CN220326461U - Planting cabinet - Google Patents

Abstract

The utility model relates to the technical field of soilless culture, and particularly discloses a planting cabinet which comprises a cabinet body and a partition plate. Wherein the cabinet body can be closed; the baffle is located in the cabinet body to with cabinet body sealing connection, the baffle separates delivery duct and inner chamber in the cabinet body, and the inner chamber can be used to place the planting frame, and the delivery duct can be used to the gas circulation, and the delivery duct still can be used to place circulating fan, is provided with a plurality of supply-air vents along its direction of height interval on the baffle, and the baffle is kept away from one side of supply-air vent and is equipped with the return air inlet. When the planting cabinet provided by the utility model is applied, air flows through the air delivery channels and enter the inner cavity through the air delivery openings under the action of the circulating fan, and flows back to the air delivery channels through the air return openings after flowing through the inner cavity, so that circulation is formed. The air supply duct can isolate cold and hot air, so that convection can not be generated in the heat exchange process to influence the circulation effect, and the air supply of the inner cavity can be more uniform due to the arrangement of the plurality of air supply openings, so that the temperature in the inner cavity is more uniform.

Description

Planting cabinet

Technical Field

The utility model relates to the technical field of soilless culture, in particular to a planting cabinet.

Background

The indoor planting needs stable artificial environment including illumination (LED artificial light), temperature, humidity and CO ₂ A nutrient solution. Wherein the temperature can affect the growth speed and quality of the plants, so that it is necessary to provide the most suitable temperature environment for the plants at different periods of growth. The temperature control mainly depends on an air conditioning system, and the temperature can be quickly increased or reduced through the air conditioning system, but the uniformity of the temperature needs to be ensured by a reasonable airflow circulation structure.

In the process of realizing the utility model, the inventor finds that at least the following technical problems exist in the prior art:

in the existing system, the temperature control scheme is generally a direct blowing mode of a fan, and the structure is simple, but because the space of the planting cabinet is larger, air supply dead angles exist in places far away from the fan, the air cannot be uniformly sent to all corners of the planting cabinet, and local temperature is higher or lower.

In summary, how to effectively solve the problem of uneven temperature in the planting cabinet is a problem that needs to be solved by those skilled in the art at present.

Disclosure of Invention

In view of the above, the present utility model aims to provide a planting cabinet with more uniform temperature.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

a planter, comprising:

the cabinet body can be closed;

the partition plate is arranged in the cabinet body and is in sealing connection with the cabinet body, the partition plate is used for separating an air delivery duct and an inner cavity in the cabinet body, the inner cavity can be used for placing a planting frame, the air delivery duct can be used for circulating air, and the air delivery duct can also be used for placing a circulating fan;

wherein: a plurality of air outlets are arranged on the partition plate at intervals along the height direction of the partition plate, and an air return opening is arranged on one side, away from the air outlets, of the partition plate.

Optionally, in the planting cabinet, each air supply port is respectively corresponding to each planting layer of the planting frame.

Optionally, in the planting cabinet, at least two air outlets are different in size.

Optionally, the planting cabinet further includes at least one air supply fan, where each air supply fan is respectively disposed on the partition plate and is respectively disposed corresponding to each air supply opening.

Optionally, in the planting cabinet, at least one air supply port is provided with an air valve capable of adjusting air quantity.

Optionally, in the planting cabinet, the partition plate includes:

the back air supply partition plate is arranged at intervals with the rear wall of the cabinet body, and two sides of the back air supply partition plate are respectively and hermetically connected with the side wall of the cabinet body;

the top air supply partition plate is arranged at intervals with the top wall of the cabinet body, two sides of the top air supply partition plate are respectively and hermetically connected with the side wall of the cabinet body, and the rear end of the top air supply partition plate is hermetically connected with the top end of the back air supply partition plate.

Optionally, in the planting cabinet, each air supply port is arranged on the back air supply partition board, and the air return port is arranged on the top air supply partition board.

Optionally, in the planting cabinet, the circulating fan is arranged on the top air supply partition board.

Optionally, in the planting cabinet, the circulating fan is an internal fan of an air conditioner for adjusting the temperature in the cabinet body.

Optionally, in the planting cabinet, the partition board is provided with an insulation layer.

