CN212550212U - Embedded type mist conveying device - Google Patents

Abstract

The utility model relates to a can bury formula and send fog device, include: the device comprises a shell, a water inlet, a fog outlet, a water outlet and a water outlet, wherein the shell is provided with a water inlet which is relatively positioned at the lower part and a fog outlet which is relatively positioned at the upper part; the fan is arranged at a communication port which is formed in the shell and used for communicating the inside and the outside of the shell, the fan is positioned above the water inlet relative to the water inlet, and a second interval in the vertical direction is formed between the upper end of the water inlet and the lower end of the communication port; the atomizer is arranged in the shell and is positioned below the fog outlet, the communication port and the fan, and is used for generating fog. Compared with the prior art, the utility model discloses not only can realize that fog from top to bottom distributes, send the fog device moreover and can hide in the object (for example can cover by the stone), have succinctly, the aesthetic property is good, the sight is good, the wholeness is good, with low costs, the energy consumption is low, silence, space occupy a great deal of advantages such as little, market prospect is wide.

Description

Embedded type mist conveying device

Technical Field

The utility model relates to a send fog technical field, in particular to can bury formula and send fog device.

Background

The atomization device on the market is generally applied to flower culture greenhouses, production workshops, fruit and vegetable fresh-keeping, garden landscapes, micro-landscapes and the like; when mist coverage from top to bottom is desired, the conventional approach is to place the atomizer and associated fittings directly above or to place a high pressure spray head above.

The water atomization device comprises a bowl-shaped structure arranged above and a water suction pump arranged below, wherein an atomizer is arranged in the bowl-shaped structure, the water suction pump pumps water into the bowl-shaped structure through a water suction pipe, the atomizer atomizes the water in the bowl-shaped structure, and although the function of mist distribution from top to bottom is realized, the atomizer and related accessories are exposed outside, so that the water atomization device is quite unattractive, and meanwhile, the mist distribution downward along with gravity is relatively concentrated, the coverage surface is narrow, and the effect is poor; especially, when the method is applied to some micro landscapes, the ornamental value is greatly reduced, meanwhile, the vegetation maintenance is not centralized, the structure is complex, and the cost is high.

In order to overcome the defect that prior art exists, the utility model provides a can bury formula and send fog device not only can realize that fog from top to bottom covers and can realize extensive coverage to send fog device to can hide in the object (for example in the microlandschaft, can be by the stone, cover such as riverbed, as long as guarantee hydroenergy get into send the fog device in, have succinctly, the wholeness is good, the aesthetic property is good, the sight is good, the coverage is wide, with low costs, the energy consumption is low, market prospect a great deal of advantage such as wide.

SUMMERY OF THE UTILITY MODEL

The utility model overcomes exist not enough among the above-mentioned prior art, a can bury formula and send fog device is provided, not only can realize that fog from top to bottom covers and can realize extensive coverage to send fog device to can hide in the object (for example in the microlandschaft, can be by the stone, cover such as riverbed, as long as guarantee hydroenergy get into send the fog device in, have succinctly, the wholeness is good, the aesthetic property is good, the sight is good, the coverage is wide, with low costs, the energy consumption is low, market prospect advantage such as wide.

The technical scheme of the utility model is realized like this:

an embeddable mist delivery apparatus, comprising:

the device comprises a shell, a water inlet, a fog outlet, a water outlet and a water outlet, wherein the shell is provided with a water inlet which is relatively positioned at the lower part and a fog outlet which is relatively positioned at the upper part;

the fan is arranged at a communication port which is formed in the shell and used for communicating the inside and the outside of the shell, the fan is positioned above the water inlet relative to the water inlet, and a second interval in the vertical direction is formed between the upper end of the water inlet and the lower end of the communication port;

the atomizer is arranged in the shell, is positioned below the fog outlet, the communication port and the fan and is used for generating fog;

the water inlet and the atomizer are immersed in water, the water level is located in the first interval and the second interval, a mist storage space is formed above the water level in the shell, and after the atomizer and the fan are started, the fan blows mist in the mist storage space to enable the mist to flow out of the mist outlet.

