JP2017013003A - Solution diluting device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To realize a solution diluting device in which the variation of a dilution scale factor of a solution can be made small.SOLUTION: When tap water is supplied to a second space 22 from a solution supply port 11, a moving member 24 is moved by the pressure, a herbicide housed in a first space 21 is pushed out, and the pushed-out herbicide is flowed into a dilution mechanism 50 through a solution flowing-out pipe 23. The dilution mechanism 50 mixes the flowed-in herbicide and the tap water flowed out from the second space 22, and the herbicide of a dilution scale factor set by a dial 41 is discharged to a spray mechanism 30. As there is no possibility that a moving speed changes during moving because the moving member 24 is moved by two mechanisms of the inner wall of a container 20 and the solution flowing-out pipe 23, the variation in the dilution scale factor of the herbicide is small.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a liquid agent dilution apparatus for diluting liquid agents such as herbicides and liquid fertilizers.

Conventionally, as this type of liquid agent dilution apparatus, for example, the one shown in FIG. 16 is known (Patent Document 1). FIG. 16 is a longitudinal sectional view of a conventional liquid agent dilution apparatus.
A conventional liquid dilution apparatus 100 includes a three-way valve 102 for branching a solvent such as tap water supplied from a hose 101, a flowing water pipe portion 103 and a branch pipe 104 through which the solvent branched by the three-way valve 102 flows, A liquid agent storage chamber 105, a moving member (piston body) 106 disposed in the liquid agent storage chamber 105, an O-ring 107 attached to the outer peripheral surface of the moving member 106, and a cap that covers the opening of the liquid agent storage chamber 105 108, a liquid discharge tube 113 through which the liquid agent stored in the liquid agent storage chamber 105 flows out, a throttle 109 for restricting the flow of the liquid agent flowing out from the liquid discharge tube 113, and an outlet of the solvent flowing out from the water flow tube portion 103 The throat 111 provided in the throat, the liquid injection hole 110 for injecting the liquid that has passed through the throttle 109 into the throat 111, and the mixture of the solvent and liquid flowing out of the throat 111 And a jet nozzle 112 for ejecting.

  When the solvent is supplied from the hose 101, the solvent flowing to the flowing water pipe part 103 through the three-way valve 102 reaches the throat part 111. On the other hand, the solvent flowing to the branch pipe 104 via the three-way valve 102 applies pressure to the moving member 106. As a result, the moving member 106 pushes the liquid agent stored in the liquid agent storage chamber 105 into the liquid discharge pipe 113, and the pushed liquid agent is injected into the throat 111 from the liquid injection hole 110 through the throttle 109. . The liquid agent is diluted with a solvent in the throat 111, and the diluted liquid agent is ejected from the ejection nozzle 112.

Japanese Patent No. 2673963 (FIG. 1)

(First issue)
However, since the conventional liquid agent dilution apparatus 100 described above has a structure in which the moving member 106 moves while being in contact with the inner wall surface of the liquid agent containing chamber 105, unevenness occurs in the moving speed of the moving member 106. For this reason, since the amount of the liquid agent pushed out from the liquid agent storage chamber 105 varies, there is a problem that the dilution ratio of the liquid agent being ejected from the ejection nozzle 112 varies.

(Second problem)
In addition, the conventional liquid agent diluting device 100 requires two containers, namely, the flowing water pipe portion 103 and the liquid agent containing chamber 105, so that there is a problem that there are large restrictions when the device is downsized.

(Third issue)
Furthermore, the conventional liquid agent diluting device 100 has a problem that the working efficiency is low because the cap 108 must be removed when the liquid agent storage chamber 105 is cleaned.

(Fourth issue)
Furthermore, when returning the moved moving member 106 to the original position, the conventional liquid dilution apparatus 100 must first open the cap 108 and then push the moving member 106 back using a rod-like member. There is a problem of low efficiency.

