CN114738695B

CN114738695B - Intelligent landscape lighting tree for gardens

Info

Publication number: CN114738695B
Application number: CN202210227811.XA
Authority: CN
Inventors: 叶乐; 周柔倩
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-03-08
Filing date: 2022-03-08
Publication date: 2024-05-17
Anticipated expiration: 2042-03-08
Also published as: CN114738695A

Abstract

The application relates to the field of landscape lighting and discloses an intelligent landscape lighting tree for gardens, which comprises a rod body buried on the ground and a branch arranged on the rod body, wherein an illuminating lamp is arranged on the branch, the rod body comprises a main rod fixedly connected with each other and a buried rod buried underground, the buried rod comprises an upper cylinder fixedly connected with the bottom end of the main rod and a lower cylinder positioned below the upper cylinder, a space is reserved between the top surface of the lower cylinder and the bottom surface of the upper cylinder, a partition plate is horizontally fixedly connected on the inner wall of the lower cylinder, a connecting rod is fixedly connected between the upper cylinder and the partition plate, and a gap part between the lower cylinder and the upper cylinder is positioned underground. The application solves the technical problem of poor lodging resistance caused by no root system of the landscape lighting tree in the prior art, and realizes that the bottom of the stem in the lighting tree is extruded into a large amount of soil to improve the ground grabbing force so as to ensure the stability of the lighting tree.

Description

Intelligent landscape lighting tree for gardens

Technical Field

The invention relates to the field of landscape lighting, in particular to an intelligent landscape lighting tree for gardens.

Background

Landscape trees, particularly artificial landscape trees, are common beautifying products in landscaping, and landscape lighting is an indispensable part of the landscaping, and is an outdoor lighting project with lighting functions as well as artistic decoration and environmental beautifying functions. Landscape lighting can be divided into road landscape lighting, garden square landscape lighting and building landscape lighting, landscape lighting trees are more common, and most of landscape lighting trees are artificial simulation trees or small lamps are decorated on true trees.

In view of the above-mentioned related art, the present inventors have found that, in the process of implementing the technical solution of the present application in the embodiment of the present application, at least the following technical problems exist: in the landscape construction process, tree transplanting can often achieve the effect of rapidly beautifying the environment, however, as the simulation tree has no root system, the lodging resistance of the newly transplanted illumination tree is poor, and thus the lodging resistance of the landscape illumination tree needs to be improved.

Disclosure of Invention

The embodiment of the application solves the technical problem of poor lodging resistance caused by no root system of the landscape lighting tree in the prior art by providing the intelligent landscape lighting tree, and realizes that the bottom of the stem in the lighting tree is extruded into a large amount of soil to improve the ground grabbing force so as to ensure the stability of the lighting tree.

The embodiment of the application provides a garden intelligent landscape lighting tree, which comprises a rod body buried on the ground and a branch arranged on the rod body, wherein a lighting lamp is arranged on the branch, the rod body comprises a main rod fixedly connected with each other and a buried rod buried underground, the buried rod comprises an upper cylinder fixedly connected with the bottom end of the main rod and a lower cylinder positioned below the upper cylinder, a space is reserved between the top surface of the lower cylinder and the bottom surface of the upper cylinder, a partition plate is horizontally fixedly connected on the inner wall of the lower cylinder, a connecting rod is fixedly connected between the upper cylinder and the partition plate, and a gap part between the lower cylinder and the upper cylinder is positioned underground.

Further, the spout has been vertically seted up on the connecting rod, a plurality of and follow the a week evenly distributed of connecting rod has been seted up to the spout, the one end of spout with the top surface intercommunication of connecting rod, the spout other end is located the below of lower section of thick bamboo top surface, sliding in the spout is provided with the slide bar, the both sides rigid coupling of the bottom of slide bar has the curb plate, the both ends of curb plate all articulate there is the connecting rod, two the connecting rod is kept away from between the tip of slide bar one end has the connecting rod, the rigid coupling has the section to be isosceles triangle's the piece that stretches out on the connecting rod, stretch out the piece be used for stretching out lower section of thick bamboo with gap portion between the upper cylinder, adjacent two lateral wall between the piece that stretches out is close to each other, and wherein the top inwards extension of the slide bar of interval distribution has the extension strip, and a plurality of rigid coupling has the pushing ram between the inner end of extension strip, the top of the slide bar that the compartment distributes in addition has the pushing ring.

