CN113079857A - Energy-saving municipal afforestation frame - Google Patents

Abstract

The utility model relates to an energy-conserving formula municipal afforestation frame relates to the field of afforestation frame, including support and flowerpot, the support on fixedly connected with tray, the tray on still fixedly connected with anticreep ring, anticreep ring with the tray form the installation cavity that is used for installing the flowerpot, anticreep ring on still seted up the draw-in groove, the flowerpot on be equipped with and be used for the card to go into the fixture block in the draw-in groove. The draw-in groove including the input groove with the groove that slides, the input groove with the groove that slides communicate with each other, the groove level that slides set up, the vertical setting in input groove, the upper end in input groove upwards extend and run through the anticreep ring. This application has the effect that reduces the probability that the flowerpot dropped from the tray when receiving external force striking.

Description

Energy-saving municipal afforestation frame

Technical Field

The application relates to the field of afforestation frame, especially relate to an energy-conserving formula municipal afforestation frame.

Background

At present, in municipal administration system, the flowerpot is placed and can play the effect of beautifying the environment and filtering air, has better setoff to whole market appearance, consequently the wide application is in town road both sides.

Referring to fig. 1 below, a greening support in the related art includes a support 1 and a flowerpot 3, wherein a tray 2 for holding the flowerpot 3 is disposed on the support 1.

With respect to the related art among the above, the inventors consider that there is a defect that the flowerpot placed on the tray is easily dropped when being struck by an external force.

Disclosure of Invention

In order to reduce the flowerpot when receiving external force striking, from the probability that the tray dropped, this application provides an energy-conserving formula municipal afforestation frame.

The application provides an energy-conserving formula municipal afforestation frame adopts following technical scheme:

the utility model provides an energy-conserving formula municipal afforestation frame, includes support and flowerpot, the support on fixedly connected with tray, the tray on still fixedly connected with anticreep ring, anticreep ring with the tray form the installation cavity that is used for installing the flowerpot, anticreep ring on still seted up the draw-in groove, the flowerpot on be equipped with and be used for the card to go into the fixture block in the draw-in groove.

Through adopting above-mentioned technical scheme, when using, place the flowerpot in the installation cavity, and go into to the draw-in groove through the fixture block card in, consequently can effectively reduce when receiving the striking, the probability that the flowerpot dropped from the tray.

Optionally, the draw-in groove including the input groove with the groove that slides, the input groove with the groove that slides communicate with each other, the groove level that slides set up, the vertical setting in input groove, the upper end of input groove upwards extend and run through the anticreep ring.

Through adopting above-mentioned technical scheme, when putting into the flowerpot to the mounting groove, the fixture block gets into earlier to putting into the inslot, gets into through the input groove when the inslot that slides when the fixture block passes through, rotates the flowerpot for the fixture block is keeping away from the orientation removal of input groove at the inslot orientation that slides, and then can play the ascending spacing effect of vertical side to the fixture block, and then further reduces when receiving the striking, and the probability that the flowerpot dropped from the tray.

Optionally, the clamping groove further comprises a limiting groove, the limiting groove is located below the sliding groove and far away from one end of the placing groove, and the limiting groove is communicated with the sliding groove.

Through adopting above-mentioned technical scheme, when using, when the fixture block removed to the groove of sliding and when spacing groove intercommunication department, the fixture block got into to the spacing inslot under the effect of gravity, consequently can carry out the horizontal rotation spacing to the fixture block, and then can further reduce when receiving the striking, the probability that the flowerpot dropped from the tray.

Optionally, the flowerpot on offer the planting chamber that is used for planting the plant, the flowerpot on still be equipped with the drainage tube that is linked together with planting the chamber, drainage tube fixed mounting in the bottom of flowerpot, the tray on still be equipped with the water storage chamber that is used for storing water, the tray on still be equipped with the water conservancy diversion hole that is linked together with the water storage chamber, the drainage tube stretch into the water conservancy diversion hole with the water storage chamber be linked together.

Through adopting above-mentioned technical scheme, install after the installation cavity when the flowerpot, the water of water storage intracavity can enter into to planting the intracavity through the evaporation, and then can reach and carry out moist purpose to the soil of planting the intracavity.