In the utility model, the water inlet and the atomizer which are relatively positioned at the lower part are immersed in water, wherein water flows into the shell through the water inlet, the communication port, the fan and the mist outlet which are relatively positioned at the upper part are positioned above the water, a relatively closed mist storage space (only the mist outlet, the communication port and the fan are communicated with the outside) is formed above the water level in the shell, when the atomizer and the fan are started, the atomizer generates mist, the fan blows towards the relatively closed mist storage space, so that the mist can only flow to the mist outlet which is relatively positioned at the upper part, and the upward flow of the mist is realized; based on the structure, the fog outlet can be connected with the fog delivery pipe, the other end (fog outlet end) of the fog delivery pipe is arranged at a higher position, fog can flow along the fog delivery pipe and can be sprayed out from the higher position, the fog is distributed from top to bottom under the action of gravity, and a plurality of fog delivery pipes can be arranged according to needs, so that the fog coverage is wider, for example, for the vegetation field and the micro landscape field, water can be more uniformly provided for plants; and as long as the putting of the shell accords with that the water level is positioned at the first interval and at the second interval, the application range and the installation place of the shell are wide, for example, in the micro landscape, the shell can be embedded into stones, vegetations, riverbeds and the like (water energy is ensured to enter the shell), the hiding function of the device is realized, the micro landscape has simple and attractive appearance and good ornamental performance, and the micro landscape has low cost, low energy consumption, silence, small space occupation and very wide market prospect. In addition, communicate with each other between outside water level of casing and the inside water level of casing, guarantee that the outside hydroenergy of casing gets into inside the casing on the one hand, on the other hand is convenient for the user and observes the water level height (mainly to the condition when will sending the fog device to hide the installation, can know the inside water level of casing through observing the outside water level of casing), need add water in order to guarantee to send the normal operating of fog device when the water level is low. The communicating port can be used for installing the fan, and is convenient to maintain and replace, when the atomizer has a fault, the fan can be detached firstly, and then the atomizer is taken out to be maintained and replaced, so that the problem of difficult maintenance is solved. It should be explained that the atomizer is located below relative to the mist outlet, the communication port and the fan, specifically: at least the bottom of the atomizer is positioned below the mist outlet, the communication port and the fan and has an interval in the vertical direction, and further, due to the difference of the types and specifications of the atomizer, the volume of the atomizer which is immersed in water and the volume which is protruded outside the water level are variable, for example, some of the atomizer need to be immersed in water completely, and some of the atomizer need to float but need not be immersed in water completely, so that at least the bottom of the atomizer is positioned below the mist outlet, the communication port and the fan and has an interval in the vertical direction.

Preferably, at least one mist delivery pipe is connected to the mist outlet.

The mist outlet end of the mist conveying pipe can be arranged at a higher position, so that the mist is effectively distributed from top to bottom; furthermore, for example, in the micro landscape, the shell can be embedded into an object (such as a stone, a rockery and the like), the other end of the mist delivery pipe is arranged at the top of the micro landscape device, not only top spraying is realized, mist is covered from top to bottom, the atomizing device can be hidden, the attractiveness and the ornamental value are good, but also a plurality of mist delivery pipes can be arranged or a plurality of mist outlet openings communicated with the mist delivery pipes are formed in the top, the wider covering surface of the mist is realized, the plant growth is facilitated, and the attractiveness and the ornamental value are good.

Preferably, the fan is mounted in the communication port.

The fan is arranged at the communication port to realize the communication of the fan to the inside and the outside of the shell; and the communicating port not only can be used for installing the fan, but also is convenient to maintain and replace, when the atomizer has a fault, the fan can be firstly detached, and then the atomizer is taken out to be maintained and replaced, so that the problem of difficult maintenance is solved.

