KR20220147941A - Medicinal spray device for beehive management - Google Patents

Abstract

The present invention relates to a medicine spray device for managing beehives. The medicine spray device for managing beehives, according to the present invention, comprises: an air gun capable of supplying and blocking air; a pipe; a medicine container; and a spray unit. Accordingly, the present invention has the effect of providing a pleasant and safe reproductive environment for bees to increase the number of bees and the production of honey and bee products.

Description

Medicine spray device for beehive management

The present invention relates to a drug spraying device for beehive management, and above all, a beehive capable of maintaining and managing the inside of the beehive hygienically by evenly spraying various drugs (liquid) necessary for beehive management to the inside of the beehive by air pressure. It relates to a chemical spray device for management.

In general, beekeeping is a job of refusing bees to produce bee products such as honey and bee wax, and a hive, which is a living space for bees, is provided.

These beehives have a horizontally long and low entrance at the lower front of the main body (hexahedron, cylinder, polygon, etc.) that can be opened and closed with the upper cover. It stores honey, etc., and produces bong products. There are Hwantae Tong (Snow Tong), which is installed in the forest and distributed naturally, the Rectangular Hive which is mainly used for collecting native honey, and Improved Hive.

On the other hand, since Korea has four distinct seasons and is significantly affected by seasonal changes, management of beehives and beehives is very important. In particular, due to their physiological characteristics, bees are very sensitive to changes in light, season, weather, temperature, etc. and are very weak to cold. do. In addition, in the rainy season, aphids are the most prosperous, and since the humidity is high, various molds, harmful bacteria, plaster disease, buzzer disease, etc. are easy to occur, so special attention is required for disease management.

Here, looking briefly at the disinfection device for disinfecting the inside of the beehive, liquid (hereinafter referred to as 'medicine') such as disinfectant, medicine, and nutritional material is sprayed in the form of a mist (fine particles) through a spray nozzle to which an air (air pressure) hose is connected. The inside of the hive is disinfected by spraying with At this time, the medicine is sprayed with the discharge port of the medicine spray nozzle inserted into the entrance to the beehive. There is a problem that the mortality rate increases. In the case of the needle part that opens and closes the passage inside the nozzle part, stainless steel material with excellent corrosion resistance (heat treatment) is used, but the precision of the opening and closing part rapidly decreases due to repeated opening and closing operations and friction, resulting in wear, damage, and leakage. There was a problem in that the spray performance was poor.

On the other hand, looking at the prior art (patent document) related to the disinfection device inside the beehive, (Patent Document 0001), 'For disinfection of bees' The 'medical injection device' is known and will be more easily understood with reference to this.

Domestic Laid-Open Patent Application No. 10-2016-0028101 (application date 2016.03.09), title of invention 'medical spraying device for bee disinfection'

The object of the present invention is to sufficiently extend the length of the front nozzle of the body so that the medicine sprayed in the form of mist can be sufficiently injected from the entrance to the beehive to the inside of the beehive, and the discharge port of the medicine nozzle is automatically blocked when the spraying of medicines is stopped. An object of the present invention is to provide a drug spraying device for beehive management that can prevent the remaining medicinal material (liquid) remaining in the nozzle (nozzle part, body part) from flowing out and falling inside the beehive or harming the bees.

Another object of the present invention is to overcome the limitations of the existing mechanical metal processing technology through the structure of the needle part with improved abrasion resistance along with the divided and prefabricated configuration of the drug nozzle that is sufficiently extendable so that the drug can be injected to the inside of the beehive through the narrow doorway of the beehive. To provide a medicinal spraying device for beehive management that can improve productivity and workability.

The chemical spraying device for beehive management of the present invention to achieve the above object is an air gun capable of supplying and blocking air by connecting an air hose; a pipe coupled to the outlet side of the air gun and extending downward; A medicine container coupled to the middle 'T' connector of the pipe and the medicine contained therein is released by the air and can be supplied along the medicine hose; Containing, the spray unit includes; according to the opening and closing operation of the inner needle portion of the body portion coupled to the lower end of the pipe, the medicine of the medicine hose is high-pressure sprayed through the front medicine nozzle portion together with the air; The pipe is coupled to the air supply passage formed on one side to inject air, and the air supply passage communicates with the first air chamber in front of the body through the front first air line and is coupled to the first air chamber to move forward. The air can be discharged through the extended air nozzle part, and the medicine (liquid) is injected by connecting the medicine hose to the medicine supply passage formed in the middle part of the body part, and the central medicine transfer of the body part communicating with the medicine supply passage The medicine nozzle unit inserted into the inside of the air nozzle unit in front of the passage is combined to supply the medicine through the medicine nozzle unit, and the needle part inserted through the medicine conveying passage in the center of the body part is inserted through the medicine nozzle unit, and the When the spray device is not in use, the drug supply is stopped by moving forward by the elastic restoring force of the return spring built into the housing coupled to the rear side of the body and blocking the front exit of the drug nozzle part, the body part is formed inside the rear side to block the housing The second air chamber is in communication with the air supply passage through the second air line to supply air, so that the air supplied from the air gun is introduced into the second air chamber through the second air line and the second air As the needle piston built in the chamber slides backward, the needle part moves backward while the front outlet of the drug nozzle part is opened, and the drug is discharged and sprayed with the air through the air nozzle part.