Optionally, the tray on be equipped with and rotate the groove, the rotation groove with the rotation route of drainage tube coincide mutually, the water conservancy diversion hole be located the rotation inslot, the tray on still be equipped with the spout, the spout in along the rotation route sliding connection of drainage tube have a slide, still be equipped with reset spring in the spout, reset spring's one end with the slide offset, the other end with the chamber wall of spout offset, the slide stretch into to rotate the inslot for cover the water conservancy diversion hole.

Through adopting above-mentioned technical scheme, when the flowerpot has not been placed to the installation intracavity, the water conservancy diversion hole is covered by the slide, consequently can effectively slow down the evaporation of water in the water storage intracavity and from the exhaust rate of water conservancy diversion hole.

Optionally, a flow guide pipe is arranged in the flow guide hole, one end of the flow guide pipe extends into the water storage cavity, and the other end of the flow guide pipe is used for being connected with the drainage pipe.

Through adopting above-mentioned technical scheme, when using, the drainage tube stretches into the one end of downthehole one end of water conservancy diversion and the one end of honeycomb duct and contacts, consequently when using, during water in the storage water tank can enter into the soil in the flowerpot through the mode of evaporation, and then can play moist effect to the soil in the flowerpot.

Optionally, a limiting plate is further arranged in the rotating groove, the limiting plate extends into the sliding groove, and the lower surface of the limiting plate is in contact with the upper surface of the sliding plate.

Through adopting above-mentioned technical scheme, when using, the existence of limiting plate can effectively reduce the probability that the slide deviates from in rotating groove or the spout.

Optionally, the planting cavity is provided with a moisture absorption layer and a filter layer from bottom to top in sequence.

Through adopting above-mentioned technical scheme, when using, the moisture absorption layer makes and enters into to the more even of planting the steam diffusion of intracavity, is meetting rainwater weather simultaneously, and when the rainwater of planting the intracavity was too much to the infiltration of water storage intracavity, the filter layer can play good filter effect.

In summary, the present application includes at least one of the following beneficial technical effects:

the probability that the flowerpot falls off the tray when being impacted by external force can be reduced;

can keep the soil in the flowerpot to have certain humidity, can reduce the watering water, and then more energy-conserving water conservation.

Drawings

Fig. 1 is a schematic view of a related art structure.

Fig. 2 is a schematic structural diagram of an embodiment of the present application.

Fig. 3 is a schematic sectional structure view of a flowerpot and a tray in an embodiment of the application.

Fig. 4 is an enlarged schematic view of a portion a in fig. 2.

Fig. 5 is a sectional structural schematic view of a flowerpot and a slip-proof ring according to another embodiment of the present application.

Description of reference numerals: 1. a support; 2. a tray; 21. a rotating groove; 22. a chute; 23. a flow guide hole; 3. a flower pot; 31. a clamping block; 32. a moisture-absorbing layer; 33. a filter layer; 34. a hidden ring; 4. a water storage cavity; 5. the anti-drop ring; 51. a card slot; 511. putting the glass into a groove; 512. a sliding groove; 513. a limiting groove; 61. a return spring; 62. a slide plate; 63. a limiting plate; 7. a drainage tube; 71. a first water absorption rod; 8. a flow guide pipe; 81. and a second water absorption rod.

Detailed Description

The present application is described in further detail below with reference to figures 2-5.

The embodiment of the application discloses energy-conserving formula municipal afforestation frame. Referring to fig. 2 and 3, the flowerpot support comprises a support 1 and a flowerpot 3, wherein a tray 2 is fixedly connected to the support 1, an anti-falling ring 5 is fixedly connected to the tray 2, and the anti-falling ring 5 and the tray 2 form an installation cavity for installing the flowerpot 3. In this embodiment, flowerpot 3 and installation cavity all are cylindricly, and the diameter of the external diameter of flowerpot 3 and installation cavity equals. Two clamping grooves 51 are formed in the anti-falling ring 5, the clamping grooves 51 are communicated with the installation cavity, and clamping blocks 31 used for being clamped into the clamping grooves 51 are fixedly connected to the side face of the flowerpot 3. The latch 31 has two and one-to-one correspondence with the two latch grooves 51.

