JP2010239909A - Small distributor - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a distributor obtained by installing a shutter for adjusting the amount of a chemical, constituted so that various chemicals having different particle diameters can be distributed, between a chemical tank and a distributing part. <P>SOLUTION: The distributor includes a body part having the plate blade-shaped shutter 32 driven by a delivering motor 33, and fixed to an output shaft 33a of the delivering motor 33 so as to be integrally turnable, and a plurality of delivering blades formed around the body part. The plate blade-shaped shutter 32 is constituted so as to be exchangeable with a plate blade-shaped shutter for fine particles, having a different length in the diameter direction of the delivering blade. <P>COPYRIGHT: (C)2011,JPO&amp;INPIT

Description

  The present invention relates to a small spraying device used for spraying sprays such as medicines and fertilizers on a field or the like.

  2. Description of the Related Art Conventionally, a power spraying device having a predetermined drive source has been used in order to spray sprayed materials such as drugs and fertilizers on a field or the like. The power dispersal device generally has the following configuration. In other words, the power spraying device includes a spraying unit for spraying the sprayed material and a feeding unit for feeding out the sprayed material supplied to the spraying unit. The spraying unit includes a rotating body called a spinner, an impeller, or the like, which is provided in a predetermined case and is rotatably provided with a motor, an engine, or the like as a drive source, and a longitudinal direction of the body as a rotation axis direction. And by using the ventilation and centrifugal force by rotation of this rotary body, a scattered material is sprayed from a predetermined spraying port (discharge port).

  With regard to such a power spraying device, the amount of sprayed material from the medicine tank is adjusted and supplied to the sprayed product at the feeding unit, and the shape thereof is below the disc-shaped slide shutter or curved opening. A rotary shutter that pivots a semi-cylinder whose cylindrical side is in contact with the horizontal axis and rotates, or a damper shutter that pivots a plate provided under the flat plate opening on the horizontal axis. In addition, a shutter configured by combining the shutters having the above-mentioned shape is known (for example, see Patent Document 1). In Patent Document 1, a composite shutter in which a rotary shutter and a damper shutter are combined is used. In such a configuration, since the rotary shutter and the damper shutter are provided in the feeding portion, the volume of the feeding portion needs to be large. Also, in terms of cost, since a rotary shutter and a damper shutter are provided, the cost is higher than that of a single shutter.

  Further, as a shape of the feeding portion, a configuration including only a rotary shutter in which a semi-cylinder having a cylindrical side abutted under a curved opening is pivotally supported on a horizontal axis is known (for example, a patent) Reference 2). In Patent Document 2, the shutter is driven to open and close by a motor serving as a driving means.

  However, the conventional rotary shutter is difficult to be sprayed due to clogging or the like depending on the particle size of the medicine to be delivered. That is, when the particle size of the medicine is large, the medicine cannot enter the space formed between the feeding blade and the feeding case that houses the feeding blade, and the rotary shutter is clogged. On the other hand, when the particle size of the medicine is small, a large amount of medicine enters between the feeding blade and the feeding case, and it is difficult to feed out only a small amount of medicine.

  In addition, when the particle size of the medicine to be delivered is large, the medicine particles are destroyed between the delivery blade and the delivery case that houses the delivery blade when rotating, or the medicine is destroyed or the delivery blade and the delivery case are It was sometimes damaged.

  Further, since the shutter of the conventional power spraying device has a gap between the shutter and the feeding case, the medicine leaks to the spraying part when the shutter stops rotating. Therefore, a leakage prevention shutter for preventing the medicine from leaking is separately provided between the feeding case and the spraying portion. For this reason, the cost of providing a leakage prevention shutter is incurred, and the volume of the small spray device is large.

Japanese Patent Laid-Open No. 2000-4762 JP-A-2005-803

  The present invention has been made in view of the above problems, and the problem to be solved is a spraying device provided with a shutter for metering a drug between a drug tank and a spraying unit. An object of the present invention is to provide a spraying device having a shutter configured to spray various medicines having different particle diameters.

  The problem to be solved by the present invention is as described above. Next, means for solving the problem will be described.

  In other words, in claim 1, a rotating rotator that is rotatably provided to disperse the sprinkled material by rotation thereof, and a sprinkled material that is rotatably provided and stored in a predetermined storage portion by the rotation of the sprinkled rotating member. A small-sized spraying device that sprays the sprinkled material using the rotation of the spraying rotating body, the paying rotating body being fed out. Driven by a driving source, the feeding rotating body has a main body portion fixed to an output shaft of the feeding driving source so as to be integrally rotatable, and a plurality of feeding blades formed around the main body portion, The feeding rotary body is configured to be exchangeable with a feeding rotary body having a different length of the protruding portion of the feeding blade.