In addition, according to the present invention, the medicine nozzle unit is fitted to the rear end of the medicine conveying tube body, coupled to the inner medicine conveying passage in front of the body, the medicine is injected, and the air nozzle unit rear flange portion in the inner space portion Nozzle fastening to be inserted; The drug delivery tube body is inserted into the front end of the nozzle fastening portion to transport the medicine and is inserted into the inner passage of the air nozzle portion to form an air passage between the air nozzle portion; A medicine spraying head partially exposed to the outside of the outlet of the air nozzle unit by fitting and assembling at the front end of the medicine conveying tube body; and including, the nozzle fastening unit blocking the inner space of the flange unit, but forming a first division formed on the circumferential surface The first air chamber and the air nozzle unit communicate with each other through the groove, and the medicine spraying head blocks the inner passage of the air nozzle portion, and the inner passage communicates through the second dividing groove formed on the circumferential surface. .

In addition, according to the present invention, the needle piston is coupled to the rear end of the needle portion and is put into the first air chamber of the body portion to reverse the needle portion by air to open the medicine nozzle portion, and the air supply of the first air chamber is When stopped, the needle part is moved forward to the original position by the elastic restoring force of the return spring to block the medicinal nozzle part, the needle part is a needle head coupled to the rear end is put inside the groove part, a buffer spring provided inside the groove part It is characterized in that the front pointed contact portion elastically closely adheres to the exit of the medicine nozzle portion as the elastic restoring force of the action acts.

In addition, according to the present invention, the needle part is characterized in that the needle member includes a tungsten carbide-based cemented carbide material, and a needle head of a dissimilar metal material is coupled to the rear end of the needle.

The present invention sufficiently extends the length of the front nozzle of the body so that the medicine in the form of mist is sprayed deeply from the entrance to the inside of the beehive and is evenly distributed, and the inside of the hive can be hygienically maintained, and furthermore, comfortable and safe reproduction of bees. By providing an environment, it has the effect of increasing the number of bees as well as the production of honey and bee products.

The present invention prevents the leakage of the remaining medicine (liquid) remaining in the spray part (body part, drug nozzle part) because the discharge port of the nozzle part is automatically blocked in the state where the medicine spraying is stopped according to the interruption of the supply of air pressure. It has the effect of resolving the harmful factors of bees due to the drug (liquid).

The present invention enables the length of the spray nozzle part to be sufficiently extended as needed through the prefabricated configuration of the precise drug nozzle part (nozzle coupling part, drug delivery pipe body, drug spray head), as well as the effect of increasing mechanical workability and precision, and improving productivity there is

The present invention has the effect of not only improving the quality but also significantly extending the lifespan by improving the high-hardness tungsten carbide material with excellent abrasion resistance for the needle part with severe wear.

1 is a side view showing a partial cross-section of a medicinal spray device 100 for beehive management according to an embodiment of the present invention.
Figure 2 is a view showing a partial cross section of the medicinal spray device 100 for beehive management according to an embodiment of the present invention.
Figure 3 is a plan view showing in cross section by separating the components of the spray unit 140 according to an embodiment of the present invention.
3A is a cross-sectional view of the body portion 150 taken along the line "A" - "A" of FIG. 3 .
3B is a cross-sectional view of the body portion 150 taken along the line "B" - "B" of FIG. 3 .
4 is a plan view showing a cross section of the spray unit 140 according to an embodiment of the present invention.
5 is an operation state diagram of the spray unit 140 according to an embodiment of the present invention.
6 is a state diagram of the use of the medicinal spray device 100 for beehive management according to an embodiment of the present invention.

Prior to describing the present invention in detail, the present invention is not intended to be limited to specific embodiments, and it should be understood to include all modifications, equivalents and substitutes included in the spirit and scope of the present invention.

