CN216701047U - Planting device generates heat - Google Patents

Abstract

The utility model discloses a heating planting device, and belongs to the technical field of planting devices. The purpose of the utility model is realized as follows: a planting device generates heat for fixing plants on a mounting surface, comprising: a planting member having a planting cavity for carrying a plant; and a heat generating member for radiating heat under a low temperature environment; the heat dissipation device is arranged on at least one end face of the planting component and used for transferring the heat dissipated to the planting component; wherein the heat generating member has: the heating piece is used for radiating heat after being externally connected with a power supply. The heating member can emit heat in a low-temperature environment, so that heat can be supplied to plants in the low-temperature environment in winter, the plants can be prevented from dying in the low-temperature environment, the survival rate is increased, and the maintenance cost of greening equipment is reduced.

Description

Planting device generates heat

Technical Field

The utility model belongs to the technical field of planting devices, and particularly relates to a heating planting device.

Background

At present, the existing outdoor garden plants, particularly flowers with ornamental value, are easy to die due to low temperature in winter in the north. Then, the garden maintenance personnel is required to spend capital and manpower to supplement new flowers, which causes resource waste and increases the greening maintenance cost.

In order to solve the above technical problems, there are chinese patents, the patent numbers of which are: CN201820409874.6 specifically discloses a plant stereoscopic planting device, which utilizes the form of adding the heat preservation cabinet body to keep warm, reduces the influence of ambient temperature to planting. However, the technical scheme can only realize heat preservation and does not solve the problem of plant survival in a low-temperature environment.

In addition, there are also Chinese patents, the patent numbers of which are: CN201820266407.2 discloses an apparatus for breeding vegetables, and specifically discloses a heating apparatus for breeding vegetables, wherein a heating jacket is installed in a breeding unit, and the heating jacket is connected with a heat supply control mechanism to supply heat. Although the problem of plant existence under low temperature environment has been solved to above-mentioned structure, the heating jacket is worn to establish in the inside of breeding unit to above-mentioned structure, has increased the complexity of processing aspect, and especially when outdoor planting wall area is great, its installation just need consume huge manpower and materials, also has the inconvenient problem of maintenance moreover.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a heating planting device which is stable in structure and convenient to assemble.

The purpose of the utility model is realized as follows: a planting device generates heat for fixing plants on a mounting surface, comprising:

a planting member having a planting cavity for carrying a plant; and

a heat generating member for radiating heat in a low temperature environment; the heat dissipation device is arranged on at least one end face of the planting component and used for transferring the heat dissipated to the planting component;

wherein the heat generating member has:

the heating piece is used for radiating heat after being externally connected with a power supply.

Preferably, the planting member is also provided with a bendable flexible member body which is used for adapting to the appearance of the installation surface and attaching to the installation surface;

the planting chamber is connected with the flexible member body.

Preferably, the mounting surface is a columnar surface, and the flexible member body is wound around the outer side of the columnar surface.

Preferably, the planting chamber is a flexible bag.

Preferably, the flexible member body is configured integrally with the implantation chamber, either fixedly attached by adhesive or ultrasonically welded.

Preferably, the heating component is also provided with a heat preservation part which covers the outer side of the heating part and is used for reducing heat loss;

the flexible member main body and the heat preservation piece are integrally formed and configured, and the flexible member main body and the heat preservation piece are oppositely arranged to form an accommodating gap;

the heat generating member is located within the receiving gap.

Preferably, the heating component is provided with a connecting piece, and the two sides of the connecting piece are respectively provided with the heating component and the planting component; and the connecting piece is at least partially connected with the planting component.

Preferably, at least two planting members are included, and every two adjacent planting members are transversely or longitudinally connected;

the connecting piece is attached to the two planting components at least at the same time.

Preferably, the connecting piece and the heat preservation piece are both of membrane structures, and the connecting piece is attached to at least one side end face of the planting component.

