-5, the power sliding column 4-6 is connected on a connecting plate 1-8 in a sliding manner, a triangular clamping block 4-7 is connected on the power sliding column 4-6 in a sliding manner, the triangular clamping block 4-7 is clamped on a W clamping block 1-6, a compression spring II is sleeved on the triangular clamping block 4-7 and is positioned between the power sliding column 4-6 and the triangular clamping block 4-7, a power belt wheel 4-8 is fixedly connected on a power shaft 4-2, the upper end of a pushing connecting rod 4-9 is hinged at the lower end of the feedback sliding column 1, the lower end of the pushing connecting rod 4-9 is hinged on the shifting fork 4-5;

the irrigation mechanism 5 comprises an irrigation cylinder 5-1, a water inlet cylinder 5-2, a pushing shaft 5-3, a pushing inclined plate 5-4, a pushing belt wheel 5-5, an irrigation sliding column 5-6, a spring baffle 5-7, an irrigation sliding plate I5-8, an irrigation sliding plate II 5-9, a conical block I5-10, a one-way sliding column I5-11, an irrigation fixing plate I5-12, an irrigation fixing plate II 5-13, a conical block II 5-14 and a one-way sliding column II 5-15, the irrigation cylinder 5-1 is fixedly connected between the two connecting plates 1-8, the water inlet cylinder 5-2 is fixedly and communicated with the upper end of the irrigation cylinder 5-1, one end of the pushing shaft 5-3 is rotatably connected to the irrigation cylinder 5-1, the other end of the pushing shaft 5-3 is fixedly connected with the pushing belt wheel 5-5, the driving belt wheel 5-5 is connected with the driving belt wheel 4-8 through belt transmission, the driving belt wheel 4-8 is fixedly connected with a driving inclined plate 5-4, the irrigation sliding column 5-6 is connected with the irrigation cylinder 5-1 in a sliding mode, the irrigation sliding column 5-6 is fixedly connected with a spring baffle plate 5-7, the irrigation sliding column 5-6 is sleeved with a compression spring III, the compression spring III is located between the irrigation cylinder 5-1 and the spring baffle plate 5-7, one end of the irrigation sliding column 5-6 is propped against the eccentric position of the driving inclined plate 5-4, the other end of the irrigation sliding column 5-6 is fixedly connected with an irrigation sliding plate II 5-9, the irrigation sliding plate I5-8 is fixedly connected with the irrigation sliding plate I5-6, the irrigation sliding plate II 5-9 and the irrigation sliding plate I5-8 are both connected in the irrigation cylinder 5-1 in a sliding, the irrigation sliding plate I5-8 is provided with a tapered hole I, the irrigation sliding plate II 5-9 is provided with a water through hole I, the irrigation sliding plate II 5-9 is connected with a one-way sliding column I5-11 in a sliding manner, the one-way sliding column I5-11 is fixedly connected with a tapered block I5-10, the tapered block I5-10 is propped against the tapered hole I arranged on the irrigation sliding plate I5-8, the one-way sliding column I5-11 is sleeved with a compression spring IV, the compression spring IV is positioned between the irrigation sliding plate II 5-9 and the tapered block I5-10, the water inlet cylinder 5-2 is fixedly connected with an irrigation fixing plate I5-12 and an irrigation fixing plate II 5-13, the irrigation fixing plate I5-12 is provided with a tapered hole II, the irrigation fixing plate II 5-13 is provided with a water through hole II, the irrigation fixing plates II 5-13 are connected with one-way sliding columns II 5-15 in a sliding mode, the one-way sliding columns II 5-15 are fixedly connected with conical blocks II 5-14, the conical blocks II 5-14 are propped against conical holes II formed in the irrigation fixing plates I5-12, the one-way sliding columns II 5-15 are fixedly connected with compression springs V, and the compression springs V are located between the irrigation fixing plates II 5-13 and the conical blocks II 5-14; when the device is used, plants to be cultivated for greening are placed on the supporting plate I2-1 and the supporting plate II 3-1, the water inlet pipe is connected to the water inlet cylinder 5-2 through a port, when the horizontal heights of the supporting plate I2-1 and the supporting plate II 3-1 need to be adjusted, the adjustment of the horizontal heights of the supporting plate I2-1 and the supporting plate II 3-1 is beneficial to carrying the greening plants on the supporting plate I2-1 and the supporting plate II 3-1, and the greening plants on the supporting plate I2-1 and the supporting plate II 3-1 can absorb different illumination, the two lifting handles 2-5 are respectively rotated, so that the two lifting handles 2-5 respectively drive the threaded rod I2-3 and the threaded rod II 2-4 corresponding to the two lifting handles to rotate, and the threaded rod I2-3 drives the supporting plate I2-1 to adjust the horizontal height through threads when rotating, when the threaded rod II 2-4 rotates, the horizontal height of the supporting plate II 3-1 is driven by threads to be adjusted, when the heights of the supporting plate I2-1 and the supporting plate II 3-1 need to be adjusted together to accelerate the adjustment speed, the linkage screw 6-4 is rotated to enable the linkage screw 6-4 to rotate by taking the axis of the linkage screw 6-4 as the center, the linkage screw 6-4 drives the linkage plate I6-1 to slide in the vertical waist hole 1-4 