Hereinafter, with reference to the accompanying drawings, embodiments of the present invention will be described in detail so that those of ordinary skill in the art to which the present invention pertains can easily implement them. If it is determined that a detailed description of a known function or configuration related thereto may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted. The terminology used herein is for the purpose of referring to specific embodiments only, and is not intended to limit the present invention. As used herein, the singular forms also include the plural forms unless the phrases clearly indicate the opposite. The meaning of "comprising," as used herein, specifies a particular characteristic, region, integer, step, operation, element and/or component, and other specific characteristic, region, integer, step, operation, element, component, and/or group. It does not exclude the existence or addition of

1 is a side view showing a partial cross-section of a medicinal spraying device 100 for beehive management according to an embodiment of the present invention, and FIG. 2 is a medicinal spraying device 100 for beehive management according to an embodiment of the present invention. is a diagram showing a partial cross-section. Figure 3 is a plan view showing the components of the spray unit 140 according to an embodiment of the present invention in a cross-section, and Figure 3a is a body portion shown in section "A" - "A" of FIG. It is a cross-sectional view of 150, and FIG. 3B is a cross-sectional view of the body part 150 taken along the line "B"-"B" of FIG. 3 . And Figure 4 is a plan view showing a cross section of the spray unit 140 according to an embodiment of the present invention, Figure 5 is an operation state diagram of the spray unit 140 according to an embodiment of the present invention.

The medicine spraying device 100 for beehive management of the present invention according to the above drawing is an air gun 110 capable of supplying and blocking air by connecting the air hose 111; a pipe 120 coupled to the outlet side of the air gun 110 and extending downward; The medicine container 130 is coupled to the middle 'T' connector 121 of the pipe 120 and the medicine contained therein is released by the air and can be supplied along the medicine hose 132; According to the opening and closing operation of the inner needle portion 180 of the body portion 150 coupled to the lower end of the pipe 120, the medicine of the medicine hose 132 is high-pressure sprayed through the front medicine nozzle portion 170 together with air (噴霧) the spray unit 140; includes; the spray unit 140, the pipe 120 is coupled to the air supply passage 151 formed on one side of the body unit 150, air is injected and the air supply passage 151 communicates with the first air chamber 153 in front of the body 150 through the front first air line 152 and is coupled to the first air chamber 153 to move forward. The air can be discharged through the extended air nozzle unit 160, and the medicine (liquid) is injected by connecting the medicine hose 132 to the medicine supply passage 156 formed in the middle part of the body part 150. And the medicine nozzle unit 170 inserted into the inside of the air nozzle unit 160 in front of the central medicine transfer passage 157 of the body portion 150 communicating with the medicine supply passage 156 is coupled to the medicine The drug is supplied through the nozzle part 170, and the needle part 180 inserted through the drug delivery passage 157 in the center of the body part 150 is inserted through the drug nozzle part 170 and the body Advance by the elastic restoring force of the return spring 210 built into the housing 200 coupled to the rear side of the unit 150 to block the front exit of the medicine nozzle unit 170. When the spray device is not in use, the medicine supply is stopped. However, the body part 150 is formed inside the rear surface of the second air chamber 155 that blocks the housing 200 is in communication with the air supply passage 151 through the second air line 154 to supply air It is possible to supply, the air supplied from the air gun 110 is introduced into the second air chamber 155 through the second air line 154 and the needle piston 190 built into the second air chamber 155 . As the needle unit 180 moves backward, the front exit of the medicine nozzle unit 170 is opened and the medicine is released and the air It is characterized in that it is configured to spray (噴霧) with air through the nozzle unit (160).

In addition, according to the present invention, the medicine nozzle unit 170 is fitted to the rear end of the medicine conveying tube body 175 and coupled to the inner medicine conveying passage 157 in front of the body 150, the medicine is injected and a nozzle fastening part 171 inserted into the inner space part 163 of the air nozzle part 160 and the rear flange part 162; The medicine conveying pipe body 175 is inserted into the inner passage of the air nozzle unit 160 to form an air passage between the air nozzle units 160 by fitting and assembling at the front end of the nozzle fastening unit 171 to transport the medicine. ); The medicine spraying head 176 partially exposed to the outside of the outlet of the air nozzle unit 160 by fitting and assembling at the front end of the medicine conveying pipe body 175; including, the nozzle fastening portion 171 is the flange portion The inner space 163 of the 162 is blocked, but the first air chamber 153 and the air nozzle unit 160 communicate with each other through the first dividing groove 172 formed on the circumferential surface, and the medicine spray The head 176 blocks the inner passage of the air nozzle unit 160, but the inner passage communicates through the second dividing groove 177 formed on the circumferential surface.