Preferably, the heat generating component has a plurality of bending parts;

the outer end part of the planting component is provided with a convex part or a concave part;

the bending part is used for being attached to the protruding part or the concave part.

Preferably, a power supply means is also included, having at least:

the main circuit is used for externally connecting a power supply; and

and the connecting assembly is electrically connected with the main line.

Preferably, the main line has a main cable and a socket electrically connected to the main cable; and

the connecting assembly has:

the plug is electrically connected with the socket;

and the two ends of the positive and negative power wires are respectively electrically connected with the plug and the heating piece.

Preferably, the number of the connecting assemblies is at least two, and the connecting assemblies are respectively positioned on different planting members;

at least two of the connection assemblies are connected in parallel with the main line.

Preferably, an accommodating cavity is formed in the planting component, and the heating component is arranged in the accommodating cavity in a penetrating manner;

the connecting assembly or the heating component at least partially extends out of the accommodating cavity and is used for externally connecting a main circuit.

Compared with the prior art, the utility model has the outstanding and beneficial technical effects that:

1. the heating member can emit heat in a low-temperature environment, so that heat can be supplied to plants in the low-temperature environment in winter, the plants can be prevented from dying in the low-temperature environment, the survival rate is increased, and the maintenance cost of greening equipment is reduced.

2. The difficulty of mounting can be reduced by disposing the heat generating member on the end face. Without the need to install a heat generating member through the planting member to heat the plants. Correspondingly, the heating component is arranged on the end surface of the planting component, so that the installation can be quickly realized, and even the appearance of the existing planting component is not required to be changed.

3. The flexible member main body can adjust the shape of the flexible member main body by virtue of the flexibility according to the concave-convex condition of the surface of the mounting surface, so that the flexible member main body can adapt to the shapes of different mounting surfaces, further reduces the mounting difficulty and increases the adaptability to different mounting environments. And is particularly suitable for the construction aiming at landscape modeling, and is more convenient.

4. The utility model can also greatly reduce the volume occupation and simultaneously reduce the transportation cost compared with the traditional planting box made of hard plastics by designing the component main body and the planting cavity to be flexible.

5. The planting component and the heating component are integrally designed, so that the mounting efficiency can be further improved, the heating component does not need to be mounted, and the mounting efficiency is higher. And the problem that the heating component falls off or is disconnected from the planting component does not need to be considered.

Drawings

FIG. 1 is a schematic view of a planting member according to one embodiment of the present invention;

FIG. 2 is a second schematic view of a planting member according to a first embodiment of the present invention;

FIG. 3 is a third schematic view of a planting structure according to one embodiment of the present invention;

FIG. 4 is a schematic view of a planting member according to an embodiment of the present invention;

FIG. 5 is a cross-sectional view of a heated implanting device according to one embodiment of the present invention;

FIG. 6 is an enlarged view of a portion of FIG. 5 at A;

FIG. 7 is a perspective view of a thermal growing apparatus according to one embodiment of the present invention;

FIG. 8 is a perspective view of a heating planting device according to a second embodiment of the present invention;

fig. 9 is an enlarged partial view of portion B of fig. 8;

FIG. 10 is a second perspective view of the heating planting device according to the second embodiment of the present invention;

FIG. 11 is a third perspective view of a heating planting device according to a second embodiment of the present invention;

FIG. 12 is a fourth perspective view of the heating planting device according to the second embodiment of the present invention;

FIG. 13 is a fifth perspective view of the heating planting device according to the second embodiment of the present invention;

FIG. 14 is a sixth perspective view of the heating planting device according to the second embodiment of the present invention;

FIG. 15 is a seventh perspective view of the heating planting device according to the second embodiment of the present invention;

FIG. 16 is an eighth perspective view of the heating planting device in the second embodiment of the present invention;

FIG. 17 is a ninth perspective view of the heating planting device in the second embodiment of the present invention;

FIG. 18 is a cross-sectional view of a heating planting device according to a second embodiment of the present invention;