by the threads, the horizontal height of the linkage plate I6-1 changes, the linkage plate I6-1 drives the horizontal height of the linkage plate II 6-2 to change, the linkage plate II 6-2 drives the horizontal height of the two linkage friction wheels 6-3 to change, and the two linkage friction wheels 6-3 slide on the two connecting keys I2-7 respectively, two linkage friction wheels 6-3 are respectively contacted with two lifting belt wheels 2-6, the two linkage friction wheels 6-3 are respectively in friction transmission with the two lifting belt wheels 2-6, when one of the threaded rod I2-3 or the threaded rod II 2-4 rotates, the threaded rod I2-3 or the threaded rod II 2-4 can respectively drive the linkage friction wheel 6-3 which is used by the threaded rod I2-3 or the threaded rod II 2-4 to rotate through a connecting key I2-7 arranged on the threaded rod I, the linkage friction wheels 6-3 can respectively drive one lifting belt wheel 2-6 to rotate, one lifting belt wheel 2-6 drives the other lifting belt wheel 2-6 to rotate, when the threaded rod I2-3 or the threaded rod II 2-4 on one side rotates, the threaded rod I2-3 or the threaded rod II 2-4 on the other side also simultaneously rotates, the horizontal heights of the supporting plate I2-1 and the supporting plate II 3-1 can be adjusted together, so that the height adjusting efficiency of the supporting plate I2-1 and the supporting plate II 3-1 is improved; starting the motor 4-1, starting the output shaft of the motor 4-1 to rotate, driving the friction wheel I4-3 to rotate by taking the axis of the output shaft of the motor 4-1 as the center by the output shaft of the motor 4-1, driving the feedback plate 1-9 to move upwards by the compression spring I, driving the upper end of the push connecting rod 4-9 to move upwards by the feedback plate 1-9, driving the lower end of the push connecting rod 4-9 to approach the motor 4-1 side, driving the shifting fork 4-5 to approach the motor 4-1 side by the compression spring I, driving the friction wheel II 4-4 and the friction wheel I4-3 to carry out contact friction transmission by the shifting fork 4-5, driving the friction wheel II 4-4 to rotate by taking the axis of the power shaft 4-2 as the center by the friction wheel I4-, the friction wheel II 4-4 drives the power shaft 4-2 to rotate by taking the axis of the power shaft 4-2 as the center through the connecting key II 4-10, the power shaft 4-2 drives the power belt pulley 4-8 to rotate by taking the axis of the power shaft 4-2 as the center, the power belt pulley 4-8 drives the pushing belt pulley 5-5 to rotate by taking the axis of the pushing shaft 5-3 as the center, the pushing belt pulley 5-5 drives the pushing shaft 5-3 to rotate by taking the axis of the pushing shaft 5-3 as the center, the pushing shaft 5-3 drives the pushing inclined plate 5-4 to rotate by taking the axis of the pushing shaft 5-3 as the center, the pushing inclined plate 5-4 pushes the irrigation sliding column 5-6 to extrude the compression spring III to slide on the irrigation barrel 5-1, the irrigation sliding column 5-6 drives the irrigation sliding plate I5-8 and the irrigation sliding plate II 5-9 to slide on the irrigation barrel 5-1 When the irrigation sliding plate I5-8 and the irrigation sliding plate II 5-9 slide towards the water inlet cylinder 5-2 side, the tapered holes formed in the irrigation fixing plate I5-12 are blocked by the tapered blocks II 5-14, the tapered blocks I5-10 on the irrigation sliding plate I5-8 extrude the compression springs IV to ensure that the tapered blocks I5-10 do not prop against the tapered holes I formed in the irrigation sliding plate I5-8, water in the irrigation sliding plate I5-8 flows into the space between the irrigation sliding plate I5-8 and the irrigation leakage plate 5-16 through the tapered holes I formed in the irrigation sliding plate I5-8, and when the irrigation sliding plate I5-8 and the irrigation sliding plate II 5-9 slide towards the side far away from the water inlet cylinder 5-2 side, the tapered blocks II 5-14 extrude the compression springs V to not block the tapered holes formed in the irrigation fixing plate I5-12, the irrigation sliding plate I5-8 is provided with a conical block I5-10 which is abutted against a conical hole I arranged on the irrigation sliding plate I5-8, irrigation water is pushed by the irrigation sliding plate I5-8 to flow out of an irrigation leakage plate 5-16 to irrigate on the supporting plate II 3-1, water on the supporting plate II 3-1 falls on the supporting plate I2-1 through a filtering hole II arranged on the supporting plate I2-1, the water falls in the collecting box 1-1 through the filtering hole I arranged on the supporting plate I2-1 to realize simultaneous irrigation on the supporting plate I2-1 and the supporting plate II 3-1, when the water in the collecting box 1-1 reaches a certain weight, the feedback plate 1-9 is pressed to slide downwards, the feedback plate 1-9 drives the upper end of the feedback sliding column 1-10 to move downwards, and the lower end of the feedback sliding column 1-10 drives the triangular clamping block 4-7 to change the clamping position on the W clamping block 1-6 The friction wheel I4-3 and the friction wheel II 4-4 are out of friction transmission, the friction wheel II 4-4 does not rotate, and the irrigation mechanism 5 does not work any more to prevent water from flowing too much.