In addition, according to the present invention, the needle piston 190 is coupled to the rear end of the needle part 180 and is put into the first air chamber 153 of the body part 150 and the needle part 180 by air. By reversing the medicine nozzle unit 170 to open, and when the air supply to the first air chamber 153 is stopped, the needle unit 180 is moved forward and returned to the original position by the elastic restoring force of the return spring 210. Doedoe blocking the medicine nozzle part 170, the needle part 180 is a buffer spring provided inside the groove part 184, the needle head 183 coupled to the rear end is put into the groove part 184 inside the groove part 184 ( 186) as the elastic restoring force acts, the front pointed contact portion 182 is characterized in that it elastically adheres to the outlet of the medicine nozzle portion 170.

In addition, according to the present invention, in the needle part 180, the needle member 181 includes a tungsten carbide-based cemented carbide material, and a needle head 183 of a dissimilar metal material is coupled to the rear end of the needle member 181. characterized in that

The medicinal spray device 100 for beehive management of the present invention having the above characteristics will be described in more detail as follows.

The medicine spraying device 100 for beehive management according to an embodiment of the present invention is to spray various medicines (liquid) with air pressure through the lower entrance (G) of the beehive (H), and air (pressure) It is configured to include an air gun 110 and a pipe 120 to provide, a medicine barrel 130 for providing medicine, and a spray unit 140 for spraying air and medicine.

The air gun 110 connects the air hose 111 to the inlet side of one end to supply high-pressure air, and as the trigger 112 is operated while the handle part is gripped by hand, the inner valve opens and closes the other outlet Air can be supplied or shut off to the side. The air hose 111 may receive air of a predetermined pressure from a separate air generating means such as a compressor (air compressor).

The pipe 120 is coupled to the lower outlet side of the air gun 110 to provide an air movement path, and by extending sufficiently downward to a predetermined length, the user can hold the air gun 110 by hand, and at the bottom without forcibly bending the waist. By the combined spray unit 140, it is possible to comfortably spray the nozzle unit into the beehive entrance (G). The pipe 120 may connect the medicine container 130 to one side of the middle part, and the spray part 140 may be coupled to the lower end. The pipe 120 may supply air to the medicine container 130 by branching the air through the 'T'-shaped connector 121 coupled to the middle portion.

The medicine container 130 is to contain medicines (liquid) inside the sealed container, and the medicines contained therein penetrate the top stopper 131 by air (pressure) and are inserted through the medicine hose 132 to the outside. can be released and supplied. The medicine container 130 has an upper opening that can be opened and closed with a stopper 131 to replenish medicines. The stopper 131 is provided with an air valve 122 such as a chev valve to maintain the air pressure inside the medicine container 130 at a certain level and to supply the medicine quickly when the air (pressure) is supplied.

The spray unit 140 releases air through the front air nozzle unit 160 of the body unit 150 coupled to the lower end of the pipe 120 and communicates with the medicine hose 132 and the medicine conveying passage 157. It can be opened with the inner needle part 180 and high-pressure spraying (噴霧) with air through the front medicine nozzle part 170.

The spray unit 140 is as shown in FIGS. 2 to 4 , the body unit 150, the air nozzle unit 160, the medicine nozzle unit 170, the needle unit 180 and the needle piston 190, the housing. (200), is configured to include an adjustment screw (220) and the like.

The body 150 is connected to the pipe 120 to the air supply passage 151 formed on one side, and air is inputted, and the medicine hose 132 is connected to the medicine supply passage 156 formed on the other side so that the medicine is supplied. is put in On the other hand, the air supply passage 151 and the medicine supply passage 156 are spaced apart at a predetermined interval and angle so that they do not interfere with each other, and are arranged in a 90 degree direction or face 180 degrees as shown in FIG. Batch formation can also be carried out. The pipe 120 is coupled to the side air supply passage 151 of the body 150 through an 'L'-shaped connector 123 such as an elbow, and the medicine hose 132 is the upper surface of the body 150 for supplying medicines. It may be vertically coupled through the 'I'-shaped hose connector 133 coupled to the passage 156 . The 'T'-shaped connector 121, 'L'-shaped connector 123, and 'I'-shaped hose connector 133 are selectively applicable according to the shape of the air or chemical (liquid) pipe (hose) line. Fittings are included.