FIG. 19 is an eleventh perspective view of a thermal planting device according to a second embodiment of the present invention;

FIG. 20 is a twelfth perspective view of a thermal planting device according to a second embodiment of the present invention;

FIG. 21 is a front perspective view of a heating planting device according to a third modification of the present invention;

fig. 22 is a perspective view of the back of a heating planting device according to a third modification of the present invention;

FIG. 23 is a perspective view of a heat planting device according to a fourth modification of the present invention;

FIG. 24 is a front view of a heat planting device according to a fourth modification of the present invention;

FIG. 25 is a sectional view taken along line C-C of FIG. 24;

fig. 26 is a partial enlarged view at B in fig. 25;

FIG. 27 is a perspective view of a thermal planting device according to a fourth embodiment of the present invention;

FIG. 28 is a perspective view of a fifth embodiment of a thermal planting device according to the present invention;

FIG. 29 is a second perspective view of the heating planting device in the fifth embodiment of the present invention;

FIG. 30 is a third perspective view of a heating planting device according to a fifth embodiment of the present invention;

fig. 31 is a partial enlarged view at D in fig. 30.

In the figure: 1-planting members; 2-a heat-generating component; 3-culture medium; 4-a power supply means; 11-a planting chamber; 12-a flexible member body; 13-a flexible bag body; 14-a projection; 15-a containing cavity; 16-a drain pipe; 21-a heat generating member; 22-a heat preservation member; 23-a connector; 24 a bent portion; 31-an outer end; 41-main cable; 42-a socket; 43-a plug; 44-power line.

Detailed Description

The utility model is further described below in terms of specific examples.

The utility model particularly discloses a heating planting device which is used for planting plants on a mounting surface; it has a planting member 1, on which planting member 1 there is also a planting cavity 11 for carrying plants. Generally, the cultivation medium 3 can be directly placed in the planting cavity 11 to plant the plants, or the planting pot can be placed in the planting cavity 11, and then the cultivation medium 3 and the plants are placed in the planting pot to plant the plants.

The mounting surface of the present invention, which is essentially the location where the planting device is mounted, may be a shelf, and the mounting is achieved by fixing the planting member 1 to the shelf, and the mounting surface is on the shelf. The installation structure can also be similar to a columnar body, such as a pier of an overhead bridge, and the columnar surface of the pier can be the installation surface; the wall can also be a wall, and the wall surface is the mounting surface.

The culture medium 3 of the present invention can be either conventional soil or other organic cotton or medium for plant cultivation. In addition, in the present invention, the number of the planting members 1 and the number of the planting cavities 11 do not need to correspond to one another, and one planting member 1 may have two, three or more planting cavities 11. Especially, when the planting member 1 is applied to outdoor large-scale planting wall projects, the number of the planting cavities 11 in one planting member is larger if necessary.

Moreover, based on the plurality of planting chambers 11, the arrangement of the planting chambers 11 may be triangular, inverted triangular, quadrangular or in other forms.

In addition, the planting device further comprises a heating component 2 which is used for emitting heat under the low-temperature environment, so that heat can be supplied to plants under the low-temperature environment in winter, the plants can be prevented from dying under the low-temperature environment, the survival rate is increased, and the maintenance cost of greening equipment is reduced.

Also, in the present invention, the heat generating member 2 is to be disposed at least one end surface of the planting member 1 for transferring the emitted heat to the planting member 1. The advantage of the arrangement at the end face is that the difficulty of mounting can be reduced. Without the need for a heating member to be installed through the planting member 1 to heat the plants as in the prior art. By arranging the heat generating member 2 on the end face of the planting member 1, the installation can be quickly achieved even without changing the outer shape of the existing planting member 1.

Moreover, one planting component 1 at least has six end surfaces of an upper end surface, a lower end surface, a left end surface, a right end surface, a front end surface and a rear end surface, the heating component 2 can be configured, and the heating component 2 can be arranged on at least one end surface no matter in what scene the planting component 1 is or connected in any mode, so that the planting component is more convenient and flexible, and has a wider application range.