When using, when flowerpot 3 was located the installation cavity, fixture block 31 was located draw-in groove 51 this moment, therefore fixture block 31 and anticreep ring 5 can play fixed effect to flowerpot 3, and then when reducing and receiving external force striking, flowerpot 3 was from the probability that tray 2 dropped.

Referring to fig. 3 and 4, the card slot 51 includes a placing slot 511, a sliding slot 512 and a limiting slot 513, the sliding slot 512 is horizontally disposed, and the placing slot 511 and the limiting slot 513 are vertically disposed and respectively located at two ends of the sliding slot 512. The placing groove 511 is positioned above the sliding groove 512, the lower end of the placing groove is communicated with the sliding groove 512, and the upper end of the placing groove extends upwards to penetrate through the anti-drop ring 5. The limiting groove 513 is located below the sliding groove 512 and the upper end of the limiting groove is communicated with the sliding groove 512.

When the flowerpot 3 is placed into the clamping groove 51, the fixture block 31 is aligned with the placing groove 511, then the flowerpot 3 is moved downwards so that the fixture block 31 enters the placing groove 511 and enters the sliding groove 512 through the placing groove 511, when the fixture block 31 is located in the sliding groove 512, the flowerpot 3 is rotated until the flowerpot 3 moves to the position of the limiting groove 513, then the flowerpot 3 is moved downwards again so that the fixture block 31 moves downwards in the limiting groove 513 until the bottom of the flowerpot 3 is contacted with the tray 2. When the flowerpot 3 is impacted, the side direction is mostly stressed, and therefore, the fixture block 31 is positioned in the limiting groove 513, so that the probability that the flowerpot 3 falls off from the tray 2 can be effectively reduced.

Referring to fig. 3 and 4, a planting cavity for planting plants is arranged on the flowerpot 3, and a moisture absorption layer 32, a filter layer 33 and soil are sequentially arranged in the planting cavity from bottom to top. In this embodiment, the moisture absorption layer 32 is a cotton cloth, and the filter layer 33 is a filter cloth. Be equipped with on flowerpot 3 with plant the drainage tube 7 that the chamber was communicating mutually, in this embodiment, drainage tube 7 is two and the symmetry sets up. The drainage tube 7 is fixedly connected with the bottom end of the flowerpot 3, and a first water absorption rod 71 is filled in the drainage tube 7. The lower end of the first water absorption rod 71 extends out of the drainage tube 7, the upper end of the first water absorption rod 71 is flush with the upper end of the drainage tube 7 and is in contact with the moisture absorption layer 32, and the first water absorption rod 71 is made of cotton cloth.

Referring to fig. 3 and 4, the tray 2 is provided with a water storage cavity 4, a communication hole and a diversion hole 23, the communication hole is used for communicating the water storage cavity 4 with the outside, one end of the diversion hole 23 is communicated with the water storage cavity 4, and the other end is communicated with the installation cavity. Fixedly connected with honeycomb duct 8 in the water conservancy diversion hole 23, honeycomb duct 8 intussuseption is filled with two 81 of the stick that absorb water, and the upper end of two 81 of the stick that absorb water stretches out in honeycomb duct 8, and the lower extreme is leveled mutually with honeycomb duct 8's lower extreme, and two 81 of the stick that absorb water are the cotton material. One end of the draft tube 8 extends into the water storage cavity 4. The other end is positioned in the diversion hole 23.

When the flowerpot 3 is placed on the tray 2, the drainage tube 7 extends into the diversion hole 23, and the lower end of the first water absorption rod 71 is abutted against the upper end of the second water absorption rod 81. Therefore, when in use, the lower end of the second water absorption rod 81 extends into the water storage cavity 4, so that water in the water storage cavity 4 can rise to the upper end of the second water absorption rod 81 along the lower end of the second water absorption rod 81 under the capillary action. The lower end of the first water absorption rod 71 is abutted to the upper end of the second water absorption rod 81, so that under the capillary action, water can rise from the upper end of the first water absorption rod 71 to the upper end of the first water absorption rod 71, and because the upper end of the first water absorption rod 71 is in contact with the moisture absorption layer 32, the water can be diffused along the moisture absorption layer 32, and then the whole planting cavity can be well wetted.