The second embodiment is as follows:

the embodiment is described below with reference to fig. 1 to 14, and the embodiment further describes the first embodiment, the support frame 1 further includes vertical waist holes 1 to 4, and the vertical waist holes 1 to 4 are disposed on the support legs ii 1 to 3.

The third concrete implementation mode:

the present embodiment will be described with reference to fig. 1 to 14, and the second embodiment will be further described with reference to the present embodiment, wherein the pallet mechanism i 2; the lifting belt wheel comprises a supporting plate I2-1, and is characterized by further comprising lifting belt wheels 2-6, connecting keys I2-7 and water flow baffles I2-8, the lower ends of a threaded rod I2-3 and a threaded rod II 2-4 are fixedly connected with the connecting keys I2-7, the lower ends of the threaded rod I2-3 and the threaded rod II 2-4 are rotatably connected with the lifting belt wheels 2-6, the two lifting belt wheels 2-6 are connected with each other in a belt transmission mode, and the lower end of the supporting plate I2-1 is fixedly connected with the water flow baffles I2-8.

The fourth concrete implementation mode:

the third embodiment is further described with reference to fig. 1 to 14, the irrigation mechanism 5 further includes irrigation nozzle plates 5 to 16, a plurality of water outlet holes are formed in the irrigation nozzle plates 5 to 16, and the irrigation nozzle plates 5 to 16 are fixedly connected to the irrigation cylinder 5 to 1.

The fifth concrete implementation mode:

the fourth embodiment is further described with reference to fig. 1-14, wherein the conical blocks i 5-10 and the conical blocks ii 5-14 have the same structure, the diameter of the rear end of the conical block i 5-10 is smaller than that of the front end of the conical block i 5-10, and the diameter of the upper end of the conical block ii 5-14 is smaller than that of the lower end of the conical block ii 5-14.

The sixth specific implementation mode:

the embodiment is described below by combining with figures 1-14, and the embodiment further describes the fifth embodiment, the environment-friendly greening frame further comprises a linkage mechanism 6, the linkage mechanism 6 comprises a linkage plate I6-1, a linkage plate II 6-2, a linkage friction wheel 6-3, a linkage screw rod 6-4 and a linkage connecting plate 6-5, one end of the linkage plate I6-1 is fixedly connected with the linkage plate II 6-2, the other end of the linkage plate I6-1 is connected with the linkage screw rod 6-4 through a thread, the linkage plate I6-1 passes through a vertical waist hole 1-4, the lower end of the linkage screw rod 6-4 is rotatably connected with the linkage connecting plate 6-5, the linkage connecting plate 6-5 is fixedly connected to the supporting feet II 1-3, two ends of the linkage plate II 6-2 are rotatably connected with the linkage friction wheel 6-3, the two linkage friction wheels 6-3 are respectively connected on the two connecting keys I2-7 in a sliding way.