  In Claim 2, the clearance gap between the radial direction outermost part of the said delivery rotary body and the inner wall of the said delivery accommodating part is comprised smaller than the particle size of a sprayed material.

  In Claim 3, the delivery blade | wing of the said delivery rotary body is comprised with the elastic member.

  According to a fourth aspect of the present invention, the spreading rotator is driven by a rotational driving source, the feeding rotary body is rotationally driven by the feeding driving source, the rotational driving source and the feeding driving source are connected to a control device, An adjustment dial for determining the distance is connected to the control device, and the rotation drive source and the feeding drive source are controlled according to the adjustment dial.

  As effects of the present invention, the following effects can be obtained.

  That is, in Claim 1, various sprinklings with different particle diameters can be sprayed by exchanging the feeding rotating body in accordance with the sprinkling particle diameter.

  According to the second aspect of the present invention, since the scattered material does not leak from the gap between the feeding rotating body and the inner wall of the feeding housing portion, it is not necessary to provide a shutter for preventing leakage, and the cost can be reduced. Become. Moreover, various sprinkles with different particle sizes can be sprayed.

  In claim 3, even when sprinkling particles are sandwiched between the feeding rotary body and the inner wall of the feeding housing portion, the feeding blades are deformed, so that the sprinkling is not destroyed. In addition, the feeding blade and the inner wall of the feeding housing portion are not damaged. Moreover, various sprinkles with different particle sizes can be sprayed.

  According to the fourth aspect of the present invention, the scattered matter can be metered and dispersed simply by operating the adjustment dial. Thereby, even if it is a case where a sprayed material is sprayed in the place where a spraying quantity and a spraying speed must be changed frequently like a deformation | transformation field, a complicated operation can be performed and a spraying operation can be performed efficiently. Moreover, even if the particle diameter of the said sprayed material is changed, it is possible to perform the metering and spraying of the sprayed material efficiently only by operating the adjustment dial.

The front view which shows the whole structure of the small dispersion device which concerns on one Embodiment of this invention. Similarly rear view. Similarly left side view. Similarly right side view. Similarly upper perspective view. Side surface partially notched sectional drawing which shows the internal structure of a small dispersion device. FIG. 6 is a partial cross-sectional side view showing an internal structure of the shutter accommodating portion. FIG. 6 is a partial cross-sectional side view showing an internal structure of the shutter accommodating portion. The block diagram which shows the spraying control of a small spraying apparatus.

Next, embodiments of the invention will be described.
1 is a front view showing the overall configuration of a small spraying apparatus according to an embodiment of the present invention, FIG. 2 is also a rear view, FIG. 3 is also a left side view, FIG. 4 is a right side view, and FIG. FIG. 6 is a partially cutaway side view showing the internal structure of the small spray device, FIG. 7 is a partially cutaway side view showing the internal structure of the shutter accommodating portion, and FIG. 8 is a side view showing the internal structure of the shutter accommodating portion. FIG. 9 is a partial cross-sectional view, and FIG. 9 is a block diagram showing spray control of the small spray device.

  The small spraying device 3 according to the present embodiment is a power spraying device for spraying sprays such as drugs and fertilizers on a farm field or the like. The small spraying device 3 according to the present embodiment is of a front hanging type used in a state of being hung in front of an operator. That is, the small spraying device 3 is used in a state where it is suspended and held on the front side of the worker by using a band or the like, and sprays the sprayed material while being moved by walking by the worker. In the following description, the sprayed material sprayed by the small spraying device 3 is defined as a granular medicine, and the leftward direction in FIG. Therefore, the left-right direction in FIG. 2 corresponds to the left-right direction in the small spray device 3. Moreover, let the up-down direction in FIG.

  The small spray device 3 has a spray port 21 for discharging a medicine to be sprayed. The small spraying device 3 includes a spraying unit 20 that sprays the medicine and a feeding unit 30 for feeding out the medicine supplied to the spraying unit 20. The spraying unit 20 includes an impeller 22 that is rotated by a predetermined rotational drive source, and sprays the drug from the spraying port 21 using the rotation of the impeller 22. The feeding unit 30 supplies the medicine stored in the medicine tank 31 to the impeller 22 portion of the spraying unit 20 via a predetermined feeding mechanism. That is, in the small spray device 3, the medicine stored in the medicine tank 31 is delivered to the medicine discharge path via a predetermined delivery mechanism. This discharge path communicates with a space in which the impeller 22 is accommodated in the spray unit 20. And the chemical | medical agent supplied to the part of the impeller 22 via the discharge path | route is spread | dispersed by being discharge | released from the spraying port 21 with the ventilation and centrifugal force by rotation of the impeller 22. FIG.