Further, a first push rod extends outwards from the outer periphery of the push post towards the upper cylinder, a second push rod extends outwards from the outer periphery of the push ring towards the upper cylinder, and a strip-shaped hole for vertically sliding the first push rod and the second push rod is vertically formed in the peripheral surface of the upper cylinder.

Further, the first push rod is provided with two and the contained angle between the two is the acute angle, the second push rod is provided with two and the contained angle between the two is the acute angle, and two contained angle between the first push rod and two the orientation of contained angle between the second push rod is opposite, two between the one end of push rod and two all the rigid coupling has the fan-shaped ring that the level set up between the two ends of push rod, fan-shaped ring is located the outside of upper cylinder.

Furthermore, the bottom surface of the fan-shaped ring is fixedly connected with a plurality of conical blocks, and the conical blocks are used for being inserted into the ground.

Further, the middle part of connecting rod is cavity form and with the top surface intercommunication of connecting rod, set up on the outer peripheral face of connecting rod bottom with the inside wiring hole of intercommunication of connecting rod.

Further, a notch is formed in the top surface of the lower cylinder and used for placing a wire harness.

Further, the inner wall of the upper cylinder close to the top is fixedly connected with a weighting ring, the pushing columns and the pushing rings are both positioned in the weighting ring, the top of the connecting rod is close to the bottom surface of the weighting ring, a supporting rod is fixedly connected between the outer peripheral surface of the top of the connecting rod and the inner peripheral surface of the upper cylinder, and the supporting rods are provided with a plurality of supporting rods and uniformly distributed along the periphery of the upper cylinder.

The technical scheme provided by the embodiment of the application has at least the following technical effects or advantages:

1. Because the upper cylinder and the lower cylinder are adopted as the buried rod, when the buried rod is buried in soil, soil can enter the lower cylinder from a gap between the upper cylinder and the lower cylinder, so that the weight of the buried rod can be further increased, the whole gravity center of the illumination tree can be further moved downwards, and the ground grabbing force of the illumination tree in the soil can be further increased, so that the stability of the illumination tree is improved.

2. Because the extending block is used for extending the gap part between the lower cylinder and the upper cylinder, the side walls between the two adjacent extending blocks are close to each other, a plurality of extending blocks are used for plugging the gap between the lower cylinder and the upper cylinder, and the extending part of the extending block can increase the circumferential diameter of the buried rod, so that the pulling resistance of the whole buried rod can be improved.

3. Because the sector ring is adopted as the pushing-down object, when the first push rod and the second push rod are required to be pushed downwards, an operator can downwards step on the sector ring, so that the conical blocks in the sector ring enter the ground, the pulling-resistant capability of the buried rod can be improved, and the stability of the illumination tree is further improved.

Drawings

FIG. 1 is a schematic diagram of the overall structure of a scene lighting tree according to an embodiment of the present application;

FIG. 2 is a schematic view of the whole structure of a buried rod according to an embodiment of the present application;

FIG. 3 is a schematic cross-sectional view of FIG. 2, mainly illustrating the internal configuration of the buried rod;

FIG. 4 is a schematic cross-sectional view of a portion of the structure of FIG. 3, primarily illustrating the structure of the connecting rod;

FIG. 5 is a schematic view of a portion of the structure of FIG. 4, primarily illustrating the configuration of the extension block;

In the figure: 10. a rod body; 11. a main rod; 12. burying a rod; 121. a cylinder is arranged; 1211. a bar-shaped hole; 122. a lower cylinder; 1221. a notch; 1222. a weighted ring; 1223. a support rod; 123. a partition plate; 124. a connecting rod; 1241. a chute; 1242. a wiring hole; 20. a branch; 30. a lighting lamp; 21. a slide bar; 211. a side plate; 22. a connecting rod; 23. a connecting strip; 24. a protruding block; 25. an extension strip; 26. pushing a column; 27. a push ring; 28. a push rod I; 29. a second push rod; 201. a sector ring; 202. a conical block.