Compared with the prior art, the planting cabinet provided by the utility model has at least the following beneficial effects:

the planting cabinet provided by the utility model comprises a cabinet body and a partition board. Wherein the cabinet body can be closed; the baffle is located in the cabinet body to with cabinet body sealing connection, the baffle separates delivery duct and inner chamber in the cabinet body, and the inner chamber can be used to place the planting frame, and the delivery duct can be used to the gas circulation, and the delivery duct still can be used to place circulating fan, is provided with a plurality of supply-air vents along its direction of height interval on the baffle, and the baffle is kept away from one side of supply-air vent and is equipped with the return air inlet.

When the planting cabinet provided by the utility model is applied, the air delivery duct and the inner cavity are separated from each other in the cabinet body through the partition board, the planting frame is placed in the inner cavity, the air delivery duct is used for placing the circulating fan and circulating air, and as the partition board is provided with the plurality of air delivery openings at intervals along the height direction of the partition board and the air return opening is arranged on one side far away from the air delivery openings, air flows through the air delivery duct and enters the inner cavity through the air delivery openings through the action of the circulating fan, flows back to the air delivery duct through the air return openings after flowing through the inner cavity, and thus circulation is formed. In conclusion, by applying the planting cabinet provided by the utility model, the air supply duct can isolate cold and hot air, so that convection of air in the heat exchange process can not be generated to influence the circulation effect, and the arrangement of the plurality of air supply openings can enable air supply of the inner cavity to be more uniform, so that the temperature in the inner cavity is more uniform, and the temperature in the planting cabinet is more uniform.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic view of a planting cabinet according to an embodiment of the present disclosure;

fig. 2 is a schematic structural view of an air conditioner.

The figures are marked as follows:

the cabinet body 1, the partition plate 2, the air delivery duct 3, the inner cavity 4, the circulating fan 5, the air delivery port 6, the air return port 7, the air delivery fan 8, the back air delivery partition plate 21 and the top air delivery partition plate 22;

air conditioner 9, evaporator 91, compressor 92, condensing fan 93, condenser 94, frequency converter 95, evaporating fan 96, shell 97.

Detailed Description

The embodiment of the utility model discloses a planting cabinet which is used for providing a more uniform internal temperature environment.

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

The planting cabinet provided by the utility model can be matched with one or more of a light source system, a temperature regulating system, a humidity regulating system, a fresh air system and a control system to control illumination, temperature, humidity, oxygen concentration and CO required by plant growth ₂ Concentration, air cleanliness, thus providing most suitable light, temperature, water, gas and the like for plant growth. In this application, mainly set up the heat preservation cabinet to closed, and divide out delivery duct and inner chamber through the setting of baffle to the uneven problem of ambient temperature that the plant was located is improved through the setting of a plurality of supply-air inlets. The following mainly describes the air supply structure, and other structures of the planting cabinet refer to the prior art, and are not described herein.

Referring to fig. 1, fig. 1 is a schematic structural diagram of a planting cabinet according to an embodiment of the present disclosure.

In one embodiment, the planting cabinet provided by the utility model comprises a cabinet body 1 and a partition board 2. Wherein the cabinet 1 can be closed. The cabinet body 1 is a main body supporting and protecting structure, and the shape of the cabinet body 1 can be set according to the needs, and is not particularly limited herein. The partition board 2 is arranged in the cabinet body 1 and is in sealing connection with the cabinet body 1, the partition board 2 separates an air delivery duct 3 and an inner cavity 4 in the cabinet body 1, the shape and the position relation of the specific air delivery duct 3 and the inner cavity 4 can be set according to the needs, and the specific limitation is not carried out here. The inner chamber 4 can be used to place the planting frame, and the delivery duct 3 can be used to supply gas circulation, and delivery duct 3 still can be used to place circulating fan 5, wherein: a plurality of air outlets 6 are arranged on the partition plate 2 at intervals along the height direction, and an air return opening 7 is arranged on one side of the partition plate 2 away from the air outlets 6. It will be appreciated that the plurality of air outlets 6 may be the same or different in size, and the spacing between adjacent air outlets 6 may be the same or different. The return air opening 7 is as far away from the air supply opening 6 as possible, so that the air flow fully flows through the inner cavity 4. Through the effect of circulating fan 5, form the air current delivery channel 3 by supply-air outlet 6 entering inner chamber 4, flow through the inner chamber 4 back to the delivery channel 3 by return air inlet 7 after, form the circulation, wherein, inner chamber 4 also serves as the return air chamber.