Meanwhile, a plurality of heating components 2 can be arranged on one planting component 1, so that the heating power is increased.

Meanwhile, in the present invention, the heat generating member 2 has at least:

the heating element 21 is used for radiating heat after being externally connected with a power supply; and

and the heat insulation part 22 covers the outer side of the heating part 21 and is used for reducing heat loss.

The heat source of the heating element 21 can be heat dissipation by converting electric energy into heat energy, or heat dissipation can be realized by designing the heating element 21 into a pipeline and then introducing hot air into the pipeline, which is the same as the northern heating principle.

The heat-insulating member 22 may be made of a flexible heat-insulating cotton material, or may be made of other materials having a heat-insulating effect, such as EVA or pearl foam, or may be made of other materials having a heat-insulating effect. The embodiment of the present invention will be exemplified based on different planting members 1 and heat generating members 2.

[ EXAMPLES one ]

As shown in fig. 1 to 7, in the present embodiment, most of the planting members 1 in the prior art are made of hard plastic. In this embodiment the planting member 1 also has a bendable flexible member body 12, the planting chamber 11 being connected to the flexible member body 12. The flexible member body 12 is used to conform to and adhere to the mounting surface profile, thereby providing greater flexibility and ease of installation.

That is to say, firstly, the planting member 1 described in the present embodiment includes the planting cavity 11 and the member body, and the member body is flexible, that is, it can be bent, and also can correspondingly adjust its shape by virtue of the flexible characteristics according to the concave-convex condition of the surface of the installation surface, so as to adapt to the shapes of different installation surfaces, thereby further reducing the installation difficulty and increasing the adaptability to different installation environments.

And the flexible component main part can greatly reduce the volume occupation and reduce the transportation cost compared with the traditional planting box made of hard plastics in daily transportation.

It should be noted that the attachment described in the present embodiment does not mean that the concave and convex surfaces which are different in size along the installation surface must be attached to each other, but is attached to the installation surface as a whole. Thus, in this embodiment, the mounting surface may be a cylindrical surface with the flexible member body 12 disposed around the outside of the cylindrical surface.

The columnar surface may be an outer end portion 31 of the pier, and the flexible member body is wound around the pier, so that the enclosure of the pier is rapidly realized, while if the prior art is adopted, only one column is formed in a polygonal columnar form through a bonding frame, so that the pier is enclosed. Therefore, the assembly difficulty is greatly reduced, and a brand new assembly idea is provided.

The bridge is applied to the bridge pier only in one application scene, and can adapt to various application scenes through the flexibility of the member main body, wherein the application scenes comprise shapes with specific ornamental effects, such as plants, animals or cartoon models, and the installation can be quickly realized through the flexibility of the member main body, so that the bridge is very light and simple.

Meanwhile, in the present embodiment, in order to further exert the advantage of flexibility, the planting chamber 11 is designed as a flexible bag body 13. The bag body is designed to bear plants; then the flexible bag body itself can conveniently be folded and accomodate, and very big reduction volume occupies to reduce the commodity circulation cost. Meanwhile, the production end can be easier and more efficient; during daily maintenance, the flexible member main body 12 is only required to be detached from the mounting surface and then covered on the mounting surface again, so that the maintenance method is more convenient and quicker, and the construction difficulty is reduced.

And at the same time, matching with the flexible member body 12, it is possible to further apply to various uneven mounting surfaces.

Thus, when both the member body and the implantation chamber 11 are made of flexible material, it is preferred that the flexible member body 12 is configured integrally with the implantation chamber 11, or fixedly attached by an adhesive, or ultrasonically welded. Therefore, the installation is more convenient and rapid, and the efficiency can be kept at the production end.