(Fifth issue)
Further, in the conventional liquid agent dilution apparatus 100, although a section of the throttle 109 is shown (FIG. 16), a mechanism for adjusting the dilution ratio of the liquid agent ejected from the ejection nozzle 112 is not sufficiently disclosed.

(First purpose)
SUMMARY OF THE INVENTION Accordingly, a first object of the present invention is to realize a liquid agent diluting apparatus that can reduce the fluctuation of the dilution ratio of the liquid agent.

(Second purpose)
A second object of the present invention is to realize a liquid agent diluting device with a small restriction on downsizing of the device.

(Third purpose)
Furthermore, a third object of the present invention is to realize a liquid agent diluting device that can improve the working efficiency when cleaning a portion containing the liquid agent.

(Fourth purpose)
Furthermore, a fourth object of the present invention is to realize a liquid agent diluting device that can improve the working efficiency when returning the moved moving member to the original position.

(Fifth purpose)
Furthermore, a fifth object of the present invention is to realize a liquid agent diluting device capable of adjusting the dilution rate of the liquid agent ejected from the ejection nozzle by an operator's operation.

(Invention according to Claim 1)
In order to achieve the first and second objects described above, in the invention according to claim 1 of this application, a container (20) having a cylindrical space (21, 22),
A movable member that is disposed in the space so as to intersect with the central axis of the space, and that divides the space into a first space (21) and a second space (22) and is movable along the central axis ( 24)
A liquid agent storage mechanism (21a, 60) for storing the liquid agent in the first space;
A pressure application mechanism (11, 11a) for applying pressure to the liquid agent accommodated in the first space via the moving member by filling the second space with a solvent to which a predetermined pressure is applied. , 52),
A solvent outflow mechanism (58) for allowing the solvent supplied to the second space to flow out of the second space;
A tubular liquid agent outflow mechanism (23) for causing the liquid agent, to which pressure is applied by the pressure application mechanism, to flow out of the first space;
A mixing mechanism (56, 57, 59) for mixing the solvent flowing out from the solvent outflow mechanism and the liquid agent flowing out from the liquid agent outflow mechanism,
The liquid agent outflow mechanism is inserted through the moving member, and the liquid agent outflow mechanism is a liquid agent diluting device (10) which is a moving shaft for moving the moving member.

(Invention according to Claim 2)
In order to achieve the third object described above, in the invention according to claim 2 of this application,
A container (20) having a cylindrical space (21, 22);
A movable member that is disposed in the space so as to intersect with the central axis of the space, and that divides the space into a first space (21) and a second space (22) and is movable along the central axis ( 24)
A liquid agent storage mechanism (21a, 60) for storing the liquid agent in the first space;
A pressure application mechanism (11, 11a) for applying pressure to the liquid agent accommodated in the first space via the moving member by filling the second space with a solvent to which a predetermined pressure is applied. , 52),
A solvent outflow mechanism (58) for allowing the solvent supplied to the second space to flow out of the second space;
A liquid agent outflow mechanism (23) for causing the liquid agent applied with pressure by the pressure applying mechanism to flow out of the first space;
A mixing mechanism (56, 57, 59) for mixing the solvent flowing out from the solvent outflow mechanism and the liquid agent flowing out from the liquid agent outflow mechanism,
The liquid agent accommodation mechanism is provided with an opening (21a) for accommodating the liquid agent in the first space, and a lid mechanism (60) capable of opening and closing the opening,
In the lid mechanism,
A check valve (62d) capable of communicating with the opening;
Characterized by a liquid agent diluting device (10) provided with a connecting member (62a) for connecting a member (76a) for supplying a solvent used for cleaning to the first space via the check valve To do.