When meeting the rainy weather, the rainwater can enter into soil along the edge, and after ponding saturation in the soil, ponding can enter into in the water storage chamber 4 through water absorption stick one 71 and water absorption stick two 81. And then can collect the effect to the rainwater, also can effectively reduce the water content in the soil too much and lead to being unfavorable for vegetation's probability simultaneously.

Referring to fig. 3 and 4, the tray 2 is further provided with a rotating groove 21 and a sliding groove 22, the sliding groove 22 is communicated with the rotating groove 21, and both the sliding groove 22 and the rotating groove 21 are coincident with the rotating path of the drainage tube 7. The rotating grooves 21 are two and correspond to the two drainage tubes 7 one by one. The diversion hole 23 is positioned in the rotating groove 21, the sliding groove 22 is internally connected with a sliding plate 62 along the rotating path of the drainage tube 7 in a sliding way, the sliding groove 22 is also internally fixedly connected with a return spring 61, one end of the return spring 61 is fixedly connected with one end of the sliding groove 22 far away from the sliding plate 62, and the other end of the return spring is fixedly connected with the sliding plate 62. Still two limiting plates 63 of fixedly connected with in the groove 21 rotate, and limiting plate 63 sets up in the both sides of rotating groove 21 relatively, and in limiting plate 63 extended to spout 22, the lower surface of limiting plate 63 contacted with the upper surface of slide 62. When the return spring 61 is in a non-compressed state, the slide plate 62 extends into the rotation groove 21 and covers the diversion hole 23. At this time, the slide plate 62 and one end of the rotation slot 21 have an inlet port for the draft tube 7 to enter.

When putting into flowerpot 3 to the installation intracavity, when fixture block 31 gets into to the groove 512 that slides through putting into groove 511, the lower extreme of drainage tube 7 is located the entrance, when rotating flowerpot 3, drainage tube 7 rotates along with flowerpot 3, and offset with slide 62 at the rotation in-process, and drive slide 62 and slide, when fixture block 31 rotates to spacing groove 513 department, drainage tube 7 is located water conservancy diversion hole 23 directly over, move flowerpot 3 downwards afterwards, when flowerpot 3 is supported by tray 2, drainage tube 7 stretches into in the water conservancy diversion hole 23, the lower extreme of the stick of absorbing water 71 this moment offsets with the upper end of the stick of absorbing water two 81.

In another embodiment, referring to fig. 5, a hiding ring 34 is further disposed on the pot 3, the hiding ring 34 is fixedly connected to the outer circumference of the pot 3 and located above the fixture block 31, and the width of the hiding ring 34 is equal to the width of the anti-drop ring 5. When the pot 3 is positioned in the mounting chamber and supported by the tray 2, the lower surface of the concealing ring 34 contacts the upper surface of the anti-slip ring 5. The connection part of the sliding groove 512 and the limiting groove 513 is positioned in the middle of the limiting groove 513.

When the flowerpot is used, the hidden ring 34 enables the whole effect of the flowerpot 3 and the anti-falling ring 5 to be better, and meanwhile, the putting groove 511 can be covered, so that the probability that external sundries enter the putting groove 511 is reduced. Meanwhile, when the flowerpot 3 is taken, the flowerpot 3 needs to be moved up to a certain distance, so that the flowerpot 3 can be rotated only when the fixture block 31 corresponds to the sliding groove 512, the fixture block 31 is moved into the sliding groove 512, and finally the fixture block is moved out through the placing groove 511.

When putting the state, flowerpot 3 and anticreep ring 5 integrative effect is better, therefore non-maintainer when flowerpot 3 takes, pulls together with anticreep ring 5 easily, and then leads to can't take out flowerpot 3. When pulling flowerpot 3 upwards, fixture block 31 upwards slides to the top of spacing groove 513, and flowerpot 3 is unable to be rotated about this moment, and fixture block 31 also can't be deviate from spacing groove 513, and then has further strengthened the degree of difficulty that non-maintainer took out flowerpot 3. The probability of the flowerpot 3 being lost can thus be reduced.