When the planting cabinet provided by the utility model is applied, the air delivery duct 3 and the inner cavity 4 are separated from each other in the cabinet body 1 through the partition plate 2, the planting frame is placed in the inner cavity 4, the air delivery duct 3 is internally provided with the circulating fan 5 and is used for circulating air, and as a plurality of air supply openings 6 are arranged on the partition plate 2 at intervals along the height direction of the air delivery duct, and the air return opening 7 is arranged on one side far away from the air supply openings 6, air flows through the air delivery duct 3 and enters the inner cavity 4 through the air supply openings 6, flows back to the air delivery duct 3 through the air return openings 7 after flowing through the inner cavity 4, and thus circulation is formed. In summary, by using the planting cabinet provided by the utility model, the air delivery duct 3 can isolate cold and hot air, so that convection of air in the heat exchange process can not be generated to influence the circulation effect, and the arrangement of the plurality of air delivery openings 6 can enable air delivery of the inner cavity 4 to be more uniform, so that the temperature in the inner cavity 4 is more uniform, the temperature in the planting cabinet is more uniform, and better growing and developing environments can be provided for plants.

In one embodiment, the air outlets 6 are respectively arranged corresponding to various planting layers of the planting frame. The planting frame is correspondingly provided with a plurality of planting layers for placing planting trays, and each air supply opening 6 can be respectively correspondingly arranged with various planting layers of the planting frame. It can be understood that each air supply opening 6 is respectively corresponding to each planting layer of the planting frame, and can be in one-to-one correspondence, that is, each planting layer corresponds to one air supply opening 6 respectively, and also can correspond to a plurality of air supply openings 6 respectively for each planting layer. Various planting layers can send into the air current through the supply-air outlet 6 that corresponds, then through the setting of supply-air outlet 6 size, can adjust the air supply amount of wind in planting layer corresponding space. Under the condition that the planting frame is only provided with one layer of planting layer, then through the setting of a plurality of supply-air outlets 6, the amount of wind of the different high positions of this planting layer can be more even.

In one embodiment, the at least two air outlets 6 are of different sizes. If the distances from the circulating fan 5 are different, the size of the air supply opening 6 is correspondingly set, so that the air speeds entering the inner cavity 4 at different height positions are more uniform, and the uniformity of the temperature distribution in the inner cavity 4 is improved.

In one embodiment, the planting cabinet further comprises at least one air supply fan 8, and each air supply fan 8 is respectively arranged on the partition plate 2 and is respectively corresponding to each air supply opening 6. The concrete air supply fan 8 accessible screw or rivet connect in baffle 2, and it corresponds the setting with each supply-air outlet 6, through the setting of air supply fan 8, can provide further driving force for the air current to increase the air supply distance, thereby can satisfy the air supply demand of great cabinet body 1. Of course, the air blower 8 may not be provided in the case where the circulation fan 5 is sufficient for the airflow.

In one embodiment, at least one of the air outlets 6 is provided with an air valve with an adjustable air volume. The air valve can be specifically a manually adjustable air valve, so that in the use process, the air quantity of each air supply opening 6 can be manually adjusted according to the needs, for example, the manual adjustment of the air quantity is realized according to the planting temperature, and the plant growth environment is further optimized.

In one embodiment, the baffle 2 includes a back air baffle 21 and a top air baffle 22. Wherein, the back air supply baffle 21 is arranged at intervals with the back wall of the cabinet body 1, and two sides of the back air supply baffle 21 are respectively connected with the side wall of the cabinet body 1 in a sealing way; the top air supply partition plate 22 is arranged at intervals with the top wall of the cabinet body 1, two sides of the top air supply partition plate 22 are respectively and hermetically connected with the side wall of the cabinet body 1, and the rear end of the top air supply partition plate 22 is hermetically connected with the top end of the back air supply partition plate 21. The back air supply partition 21 may be disposed parallel to the rear wall of the cabinet 1, and the top air supply partition 22 may be disposed parallel to the top wall of the cabinet 1. The partition 2 may be connected to the cabinet 1 by screws or rivets, in particular. As set forth above, the inner chamber 4 is defined by the opposite side walls of the cabinet 1, the front wall of the cabinet 1, the back air-supply partition plate 21 and the top air-supply partition plate 22, and the air-supply duct 3 is defined by the opposite side walls of the cabinet 1, the rear wall of the cabinet 1, the top wall of the cabinet 1, the back air-supply partition plate 21 and the top air-supply partition plate 22. The partition board 2 adopts the back air supply partition board 21 and the top air supply partition board 22, has simple structure, and forms the air supply channel 3 and the inner cavity 4 by being matched with the cabinet body 1, thereby fully utilizing the inner space of the cabinet body 1. In other embodiments, the partition 2 may also include a back air partition 21, a top air partition 22, and two opposite side air partitions, where the two side air partitions are respectively and hermetically connected to two sides of the back air partition 21 and the top air partition 22 to enclose the inner cavity 4 with the front wall of the cabinet 1. The back air supply partition plate 21, the top air supply partition plate 22, the two side air supply partition plates, the top wall, the rear wall and the opposite side walls of the cabinet body 1 enclose an air supply duct 3.