Detailed Description

The embodiment of the application discloses an intelligent landscape lighting tree for gardens, which is characterized in that a buried rod 12 is buried underground, so that soil enters into a lower barrel 122 from a gap between an upper barrel 121 and a lower barrel 122, the weight of the buried rod 12 can be further increased, then an operator can respectively step down two sector rings 201, a conical block 202 in the sector rings 201 enters underground, in the downward moving process of the two sector rings 201, a push column 26 and a push ring 27 can be respectively moved down, a connecting rod 22 can be caused to push an extension block 24 to extend out of the gap between the lower barrel 122 and the upper barrel 121, a plurality of extension blocks 24 are used for sealing the gap between the lower barrel 122 and the upper barrel 121, and the circumference diameter of the buried rod 12 can be increased by the extending part of the extension block 24, so that the pulling resistance of the whole buried rod 12 can be improved.

In order to better understand the above technical solutions, the following detailed description will refer to the accompanying drawings and specific embodiments.

Referring to fig. 1, a garden intelligent landscape lighting tree comprises a rod body 10, a branch 20 and a lighting lamp 30, wherein the rod body 10 is vertically arranged, the bottom of the rod body 10 is buried underground, the branch 20 is installed on the rod body 10, the lighting lamp 30 is provided with a plurality of lighting lamps 30, the plurality of lighting lamps 30 are installed on the branch 20, and the lighting lamps 30 can be used for landscape lighting. The body of rod 10 includes mobile jib 11 and buries pole 12, and mobile jib 11 and buries pole 12 all vertical setting and be cylindrically, buries pole 12 and is fixed in the bottom of mobile jib 11, and buries the axis of pole 12 and the axis collineation of mobile jib 11, buries the pole 12 and is used for burying underground, and mobile jib 11 is located on the ground, and branch 20 is fixed in on the mobile jib 11.

Referring to fig. 2 and 3, the buried rod 12 includes an upper cylinder 121, a lower cylinder 122, a partition 123, and a connection rod 124. The upper cylinder 121 is located above the lower cylinder 122, the axis of the upper cylinder 121 is collinear with the axis of the lower cylinder 122, a gap is formed between the bottom surface of the upper cylinder 121 and the top surface of the lower cylinder 122, the gap between the bottom surface of the upper cylinder 121 and the top surface of the lower cylinder 122 can be formed so that soil can enter the gap between the upper cylinder 121 and the lower cylinder 122, a weighting ring 1222 is fixedly connected to the inner wall, close to the top, of the upper cylinder 121, of the weighting ring 1222 is coplanar with the top surface of the upper cylinder 121, the bottom surface of the weighting ring 1222 is located in the middle of the upper cylinder 121, the overall weight of the buried rod 12 can be increased by using the weighting ring 1222, and therefore the overall center of gravity of the illumination tree can be moved downwards, and the stability of the illumination tree can be increased. The partition plate 123 is horizontally arranged, the partition plate 123 is a circular plate, the partition plate 123 is fixed in the lower cylinder 122, and the partition plate 123 is positioned in the middle of the lower cylinder 122; the connecting rod 124 is located on the axis of upper cylinder 121 and lower cylinder 122, the vertical rigid coupling in the upper surface of baffle 123 of the bottom of connecting rod 124 shows, connecting rod 124 top is located in upper cylinder 121, the top of connecting rod 124 is close to the bottom surface of weighing ring 1222, and the rigid coupling has bracing piece 1223 between the outer peripheral face at connecting rod 124 top and the inner peripheral face of upper cylinder 121, bracing piece 1223 is provided with a plurality of and evenly distributed along a week of upper cylinder 121, utilize a plurality of bracing pieces 1223 can guarantee the stability between connecting rod 124 and the upper cylinder 121, in order to improve the wholeness of buried rod 12, make upper cylinder 121 and lower cylinder 122 in the buried rod 12 be in the effect of wholly moving up and down, and then can make buried rod 12 carry out the wholely and remove, in order to facilitate the transport and the burying of operating personnel.