Preferably, the communication opening is provided with a mounting protrusion at the periphery, and the mounting protrusion forms a mounting space for accommodating the fan.

The installation space is provided for the installation of fan, makes the installation firm, also can protect the fan simultaneously, extension fan life.

Preferably, the mounting projection is located on an outer peripheral edge of the communication port.

On the one hand, the fan is convenient to install and maintain, and meanwhile, the fan is convenient to be connected with the water storage tank filled with water, for example, the installation protrusion can be clamped on the side wall of the water storage tank.

Preferably, the water storage tank comprises a water storage tank, wherein an installation opening is formed in the side wall of the water storage tank, and the installation bulge penetrates through and is fixed on the installation opening.

The assembly between the shell and the water storage tank is realized, and the water storage tank is simple and firm and is convenient to replace.

Preferably, the water storage tank is included, a common outer side wall is arranged between the water storage tank and the shell, and the communication port is formed in the common outer side wall.

The integrity between the water storage tank and the shell is good; the communicating port can be used for installing the fan, and is convenient to maintain and replace, when the atomizer has a fault, the fan can be detached firstly, and then the atomizer is taken out to be maintained and replaced, so that the problem of difficult maintenance is solved.

Preferably, the common outer side wall is a detachable movable plate, or is integrally formed with the side wall of the water storage tank, or is integrally formed with the side wall of the shell.

The detachable movable plate is convenient for the installation, maintenance and replacement of the atomizer and the fan; or with storage water tank lateral wall integrated into one piece, or with casing lateral wall integrated into one piece, realized good wholeness between storage water tank and the casing, the structure is clean and tidy, does not influence the effect that the intercommunication mouth is convenient for maintain simultaneously.

Preferably, the housing includes a detachable movable side wall, and the communication opening is formed in the movable side wall.

On one hand, the atomizer is convenient to place, replace and maintain, and on the other hand, the fan is convenient to place, replace and maintain.

A method of embeddable mist delivery, comprising the steps of:

s1: immersing a water inlet formed on the shell and an atomizer arranged in the shell into water in a water storage tank;

s2: a fan arranged on the shell and a mist outlet arranged on the shell are arranged outside water in the water storage tank;

s3: forming a mist storage space above the water level inside the shell;

s4: starting the atomizer and the fan;

s5: the atomizer is started to generate fog, and the fan is started to generate airflow flowing to the interior of the fog storage space;

s6: the fan blows the fog in the fog storage space to make the fog flow out from the fog outlet.

The method realizes the function of upward flow of fog, can connect the fog-sending pipe at the fog-outlet, place the other end (fog-outlet end) of the fog-sending pipe at a higher position, the fog can flow along the fog-sending pipe and be sprayed out from the higher position, the fog is distributed from top to bottom under the action of gravity, and a plurality of fog-sending pipes can be arranged according to the requirement, so that the fog coverage is wider, for example, for the vegetation field and the micro-landscape field, the fog can provide moisture for plants more uniformly; and the application place is extensive, for example in the microlandschaft, can bury the casing into stone, vegetation, riverbed, etc. (need to guarantee that hydroenergy gets into the casing), has realized the hidden function of the device, make the microlandschaft appearance succinct pleasing to the eye, the sight is good, and with low costs, the energy consumption is low, silence, space occupy little, market prospect is very wide.

The utility model adopts the above technical scheme's beneficial effect is:

the utility model provides a can bury formula and send fog device not only can realize that fog from top to bottom covers and can realize extensive coverage to send the fog device to can hide in the object (for example in the microlandschaft, can be by the cover such as stone, riverbed, as long as guarantee hydroenergy get into send the fog device in, have succinctly, the wholeness is good, the aesthetic property is good, the sight is good, the coverage is wide, with low costs, the energy consumption is low, market prospect a great deal of advantage such as wide.