(Invention according to claim 3)
In order to achieve the fourth object described above, in the invention according to claim 3 of this application,
A container (20) having a cylindrical space (21, 22);
A movable member that is disposed in the space so as to intersect with the central axis of the space, and that divides the space into a first space (21) and a second space (22) and is movable along the central axis ( 24)
A liquid agent storage mechanism (21a, 60) for storing the liquid agent in the first space;
A pressure application mechanism (11, 11a) for applying pressure to the liquid agent accommodated in the first space via the moving member by filling the second space with a solvent to which a predetermined pressure is applied. , 52),
A solvent outflow mechanism (58) for allowing the solvent supplied to the second space to flow out of the second space;
A liquid agent outflow mechanism (23) for causing the liquid agent applied with pressure by the pressure applying mechanism to flow out of the first space;
A mixing mechanism (56, 57, 59) for mixing the solvent flowing out from the solvent outflow mechanism and the liquid agent flowing out from the liquid agent outflow mechanism,
The liquid agent accommodation mechanism is provided with an opening (21a) for accommodating the liquid agent in the first space, and a lid mechanism (60) capable of opening and closing the opening,
In the lid mechanism,
A check valve (62d) capable of communicating with the opening;
A member (76a) for supplying the first space through the check valve with the solvent applied with the pressure for returning the moving member moved in the space to the position before the movement by the pressure applying mechanism is connected. And a connecting member (62a) that is provided with a liquid agent diluting device (10).

(Invention of Claim 4)
In order to achieve the above third and fourth objects, in the invention according to claim 4 of this application, a container (20) having a cylindrical space,
A movable member that is disposed in the space so as to intersect with the central axis of the space, and that divides the space into a first space (21) and a second space (22) and is movable along the central axis ( 24)
A liquid agent storage mechanism (21a, 60) for storing the liquid agent in the first space;
A pressure application mechanism (11, 11a) for applying pressure to the liquid agent accommodated in the first space via the moving member by filling the second space with a solvent to which a predetermined pressure is applied. , 52),
A solvent outflow mechanism (58) for allowing the solvent supplied to the second space to flow out of the second space;
A liquid agent outflow mechanism for causing the liquid agent, to which pressure is applied by the pressure application mechanism, to flow out from the first space, and having a tubular shape in which an inflow port into which the liquid agent flows is opened inside the first space. A liquid agent outflow mechanism (23);
A mixing mechanism (56, 57, 59) for mixing the solvent flowing out from the solvent outflow mechanism and the liquid agent flowing out from the liquid agent outflow mechanism,
The liquid agent outflow mechanism is inserted through the moving member, and the liquid agent outflow mechanism is a moving shaft for moving the moving member;
The liquid agent accommodation mechanism is provided with an opening (21a) for accommodating the liquid agent in the first space, and a lid mechanism (60) capable of opening and closing the opening,
In the lid mechanism,
A check valve (62d) capable of communicating with the opening;
The solvent applied with pressure for returning the moving member moved in the space by the pressure applying mechanism to the position before the movement, and the solvent for cleaning the inside of the container and the liquid agent outflow mechanism are It is characterized by a liquid agent diluting device (10) provided with a connecting member (62a) for connecting a member (76a) supplied to the first space via a stop valve.

(Invention according to claim 5)
In order to achieve the fifth object described above, in the invention according to claim 5 of this application,
A container (20) having a cylindrical space (21, 22);
A movable member that is disposed in the space so as to intersect with the central axis of the space, and that divides the space into a first space (21) and a second space (22) and is movable along the central axis ( 24)
A liquid agent storage mechanism (21a, 60) for storing the liquid agent in the first space;
A pressure application mechanism (11, 11a) for applying pressure to the liquid agent accommodated in the first space via the moving member by filling the second space with a solvent to which a predetermined pressure is applied. , 52),
A solvent outflow mechanism (58) for allowing the solvent supplied to the second space to flow out of the second space;
A liquid agent outflow mechanism (23) for causing the liquid agent applied with pressure by the pressure applying mechanism to flow out of the first space;
A mixing mechanism (56, 57, 59) for mixing the solvent flowing out from the solvent outflow mechanism and the liquid agent flowing out from the liquid agent outflow mechanism,
Characterized by a liquid agent diluting device (10) provided with an adjusting mechanism (40) for adjusting a mixing ratio between a solvent flowing out from the solvent outflow mechanism (58) and a liquid agent flowing out from the liquid agent outflow mechanism (23). To do.