When burying the illumination tree, burial pole 12 buries underground, when burying the buried pole 12 with soil, earth can follow the gap department between upper cylinder 121 and lower cylinder 122 and get into lower cylinder 122 in to can further increase the weight of burying pole 12, further make the whole focus of illumination tree move down, and then can increase the grip of illumination tree in earth, with the stability that improves the illumination tree, solved the view illumination tree and have not had the root system and lead to the problem that lodging resistance is poor, realized squeezing into a large amount of earth with the pole body bottom in the illumination tree and improve the grip, with the stability.

Referring to fig. 3 and 4, the middle part of the connecting rod 124 is hollow and communicates with the top surface of the connecting rod 124, the inside of the main rod 11 is hollow, the top and the bottom of the main rod 11 are all communicated with the inside of the main rod 11, the wiring hole 1242 communicated with the inside of the connecting rod 124 is formed in the outer peripheral surface of the bottom of the connecting rod 124, the top surface of the lower cylinder 122 is provided with the opening 1221, the opening 1221 is semicircular, the openings 1221 are formed in a plurality of openings and uniformly distributed along the circumference of the lower cylinder 122, the openings 1221 are used for placing wire harnesses, and the wire harnesses can be distributed according to preset wiring by utilizing the openings 1221 so as to ensure the neatness of the wiring.

The cable buried underground can enter the buried rod 12 from the gap between the upper cylinder 121 and the lower cylinder 122, and can be placed in the opening 1221, then the cable can be coiled on the partition 123, and can enter the connecting rod 124 from the wiring hole 1242 of the connecting rod 124, and upwards pass through the main rod 11 to provide power for the illuminating lamp 30, and the cable can be coiled on the partition 123, so that the redundant cable buried outside the illuminating tree can be reduced, and further effective protection can be provided for the cable.

Referring to fig. 3, 4 and 5, a sliding groove 1241 is formed in the outer peripheral surface of the connecting rod 124, the sliding groove 1241 is vertical, a plurality of sliding grooves 1241 may be formed, in a specific implementation, 8 sliding grooves 1241 are uniformly formed along a circumference of the connecting rod 124, one end of the sliding groove 1241 is communicated with the top surface of the connecting rod 124, and the other end of the sliding groove 1241 is located below the top surface of the lower barrel 122. Each sliding groove 1241 is internally provided with a sliding rod 21 in a sliding manner, one end of each sliding rod 21 is positioned in each sliding groove 1241, the other end of each sliding rod 21 extends out of the sliding groove 1241 and is positioned above the top of each connecting rod 124, two sides of the bottom end of each sliding rod 21 are fixedly connected with side plates 211, the two side plates 211 are parallel to each other, a distance is reserved between the two side plates 211, the distance between the outer side faces of the two side plates 211 is smaller than the width of each sliding groove 1241, two ends of each side plate 211 are hinged with connecting rods 22, each connecting rod 22 is a bar-shaped rod, the swinging face of each connecting rod 22 is vertical to the peripheral face of each connecting rod 124, connecting strips 23 are fixedly connected between the ends of the two connecting rods 22, which are far away from one end of each sliding rod 21, and the length direction of each connecting strip 23 is consistent with the length direction of each sliding groove 1241, and each connecting rod 23, and each connecting rod 22 and each sliding rod 21 form a parallelogram.

With continued reference to fig. 3, 4 and 5, the connecting bar 23 is fixedly connected with an extending block 24 with an isosceles triangle cross section, the extending block 24 is used for extending a gap between the lower cylinder 122 and the upper cylinder 121, the side walls between two adjacent extending blocks 24 are close to each other, a plurality of extending blocks 24 are used for plugging the gap between the lower cylinder 122 and the upper cylinder 121, the extending parts of the extending blocks 24 can increase the circumferential diameter of the buried rod 12, so that the pulling resistance of the whole buried rod 12 can be improved, when the pulling resistance of the buried rod 12 is improved, the pulling resistance of the whole rod body 10 can be improved, so that the pulling resistance of the whole illumination tree can be improved, and the pulling resistance of the illumination tree can be improved only by using the extending blocks 24, so that microorganisms outside soil can be reduced from entering the upper cylinder 121 due to the plugging of the gap between the lower cylinder 122 and the upper cylinder 121, and damage to objects inside the buried rod 12 can be reduced.