Drawings

FIG. 1 is a schematic view of the overall structure of the mist sending device of the present embodiment;

FIG. 2 is a schematic view of the internal structure of the mist sending device in the present embodiment;

FIG. 3 is a schematic structural view of the housing and the mounting protrusions of the present embodiment;

FIG. 4 is a schematic view of the structure of the mist sending device in cooperation with the water storage tank;

FIG. 5 is another schematic view of the mist sending device in cooperation with the water storage tank;

description of the drawings:

the mist sprayer comprises a shell 100, a water inlet 110, a mist outlet 120, a connecting pipe 121, a shell side wall 130, a communication opening 131, a mounting protrusion 132, an inner baffle 133, an inner opening 1331, an atomizer 200, a fan 300, a water storage tank 400, a mounting opening 410, a mist sending pipe 500 and a mist outlet pipe 600.

Detailed Description

The specific implementation manner of the utility model is as follows:

it should be noted that the terms of orientation, such as upper and lower, etc., related to the present invention are described with reference to the placing state of fig. 1, i.e., the normal placing state of the mist sending device.

Example 1:

an embeddable mist delivery device, as shown in fig. 1-5, includes:

the mist sprayer comprises a shell 100 and a plurality of water inlets 110 (the whole body is in a strip shape) positioned at the bottom of the shell and at the lower part of the side wall of the shell, and a mist outlet 120 (specifically positioned at the top of the shell 100) positioned at the top wall of the shell, wherein a first interval in the vertical direction is formed between the upper end of each water inlet 110 and the lower end of each mist outlet 120; the outer periphery of the mist outlet 120 is provided with a connecting pipe 121, the mist outlet 120 is connected with a mist sending pipe 500 through the connecting pipe 121, the mist outlet end of the mist sending pipe 500 can be arranged at a higher position, wherein the connecting pipe 121 and the shell 100 are integrally formed;

a fan 300 disposed at a communication port 131 formed in the side wall 130 of the casing for communicating the inside and the outside of the casing 100, and located above the water inlet 110, wherein a second interval in the vertical direction is formed between the upper end of the water inlet 110 and the lower end of the communication port 131;

the atomizer 200, specifically an ultrasonic atomizer, is disposed at the bottom in the housing 100, and is located below the mist outlet 120, the communication port 131, and the fan 300 to generate mist;

a water storage tank 400 in which water is contained, wherein after the housing 100 enters the water, the water level of the water storage tank 400 is communicated with the water level inside the housing 100;

the water inlet 110 and the atomizer 200 are immersed in water, the water level is located at the first interval and the second interval, so that a mist storage space is formed above the water level inside the housing 100, after the atomizer 200 and the fan 300 are started, the fan 300 blows mist in the mist storage space, so that the mist flows out from the mist outlet 120, the connecting pipe 121 and the mist sending pipe 500 in sequence, and is finally sprayed out from a higher position, and the mist is covered from top to bottom.

Further, the housing 100 includes a detachable movable side wall, namely the housing side wall 130, the housing side wall 130 is provided with a communication opening 131, an outer periphery of the communication opening 131 is provided with a mounting protrusion 132, and the mounting protrusion 132 forms a mounting space for accommodating the fan 300; further, an inner baffle 133 is arranged on the inner periphery of the mounting protrusion 132, wherein an inner opening 1331 matched with the shape and size of the fan 300 is formed on the inner baffle 133, and the fan 300 can be directly connected with the inner baffle 133 during specific assembly; wherein the shell side wall 130, the mounting protrusion 132 and the inner baffle 133 are integrally formed.

The side wall of the back of the water storage tank 400 is provided with an installation opening 410, and the installation bulge 132 is arranged through and fixed on the installation opening 410.

A method of embeddable mist delivery, comprising the steps of:

s1: immersing a water inlet formed on the shell and an atomizer arranged in the shell into water in a water storage tank;

s2: a fan arranged on the shell and a mist outlet arranged on the shell are arranged outside water in the water storage tank;

s3: forming a mist storage space above the water level inside the shell;

s4: starting the atomizer and the fan;

s5: the atomizer is started to generate fog, and the fan is started to generate airflow flowing to the interior of the fog storage space;

s6: the fan blows the fog in the fog storage space to make the fog flow out from the fog outlet.

