CN211129519U - Ultrasonic atomization mite-killing machine - Google Patents

Abstract

The utility model discloses an ultrasonic atomization acarus killing machine, which comprises a box body, wherein the box body is provided with a closed liquid medicine cavity, and an ultrasonic atomizer is arranged on the box body below the liquid medicine cavity; the box body positioned on one side of the liquid medicine cavity is also provided with an installation cavity, an inverter is arranged in the installation cavity, the inverter is electrically connected with the ultrasonic atomizer, and the box body positioned below the installation cavity is provided with supporting legs; a ventilation and heat dissipation structure is arranged on the box body at the position corresponding to the mounting cavity; an air inlet mechanism is arranged between the installation cavity and the liquid medicine cavity, and an air supply mechanism is communicated on the liquid medicine cavity. The mechanical treatment of the bee mites is realized, the treatment effect is good, no harm is caused to bees and brood spleens, and the quality and the yield of bee products are effectively ensured; the structure is simple, the operation is simple, compared with the traditional method, the labor intensity is greatly reduced, the working efficiency is effectively improved, and the additional workload of bee keeping is not increased; in addition, the atomized liquid medicine is high in distribution uniformity in the beehive, the liquid medicine cannot be wasted, and bee products cannot be polluted.

Description

Ultrasonic atomization mite-killing machine

Technical Field

The utility model belongs to the technical field of the honeybee is bred, especially, relate to an ultrasonic atomization mite treatment machine.

Background

Bee mites are parasitic mites damaging bees to grow in vitro, namely the bee mites breed and live in a honeycomb cell for a lifetime, and big bee mites breed and live on the surface of a grown bee body after breeding in the honeycomb cell, so that great harm is brought to the growth of the bees, and meanwhile, the yield and the quality of bee products are influenced.

At present, the method for treating bee mites comprises the following steps: the honeycomb is wiped one by one with the cloth that is stained with liquid medicine, perhaps, go one by one with the medicine kettle and spout the medicine to the honeycomb, adopt above-mentioned mode to have following defect:

1. the time and labor are wasted when the honeycombs are wiped one by one, so that the labor intensity is increased, the efficiency of mite control is low, and the workload of bee keeping is greatly increased;

2. the uniformity of wiping the honeycomb is poor, so that not only can the liquid medicine be wasted, but also the bee products can be polluted due to overlarge dosage and frequent dosage times.

SUMMERY OF THE UTILITY MODEL

To the defect among the prior art, the utility model provides an ultrasonic atomization mite treatment machine makes the liquid medicine atomizing and reaches the purpose of good mite treatment under the prerequisite of guaranteeing bee product quality and output.

The utility model provides a technical scheme is: an ultrasonic atomization mite-killing machine comprises a box body, wherein a closed liquid medicine cavity is formed in the box body, and an ultrasonic atomizer is arranged on the box body below the liquid medicine cavity; the box body positioned on one side of the liquid medicine cavity is also provided with an installation cavity, an inverter is installed in the installation cavity, the inverter is electrically connected with the ultrasonic atomizer, and the box body positioned below the installation cavity is provided with supporting legs;

a ventilation and heat dissipation structure is arranged on the box body at the position corresponding to the installation cavity;

the installation cavity with be equipped with the mechanism of admitting air between the liquid medicine chamber, still the intercommunication has the mechanism of supplying air on the liquid medicine chamber.

As an improvement, the air inlet mechanism comprises an air inlet pipe arranged on the box body, one end of the air inlet pipe extends into the mounting cavity and is communicated with the mounting cavity, and an air inducing element is arranged in the air inlet pipe positioned in the mounting cavity; the other end of the air inlet pipe extends into the liquid medicine cavity and is communicated with the liquid medicine cavity.

As a further improvement, a baffle is arranged at the end part of the air inlet pipe positioned in the liquid medicine cavity, an air outlet hole is formed below the air inlet pipe, and the air outlet hole extends to the baffle

As a further improvement, the box body is provided with at least two air inlet pipes, and each air inlet pipe is provided with the baffle and the air outlet;

two adjacent air inlet pipes are one long and one short in the liquid medicine cavity.

As a further improvement, the air supply mechanism comprises an air supply pipe communicated with the liquid medicine cavity, and the air supply pipe extends to the outside of the box body and is communicated with a delivery pipe.

As a further improvement, one end of the conveying pipe, which is far away from the air supply pipe, is communicated with a flat pipe.

As a further improvement, the communicating structures of the air supply pipe, the conveying pipe and the flat pipe are arranged on the box body, and at least two groups of communicating structures are arranged on the box body and are communicated with the liquid medicine cavity.