Referring to fig. 3, 4 and 5, the top ends of the sliding rods 21 which are distributed at intervals extend inwards to form extension strips 25, pushing columns 26 are fixedly connected between the inner ends of the plurality of extension strips 25, and the outer circumferential surface of each pushing column 26 extends outwards from the upper cylinder 121 to form a first pushing rod 28; in addition, a push ring 27 is fixedly connected between top ends of the sliding rods 21 distributed in the partition, a second push rod 29 extends out of the upper cylinder 121 on the outer circumferential surface of the push ring 27, and a bar-shaped hole 1211 for vertically sliding the first push rod 28 and the second push rod 29 is vertically formed in the circumferential surface of the upper cylinder 121. When the extending block 24 needs to be pushed to the gap between the lower cylinder 122 and the upper cylinder 121, the push rod two 29 can be pushed downwards firstly, so that part of the slide rod 21 moves downwards, then part of the extending block 24 of the connecting rod 22 extends out of the gap between the lower cylinder 122 and the upper cylinder 121, then the push rod one is pushed downwards, so that the other part of the slide rod 21 moves downwards, then the connecting rod 22 pushes the other part of the extending block 24 to extend out of the gap between the lower cylinder 122 and the upper cylinder 121, and the push rod one 28 and the push rod two 29 can be used for enabling an operator to push the push column 26 and the push ring 27 downwards outside the upper cylinder 121 so as to facilitate the operation of the operator.

Referring to fig. 4, the first push rod 28 is provided with two push rods and an included angle between the two push rods is an acute angle, in implementation, the included angle between the two push rods 29 can be 60 degrees, in implementation, the included angle between the two push rods 28 and the included angle between the two push rods 29 are also 60 degrees, the directions of the included angles between the two push rods 28 and the two push rods 29 are opposite, a sector ring 201 which is horizontally arranged is fixedly connected between the ends of the two push rods 28 and between the ends of the two push rods 29, the sector ring 201 is located outside the upper cylinder 121, a plurality of conical blocks 202 are fixedly connected to the bottom surface of the sector ring 201, and the conical blocks 202 are used for being inserted on the ground. When the first push rod 28 and the second push rod 29 need to be pushed downwards, an operator can step down on the sector ring 201, so that the conical blocks 202 in the sector ring 201 enter the ground, the pulling resistance of the buried rod 12 can be improved, and the stability of the illumination tree is further improved.

The application can explain its functional principle by the following modes of operation:

When the illumination tree is required to be buried on the ground, an operator can firstly dig a pit on the ground and then insert the buried rod 12 into the pit, so that the lower cylinder 122 in the buried rod 12 is inserted into the pit bottom, soil can enter the lower part of the partition plate 123 in the lower cylinder 122, and then the soil is backfilled.

Then, an operator can respectively step down on the two sector rings 201, so that the conical blocks 202 in the sector rings 201 enter the ground, and in the downward moving process of the two sector rings 201, the push posts 26 and the push rings 27 can be respectively moved down, so that the connecting rod 22 pushes the extending blocks 24 to extend out of the gap between the lower cylinder 122 and the upper cylinder 121, the plurality of extending blocks 24 are used for sealing the gap between the lower cylinder 122 and the upper cylinder 121, and the extending parts of the extending blocks 24 can increase the circumferential diameter of the buried rod 12, so that the pulling resistance of the whole buried rod 12 can be improved.

In addition, the cable buried underground can enter the buried rod 12 from the gap between the upper cylinder 121 and the lower cylinder 122, and can be placed in the opening 1221, then the cable can be coiled on the partition 123, and can enter the connecting rod 124 from the wiring hole 1242 of the connecting rod 124, and upwards pass through the main rod 11 to provide power for the illuminating lamp 30, and because the cable can be coiled on the partition 123, the redundant cable can be reduced to be buried outside the illuminating tree, and further the cable can be effectively protected, and because the opening 1221 is formed in the top surface of the lower cylinder 122, the wiring harness can be placed by using the opening 1221, the extrusion of the wire harness by the extension block 24 is reduced, so that the damage to the wiring harness is reduced, and the wiring harness can be arranged according to the preset wiring by using the opening 1221, so that the cleanliness of the wiring harness is ensured.