  Below, the detailed structure of the small spraying apparatus 3 of this embodiment is demonstrated. As described above, the small spray device 3 includes the spray unit 20 and the feeding unit 30. The spraying unit 20 includes an impeller 22 and a spraying motor 23 as a predetermined rotational drive source that rotates the impeller 22.

  The spray motor 23 is provided in a state of being accommodated in a spray unit housing 24 included in the spray unit 20. The spray motor 23 is supported in a posture in which the axial direction of the output shaft (rotating shaft) is the front-rear horizontal direction in the spray portion housing 24.

  The impeller 22 is provided in a state in which it is housed in the impeller case 25. The impeller 22 is rotatably provided with the front-rear horizontal direction as a rotation axis direction. The impeller 22 has a plurality of (six in this embodiment) diffusion blades 22a. The diffusion blade 22 a is a thin plate portion that is substantially parallel to the front-rear direction and the radial direction of the impeller 22. The six diffusion blades 22a are provided at equal angular intervals in the circumferential direction of the impeller 22, and are arranged so as to be radial in a front view or the like. The number and shape of the diffusion blades 22a included in the impeller 22 are not particularly limited to the present embodiment.

  The impeller 22 is connected to the spraying motor 23 by being fixed to an output shaft that protrudes forward in the spraying motor 23 accommodated in the spraying unit housing 24. That is, in the spraying unit 20, the impeller 22 is provided in front of the spraying motor 23. Therefore, the impeller case 25 that houses the impeller 22 is provided on the front side of the spraying part housing 24 that houses the spraying motor 23. The impeller case 25 has an opening with respect to the internal space that houses the impeller 22, and this opening serves as a spray port 21 through which the sprayed medicine is discharged.

  The impeller 22 is provided so that its rotation direction can be switched. That is, the rotation direction of the impeller 22 is switched by switching the rotation direction of the spray motor 23 that rotates the impeller 22.

  In the sprinkling part 20 having such a configuration, the granular medicine dropped from the feeding part 30 toward the center part of the rotating impeller 22 moves along the inner peripheral surface of the impeller case 25 by the movement of the diffusion blade 22a. Then, it is transported upward, energized by blown air and centrifugal force by the rotation of the impeller 22, and sprayed by being discharged out of the impeller case 25 from the spray port 21. Here, by adjusting the rotational speed of the impeller 22, that is, the rotational speed (rotational speed) of the spray motor 23, the spraying distance of the medicine is adjusted. For example, when the number of rotations of the impeller 22 (the number of rotations of the spray motor 23) increases, the air flow rate and the centrifugal force increase, and the spraying distance becomes long. As described above, in the spraying unit 20, the medicine is sprayed from the predetermined spraying port 21 by using the air blown by the rotation of the impeller 22 and the centrifugal force.

  As described above, in the small spraying device 3 of the present embodiment, the impeller 22 serving as a spraying rotating body that is rotatably provided and sprays the sprayed material by the rotation, and the impeller case 25 serving as a case member that accommodates the impeller 22. And are provided.

  The feeding unit 30 delivers the medicine toward the impeller 22. The feeding unit 30 is configured above the spraying unit 20. The feeding unit 30 drives a medicine tank 31 for storing medicine, a plate blade type shutter 32 as a feeding rotating body for feeding the medicine in the medicine tank 31 to the spraying unit 20, and the plate blade type shutter 32. And a feeding motor 33 for the purpose.

  The feeding motor 33 is provided in a state of being accommodated in a feeding portion housing 34 included in the feeding portion 30. The feeding motor 33 is supported in a posture in which the axial direction of the output shaft (rotating shaft) 33a is the horizontal direction in the feeding portion housing 34. Specifically, in the present embodiment, the feeding portion housing 34 is formed in a substantially cross shape when viewed from the front. A feeding motor 33 is housed in the left portion of the substantially cross shape of the feeding portion housing 34. In the present embodiment, the feeding portion housing 34 is configured integrally with the spreading portion housing 24. That is, with respect to the feeding portion housing 34, the spreading portion housing 24 is integrally present below the feeding portion housing 34.