The seventh embodiment:

the embodiment is described below with reference to fig. 1-14, and the sixth embodiment is further described, wherein the area of the supporting plate i 2-1 is larger than that of the supporting plate ii 3-1; enough light can be obtained for the plants on the lower supporting plate I2-1.

The invention relates to an environment-friendly greening frame, which has the working principle that:

when the device is used, plants to be cultivated for greening are placed on the supporting plate I2-1 and the supporting plate II 3-1, the water inlet pipe is connected to the water inlet cylinder 5-2 through a port, when the horizontal heights of the supporting plate I2-1 and the supporting plate II 3-1 need to be adjusted, the adjustment of the horizontal heights of the supporting plate I2-1 and the supporting plate II 3-1 is beneficial to carrying the greening plants on the supporting plate I2-1 and the supporting plate II 3-1, and the greening plants on the supporting plate I2-1 and the supporting plate II 3-1 can absorb different illumination, the two lifting handles 2-5 are respectively rotated, so that the two lifting handles 2-5 respectively drive the threaded rod I2-3 and the threaded rod II 2-4 corresponding to the two lifting handles to rotate, and the threaded rod I2-3 drives the supporting plate I2-1 to adjust the horizontal height through threads when rotating, when the threaded rod II 2-4 rotates, the horizontal height of the supporting plate II 3-1 is driven by threads to be adjusted, when the heights of the supporting plate I2-1 and the supporting plate II 3-1 need to be adjusted together to accelerate the adjustment speed, the linkage screw 6-4 is rotated to enable the linkage screw 6-4 to rotate by taking the axis of the linkage screw 6-4 as the center, the linkage screw 6-4 drives the linkage plate I6-1 to slide in the vertical waist hole 1-4 by the threads, the horizontal height of the linkage plate I6-1 changes, the linkage plate I6-1 drives the horizontal height of the linkage plate II 6-2 to change, the linkage plate II 6-2 drives the horizontal height of the two linkage friction wheels 6-3 to change, and the two linkage friction wheels 6-3 slide on the two connecting keys I2-7 respectively, two linkage friction wheels 6-3 are respectively contacted with two lifting belt wheels 2-6, the two linkage friction wheels 6-3 are respectively in friction transmission with the two lifting belt wheels 2-6, when one of the threaded rod I2-3 or the threaded rod II 2-4 rotates, the threaded rod I2-3 or the threaded rod II 2-4 can respectively drive the linkage friction wheel 6-3 which is used by the threaded rod I2-3 or the threaded rod II 2-4 to rotate through a connecting key I2-7 arranged on the threaded rod I, the linkage friction wheels 6-3 can respectively drive one lifting belt wheel 2-6 to rotate, one lifting belt wheel 2-6 drives the other lifting belt wheel 2-6 to rotate, when the threaded rod I2-3 or the threaded rod II 2-4 on one side rotates, the threaded rod I2-3 or the threaded rod II 2-4 on the other side also simultaneously rotates, the horizontal heights of the supporting plate I2-1 and the supporting plate II 3-1 can be adjusted together, so that the height adjusting efficiency of the supporting plate I2-1 and the supporting plate II 3-1 is improved; starting the motor 4-1, starting the output shaft of the motor 4-1 to rotate, driving the friction wheel I4-3 to rotate by taking the axis of the output shaft of the motor 4-1 as the center by the output shaft of the motor 4-1, driving the feedback plate 1-9 to move upwards by the compression spring I, driving the upper end of the push connecting rod 4-9 to move upwards by the feedback plate 1-9, driving the lower end of the push connecting rod 4-9 to approach the motor 4-1 side, driving the shifting fork 4-5 to approach the motor 4-1 side by the compression spring I, driving the friction wheel II 4-4 and the friction wheel I4-3 to carry out contact friction transmission by the shifting fork 4-5, driving the friction wheel II 4-4 to rotate by taking the axis of the power shaft 4-2 as the center by the friction wheel I4-, the friction wheel II 4-4 drives the power shaft 4-2 to rotate by taking the axis of the power shaft 4-2 as the center through the connecting key II 4-10, the power shaft 4-2 drives the power belt pulley 4-8 to rotate by taking the axis of the power shaft 4-2 as the center, the power belt pulley 4-8 drives the pushing belt pulley 5-5 to rotate by taking the axis of the pushing shaft 5-3 as the center, the pushing belt pulley 5-5 drives the pushing shaft 5-3 to rotate by taking the axis of the pushing shaft 5-3 as the center, the pushing shaft 5-3 drives the pushing inclined plate 5-4 to rotate by taking the axis of the pushing shaft 5-3 as the center, the pushing inclined plate 5-4 pushes the irrigation sliding column 5-6 to extrude the compression spring III to slide on the irrigation barrel 5-1, the irrigation sliding column 5-6 drives the irrigation sliding plate I5-8 and the irrigation sliding plate II 5-9 to slide on the irrigation barrel 5-1 When the irrigation sliding plate I5-8 and the irrigation sliding plate II 5-9 slide towards the water inlet cylinder 5-2 side, the tapered holes formed in the irrigation fixing plate I5-12 are blocked by the tapered blocks II 5-14, the tapered blocks I5-10 on the irrigation sliding plate I5-8 extrude the compression springs IV to ensure that the tapered blocks I5-10 do not prop against the tapered holes I formed in the irrigation sliding plate I5-8, water in the irrigation sliding plate I5-8 flows into the space between the irrigation sliding plate I5-8 and the irrigation leakage plate 5-16 through the tapered holes I formed in the irrigation sliding plate I5-8, and when the irrigation sliding plate I5-8 and the irrigation sliding plate II 5-9 slide towards the side far away from the water inlet cylinder 5-2 side, the tapered blocks II 5-14 extrude the compression springs V to not block the tapered holes formed in the irrigation fixing plate I5-12, the irrigation sliding plate I5-8 is provided with a conical block I5-10 which is abutted against a conical hole I arranged on the irrigation sliding plate I5-8, irrigation water is pushed by the irrigation sliding plate I5-8 to flow out of an irrigation leakage plate 5-16 to irrigate on the supporting plate II 3-1, water on the supporting plate II 3-1 falls on the supporting plate I2-1 through a filtering hole II arranged on the supporting plate I2-1, the water falls in the collecting box 1-1 through the filtering hole I arranged on the supporting plate I2-1 to realize simultaneous irrigation on the supporting plate I2-1 and the supporting plate II 3-1, when the water in the collecting box 1-1 reaches a certain weight, the feedback plate 1-9 is pressed to slide downwards, the feedback plate 1-9 drives the upper end of the feedback sliding column 1-10 to move downwards, and the lower end of the feedback sliding column 1-10 drives the triangular clamping block 4-7 to change the clamping position on the W clamping block 1-6 The friction wheel I4-3 and the friction wheel II 4-4 are out of friction transmission, the friction wheel II 4-4 does not rotate, and the irrigation mechanism 5 does not work any more to prevent water from flowing too much.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims

1. The utility model provides an environmental protection afforestation frame, includes support frame (1), layer board mechanism I (2), layer board mechanism II (3), power unit (4) and irrigates mechanism (5), its characterized in that: the support frame (1) comprises a collection box (1-1), support legs I (1-2), support legs II (1-3), support legs III (1-5), W clamping blocks (1-6), sliding cylinders (1-7), a connecting plate (1-8), a feedback plate (1-9) and feedback sliding columns (1-10), wherein the left side and the right side of the collection box (1-1) are fixedly connected with the support legs I (1-2), the front side and the rear side of the collection box (1-1) are respectively fixedly connected with the support legs II (1-3) and the support legs III (1-5), the support legs III (1-5) are fixedly connected with the W clamping blocks (1-6), and the support legs III (1-5) and the support legs II (1-3) are respectively and fixedly connected with the sliding cylinders (1-7), the upper end of the supporting foot III (1-5) is fixedly connected with two connecting plates (1-8), the feedback plate (1-9) is connected in the collecting box (1-1) in a sliding manner, the lower end of the feedback plate (1-9) is fixedly connected with a feedback sliding column (1-10), the feedback sliding column (1-10) is connected on the collecting box (1-1) in a sliding manner, a compression spring I is sleeved on the feedback sliding column (1-10), and the compression spring I is positioned between the collecting box (1-1) and the feedback plate (1-9);