The specific implementation manner of the flexible member main body 12 is that in the present embodiment, the flexible member main body 12 and the thermal insulation piece 22 are configured by integral molding, and the flexible member main body 12 and the thermal insulation piece 22 are oppositely arranged to form an accommodation gap; the heat generating member 2 is located in the accommodating gap. The structure design is simple, and the characteristic of strong adaptability of the flexible material can be fully exerted; meanwhile, the heating element is further added to supply heat to the plants in the north, thereby achieving multiple purposes.

That is, the heating planting device is provided with a main film, and the main film at least has an outer end part and an inner end part which are formed by folding;

a receiving gap is formed between the outer end part and the inner end part;

the accommodating gap is used for installing the heating component 2;

the outer end is the flexible member body 12;

the inner end is the thermal insulating member 22, and the heat generating member 21 is located between the outer end and the inner end. The joints between the outer end part and the inner end part are generally welded by ultrasonic waves, or bonded by adhesive sticker or hot melt, or can be connected in a shrinkage mode after being blown by hot air.

In this case, the heat generating material 21 may be a heating wire or a whole sheet-shaped heat generating sheet. However, both the heating wire and the heating sheet are converted into heat energy through electric energy, and in addition, the flexible material is adopted to match the application of the flexible component body 12. The flexibility refers to the flexibility and the ability to be bent.

The primary film is not meant to be a film, which may be a stack of films, but which at least should have the characteristic of being flexible, deformable, and bendable. In general, in practical use, the insulation material also needs to have insulation property so as to prevent safety accidents. The main film can be made of EVA or pearl foam, or other materials with heat insulation effect.

As shown in fig. 1 to 5, in this embodiment, a drain pipe 16 is formed at the outer edge of the planting cavity 11 to retain moisture and drain excess moisture.

[ example two ]

As shown in fig. 8 to 20, in the present embodiment, the heat generating member 2 is attached to the end surface of the planting member 1 with respect to the existing planting member 1, thereby heating the plants.

In order to realize the connection with the planting component 1, in the embodiment, the heating component 2 is provided with a connecting piece 23, the two sides of the connecting piece 23 are respectively provided with the heating piece 21 and the planting component 1, and the connecting piece 23 is at least partially connected with the planting component 1.

In practice, a complete planting device will often comprise at least two planting members 1, and two adjacent planting members 1 are connected transversely or longitudinally, or the transverse and longitudinal connections are combined to form a large planting wall or a large ornamental planting device.

Therefore, in order to address the practical situation, in this embodiment, the connecting member 23 is attached to at least two planting members 1 at the same time, which is beneficial to reduce the number of the heat generating members 2 and improve the assembly efficiency. In actual use, the area of the heat generating member 2 may be increased as appropriate. Correspondingly, the heat generating component 2 at this time is more similar to a multi-layer film structure, but the multi-layer film structure is different in width and width according to different actual use scenes in appearance.

That is, the connecting member 23 and the heat insulating member 22 are both of a film structure, and the connecting member 23 is attached to at least one side end surface of the planting member 1. The heating member 21 may be a filament or a sheet.

As shown in fig. 8 and 11-18, in the present embodiment, the attachment portion 23 is generally attached to the surface of the planting member 1 opposite to the mounting surface, i.e., the rear end surface. This is because the faces need not be used substantially, only to leave the desired position for connection to the mounting face. This is because two adjacent planting members 1 are connected at least in the lateral or longitudinal direction, and therefore there is necessarily a part area of the planting members 1 that is not to be connected with the mounting surface, and this part can be used for connection with the connecting member 23.

Of course, as shown in fig. 20, the attachment position of the connector 23 may be both left and right sides of the planting member 1, or even as shown in fig. 15, the attachment position of the connector 23 may be the front end surface of the planting member 1.

Therefore, the corresponding heating member 2 is a strip-shaped member, and the planting members 1 to which the connecting members 23 are attached at the same time can be the planting members 1 connected in the transverse direction, can be the planting members 1 connected in the longitudinal direction, or can be the planting members 1 formed by combining the transverse and longitudinal connections, but not limited.