(Invention of Claim 6)
In the invention which concerns on Claim 6, in the liquid agent dilution apparatus (10) of Claim 5, the said adjustment mechanism (40) is:
An outflow amount adjusting valve (45a) for adjusting the outflow amount of the liquid agent flowing out from the liquid agent outflow mechanism (23);
And a rotatable adjustment member (41) exposed to the outside for adjusting the movement amount of the outflow amount adjustment valve.

(Invention of Claim 7)
In the invention according to claim 7, in the liquid agent dilution device (10) according to claim 6, the adjustment mechanism (40) associates the rotation amount of the adjustment member (41) with the dilution ratio of the liquid agent. A dilution rate display mechanism (41b, 50b) for displaying is provided.

(Invention of Claim 8)
The invention according to claim 8 is characterized in that, in the liquid agent dilution device (10) according to any one of claims 1 to 7, the container (20) is formed of a translucent material. To do.

(Invention according to claim 9)
The invention according to claim 9 is characterized in that, in the liquid agent diluting device (10) according to any one of claims 1 to 8, a spreading agent is added to the liquid agent.

  In addition, the code | symbol in each said parenthesis shows the correspondence with the specific means as described in embodiment mentioned later.

(Invention according to Claim 1)
In the invention according to claim 1, the tubular liquid agent outflow mechanism for allowing the liquid agent to flow out of the first space is inserted into the moving member, and the liquid agent outflow mechanism is a moving shaft for moving the moving member. For this reason, it is possible to reduce the unevenness of the moving speed of the moving member as compared with the structure without the moving shaft. That is, since the track for guiding the moving member has two tracks of the inner wall surface of the container and the liquid agent outflow mechanism, the moving operation of the moving member as compared with the conventional device that guides the moving member only by the inner wall surface of the container. Is stabilized, so that the unevenness of the moving speed can be reduced.
Therefore, if the invention which concerns on Claim 1 is implemented, the fluctuation | variation of the dilution rate of a liquid agent can be made small.
In addition, if the invention according to claim 1 is carried out, the solvent and the liquid agent can be accommodated in the same container, so that the restriction on downsizing of the apparatus can be reduced.

(Invention according to Claim 2)
In the invention which concerns on Claim 2, the connection which connects the member for supplying the solvent used for washing | cleaning to the said 1st space via the said check valve which can communicate with the opening part of a liquid agent accommodation mechanism The member is provided in a lid mechanism capable of opening and closing the opening.
Therefore, when the invention according to claim 2 is carried out, even when the lid mechanism closes the opening, it is only necessary to connect the member to the connecting member. As compared with the structure in which the lid mechanism is removed, the working efficiency at the time of cleaning can be increased.

(Invention according to claim 3)
In the invention according to claim 3, the check valve that can communicate with the opening of the liquid agent storage mechanism and the solvent applied with the pressure for returning the moving member to the position before the movement are passed through the check valve. A connecting member for connecting a member for supplying to one space is provided in a lid mechanism capable of opening and closing the opening.
Therefore, if the invention according to claim 3 is carried out, even if the lid mechanism closes the opening, if the member is connected to the connecting member, the moving member is moved by the pressure of the solvent. It is possible to return by pushing back from the position to the position before the movement. In other words, since it only takes time and effort to connect the member to the connecting member, the work efficiency when returning the moving member to the original position rather than the structure in which the lid mechanism is removed each time the moving member is returned to the original position. Can be increased.
In general, spraying of liquid agents such as herbicides is often performed outdoors. In such a spraying operation, when the lid mechanism is opened, dust or dust may be mixed in the liquid agent and clog the solvent / liquid agent mixing mechanism. In particular, when the lid mechanism is opened and the moving member is pushed back with an auxiliary tool such as a bar, such a problem is likely to occur. According to the third aspect of the invention, since the lid mechanism is kept closed when the moving member is returned to the original position, it is possible to reliably prevent entry of dust and dirt. Since the operator does not have to touch the liquid agent, the workability is improved.