the supporting plate mechanism I (2) comprises a supporting plate I (2-1), a sliding column (2-2), a threaded rod I (2-3), a threaded rod II (2-4) and a lifting handle (2-5), the filter plate comprises a supporting plate I (2-1), a plurality of filter holes I, sliding columns (2-2) fixedly connected to the front end and the rear end of the supporting plate I (2-1), two sliding columns (2-2) respectively connected in two sliding cylinders (1-7) in a sliding mode, a threaded rod I (2-3) connected to the left end of the supporting plate I (2-1) through threads, a threaded rod II (2-4) in clearance fit with the right end of the supporting plate I (2-1), and lifting handles (2-5) fixedly connected to the threaded rod I (2-3) and the threaded rod II (2-4);

the supporting plate mechanism II (3) comprises a supporting plate II (3-1) and a water flow baffle II (3-2), a plurality of filtering holes II are formed in the supporting plate II (3-1), the lower end of the supporting plate II (3-1) is fixedly connected with the water flow baffle II (3-2), one end of the supporting plate II (3-1) is in clearance fit with the threaded rod I (2-3), and the other end of the supporting plate II (3-1) is connected to the threaded rod II (2-4) through threads;

the power mechanism (4) comprises a motor (4-1), a power shaft (4-2), a friction wheel I (4-3), a friction wheel II (4-4), a shifting fork (4-5), a power sliding column (4-6), a triangular clamping block (4-7), a power belt wheel (4-8), a pushing connecting rod (4-9) and a connecting key II (4-10), the motor (4-1) is fixedly connected to the supporting leg II (1-3), one end of the power shaft (4-2) is rotatably connected to an output shaft of the motor (4-1), the other end of the power shaft (4-2) is rotatably connected to the connecting plate (1-8), the friction wheel I (4-3) is fixedly connected to the output shaft of the motor (4-1), the connecting key II (4-10) is fixedly connected to the power shaft (4-2), a friction wheel II (4-4) is connected on the connecting key II (4-10) in a sliding manner, the friction wheel II (4-4) and the friction wheel I (4-3) are in friction transmission, a shifting fork (4-5) is connected on the friction wheel II (4-4) in a rotating manner, a power sliding column (4-6) is fixedly connected on the shifting fork (4-5), the power sliding column (4-6) is connected on a connecting plate (1-8) in a sliding manner, a triangular clamping block (4-7) is connected on the power sliding column (4-6) in a sliding manner, the triangular clamping block (4-7) is clamped on a W clamping block (1-6), a compression spring II is sleeved on the triangular clamping block (4-7) and positioned between the power sliding column (4-6) and the triangular clamping block (4-7), a power belt wheel (4-8) is fixedly connected on the power shaft (4-2), the upper end of the pushing connecting rod (4-9) is hinged with the lower end of the feedback sliding column (1-10), and the lower end of the pushing connecting rod (4-9) is hinged with the shifting fork (4-5);