The plate blade type shutter 32 is provided in a state of being housed in the feeding portion housing 34, and serves as both a feeding means and a fall stopping means. In other words, in the case of a spreader with a large amount of medicine sprayed in the past, the amount of spraying is adjusted by adjusting the shutter opening / closing amount. The amount was adjusted by adjusting the number. However, in the structure that opens and closes the shutter, it is easy to form a bridge, and it is difficult to spray a fixed amount, and a stirring device or the like is required. On the other hand, when the feeding roll is used, there is a limit to increasing the recess provided on the outer periphery of the feeding roll, and a shutter is provided below the feeding roll in order to reliably stop the dropping of the medicine.
In the present invention, the plate blade type shutter 32 that can adjust the feeding amount from a small amount to a large amount and can also serve as a shutter is provided so as to be rotatable with the horizontal direction in the horizontal direction as the rotation axis direction. That is, as shown in FIG. 6, the plate blade type shutter 32 includes a substantially spindle-shaped (barrel-shaped) main body portion 32a and a plurality of (eight in the present embodiment) formed around the main body portion 32a. And a feeding blade 32b. The feeding blade 32 b is a thin plate portion that is substantially parallel to the left-right direction and the radial direction of the plate blade-type shutter 32. The eight feeding blades 32b are provided at equal angular intervals in the circumferential direction of the plate blade type shutter 32, and are arranged so as to be radial in a side view. The number and shape of the feeding blades 32b of the plate blade type shutter 32 are not particularly limited to the present embodiment.

  The plate blade type shutter 32 is connected to the feeding motor 33 by being fixed to the output shaft 33a protruding toward the side (right side) in the feeding motor 33 accommodated in the feeding portion housing 34. Is done. That is, in the feeding unit 30, the plate blade type shutter 32 is provided on the right side of the feeding motor 33. The plate blade type shutter 32 is provided in a shutter accommodating portion 34a formed in the feeding portion housing 34 (see FIG. 6), and between the main body portion 32a, the feeding blade 32b, and the inner surface of the shutter accommodating portion 34a of the feeding portion housing 34. The medicine is accommodated in a space surrounded by, transported downward while rotating, and dropped. The rotational speed (rotational speed) of the plate blade shutter 32 can be changed by controlling the feeding motor 33, and the amount of the medicine to be fed toward the impeller 22 can be adjusted. That is, by slowing down the rotation speed of the feeding motor 33, the number of rotations of the plate blade type shutter 32 can be reduced, and the amount of medicine to be delivered per unit time can be reduced. By increasing the rotation speed, the number of rotations of the plate blade type shutter 32 can be increased, and the amount of medicine to be delivered per unit time can be increased.

  In the case of the configuration in which the plate blade type shutter 32 is rotated and the drug is fed to the spraying unit 20 as described above, the drug in the feeding case unit 35 is agitated by the rotation of the plate blade type shutter 32 and the bridge (the drug The occurrence of lumps is prevented and uniform metering is possible. That is, the small spraying device 3 of the present embodiment is configured such that the bridge is broken on the feeding blade 32b by providing the plate blade type shutter 32. Thereby, it is possible to uniformly meter. Further, in the case of the conventional feeding roll, a brush or the like for removing the medicine that cannot enter the recess is necessary. However, in the plate blade type shutter 32, the tip of the feeding blade 32b is in contact with the inner surface of the shutter accommodating portion 34a. By contacting, the medicine storage space can be closed to prevent extra medicine from entering, and the brush can be eliminated. Here, when the rotation of the plate blade type shutter 32 is stopped, the feeding can be stopped and the shutter can be eliminated.

  The plate blade type shutter 32 is fixed to an output shaft 33 a protruding toward the feeding motor 33 so as to be integrally rotatable. The plate blade type shutter 32 is configured to be removable from the output shaft 33a, and can be replaced with a fine particle plate blade type shutter 42 having different sizes of the feeding blade 32b and the main body 32a. . For example, a key groove is provided in the output shaft 33a and the plate blade type shutter 32 and is fixed by fitting the key 40, and when replacing the plate blade type shutter 32, the key 40 is removed, and different fine particles are used. The plate blade type shutter 42 can be fixedly fitted to the output shaft 33a. In addition, the plate blade type shutter 42 having a different number of blades and the thickness of the blade, that is, as shown in FIG. 7, can be replaced with a plate blade type shutter 42 having a different size of the recess between the blades.