As a further improvement, the ventilation and heat dissipation structure comprises a plurality of air holes arranged on the box body, the air holes are arranged at two ends and the bottom of the box body, and all the air holes are arranged corresponding to the positions of the installation cavity;

and a heat radiating element is arranged on the box body at the position corresponding to the mounting cavity.

As a still further improvement, the heat dissipation element and the air inducing element are both fans, and the heat dissipation element and the air inducing element are electrically connected with a speed regulator.

As a further improvement, a liquid level meter is arranged on the box body at the position corresponding to the liquid medicine cavity; the top of the box body is hinged with a handle.

Adopted the above-mentioned technical scheme, the utility model provides an ultrasonic atomization mite control machine's beneficial effect as follows:

because the ultrasonic atomization acarus killing machine comprises a box body, a closed liquid medicine cavity is arranged on the box body, and an ultrasonic atomizer is arranged on the box body below the liquid medicine cavity; the box body positioned on one side of the liquid medicine cavity is also provided with an installation cavity, an inverter is arranged in the installation cavity, the inverter is electrically connected with the ultrasonic atomizer, and the box body positioned below the installation cavity is provided with supporting legs; a ventilation and heat dissipation structure is arranged on the box body at the position corresponding to the mounting cavity; based on the structure, the ultrasonic atomization acarus killing machine is characterized in that an air inlet mechanism is arranged between the installation cavity and the liquid medicine cavity, and the liquid medicine cavity is communicated with an air supply mechanism; air in the installation cavity is introduced into the liquid medicine cavity through the air inlet mechanism and pushes atomized liquid medicine, and then the atomized liquid medicine is conveyed into the beehive through the opening of the beehive through the air supply mechanism and fumigates the honeycomb, so that the effect of treating bee mites is achieved.

In conclusion, the ultrasonic atomization mite control machine realizes mechanical control of bee mites, has good control effect, does not harm bees and brood spleens, and effectively ensures the quality and the yield of bee products; moreover, the ultrasonic atomization mite-killing machine is simple in structure and easy to operate, compared with the traditional mode that the mites are sprayed by using cloth or a medicine pot one by one, the labor intensity is greatly reduced, the working efficiency is effectively improved, and the workload of bee-keeping is not additionally increased; in addition, the atomized liquid medicine is high in distribution uniformity in the beehive, the liquid medicine cannot be wasted, and bee products cannot be polluted.

Because the air inlet mechanism comprises an air inlet pipe arranged on the box body, one end of the air inlet pipe extends into the mounting cavity and is communicated with the mounting cavity, and an air inducing element is arranged in the air inlet pipe positioned in the mounting cavity; the other end of intake pipe extends to the liquid medicine intracavity and communicates with the liquid medicine chamber to at work, induced air component work makes the liquid medicine intracavity that the air of installation intracavity was introduced through the intake pipe, and simple structure arranges rationally, and is effectual to gaseous introduction, carries to establish the basis toward the beehive in for follow-up liquid medicine that promotes after the atomizing.

Because the end part of the air inlet pipe positioned in the liquid medicine cavity is provided with the baffle, the air outlet hole is formed below the air inlet pipe and extends to the baffle, so that the air is guided downwards through the structure, and the promotion effect of the atomized liquid medicine is favorably improved.

At least two air inlet pipes are arranged on the box body, and each air inlet pipe is provided with a baffle and an air outlet hole; two adjacent intake pipes are one root length, one root length in the liquid medicine intracavity to through this structure, not only realized the distribution of gas outlet in the liquid medicine intracavity different positions, improved the air input moreover, and then further improved the promotion effect to atomizing back liquid medicine.

The gas supply mechanism comprises a gas supply pipe communicated with the liquid medicine cavity, and the gas supply pipe extends to the outside of the box body and is communicated with the delivery pipe, so that the atomized liquid medicine is delivered into the beehive through the communication structure of the gas supply pipe and the delivery pipe, the structure is simple, and the delivery effect is good; meanwhile, the liquid medicine (before atomization) can be conveniently added into the liquid medicine cavity through the air supply pipe by dismounting and mounting the air supply pipe and the delivery pipe.

Because the flat pipe is communicated with one end of the delivery pipe, which is far away from the air supply pipe, the shape of the opening of the beehive is met through the flat pipe, and the atomized liquid medicine can smoothly enter the beehive; meanwhile, the flat pipe can play a role in gathering atomized liquid medicine, and guarantees that the liquid medicine is uniformly distributed in the beehive.