the irrigation mechanism (5) comprises an irrigation cylinder (5-1), a water inlet cylinder (5-2), a pushing shaft (5-3), a pushing inclined plate (5-4), a pushing belt wheel (5-5), an irrigation sliding column (5-6), a spring baffle plate (5-7), an irrigation sliding plate I (5-8), an irrigation sliding plate II (5-9), a conical block I (5-10), a one-way sliding column I (5-11), an irrigation fixing plate I (5-12), an irrigation fixing plate II (5-13), a conical block II (5-14) and a one-way sliding column II (5-15), the irrigation cylinder (5-1) is fixedly connected between the two connecting plates (1-8), the upper end of the irrigation cylinder (5-1) is fixedly communicated with the water inlet cylinder (5-2), one end of a pushing shaft (5-3) is rotatably connected to an irrigation cylinder (5-1), the other end of the pushing shaft (5-3) is fixedly connected with a pushing belt wheel (5-5), the pushing belt wheel (5-5) is connected with a power belt wheel (4-8) through belt transmission, a pushing inclined plate (5-4) is fixedly connected to the power belt wheel (4-8), an irrigation sliding column (5-6) is slidably connected to the irrigation cylinder (5-1), a spring baffle plate (5-7) is fixedly connected to the irrigation sliding column (5-6), a compression spring III is sleeved on the irrigation sliding column (5-6) and located between the irrigation cylinder (5-1) and the spring baffle plate (5-7), one end of the irrigation sliding column (5-6) abuts against the eccentric position of the pushing inclined plate (5-4), the other end of the irrigation sliding column (5-6) is fixedly connected with an irrigation sliding plate II (5-9), the irrigation sliding column (5-6) is fixedly connected with an irrigation sliding plate I (5-8), the irrigation sliding plate II (5-9) and the irrigation sliding plate I (5-8) are both connected in the irrigation cylinder (5-1) in a sliding mode, a tapered hole I is formed in the irrigation sliding plate I (5-8), a water passing hole I is formed in the irrigation sliding plate II (5-9), a one-way sliding column I (5-11) is connected on the irrigation sliding plate II (5-9) in a sliding mode, a tapered block I (5-10) is fixedly connected on the one-way sliding column I (5-11), the tapered block I (5-10) abuts against the tapered hole I formed in the irrigation sliding plate I (5-8), and a compression spring IV is sleeved on the one-way sliding column I (5-11), the compression spring IV is positioned between the irrigation sliding plate II (5-9) and the conical block I (5-10), the irrigation fixing plate I (5-12) and the irrigation fixing plate II (5-13) are fixedly connected in the water inlet cylinder (5-2), a conical hole II is formed in the irrigation fixing plate I (5-12), a water through hole II is formed in the irrigation fixing plate II (5-13), a one-way sliding column II (5-15) is connected onto the irrigation fixing plate II (5-13) in a sliding mode, the conical block II (5-14) is fixedly connected onto the one-way sliding column II (5-15), the conical block II (5-14) abuts against the conical hole II formed in the irrigation fixing plate I (5-12), a compression spring V is fixedly connected onto the one-way sliding column II (5-15), and the compression spring V is positioned between the irrigation fixing plate II (5-13) and the conical block II (5-14).

2. An environmental greening frame as claimed in claim 1, wherein: the support frame (1) further comprises vertical waist holes (1-4), and the vertical waist holes (1-4) are formed in the support legs II (1-3).

3. An environmental greening frame as claimed in claim 2, wherein: the supporting plate mechanism I (2); the lifting belt wheel device is characterized by further comprising lifting belt wheels (2-6), connecting keys I (2-7) and water flow baffle plates I (2-8), the lower ends of the threaded rods I (2-3) and II (2-4) are fixedly connected with the connecting keys I (2-7), the lower ends of the threaded rods I (2-3) and II (2-4) are rotatably connected with the lifting belt wheels (2-6), the two lifting belt wheels (2-6) are connected with each other through belt transmission, and the lower end of the supporting plate I (2-1) is fixedly connected with the water flow baffle plates I (2-8).

4. An environmental greening frame as claimed in claim 3, wherein: the irrigation mechanism (5) further comprises irrigation leakage plates (5-16), a plurality of water outlet holes are formed in the irrigation leakage plates (5-16), and the irrigation leakage plates (5-16) are fixedly connected to the irrigation cylinder (5-1).

5. An environmental greening frame as claimed in claim 4, wherein: the conical blocks I (5-10) and II (5-14) are identical in structure, the diameter of the rear end of the conical block I (5-10) is smaller than that of the front end of the conical block I (5-10), and the diameter of the upper end of the conical block II (5-14) is smaller than that of the lower end of the conical block II (5-14).

6. An environmental greening frame as claimed in claim 5, wherein: the environment-friendly greening frame further comprises a linkage mechanism (6), the linkage mechanism (6) comprises a linkage plate I (6-1), a linkage plate II (6-2), a linkage friction wheel (6-3), a linkage screw rod (6-4) and a linkage connecting plate (6-5), one end of the linkage plate I (6-1) is fixedly connected with the linkage plate II (6-2), the other end of the linkage plate I (6-1) is connected with the linkage screw rod (6-4) through threads, the linkage plate I (6-1) penetrates through a vertical waist hole (1-4), the lower end of the linkage screw rod (6-4) is rotatably connected with the linkage connecting plate (6-5), the linkage connecting plate (6-5) is fixedly connected to the supporting feet II (1-3), the two ends of the linkage plate II (6-2) are rotatably connected with the linkage friction wheel (6-3), the two linkage friction wheels (6-3) are respectively connected on the two connecting keys I (2-7) in a sliding manner.

7. An environmental greening frame as claimed in claim 6, wherein: the area of the supporting plate I (2-1) is larger than that of the supporting plate II (3-1).