The body 150 has an air supply passage 151 on one side communicates with the first air chamber 153 in front of the body 150 through the front first air line 152 and connects the rear second air line 154 to It communicates with the rear second air chamber 155 through. And the medicine supply passage 156 of the upper surface of the body 150 is in both directions to the front first air chamber 153 and the rear second air chamber 155 through the medicine transfer passage 157 in the center of the body 150. has been opened

On the other hand, as shown in FIG. 3A, the first air line 152 is formed in plurality on the front surface of the air supply passage 151, and 2 to 4 are suitable. A plurality of second air lines 154 are formed on the rear surface of the air supply passage 151 as shown in FIG. 3b, and 1 to 3 are suitable. At this time, in the first and second air lines 152 and 154 , the total hole cross-sectional area of the first air line 152 is the total hole cross-sectional area of the second air line 154 under the condition that the size (diameter) of the hole is the same. By forming a larger size, the air (pressure) can be discharged and sprayed at a sufficient pressure through the air nozzle unit 160 .

The body 150 is blocked by coupling the air nozzle unit 160 to the front first air chamber 153 and extending forward, and coupling the housing 200 to the rear second air chamber 155 .

The air nozzle unit 160 is extended to a predetermined length, and a flange unit 162 is formed on the rear side of the air conveying pipe body 161 through which air moves. In a state in which the flange portion 162 is in close contact with the first air chamber 153 on the front side of the body portion 150 , the ring-shaped fastening nut 165 is inserted and the front of the body portion 150 is fastened over the flange portion 162 . It can be fixed by screwing on the part. A first sealing S1 may be provided on the rear surface of the flange portion 162 to prevent leakage of the first air chamber 153 .

The medicine nozzle unit 170 is to transport the medicine and spray it to the front outlet, and the rear nozzle fastening unit 171 is screwed to the first air chamber 153 inner medicine passage 157 of the body 150 and It is inserted into the inner center of the air nozzle unit 160 in the longitudinal direction to transport the medicine and form a double tubular structure in which air can move through the passage provided between the outer air nozzle units 160 .

In addition, as shown in FIGS. 3 to 4 , the drug nozzle unit 170 is a prefabricated configuration composed of a nozzle fastening unit 171 , a drug transport pipe body 175 , and a drug spray head 176 . This is a very precise configuration of a double tubular body (passage) structure in which the medicine nozzle unit 170 is put into the air nozzle unit 160 and can open and close the medicine spray head 176 by the inner needle unit 180. , the mechanical workability is improved, the precision and productivity are improved, and the length of the spray nozzle part can be sufficiently extended as needed.

The nozzle fastening part 171 is coupled to the medicine conveying passage 157 inside the front first air chamber 153 of the body 150 and the medicine is injected, and the air nozzle 160 is inside the flange 162 of the rear side. It is inserted into the space 163 . The nozzle fastening part 171 blocks the inner space part 163 of the flange part 162, but the first air line 152 and the first air chamber 153 through the first dividing groove 172 formed in the circumferential surface. ) may communicate with the air nozzle unit 160 . And the nozzle fastening part 171 forms a ring groove 174 on the circumferential surface, and the second sealing (S2) is coupled to the ring groove 174 to block the front of the drug delivery passage 157 to prevent leakage and to prevent leakage. 1 It is possible to prevent backflow of the air chamber 153 .

The medicine conveying pipe body 175 can overcome the allowable dimension (length) limitation of precision mechanical (lathe, milling, etc.) processing in the form of a single hollow pipe. The medicine conveying pipe body 175 is assembled by force fitting into the inner fitting groove 173 of the front end of the nozzle fastening part 171 and is inserted into the air nozzle part 160 to provide a predetermined air space between the air nozzle parts 160. A movement path can be formed.

The medicine spraying head 176 is assembled with the front end of the medicine conveying pipe body 175 into the fitting groove 178 on the inner rear side by force fitting, and is inserted into the spraying unit 164 side of the air nozzle unit 160 inside. Since the passage is blocked, the inner passage of the air nozzle unit 160 may communicate through the second dividing groove 177 formed on the circumferential surface.

The medicine spraying head 176 may be partially exposed to the outside of the spraying portion 164 by inserting the front medicine discharge portion 179 into the air nozzle portion 160 . At this time, a narrow gap (air passage) is formed between the spray part 164 of the air nozzle part 160 and the drug discharge part 179 of the drug spray head 176 to increase the air discharge pressure and the drug spray head 176. It is possible to high-pressure spray (噴霧) the medicine released through the fine mist.

Here, in the case of the existing integrated medicine nozzle, when the outer diameter of the tube is within the range of 4 to 5 mm and the inner diameter is limited to the range of 3 to 3.5 mm, raw materials (pipes, etc.) with a total length of about 70 to 80 mm are used for lathe and milling, etc. Although physical processing and production are possible with the machine tools of However, as in the present invention, the medicine nozzle unit 170 is divided into the nozzle fastening unit 171, the medicine conveying pipe body 175, and the medicine spraying head 176, and by constructing a fitting assembly type with each other, the existing integrated medicine nozzle is The branch can solve the length limitation problem and further extend the length of the medicine nozzle. That is, it is possible to extend the length of the drug transport pipe body 175, as well as extend the length (L) twice, or more, in the range of 80mm to 150mm, and the spray nozzle is connected to the entrance (G) of the beehive (H). You can easily spray the medicine by injecting enough to the inside of the hive.