  As shown in FIG. 7, the plate blade type shutter 42 for fine granules has a substantially spindle-shaped (barrel-shaped) main body portion 42a and a plurality of sheets (eight in this embodiment) formed around the main body portion 42a. The feeding blade 42b. The feeding blades 42b of the fine-grain plate blade type shutter 42 are provided at equal angular intervals in the circumferential direction of the fine-grain plate blade type shutter 42, and are arranged so as to be radial in a side view. Further, the feeding blade 42b is configured such that the length of the portion protruding from the main body portion 42a is shorter than that of the feeding blade 32b. The distance from the center of the output shaft 33a to the radially outermost portion of the feeding blade 42b is configured to be the same as that of the plate blade type shutter 32. That is, the length of the protruding portion of the feeding blade 42b is shortened by increasing the maximum diameter of the main body 42a. The plate blade type shutter 32 and fine particle plate blade type shutter 42 can be fixed to the output shaft 33a by, for example, spline fitting.

  Further, the plate blade type shutter 52 according to another embodiment includes a substantially spindle-shaped (barrel-shaped) main body portion 52a and a plurality of (eight in this embodiment) feeding blades formed around the main body portion 52a. 52b, and the feeding blade 52b is formed using an elastic member. The feeding blade 52b is made of, for example, rubber. Even when the medicine particles are sandwiched between the delivery blade 52b and the shutter accommodating portion 34a, the delivery blade 52b, which is an elastic member, is bent as shown in FIG. There is no. Further, when the particles are rubbed due to the flow of the drug, or powder is generated due to friction between the particles and the feeding blade 52b or the case, the tip of the feeding blade 52b of the elastic member is in sliding contact with the inner surface of the shutter accommodating portion 34a. It can act as a scraper to scrape off the adhering powder. Furthermore, the delivery blade 52b is made of a low-friction member such as a fluororesin or a water-repellent member, whereby adhesion of the medicine itself can be prevented.

  The shutter accommodating portion 34 a is a space portion formed in the central portion of the substantially cross shape in the feeding portion housing 34. As shown in FIG. 6, the plate blade type shutter accommodating portion 34 a has a shape that follows the rotational shape of the plate blade type shutter 32. Further, the shutter accommodating portion 34a is provided with a plate blade type shutter 32 inside thereof. The gap between the outermost radial direction of the feeding blade 32b of the plate blade type shutter 32 and the inner wall of the shutter housing portion 34a is configured to be smaller than the particle size of the medicine. The upper portion of the substantially cross shape of the feeding portion housing 34 is configured as a feeding case portion 35. The feeding case portion 35 is a substantially cylindrical portion that opens upward. That is, the space formed by the feeding case portion 35 (the internal space of the feeding case portion 35) has a substantially cylindrical shape with an upper side opened. Further, the inner space of the feeding case portion 35 is reduced in a conical shape (funnel shape) toward the lower side and communicated with the shutter accommodating portion 34a. The shutter accommodating portion 34 a communicates with the inner space of the feeding case portion 35 by opening in a state facing the inner space of the feeding case portion 35.

  On the opposite side of the shutter housing portion 34a from the feeding case portion 35 side, that is, on the lower side, a feeding passage 34b is formed. The feeding passage 34b is formed obliquely forward and downward from the shutter accommodating portion 34a. The feeding passage 34 b is formed over the feeding portion housing 34 and the spraying portion housing 24 that are integrally configured as described above, and opens into the inner space of the impeller case 25 toward the vicinity of the center portion of the impeller 22. In other words, the feeding passage 34 b is formed such that the upper end side communicates with the internal space of the feeding case part 35 via the shutter accommodating portion 34 a and the lower end side communicates with the inner space of the impeller case 25.

  The medicine tank 31 is provided on the upper side of the feeding portion housing 34. The medicine tank 31 is provided in a state of being attached to a feeding case portion 35 constituting the feeding portion housing 34. Specifically, a connecting portion 31 b (see FIG. 6) having a cylindrical shape having a shape along the internal space of the feeding case portion 35 is formed at one end portion of the medicine tank 31. The medicine tank 31 is attached to the feeding case portion 35 by inserting the connecting portion 31b into the feeding case portion 35 from above. The medicine tank 31 is attached to the feeding case portion 35 and is in a state of communicating with the internal space of the feeding case portion 35. With this configuration, the medicine stored in the medicine tank 31 is guided into the feeding case portion 35 by gravity. Further, the medicine tank 31 has an opening formed at a position on the upper side when attached to the feeding case portion 35, and this opening is configured to be opened and closed by attaching and detaching the lid 31a. That is, the medicine is supplied to the medicine tank 31 through the opening to which the lid 31a is attached.