Because the communicating structure of the air supply pipe, the conveying pipe and the flat pipe is provided with at least two groups on the box body and is communicated with the liquid medicine cavity, atomized liquid medicine can be provided for a plurality of beehives simultaneously through the communicating structure.

The ventilation and heat dissipation structure comprises a plurality of air holes arranged on the box body, the air holes are arranged at the two ends and the bottom of the box body, and all the air holes are arranged corresponding to the positions of the installation cavity; and a heat radiating element is arranged on the box body at the position corresponding to the mounting cavity.

Because the radiating element and the induced draft element are fans, and the radiating element and the induced draft element are electrically connected with the speed regulator, the conveying speed of atomized liquid medicine is realized by controlling the speed regulator, and the requirements of different practical conditions are further met.

The tank body corresponding to the liquid medicine cavity is provided with the liquid level meter, so that the liquid level of the liquid medicine in the liquid medicine cavity can be conveniently monitored by the liquid level meter; because the top of the box body is hinged with the handle, the ultrasonic atomization mite-killing machine is convenient to carry and move through the handle.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the technical solutions in the prior art will be briefly described below. Throughout the drawings, like elements or portions are generally identified by like reference numerals. In the drawings, elements or portions are not necessarily drawn to scale.

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the structure of FIG. 1 at another angle (after the side plate is removed from the box);

FIG. 3 is a schematic view of the structure of FIG. 2 from another angle;

FIG. 4 is a bottom view of FIG. 1;

FIG. 5 is a schematic structural view of the ultrasonic atomizer of FIG. 1;

FIG. 6 is a cross-sectional view of FIG. 1;

FIG. 7 is a schematic structural view of the intake pipe of FIG. 6;

FIG. 8 is a schematic view of the structure of FIG. 7 at another angle;

in the figure, 1-box; 101-liquid medicine cavity; 102-a mounting cavity; 103-support legs; 104-a liquid level meter; 105-a handle; 2-ultrasonic atomizer; 3-an inverter; 301 — master switch; 4-ventilating and heat-dissipating structure; 401-air holes; 402-a heat dissipating element; 403-speed controller; 5-an air inlet mechanism; 501-air inlet pipe; 502-induced draft element cavity; 503-a baffle; 504-air outlet holes; 6-air supply mechanism; 601-an air supply pipe; 602-a delivery pipe; 603-flat tubes.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings. The following examples are only for illustrating the technical solutions of the present invention more clearly, and therefore are only examples, and the protection scope of the present invention is not limited thereby.

As shown in fig. 1 to 6, an ultrasonic atomization acarus killing machine comprises a box body 1, wherein a closed liquid medicine cavity 101 is arranged on the box body 1, and an ultrasonic atomizer 2 is arranged on the box body 1 below the liquid medicine cavity 101; the box body 1 positioned on one side of the liquid medicine cavity 101 is also provided with a mounting cavity 102, an inverter 3 is mounted in the mounting cavity 102, the inverter 3 is connected with a main switch 301 and is simultaneously electrically connected with the ultrasonic atomizer 2, the box body 1 positioned below the mounting cavity 102 is provided with at least two supporting legs 103, and the height of the two supporting legs 103 is equal to the height of the part of the ultrasonic atomizer 2 protruding out of the box body 1; a ventilation and heat dissipation structure 4 is arranged on the box body 1 at the position corresponding to the installation cavity 102; an air inlet mechanism 5 is arranged between the installation cavity 102 and the liquid medicine cavity 101, and an air supply mechanism 6 is communicated with the liquid medicine cavity 101.

The air inlet mechanism 5 comprises an air inlet pipe 501 arranged on the box body 1, one end of the air inlet pipe 501 extends into the installation cavity 102 and is communicated with the installation cavity 102, and an air inducing element 502 is arranged in the air inlet pipe 501 positioned in the installation cavity 102; the other end of the air inlet pipe 501 extends into the liquid medicine cavity 101 and is communicated with the liquid medicine cavity 101; in the present scheme, a baffle 503 is disposed at the end of the air inlet pipe 501 located in the liquid medicine cavity 101, an air outlet hole 504 is disposed below the air inlet pipe 501, and the air outlet hole 504 extends to the baffle 503 (see fig. 7 and 8).

Preferably, at least two air inlet pipes 501 are arranged on the box body 1, and each air inlet pipe 501 is provided with a baffle 503 and an air outlet 504; two adjacent air inlet pipes 501 are long and short in the liquid medicine cavity 101.