Next, the needle unit 180 can be integrated with the front contact portion 182 of the needle member 181 extending to a certain length is formed sharply toward the end, and the needle head 183 is coupled to the rear end. The needle piston 190 has a needle hole 192 through which the needle part 180 passes is formed in the center of the front surface, and the needle head 183 is inserted into the space 191 formed inside the rear surface as a needle cap 184. The space portion 191 may be blocked.

The needle part 180 has a needle member 181 that passes through the needle hole 192 from the rear side of the needle piston 190 and extends long in the front, and the rear needle head 183 is inserted into the space 191 inside the needle It can be blocked with a cap 184 . And the front contact portion 182 of the needle member 181 may be inserted into the inner passage of the medicine discharge portion 179 of the medicine spray head 176 to block the exit of the medicine nozzle unit 170 .

In addition, the needle member 181 of the needle unit 180 includes a tungsten carbide-based cemented carbide material, and a needle head 183 of a dissimilar metal material is assembled to the rear end of the needle member 181 by force fitting. have.

The needle member 181 made of such a tungsten cemented carbide super hard alloy material has very good hardness (strength) and durability, and has a low degree of abrasion to extend the lifespan and reduce fatigue (wear) even with repeated opening and closing operations of the nozzle. It is possible to exhibit constant performance with little or no increase in lifespan. However, since the workability is not good and the price is high, the needle cap 184 of a metal material such as stainless steel (SUS) is separately configured and assembled with the needle part 180 to improve the performance and quality of the needle part 180 and It is possible to increase the penetration rate by lowering the production cost. In other words, in the case of the existing needle head integrated needle, the needle and the head were cut from one material (stainless steel) to form an integrated body, and the strength was reinforced through a heat treatment process. On the other hand, when the tungsten carbide-based cemented carbide is applied to the needle part 180, it is difficult to process and produce the needle member 181 and the needle head 183 in an integrated configuration, and the production cost is excessively increased. Since there is an uneconomical problem, as in the present invention, it is possible to solve the above-mentioned problems in a configuration in which the needle member 181 and the needle head 183 are divided and assembled to be fitted.

In addition, the needle unit 180 is the front contact portion 182 by the elastic restoring force of the buffer spring 186 in close contact with the rear surface of the needle head 183 to the medicine discharge unit 179 of the medicine spray head 176 in the inner passage. Since it elastically contacts and buffers again, the lifespan can be extended by reducing the impact force and wear of the tip contact part 182 . The front contact portion 182 of the needle member 181 may elastically contact the medicine discharge portion 179 inner passage at the tip of the medicine spray head 176. As a result, the opening and closing operation of the needle part 180 becomes smoother, and the contact part 182 of the needle member 181 is abraded or reduced in precision due to repeated contact with the medicinal spray head 176, thereby improving durability and quality and improving product quality. can extend the life of The buffer spring 186 is put into the inner groove 185 of the needle cap 184 so that an elastic restoring force may act on the front needle head 183 .

On the other hand, the coupling part of the drug delivery pipe body 175, the drug spraying head 176, and the nozzle fastening part 171, and the coupling part of the needle member 181 and the needle head 183 can be forcibly fixed by assembling by force fitting. have. Alternatively, the bonding portion may be joined together by a fusion method such as an adhesive or brazing, or a female screw and a male screw may be formed in the bonding portion to be coupled and fixed by a screw method.

A sleeve groove 158 is formed in the inner center of the second air chamber 155 communicating with the medicine conveying passage 157, and the sleeve 195 is screwed into the sleeve groove 158 to form a second air chamber 155 and It is possible to block and partition the section between the drug transport passages (157). In addition, the needle member 181 may slide through the central through hole of the sleeve 195 . In addition, a third sealing (S3) is provided on the front contact surface of the sleeve groove (158) and the sleeve (195) to prevent leakage between the second air chamber (155) and the drug delivery path (157). And one or a plurality of fourth sealing rings (S4) are provided in the inner ring groove 196 of the front of the sleeve 195 to guide the sliding contact of the needle member 181 and the second air chamber 155 and the drug transport passage. Leakage between (157) can be prevented. The fourth sealing S4 includes a gasket for preventing leakage and a friction force reducing member for reducing the sliding resistance of the needle member 181 .