  In the feeding part 30 having such a configuration, the medicine guided from the medicine tank 31 into the feeding case part 35 is sent to the feeding path 34b by a predetermined amount by the rotation of the plate blade type shutter 32. That is, the shutter accommodating portion 34 a that accommodates the plate blade type shutter 32 has a shape that follows the rotational shape of the plate blade type shutter 32 as described above, and opens toward the feeding case portion 35. For this reason, in the state where the plate blade type shutter 32 is not rotating, the dropping of the medicine from the feeding case portion 35 to the feeding passage 34b is restricted. On the other hand, when the plate blade type shutter 32 rotates, the medicine received between the adjacent feeding blades 32b is sent out to the feeding passage 34b. As a result, the medicine in the medicine tank 31 is delivered by a predetermined amount to the delivery passage 34b by the rotation of the plate blade type shutter 32. Then, the medicine fed out by the rotation of the plate blade type shutter 32 is guided to the center of the impeller 22 through the feeding passage 34b.

  As described above, in the small spray device 3 of the present embodiment, as a feeding rotary body that is rotatably provided and feeds the medicine stored in the medicine tank 31 that is a predetermined storage portion toward the impeller 22 by the rotation. A plate blade type shutter 32 is provided. And in the medicine delivery mechanism in the small spraying device 3, the amount of medicine delivered from the delivery case section 35 is adjusted by changing the rotational speed of the plate blade type shutter 32. As described above, the plate blade type shutter 32 functions as a feed amount adjusting member of the feed portion 30. Further, the plate blade type shutter 32 can be sprayed with a plurality of types of medicines having different particle sizes and shapes by exchanging them with ones having different shapes, sizes, numbers, etc. of the feeding blades 32b.

  As described above, in the small spray device 3 of the present embodiment, the feeding portion 30 is rotatably provided, and the plate blade as a feeding amount adjusting member for adjusting the feeding amount of the medicine with respect to the impeller 22 according to the rotation speed. And a feeding motor 33 as a feeding drive source for rotating the plate blade type shutter 32. And the chemical | medical agent guide | induced to the center part of the impeller 22 of the dispersion | spreading part 20 from the delivery part 30 via the delivery path | route 34b, ie, the chemical | medical agent delivered | paid with respect to the dispersion | spreading part 20 from the delivery part 30, is in the dispersion | distribution part 20. As described above, the air blown by the rotation of the impeller 22 and the centrifugal force are used to be sprayed from the spray port 21.

  In the small spraying device 3, a spraying battery 36 is provided. The spraying battery 36 supplies power to the spraying motor 23 that forms the spraying unit 20 and the feeding motor 33 that configures the feeding unit 30. The spraying battery 36 is provided in a state of being accommodated in the battery case 36a. The battery case 36 a is configured integrally with the spray unit housing 24 below the spray unit housing 24.

  Moreover, in the small spraying apparatus 3, as shown in FIG.4 and FIG.5, the adjustment dial 37 for adjusting the spraying quantity and spraying distance of a chemical | medical agent is provided. The small spray device 3 is configured such that the rotation speed (rotational speed) of the spray motor 23 and the feeding motor 33 is adjusted by operating the adjustment dial 37. That is, the rotation speeds of the spray motor 23 and the feed motor 33 can be adjusted stepwise or continuously by operating the adjustment dial 37, and according to the spraying amount and spraying distance of the medicine desired by the adjustment dial 37. The number of rotations is adjusted. As described above, the adjustment dial 37 is provided so as to protrude rightward in the right portion of the substantially cross shape of the feeding portion housing 34.

Control of the feeding motor 33 and the spray motor 23 by the adjustment dial 37 will be described.
As shown in FIG. 9, the feeding motor 33 connected to the plate blade type shutter 32 is connected to a controller 60 which is a control device. In addition, the spray motor 23 is connected to the controller 60. On the other hand, an adjustment dial 37 as an input device is connected to the controller 60, and the operator can set the spray amount and spray distance of the medicine.

  Information from the adjustment dial 37 is input to the controller 60, and the controller 60 determines the rotation speeds of the feeding motor 33 and the spraying motor 23 connected to the plate blade type shutter 32 based on the information. For example, when the spraying amount is small or the spraying distance is short, the amount of the medicine to be fed is reduced by slowing the rotation speed of the feeding motor 33 connected to the plate blade type shutter 32, and further the spraying motor is adjusted accordingly. By reducing the rotational speed of 23, the spraying is performed at a speed corresponding to the reduced amount of medicine, a spraying distance, and a spraying amount.

  Further, when the spraying amount is large or the spraying distance is long, the amount of the medicine to be fed is increased by increasing the rotation speed of the feeding motor 33 connected to the plate blade type shutter 32, and further the spraying motor is adjusted accordingly. By increasing the rotational speed of 23, spraying is performed at a speed corresponding to the increased amount of medicine, a spraying distance, and a spraying amount.