As shown in fig. 14, disclosed is a shape of the heat generating member 2 when it is connected in a lateral direction, and one heat generating member may span a plurality of planting members 1; as shown in fig. 11, disclosed is the shape of the heat generating member 2 when longitudinally connected; as shown in fig. 13, disclosed is the shape of the heat generating member 2 when the lateral and longitudinal connections are combined.

In the present embodiment, the heat generating planting device includes, in addition to the planting member 1 and the heat generating member 2, a power supply member 4 having at least:

the main circuit is used for externally connecting a power supply; and

and the connecting assembly is electrically connected with the main line.

As shown in fig. 8 to 9, the main line has a main cable 41 and a socket 42 electrically connected to the main cable 41; and

the connecting assembly has:

a plug 43 electrically connected to the socket 42;

and positive and negative power lines 44 having both ends electrically connected to the plug 43 and the heat generating member 21, respectively.

As shown in fig. 8 to 9, that is, in the present embodiment, a heat generating component 2 is attached on the basis of the implant component 1, and then the heat generating component 21 is electrically connected to the positive and negative power lines 44 in advance, and then the positive and negative power lines 44 are connected to the plug 43. On the other hand, the main cable 41 and the socket 42 are electrically connected in advance.

Finally, when the plug 43 is inserted into the socket 42, the power source can be obtained when the plug is actually mounted on the mounting surface. The method is very convenient, is easy to process, especially meets the requirement of standardized construction operation, and avoids the problems of on-site wiring and the like.

Correspondingly, in practical use, the number of the connecting assemblies is at least two, and the connecting assemblies are respectively positioned on different planting members 1; at least two of the connection assemblies are connected in parallel with the main line. Therefore, the whole planting device can form a unified management line, the management cost is reduced, and unified control is facilitated.

Moreover, since the present invention can eliminate the need to change the shape of the planting member 1, at least as shown in fig. 12, 16 and 18, three different shapes of planting members 1 are shown, so that the general properties of the present heat generating member 2 to the planting members 1 can be embodied. And the area and the position of the heating component are flexible and convenient.

< modification example I >

As shown in fig. 11, 16, 17, 18, and 21, in the present modification, one heat generating member 2 corresponds to one planting member 1, and the adjacent heat generating members 2 are electrically connected in parallel. The structure is simpler, and the installation of the heating member 2 is more convenient. The heat generating member 2 is mounted on the planting member 1 in advance at the time of shipment. Due to the one-to-one correspondence relationship, the method is suitable for standardized production, reduces the stock specification and reduces the management difficulty.

< modification example two >

As shown in fig. 17, in the second embodiment, the rear end surface or other end surfaces of the planting member 1 are selected to be relatively flat, and the heat generating member 2 is mounted. But the surface of the existing partial planting member 1 has more curves and is uneven after being connected.

In order to solve the above-described problems, in the present modification,

the heating component 2 is provided with a plurality of bending parts 24;

the outer end 31 of the planting member 1 has a protrusion 14 or a recess not shown in the figure;

the bent portion 24 is used for attaching to the protruding portion 14 or the recessed portion.

The bending part 24 may be a prefabricated shape to match the protrusion 14 or the recess of the outer end 31 of the planting member 1, so as to complete the fitting.

The heat generating member 2 may be made of a flexible film material to solve this problem. The corresponding fold 24 may then be a fold behind the mating projection 14 or recess.

In this modification, the heat generating member 2 is not required to be completely attached to all of the projections 14 or the depressions on the outer surface of the planting member 1, as long as the entire heat generating member can be attached.

In addition, the convex portion 14 or the concave portion is used to indicate unevenness of the outer surface of the planting member 1, and both the convex and the concave are relative concepts.

< modification example III >

In the present modification, the main body of the planting member 1 may be a hard plate or a hard box; the planting chamber 11 is a flexible bag 13. Thus, although the main body is made of the existing hard material, the planting chamber 11 is made of the flexible bag body 13, so that the volume of the planting chamber 11 can be reduced, and the logistics cost can be reduced to a certain extent.