The needle piston 190 is inserted into the second air chamber 155 and slidable back and forth by air, the fifth sealing S5 coupled to the ring groove 193 of the circumferential surface and the needle portion 180 is inserted into the needle head. Air leakage in the rear direction of the second air chamber 155 can be prevented by providing the sixth sealing seal S6 in close contact with the front surface of the 183 .

Next, the return spring 210 is to automatically return the needle unit 180 to the front to block the medicine nozzle unit 170, and is put into the inner space 201 of the housing 200 and the needle piston 190 of the The elastic restoring force can act in close contact with the back side. Here, the return spring 210 is configured such that the strength of the tension (elastic restoring force) is lower than the air pressure in the second air chamber 155 supplied through the second air line 154, so that the air in the second air chamber 155 is The return spring 210 may be compressed at the same time as the needle unit 180 moves backward by the pressure. Conversely, when the air pressure in the second air chamber 155 is released by blocking the air in the air gun 110, the needle unit 180 is moved forward by the elastic restoring force of the return spring 210 to remove the medicine nozzle unit 170. that can be blocked.

The housing 200 has an inner space 201 open to the front, a return spring 210 is built-in inside, and is screwed to the rear coupling portion of the body 150, and is inserted into the screw hole 202 formed in the center of the rear surface. The adjusting screw 220 is coupled. The adjusting screw 220 is screwed to the screw hole 202 in the central direction to partially protrude to the inside of the second air chamber 155 and by changing the protruding length, the reverse operation of the needle unit 180 is performed. Limited. That is, as the needle part 180 and the needle piston 190 move backward, the needle cap 184 stops in contact with the adjusting screw 220 , so the amount of drug spraying through the drug nozzle unit 170 is appropriately adjusted with the adjusting screw 220 . can be adjusted It is inserted into the adjusting screw 220 and provided with a fixing spring 221 that elastically restores force while being elastically adhered to the rear surface of the housing 200 to prevent malfunction of the adjusting screw 220 from rotating arbitrarily. Unexplained reference numeral 203 denotes a vent hole for smooth sliding operation of the needle piston 190 .

The medicinal spraying device 100 for beehive management according to an embodiment of the present invention configured as described above will be more easily understood with the following description of the state of use.

First, as shown in Figure 4, the needle portion 180 is inserted through the medicine nozzle portion 170 through the medicine transfer passage 157 in the center of the body portion 150, the rear return spring 210 by Since the drug supply is stopped when not in use by moving forward and blocking the front drug discharge part 179 of the drug nozzle unit 170, the drug in the spray nozzle does not flow out to the outside. That is, it is possible to prevent the remaining medicinal material (liquid) remaining in the spray unit (nozzle unit, body unit) from flowing out and falling inside the hive or harming the bees.

5 is an operation state diagram of the spray unit 140 according to an embodiment of the present invention.

Then, as shown in FIG. 5, when air is supplied through the pipe 120 by operating the air gun 110 to spray the medicine, the air is introduced into the air supply passage 151 on one side of the body 150 and the air Air is supplied to the first air chamber 153 and the air nozzle unit 160 in front of the body 150 through the first air line 152 on one side of the supply passage 151 and discharged to the spray unit 164 . can do. And the medicine (liquid) is put into the medicine supply passage 156 in the middle part of the body 150 and the front medicine nozzle through the central medicine transfer passage 157 of the body 150 communicating with the medicine supply passage 156. The medicine may be supplied to the unit 170 to wait for spraying. At the same time, as the air in the air supply passage 151 is supplied to the second air chamber 155 through the rear second air line 154 and the air pressure in the second air chamber 155 rises, this air pressure As the needle piston 190 moves backward by the can do (噴霧)

6 is a state diagram of the use of the medicinal spray device 100 for beehive management according to an embodiment of the present invention.

As shown in Figure 6, the spray unit 140 at the entrance (G) of the beehive (H) in a comfortable standing posture holding the air gun 110 of the medicinal spray device 100 for beehive management of the present invention by hand. When the air gun 110 is operated in a state in which the front medicine nozzle unit 160 is inserted deeply enough, the medicine is high-pressure sprayed in the form of a fine mist by the air pressure, so that it can be evenly spread and distributed in the honeycomb interior space. .