In one embodiment, each supply port 6 is formed in the back supply partition 21, and the return port 7 is formed in the top supply partition 22. The air outlets 6 are distributed at intervals along the height direction so as to make the temperatures of different heights in the inner cavity 4 uniform. The return air inlet 7 is arranged on the top air supply partition board 22, and is particularly arranged at the front end of the top air supply partition board 22 so as to be far away from the air supply inlet 6, so that air flow can flow in the inner cavity 4 sufficiently, no air flow dead angle exists in the inner cavity 4, and the temperature uniformity is further improved.

In one embodiment, the circulation fan 5 is provided on the top air supply partition 22. The top air supply partition plate 22 provides support for the installation of the circulating fan 5, and a support structure is not required to be arranged independently, so that the structure is simplified, and the full utilization of the space in the cabinet body 1 is realized. And the circulating fan 5 is positioned between each air supply opening 6 and the air return opening 7, which is beneficial to driving the circulating flow of the air flow. In other embodiments, the circulating fan 5 may also be suspended from the top surface of the cabinet 1.

In one embodiment, the circulation fan 5 is an internal fan of an air conditioner 9 for adjusting the temperature inside the cabinet 1. When the internal fan of the air conditioner 9 is used as the circulating fan 5 to drive the air flow, hot air or cold air is sent into the inner cavity 4 through the air delivery duct 3 when the temperature in the cabinet body 1 is increased or reduced through the air conditioner 9, so that the temperature in the inner cavity 4 is regulated, and the temperature distribution in the inner cavity 4 is uniform. In other embodiments, the circulating fan 5 and the air conditioner 9 may be separately disposed in the air delivery duct 3, and when the air conditioner 9 adjusts the temperature, the circulating fan 5 can further drive the circulating flow of the air flow.

Further, referring to fig. 2, the air conditioner 9 includes an evaporator 91, a compressor 92, a condensing fan 93, a condenser 94, a frequency converter 95, an evaporating fan 96, a throttle valve, a heater and a casing 97, and the specific structure and working principle thereof can be set with reference to the conventional air conditioner 9, and the evaporating fan 96 can be used as the circulating fan 5 in the above embodiments, which is not described herein. A water pan can be arranged below the shell 97 to receive formed condensed water, and heat preservation cotton can be arranged outside the shell 97. Specifically, the air conditioner 9 uses an environment-friendly refrigerant, and frequency conversion control is performed. The air conditioner 9 is preferably of an integrated structure. The condenser 94 and the condensing fan 93 of the air conditioner 9 are provided with a flow guiding device to prevent short-circuiting of the intake air and the return air.

Further, an air sterilization system is arranged above the bottom return air inlet of the air conditioner 9 to kill bacteria in the air when the air passes through. The air sterilization system can specifically use ultraviolet lamp tubes.

In one embodiment, the planter is also provided with a ventilation system. The ventilation system comprises a fresh air inlet arranged at the top of the cabinet body 1 and a fresh air outlet arranged at the bottom of the rear wall of the cabinet body 1, the fresh air inlet is provided with a blast valve and a filter screen, and the fresh air outlet is provided with an exhaust fan and a blast valve. When the air components in the seed cabinet 1 exceed the standard, the gas sensor can be used for detecting the oxygen and CO in the cabinet 1 ₂ And when the concentration of the air is equal, the control system automatically opens the air valves and the exhaust fans of the fresh air inlet and the fresh air exhaust outlet so as to introduce the external air into the cabinet body 1, thereby realizing air exchange. Under the condition that the air conditioner 9 is arranged in the cabinet body 1, the fresh air inlet is specifically positioned at the top of the evaporator 91 of the air conditioner 9, when the air valve of the fresh air inlet is opened, fresh air can enter the evaporation cavity of the air conditioner 9, and is sent into the cabinet body 1 through the evaporation fan 96 after passing through the evaporator 91, and air in the cabinet body 1 is correspondingly discharged through the fresh air outlet.