  In the small sprayer 3, a support frame 38 is provided. The support frame 38 is configured by bending an integral rod-shaped member. As shown in FIGS. 1 to 5, the support frame 38 is supported by the both ends of the support frame 38 at positions on the left and right outer sides of the feeding case portion 35, and the lower side of the spraying unit 20 (small spraying). (Lower side of the device 3) so as to be substantially V-shaped in rear view and substantially U-shaped in side view. The support frame 38 is supported and fixed in a state where both supported end portions penetrate the support stay 38a in the front-rear direction with respect to the support stay 38a that protrudes to the left and right sides outside the feeding case portion 35.

  In the small spray device 3, a guard plate 39 is provided. The guard plate 39 is a member having a substantially rectangular plate-shaped portion, and is disposed horizontally on the left and right sides of the medicine tank 31 so as to be positioned above the impeller case 25. The guard plate 39 regulates the spraying of the medicine discharged from the spraying port 21 in an unnecessary direction, and the medicine that restricts the spraying (the medicine that hits the guard plate 39 from below) is placed on the lower side (the operator's Has the function of dropping to the front).

  The guard plate 39 is supported by being fixed to the support plate portion 31c that protrudes to the left and right sides at the lower portion outside the drug tank 31. That is, the guard plate 39 has a support stay 39 a for supporting the drug tank 31 at one end of a substantially rectangular plate-shaped portion, and the support stay 39 a is a support plate portion 31 c of the drug tank 31. Is supported with respect to the medicine tank 31.

  Moreover, in the small spraying device 3 of this embodiment, the hook part 39b for the small spraying device 3 to be used as a front hanging system is provided in the end of the guard board 39. FIG. The hook portion 39b is a plate-like portion that protrudes rearward from the rear end portion of the guard plate 39, and a hole portion 39c through which a band or the like for hanging the small spraying device 3 to the operator's front side is hooked. Have That is, the hook portions 39b formed on the guard plates 39 provided on both the left and right sides of the medicine tank 31 are used, and the front-mounted small spraying device 3 is supported in a state of being hung on the front side of the operator by a band or the like.

  The small spraying device 3 of the present embodiment having the above configuration is configured such that the spraying unit 20 can switch the spraying direction of the medicine discharged from the spraying port 21 to a plurality of directions. Hereinafter, the configuration for switching the spraying direction of the medicine discharged from the spraying port 21 in the small spraying device 3 (hereinafter referred to as “spraying direction switching configuration”) will be described together with the configuration of the spraying unit 20.

  In the spraying direction switching configuration, the spraying direction of the medicine discharged from the spraying port 21 is switched to a plurality of directions by the rotation of the impeller case 25 that houses the impeller 22.

  That is, the impeller case 25 is provided so as to be rotatable with the direction substantially the same as the rotation axis direction of the impeller 22 being the rotation axis direction. Specifically, the impeller case 25 is supported on the front end side of the spraying part housing 24 in a state of being rotatably fitted to the spraying part housing 24, so that the front-rear horizontal direction is the rotational axis direction. As shown in FIG. Further, the impeller case 25 communicates with a space portion that houses the impeller 22 and forms a spout 21 that is an opening through which a medicine energized by the rotation of the impeller 22 is discharged. That is, the spout 21 is formed at one end of the impeller case 25.

  Thus, in the small spray device 3 of the present embodiment, the impeller case 25 that houses the impeller 22 functions as a spray port forming member that forms the spray port 21. And the direction of the spout 21 changes as the impeller case 25 is rotated. A switching handle 41 is used to rotate the impeller case 25. The switching handle 41 is configured as a substantially cylindrical gripping portion that protrudes forward from the front surface of the impeller case 25. The switching handle 41 is provided integrally with the impeller case 25. That is, the impeller case 25 rotates integrally with the switching handle 41 by the rotation operation of the switching handle 41. Thus, by operating the switching handle 41, the impeller case 25 is rotated, and the direction of the spraying port 21, that is, the spraying direction is switched.

  Although the small dispersion device 3 which concerns on this embodiment demonstrated above makes a dispersion | spreading thing to be used as a granular chemical | medical agent, it is not limited to this. In other words, the sprayed material sprayed by the small spraying device 3 may be fertilizer or the like in addition to the drug. Moreover, although the small spraying apparatus 3 which concerns on this embodiment is used as a front-end | hanging system which will be in the state held by the operator, even if it is used in the state mounted in the mobile trolley | bogie which has a running wheel etc. Good.