100: medicinal spray device for beehive management 110: air gun
111: air hose 120: pipe
122: air valve 130: medicine container
131: stopper 132: medicinal hose
140: spray unit 150: body portion
151: air supply passage 152, 154: air line
153, 155: air chamber 156: medicine supply passage
157: medicine transport passage 160: air nozzle unit
161: air conveying pipe body 162: flange portion
164: spray unit 165: fastening nut
170: drug nozzle unit 171: nozzle fastening unit
172, 177: split groove 175: medicine transport pipe body
176: medicine spray head 180: needle part
181: needle member 182: contact portion
184: needle cap 186: buffer spring
190: needle piston 195: sleeve
200: housing 210: return spring
220: adjusting screw H: hive

Claims (4)

In the medicinal spray device for beehive management,
An air gun 110 capable of supplying and blocking air by connecting the air hose 111;
a pipe 120 coupled to the outlet side of the air gun 110 and extending downward;
The medicine container 130 is coupled to the middle 'T' connector 121 of the pipe 120 and the medicine contained therein is released by the air and can be supplied along the medicine hose 132;
According to the opening and closing operation of the inner needle portion 180 of the body portion 150 coupled to the lower end of the pipe 120, the medicine of the medicine hose 132 is high-pressure sprayed through the front medicine nozzle portion 170 together with air (噴霧) the spray unit 140; including,
The spray unit 140 is
The pipe 120 is coupled to the air supply passage 151 formed on one side of the body 150 to introduce air, and the air supply passage 151 is connected to the body portion through the front first air line 152 . (150) The air can be discharged through the air nozzle unit 160 that communicates with the front first air chamber 153 and is coupled to the first air chamber 153 and extends forward,
By connecting the medicine hose 132 to the medicine supply passage 156 formed in the middle portion of the body portion 150, the medicine (liquid) is put and the body portion 150 communicates with the medicine supply passage 156. The medicine nozzle unit 170 inserted into the air nozzle unit 160 in front of the central medicine conveying passage 157 of
The body part 150, the needle part 180, which is inserted through the center of the drug transport passage 157, is inserted through the drug nozzle part 170, and the housing 200 coupled to the rear side of the body part 150. The drug supply is stopped when the spray device is not in use by moving forward by the elastic restoring force of the return spring 210 built in to block the front exit of the medicine nozzle unit 170,
The body portion 150 is formed inside the rear surface so that the second air chamber 155 that blocks the housing 200 communicates with the air supply passage 151 through the second air line 154 to supply air. Thus, the air supplied from the air gun 110 is introduced into the second air chamber 155 through the second air line 154 and slides the needle piston 190 built into the second air chamber 155 . As the needle unit 180 moves backward as it moves backward, the front exit of the medicine nozzle unit 170 is opened and the medicine is discharged and sprayed with the air through the air nozzle unit 160. A medicinal spraying device for beehive management. The method of claim 1,
The medicine nozzle unit 170,
It is fitted to the rear end of the drug transport pipe 175 and is coupled to the inner drug transport passage 157 of the front of the body 150 to inject the drug, and the air nozzle part 160, the rear flange part 162 of the a nozzle fastening part 171 inserted into the inner space part 163;
The medicine conveying pipe body 175 is inserted into the inner passage of the air nozzle unit 160 to form an air passage between the air nozzle units 160 by fitting and assembling at the front end of the nozzle fastening unit 171 to transport the medicine. );
Including; and a medicine spraying head 176 partially exposed to the outside of the outlet of the air nozzle unit 160 by fitting and assembling at the front end of the medicine conveying pipe body 175.
The nozzle fastening part 171 blocks the inner space part 163 of the flange part 162, but the first air chamber 153 and the air nozzle part through the first dividing groove 172 formed on the circumferential surface. (160) communicates with each other, and the medicine spraying head 176 blocks the inner passage of the air nozzle unit 160, but the inner passage communicates through the second dividing groove 177 formed on the circumferential surface. A chemical spraying device for beehive management. The method of claim 1,
The needle piston 190 is coupled to the rear end of the needle part 180 and is put into the first air chamber 153 of the body part 150, the needle part 180 is moved backward by the air, and the medicine nozzle part (170) is opened, and when the air supply to the first air chamber 153 is stopped, the needle unit 180 is moved forward to the original position by the elastic restoring force of the return spring 210, and the medicine nozzle unit 170 to block,
As the needle head 183 coupled to the rear end of the needle unit 180 is put inside the groove 184 and the elastic restoring force of the buffer spring 186 provided on the inside of the groove 184 acts, the front A medicinal spraying device for beehive management, characterized in that the pointed contact portion 182 is elastically in close contact with the exit of the medicine nozzle portion 170. The method of claim 1,
The needle part 180 is a beehive management, characterized in that the needle member 181 includes a tungsten carbide-based cemented carbide material, and a needle head 183 of a dissimilar metal material is coupled to the rear end of the needle member 181 . medicinal spraying device.

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