In one embodiment, the partition 2 is provided with a heat insulating layer. It is understood that the heat-insulating layer may be a heat-insulating material layer disposed on the surface of the partition board 2, or may be a heat-insulating inner cavity 4 disposed in the partition board 2. Through the setting of heat preservation, can prevent delivery duct 3 and inner chamber 4 conduction heat and produce the comdenstion water.

In one embodiment, the cabinet 1 includes a cabinet 1 body and a cabinet door. Wherein, the window has been seted up on the cabinet body 1 body to with cabinet door cooperation, the size of window can set up as required, also can open the one side of cabinet body 1 body, wholly forms this window. The cabinet door is arranged on the cabinet body 1 body, and the cabinet door can be opened and closed to close or open the window, and the cabinet body 1 body is sealed in a state that the cabinet door is closed. It can be understood that the cabinet door can be opened and closed, and the specific cabinet door can be a sliding door or a rotating door, and in the state that the cabinet door is closed, the window is closed and sealed with the cabinet body 1, so that a closed inner cavity 4 is formed in the cabinet body 1. The opposite side of the cabinet body 1 body and the cabinet door is the back wall of the cabinet body 1.

In the present specification, each embodiment is described in a progressive manner, and each embodiment is mainly described in a different point from other embodiments, and identical and similar parts between the embodiments are all enough to refer to each other.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present utility model. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the utility model. Thus, the present utility model is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. A planter, comprising:

the cabinet comprises a cabinet body (1), wherein the cabinet body (1) can be closed;

the partition board (2) is arranged in the cabinet body (1) and is in sealing connection with the cabinet body (1), the partition board (2) is used for separating an air delivery duct (3) and an inner cavity (4) in the cabinet body (1), the inner cavity (4) can be used for placing a planting frame, the air delivery duct (3) can be used for air circulation, and the air delivery duct (3) can also be used for placing a circulating fan (5);

wherein: a plurality of air supply outlets (6) are arranged on the partition plate (2) at intervals along the height direction, and an air return opening (7) is arranged on one side, away from the air supply outlets (6), of the partition plate (2).

2. A plant pot according to claim 1, characterized in that the air supply openings (6) are each arranged in correspondence with a respective planting layer of the planting frame.

3. The planter according to claim 1, characterized in that at least two of the air outlets (6) are of different sizes.

4. The planting cabinet according to claim 1, further comprising at least one air supply fan (8), wherein each air supply fan (8) is respectively arranged on the partition plate (2) and is respectively arranged corresponding to each air supply opening (6).

5. The planter according to claim 1, wherein at least one of the air outlets (6) is provided with an air valve with adjustable air volume.

6. A planter according to any one of claims 1-5, wherein the partition (2) comprises:

a back air supply partition plate (21) is arranged at intervals with the rear wall of the cabinet body (1), and two sides of the back air supply partition plate (21) are respectively connected with the side wall of the cabinet body (1) in a sealing way;

the top air supply partition board (22) is arranged at intervals with the top wall of the cabinet body (1), two sides of the top air supply partition board (22) are respectively connected with the side wall of the cabinet body (1) in a sealing mode, and the rear end of the top air supply partition board (22) is connected with the top end of the back air supply partition board (21) in a sealing mode.

7. The planting cabinet according to claim 6, wherein each air supply opening (6) is opened on the back air supply partition (21), and the air return opening (7) is opened on the top air supply partition (22).

8. The planter according to claim 7, wherein the circulation fan (5) is provided on the top air supply partition (22).

9. The planting cabinet according to any one of claims 1-5, characterized in that the circulation fan (5) is an internal fan of an air conditioner (9) for adjusting the temperature inside the cabinet (1).

10. A planter according to any one of claims 1-5, wherein the partition (2) is provided with a thermal insulation layer.