The implementation principle of the energy-saving municipal afforestation frame of the embodiment of the application is as follows: in use, the block 31 is aligned with the putting groove 511, and then the flowerpot 3 is moved downward, so that the block 31 enters the sliding groove 512, at this time, one end of the drainage tube 7 is positioned in the entrance, when the flowerpot 3 is rotated, the drainage tube 7 rotates along with the flowerpot 3 and pushes against the sliding plate 62 in the rotating process, and drives the sliding plate 62 to slide, when the fixture block 31 rotates to the position of the limit groove 513, the drainage tube 7 is positioned right above the diversion hole 23, and then the flowerpot 3 is moved downwards, when the flowerpot 3 is supported by the tray 2, the drainage tube 7 extends into the diversion hole 23, the lower end of the first water absorption rod 71 is propped against the upper end of the second water absorption rod 81, therefore, in the using process, the water in the water storage cavity 4 rises to the moisture absorption layer 32 along the first water absorption rod 71 and the second water absorption rod 81 under the action of the capillary phenomenon and permeates into the soil in the planting cavity, and a good wetting effect can be achieved.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides an energy-conserving formula municipal afforestation frame which characterized in that: including support (1) and flowerpot (3), support (1) on fixedly connected with tray (2), tray (2) on go back fixedly connected with anticreep ring (5), anticreep ring (5) with tray (2) form the installation cavity that is used for installing flowerpot (3), anticreep ring (5) on still seted up draw-in groove (51), flowerpot (3) on be equipped with and be used for card to go into fixture block (31) in draw-in groove (51).

2. The energy-saving municipal greening frame of claim 1, wherein: draw-in groove (51) including input groove (511) and sliding groove (512), input groove (511) with sliding groove (512) be linked together, sliding groove (512) level set up, input groove (511) vertical setting, the upper end of input groove (511) upwards extend and run through anticreep ring (5).

3. The energy-saving municipal greening frame of claim 2, wherein: the clamping groove (51) further comprises a limiting groove (513), the limiting groove (513) is located below the sliding groove (512) and far away from one end of the placing groove (511), and the limiting groove (513) is communicated with the sliding groove (512).

4. The energy-saving municipal greening frame of claim 3, wherein: flowerpot (3) on offer the planting chamber that is used for planting the plant, flowerpot (3) on still be equipped with and plant drainage tube (7) that the chamber is linked together, drainage tube (7) fixed mounting in the bottom of flowerpot (3), tray (2) on still be equipped with water storage chamber (4) that are used for the storage water, tray (2) on still be equipped with water conservancy diversion hole (23) that are linked together with water storage chamber (4), drainage tube (7) stretch into water conservancy diversion hole (23) with water storage chamber (4) be linked together.

5. The energy-saving municipal greening frame of claim 4, wherein: tray (2) on be equipped with rotation groove (21), rotation groove (21) with the rotation path coincidence of drainage tube (7), water conservancy diversion hole (23) be located rotation groove (21) in, tray (2) on still be equipped with spout (22), spout (22) in along the rotation path sliding connection of drainage tube (7) have slide (62), still be equipped with reset spring (61) in spout (22), reset spring (61) one end with slide (62) offset, the other end with the chamber wall of spout (22) offset, slide (62) stretch into to rotating groove (21) in for cover water conservancy diversion hole (23).

6. The energy-saving municipal greening frame of claim 4, wherein: the water conservancy diversion hole (23) in be equipped with honeycomb duct (8), honeycomb duct (8) one end stretch into to water storage chamber (4) in, honeycomb duct (8) the other end be used for with drainage tube (7) be connected.

7. The energy-saving municipal greening frame of claim 5, wherein: the rotary groove (21) is internally provided with a limiting plate (63), the limiting plate (63) extends into the sliding groove (22), and the lower surface of the limiting plate (63) is in contact with the upper surface of the sliding plate (62).

8. The energy-saving municipal greening frame of claim 4, wherein: the planting cavity is internally provided with a moisture absorption layer (32) and a filter layer (33) from bottom to top in sequence.

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