As shown in fig. 21 and 22, the body of the planting member 1 is designed to be plate-mounted in consideration of the angle of reducing the volume of the body of the planting member 1, thereby reducing the volume of the body of the planting member 1. And then attaching the flexible bag body 13 to the main body of the planting member 1.

The main body of the planting member 1 according to the present modification is a plate-mounted part shown in fig. 21, and a plurality of flexible bag members 13 are attached to the part.

< fourth modification >

As shown in fig. 23 to 25, the above embodiments and modifications require mounting for the heat generating member 2. In the present modification, the heat generating member 2 is produced together with the implant member 1 by a secondary molding process during the mold manufacturing, thereby avoiding the problem of the need to install the heat generating member 2. Correspondingly, an accommodating cavity 15 is formed in the planting component 1, and the heating component 2 is arranged in the accommodating cavity 15 in a penetrating manner; at the same time, the connecting component at least partially extends out of the accommodating cavity 15 and is used for externally connecting a main circuit.

The specific method comprises the steps of prefabricating a hole site when a mould is manufactured, prefabricating a heating piece in the hole site, and producing the heating piece and a product together when the heating piece is subjected to injection molding.

This can further improve the efficiency of mounting, and it is not necessary to mount the heat generating member 2, which is more efficient. And the problem that the heating component 2 falls off or is disconnected from the planting component 1 does not need to be considered.

Of course, in actual production, the main circuit may be connected by extending the heat generating member 2 out of the housing cavity 15.

[ EXAMPLE III ]

Compared with the first embodiment, the present embodiment has the following differences: this embodiment is a combination of some of the advantages of the first and second embodiments.

Specifically, in the present embodiment, the planting member 1 and the heating member 2 both adopt flexible film structures for adapting to different appearance requirements. Meanwhile, the conversion of electric energy into heat energy is realized for the heat generating component 21 through the connection with the positive and negative power lines 44, the plug 43, the socket 42 and the main cable 41.

Such structure has combined the advantage of embodiment one and embodiment two, has simple structure, simple to operate, advantage that adaptability is wide.

[ EXAMPLE IV ]

As shown in fig. 27, this embodiment has the following differences compared with the first embodiment: in the embodiment, the heating member 2 is enclosed into a surrounding hopper, then a planting chamber 11 is formed in the middle, and then the culture medium is placed in the planting chamber 11, so that the heating can be realized.

[ EXAMPLE five ]

As shown in fig. 28 to 31, this embodiment has the following differences compared with the first embodiment: in this embodiment, as shown in fig. 28 to 29, for example, the heat generating member 21 may be attached to the end surface of the conventional hard planting member or the main body of the flexible member in the present invention, and may heat the plant by being directly placed in the culture medium 3.

The culture medium 3 can then be applied in green belts on both sides of the street, so that plants in a low-temperature environment can be heated. The specific method is that the heating component 2 is pre-embedded into the soil when the soil is filled, so as to realize heating.

All of the features disclosed in this specification, or all of the steps in any method or process so disclosed, may be combined in any combination, except combinations of features and/or steps that are mutually exclusive.

This specification includes any features disclosed in the appended claims, abstract and drawings, which are, unless expressly stated otherwise, replaceable with other equivalent or similarly purposed alternative features. That is, unless expressly stated otherwise, each feature is only an example of a generic series of equivalent or similar features.

In the description of the present invention, it is to be understood that the terms "one end", "the other end", "outside", "upper", "inside", "horizontal", "coaxial", "central", "end", "length", "outer end", etc. indicate orientations or positional relationships based on those shown in the drawings, merely for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and therefore, are not to be construed as limiting the utility model.

Further, in the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.