As described above, the small spraying device 3 is provided so as to be rotatable and sprays the medicine by rotation thereof, and the medicine stored in the medicine tank 31 by rotation and directed to the impeller 22 is directed to the impeller 22. A small-sized spraying device 3 that includes a plate blade-type shutter 32 that feeds out and a shutter housing portion 34a that houses the plate blade-type shutter 32, and sprays a medicine using the rotation of the impeller 22. The shutter 32 is driven by a feeding motor 33, and the plate blade type shutter 32 is formed around a main body portion 32a fixed to an output shaft 33a of the feeding motor 33 so as to be integrally rotatable, and around the main body portion 32a. And the plate blade type shutter 32 has a diameter of the supply blade 32b. In which the length of the direction is configured to be interchangeable with different fine plate blade shutter 42.
By comprising in this way, the various chemical | medical agents from which a particle size differs can be sprayed by replacing | exchanging the plate blade | wing type shutter 32 according to the particle size of a chemical | medical agent.

Moreover, the said small dispersion | distribution apparatus 3 comprises the clearance gap between the radial direction outermost part of the said plate blade | wing type | mold shutter 32, and the inner wall of the said shutter accommodating part 34a smaller than the particle size of a chemical | medical agent.
By configuring in this way, the medicine does not leak from the gap between the plate blade type shutter 32 and the inner wall of the shutter accommodating portion 34a. Therefore, it is not necessary to provide a shutter for preventing the leakage in the feeding passage 34b. Can be reduced. Moreover, various sprinkles with different particle sizes can be sprayed.

Moreover, the said small dispersion | distribution apparatus 3 comprises the feeding blade | wing 32b of the said plate blade | wing type shutter 32 with the elastic member.
By configuring in this way, even when particles of the medicine are sandwiched between the plate blade type shutter 32 and the inner wall of the shutter accommodating portion 34a, the feeding blade 32b is deformed, so that the medicine is destroyed. In addition, the feeding blade 32b and the inner wall of the shutter accommodating portion 34a are not damaged. Moreover, various medicines having different particle sizes can be sprayed.

The impeller 22 is driven by a spraying motor 23, the plate blade shutter 32 is rotationally driven by a feeding motor 33, and the spraying motor 23 and the feeding motor 33 are connected to a controller 60 to determine a spraying amount and a spraying distance. The adjusting dial 37 is connected to the controller 60, and the spraying motor 23 and the feeding motor 33 are controlled according to the adjusting dial 37.
By configuring in this way, the medicine can be metered and dispersed only by the operator operating the adjustment dial 37. Thereby, even if it is a case where a medicine is sprayed in a place where the spraying amount and the spraying speed must be frequently changed as in a modified farm field, a complicated operation can be eliminated and the spraying work can be performed efficiently. Moreover, even if the particle size of the sprayed product is changed, the sprayed product can be efficiently metered and sprayed only by operating the adjustment dial 37.

3 Small spraying device 20 Spraying unit 21 Spraying port 22 Impeller (spraying rotating body)
23 Spraying motor (rotary drive source)
25 Impeller case (case member)
30 Feeding section 31 Drug tank (storage part)
32 Plate blade type shutter (Feeding rotary body)
33 Feeding motor (feeding drive source)
36 Battery for spraying

Claims (4)

A rotating rotator which is rotatably provided and sprays the sprinkled material by the rotation; and a rotating rotator which is rotatably provided and feeds the sprinkled matter stored in a predetermined reservoir by the rotation toward the spraying rotator. A small-sized spraying device that sprays the sprinkled material using the rotation of the spraying rotating body, and a feeding housing portion that houses the feeding rotating body.
The feeding rotator is driven by a feeding drive source, the feeding rotator is fixed to an output shaft of the feeding drive source so as to be integrally rotatable, and a plurality of feeding members formed around the body portion. The feeding rotating body is configured to be exchangeable with a feeding rotating body having a different length of the protruding portion of the feeding blade,
A small spraying device characterized by that. The small dispersion device according to claim 1, wherein a gap between a radially outermost portion of the feeding rotating body and an inner wall of the feeding housing portion is configured to be smaller than a particle size of the scattered material. The small spraying device according to claim 1 or 2, wherein the feeding blade of the feeding rotating body is formed of an elastic member. The spreading rotator is driven by a rotation drive source, the feeding rotator is rotationally driven by a feeding drive source, the rotation driving source and the feeding drive source are connected to a control device, and an adjustment dial for determining a spreading amount and a spreading distance Was connected to the control device, and the rotation drive source and the feeding drive source were controlled according to the adjustment dial,
The small spraying device according to any one of claims 1 to 3, wherein the device is a small spraying device.

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