The device of the embodiment can be applied to a micro-landscape device, for example, rockery, vegetation, river bed, water and the like are arranged in the water storage tank 400, the shell 100 is arranged in the rockery, the river bed and the like, and the shell 100 is ensured to be communicated with the water, wherein the mist sending pipe 500 can be hidden in the side wall of the micro-landscape device, and the mist outlet end of the mist sending pipe 500 is positioned at the top of the micro-landscape device; when the device is used, the atomizer 200 and the fan 300 are started, fog is sprayed out from the top of the micro landscape device along the fog conveying pipe 500, the rockery, vegetation and the like are covered by the fog from top to bottom, the whole device is hidden and invisible, and the ornamental value is better.

Furthermore, a plurality of fog outlet pipes 600 with downward openings can be arranged at the top of the micro landscape device, the fog outlet pipes 600 are communicated with the fog delivery pipes 500, the wide fog coverage can be realized, the ornamental value is good, and the vegetation growth is facilitated.

Example 2:

example 2 differs from example 1 in that:

the water storage tank is characterized by comprising a water storage tank, wherein a common outer side wall is arranged between the water storage tank and a shell, and the communication port is formed in the common outer side wall; the shared outer side wall and the side wall of the water storage tank are integrally formed.

The above description in this specification is merely illustrative of the present invention. Various modifications, additions and substitutions may be made by those skilled in the art without departing from the scope of the invention as defined in the accompanying claims.

Claims (9)

1. An embeddable mist conveying device is characterized in that: the method comprises the following steps:

the device comprises a shell, a water inlet, a fog outlet, a water outlet and a water outlet, wherein the shell is provided with a water inlet which is relatively positioned at the lower part and a fog outlet which is relatively positioned at the upper part;

the fan is arranged at a communication port which is formed in the shell and used for communicating the inside and the outside of the shell, the fan is positioned above the water inlet relative to the water inlet, and a second interval in the vertical direction is formed between the upper end of the water inlet and the lower end of the communication port;

the atomizer is arranged in the shell, is positioned below the fog outlet, the communication port and the fan and is used for generating fog;

the water inlet and the atomizer are immersed in water, the water level is located in the first interval and the second interval, a mist storage space is formed above the water level in the shell, and after the atomizer and the fan are started, the fan blows mist in the mist storage space to enable the mist to flow out of the mist outlet.

2. The embeddable mist forwarding apparatus of claim 1, further comprising: the mist outlet is connected with at least one mist conveying pipe.

3. The embeddable mist forwarding apparatus of claim 1, further comprising: the fan is installed in the communicating port.

4. The embeddable mist forwarding apparatus of claim 1, further comprising: the periphery of the communication opening is provided with an installation bulge, and the installation bulge forms an installation space for accommodating the fan.

5. The embeddable mist forwarding apparatus of claim 4, further comprising: the mounting protrusion is located on the outer periphery of the communication opening.

6. The embeddable mist forwarding apparatus of claim 5, further comprising: the water storage tank comprises a water storage tank, wherein a mounting opening is formed in the side wall of the water storage tank, and a mounting protrusion penetrates through and is fixed on the mounting opening.

7. An embeddable mist forwarding apparatus as defined in claim 1, 3, or 4, wherein: including the storage water tank, be equipped with the sharing lateral wall between storage water tank and the casing, the intercommunication mouth is seted up on the sharing lateral wall.

8. The embeddable mist forwarding apparatus of claim 7, further comprising: the shared outer side wall is a detachable movable plate, or is integrally formed with the side wall of the water storage tank, or is integrally formed with the side wall of the shell.

9. An embeddable mist forwarding apparatus as defined in claim 1, 3, or 4, wherein: the shell comprises a detachable movable side wall, and the communication port is formed in the movable side wall.

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