The foregoing is only a preferred embodiment of the present application, but the scope of the present application is not limited thereto, and any person skilled in the art should be able to apply equivalents and modifications according to the technical scheme and the concept of the present application within the scope of the present application.

Claims

1. The utility model provides a gardens intelligence view illumination tree, including bury in body of rod (10) on ground and install branch (20) on body of rod (10), install light (30) on branch (20), its characterized in that, body of rod (10) include mobile jib (11) of mutual rigid coupling and bury underground buried rod (12), bury buried rod (12) including rigid coupling in upper cylinder (121) of mobile jib (11) bottom and be located lower cylinder (122) of upper cylinder (121) below, lower cylinder (122) top surface with have the interval between upper cylinder (121) bottom surface, lower cylinder (122) upper horizontal rigid coupling has baffle (123) on the inner wall, upper cylinder (121) with the rigid coupling has connecting rod (124) between baffle (123), lower cylinder (122) with gap part between upper cylinder (121) is located underground.

The connecting rod (124) is vertically provided with a sliding groove (1241), the sliding groove (1241) is provided with a plurality of connecting rods (22) and is uniformly distributed along the periphery of one end of the connecting rod (124), one end of the sliding groove (1241) is communicated with the top surface of the connecting rod (124), the other end of the sliding groove (1241) is positioned below the top surface of the lower cylinder (122), sliding rods (21) are arranged in the sliding groove (1241), two sides of the bottom end of each sliding rod (21) are fixedly connected with side plates (211), two ends of each side plate (211) are hinged with connecting rods (22), two connecting rods (22) are fixedly connected with connecting rods (23) between the ends, which are far away from one end of each sliding rod (21), of each connecting rod (23) is fixedly connected with a protruding block (24) with an isosceles triangle section, the protruding blocks (24) are used for protruding out of a gap part between the lower cylinder (122) and the upper cylinder (122), the side walls between the two adjacent protruding blocks (24) are mutually close, the inner ends of each sliding rod (21) are fixedly connected with pushing rods (25), a plurality of pushing rods (21) extend inwards, and are fixedly connected with pushing rods (27) respectively, and are fixedly connected with pushing rods (27);

A first push rod (28) extends outwards from the outer periphery of the push column (26) towards the upper cylinder (121), a second push rod (29) extends outwards from the outer periphery of the push ring (27) towards the upper cylinder (121), and a strip-shaped hole (1211) for vertically sliding the first push rod (28) and the second push rod (29) is vertically formed in the periphery of the upper cylinder (121);

The first push rods (28) are provided with two push rods, the included angle between the two push rods is an acute angle, the second push rods (29) are provided with two push rods, the included angle between the two push rods is an acute angle, the included angle between the two push rods (28) is opposite to the included angle between the two push rods (29), sector rings (201) which are horizontally arranged are fixedly connected between the ends of the two push rods (28) and between the ends of the two push rods (29), and the sector rings (201) are positioned outside the upper cylinder (121);

The middle part of the connecting rod (124) is hollow and is communicated with the top surface of the connecting rod (124), and a wiring hole (1242) communicated with the inside of the connecting rod (124) is formed in the outer peripheral surface of the bottom of the connecting rod (124);

a notch (1221) is formed in the top surface of the lower barrel (122), and the notch (1221) is used for placing a wire harness.

2. A landscape lighting tree according to claim 1, wherein the bottom surface of the fan-shaped ring (201) is fixedly connected with a plurality of conical blocks (202), and the conical blocks (202) are used for being inserted on the ground.

3. The intelligent landscape lighting tree according to claim 1, wherein a weighting ring (1222) is fixedly connected to an inner wall, close to the top, of the upper cylinder (121), the push posts (26) and the push rings (27) are both located in the weighting ring (1222), the top of the connecting rod (124) is close to the bottom surface of the weighting ring (1222), a supporting rod (1223) is fixedly connected between the outer peripheral surface of the top of the connecting rod (124) and the inner peripheral surface of the upper cylinder (121), and the supporting rods (1223) are provided with a plurality of supporting rods and are uniformly distributed along a circle of the upper cylinder (121).