The use of terms such as "upper," "above," "lower," "below," and the like in describing relative spatial positions herein is for the purpose of facilitating description to describe one element or feature's relationship to another element or feature as illustrated in the figures. The spatially relative positional terms may be intended to encompass different orientations of the device in use or operation in addition to the orientation depicted in the figures. For example, if the device in the figures is turned over, elements described as "below" or "beneath" other elements or features would then be oriented "above" the other elements or features. Thus, the exemplary term "below" can encompass both an orientation of above and below. The device may be otherwise oriented 90 degrees or at other orientations and the spatially relative descriptors used herein interpreted accordingly.

In the present invention, unless otherwise explicitly specified or limited, the terms "disposed," "sleeved," "connected," "penetrating," "plugged," and the like are to be construed broadly, e.g., as a fixed connection, a detachable connection, or an integral part; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or they may be interconnected within two elements or in a relationship where two elements interact with each other unless otherwise specifically limited. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

Therefore, the above embodiments are only preferred embodiments of the present invention, and the protection scope of the present invention is not limited thereby, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered by the protection scope of the utility model.

Claims (10)

1. The utility model provides a planting device generates heat for fix the plant on the installation face, its characterized in that including:

a planting member (1) having a planting cavity (11) for carrying plants; and

a heat generating member (2) for radiating heat in a low-temperature environment; which is arranged on at least one end face of the planting component (1) in the form of a film and is used for transferring the emitted heat to the planting component (1);

wherein the heat generating member (2) has:

the heating piece (21) is used for radiating heat after being externally connected with a power supply.

2. The heat generating planting device of claim 1, wherein the planting member (1) further has a bendable flexible member body (12) for conforming to the mounting surface profile and adhering to the mounting surface;

the planting chamber (11) is connected with a flexible member body (12).

3. The heat generating planting device of claim 2, wherein the mounting surface is a cylindrical surface, and the flexible member body (12) is wound around the outside of the cylindrical surface.

4. The heat generating planting device of claim 2, wherein the planting chamber (11) is a flexible bag (13).

5. The heat generating planting device of claim 2,

the heating component (2) is also provided with a heat preservation part (22) which covers the outer side of the heating part (21) and is used for reducing heat loss;

the flexible member main body (12) and the heat preservation piece (22) are integrally formed and configured, and the flexible member main body (12) and the heat preservation piece (22) are oppositely arranged to form an accommodating gap;

the heat generating component (2) is located in the accommodating gap.

6. The heat generating planting device according to claim 1, wherein the heat generating member (2) has:

the heating element (21) and the planting component (1) are respectively arranged on two sides of the connecting element (23); and the connecting piece (23) is at least partially connected with the planting component (1); and

and the heat preservation part (22) covers the outer side of the heating part (21) and is used for reducing heat dissipation.

7. The heat generating planting device as claimed in claim 6, characterized in that the connecting piece (23) and the heat insulating piece (22) are both of film structure, and the connecting piece (23) is attached on at least one side end face of the planting component (1).

8. The planting device generates heat according to claim 1 or 6, wherein the heat generating component (2) is provided with a plurality of bending parts (24);

the outer surface of the planting component (1) is provided with a convex part (14) or a concave part;

the bent part (24) is used for being attached to the protruding part (14) or the concave part.

9. The heat generating planting device according to claim 1, further comprising a power supply member (4) having at least:

the main circuit is used for externally connecting a power supply; and

the connecting component is electrically connected with the main line;

wherein the main line has a main cable (41) and a socket (42) electrically connected with the main cable (41); and

the connecting assembly has:

a plug (43) electrically connected to the socket (42);

and the two ends of the positive and negative power lines (44) are respectively and electrically connected with the plug (43) and the heating piece (21).

10. The planting device generates heat according to claim 1, wherein a containing cavity (15) is formed in the planting member (1), and the heat generating member (2) is arranged in the containing cavity (15) in a penetrating manner; the connecting component or the heating component (2) at least partially extends out of the accommodating cavity (15) and is used for externally connecting a main circuit.

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