The air supply mechanism 6 comprises an air supply pipe 601 communicated with the liquid medicine cavity 101, the air supply pipe 601 extends to the outside of the box body 1 and is communicated with a delivery pipe 602, and the delivery pipe 602 is a hose; flat tube 603 is communicated with one end of delivery pipe 602 far away from air feed pipe 601, and the thickness of flat tube 603 is smaller than the diameter of delivery pipe 602.

The communicating structure of the air feed pipe 601, the delivery pipe 602 and the flat pipe 603 is provided with at least two groups on the box body 1 and communicated with the liquid medicine cavity 101.

The ventilation and heat dissipation structure 4 comprises a plurality of air holes 401 arranged on the box body 4, the air holes 401 are arranged at two ends and the bottom of the box body 1, and all the air holes 401 are arranged corresponding to the positions of the installation cavity 102; a heat dissipating member 402 (see fig. 1 to 4) is fixedly mounted on the case 1 at a position corresponding to the mounting cavity 102.

In the scheme, the heat dissipation element 402 and the induced draft element 502 are both fans, the fans are electrically connected with a speed regulator 403, and the speed regulator 403 is connected with the main switch 301.

A liquid level meter 104 is arranged on the box body 1 corresponding to the liquid medicine cavity 101; the top of the box 1 is hinged with a handle 105 (see fig. 2).

The above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not substantially depart from the scope of the embodiments of the present invention, and are intended to be covered by the claims and the specification.

Claims (10)

1. An ultrasonic atomization acarus killing machine is characterized by comprising a box body, wherein a closed liquid medicine cavity is arranged on the box body, and an ultrasonic atomizer is arranged on the box body below the liquid medicine cavity; the box body positioned on one side of the liquid medicine cavity is also provided with an installation cavity, an inverter is installed in the installation cavity, the inverter is electrically connected with the ultrasonic atomizer, and the box body positioned below the installation cavity is provided with supporting legs;

a ventilation and heat dissipation structure is arranged on the box body at the position corresponding to the installation cavity;

the installation cavity with be equipped with the mechanism of admitting air between the liquid medicine chamber, still the intercommunication has the mechanism of supplying air on the liquid medicine chamber.

2. The ultrasonic atomization acarus killing machine according to claim 1, wherein the air inlet mechanism comprises an air inlet pipe arranged on the box body, one end of the air inlet pipe extends into the installation cavity and is communicated with the installation cavity, and an air inducing element is arranged in the air inlet pipe positioned in the installation cavity; the other end of the air inlet pipe extends into the liquid medicine cavity and is communicated with the liquid medicine cavity.

3. The ultrasonic atomizing mite treatment machine according to claim 2, wherein a baffle is arranged at the end of the air inlet pipe positioned in the liquid medicine cavity, an air outlet hole is formed below the air inlet pipe, and the air outlet hole extends to the baffle.

4. The ultrasonic atomizing acarus killing machine according to claim 3, wherein the box body is provided with at least two air inlet pipes, and each air inlet pipe is provided with the baffle and the air outlet;

two adjacent air inlet pipes are one long and one short in the liquid medicine cavity.

5. The ultrasonic atomizing mite-killing machine according to claim 4, wherein the air supply mechanism comprises an air supply pipe communicated with the liquid medicine cavity, the air supply pipe extends to the outside of the box body and is communicated with a delivery pipe.

6. The ultrasonic atomizing mite-killing machine according to claim 5, wherein one end of the delivery pipe, which is far away from the air supply pipe, is communicated with a flat pipe.

7. The ultrasonic atomizing acarid-killing machine according to claim 6, wherein the communicating structure of the air feed pipe, the delivery pipe and the flat pipe is provided with at least two groups on the box body and communicated with the liquid medicine cavity.

8. The ultrasonic atomization acarus killing machine according to any one of claims 2 to 7, wherein the ventilation and heat dissipation structure comprises a plurality of air holes arranged on the box body, the air holes are arranged at two ends and the bottom of the box body, and all the air holes are arranged corresponding to the positions of the installation cavity;

and a heat radiating element is arranged on the box body at the position corresponding to the mounting cavity.

9. The ultrasonic atomizing acarid-killing machine according to claim 8, wherein the heat dissipation element and the air-inducing element are both fans, and the heat dissipation element and the air-inducing element are electrically connected with a speed regulator.

10. The ultrasonic atomizing acarus killing machine according to claim 9, wherein a liquid level meter is arranged on the box body corresponding to the liquid medicine cavity; the top of the box body is hinged with a handle.

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