(Invention of Claim 4)
The invention according to claim 4 is a check valve capable of communicating with the opening of the liquid agent storage mechanism, a solvent under pressure for returning the moving member to the position before the movement, and the container and the liquid agent outflow mechanism. A connecting member for connecting a member for supplying a solvent for cleaning the inside of the first space to the first space via the check valve is provided in the lid mechanism capable of opening and closing the opening.
Therefore, when the invention according to claim 4 is carried out, even if the lid mechanism closes the opening, the member is connected to the connecting member, and the solvent is supplied from the member to the first space. This makes it possible to return the moving member to the original position at the same time as cleaning, thereby further improving the work efficiency compared to a structure in which the cleaning operation and the operation of returning the moving member to the original position are performed separately. Can do.

(Invention according to claim 5)
Since the invention according to claim 5 includes an adjustment mechanism that adjusts the mixing ratio of the solvent flowing out from the solvent outflow mechanism and the liquid agent flowing out from the liquid agent outflow mechanism, the dilution ratio of the liquid agent is set to a desired dilution ratio. Can do.

(Invention of Claim 6)
The invention according to claim 6 is an outflow amount adjustment valve for adjusting the outflow amount of the liquid agent flowing out from the liquid agent outflow mechanism, and a rotatable exposed to the outside for adjusting the movement amount of the outflow amount adjustment valve. Since the adjustment member is provided, the dilution ratio of the liquid agent can be adjusted by a simple operation by simply rotating the adjustment member.

(Invention of Claim 7)
Since the invention which concerns on Claim 7 is equipped with the dilution rate display mechanism which displays the rotation amount of an adjustment member, and the dilution rate of a liquid agent correspondingly, the dilution rate of a liquid agent can be set correctly.

(Invention of Claim 8)
In the invention which concerns on Claim 8, since the container is formed with the translucent material, if the position of a moving member is seen, the residual amount of a liquid agent can be known.

(Invention according to claim 9)
Since the liquid with the spreading agent added has a higher viscosity than the liquid without the addition, the device using the principle of sucking up the liquid by generating a Venturi negative pressure in the solvent flow path has a low suction rate of the liquid. Since it is insufficient, a desired dilution rate cannot be obtained.
However, in the invention according to any one of claims 1 to 8 of the present application, the second space is filled with the solvent applied with a predetermined pressure, thereby applying pressure to the moving member, Since the principle of extruding the contained liquid agent by the moving member is used, a desired amount can be mixed with a solvent even in the case of a liquid agent to which a spreading agent is added, so that a desired dilution ratio can be obtained. .

1 is a perspective view showing an overall configuration of a liquid agent dilution apparatus 10 according to an embodiment of the present invention. It is a perspective view which shows the state which turned the liquid agent dilution apparatus 10 shown in FIG. 1 upside down, and the opening part 21a was exposed. It is a perspective view which shows the state from which the cap 64 with which the liquid agent dilution apparatus 10 shown in FIG. 2 was equipped was removed. It is a longitudinal cross-sectional view of the liquid agent dilution apparatus 10 shown in FIG. 1, and the state which the moving member 24 moved to the upper end is shown. It is YZ sectional drawing of the liquid agent dilution apparatus 10 shown in FIG. 1, and the state which the moving member 24 moved to the upper end is shown. It is a longitudinal cross-sectional view which shows the state which the moving member 24 shown in FIG. 4 moved to the substantially intermediate position. FIG. 6 is a YZ sectional view showing a state in which the moving member 24 shown in FIG. 5 has moved to a substantially intermediate position. It is a longitudinal cross-sectional view of the liquid agent dilution apparatus 10 shown in FIG. 1, and the state which the moving member 24 moved to the lower end is shown. It is YZ sectional drawing of the liquid agent dilution apparatus 10 shown in FIG. 1, and the state which the moving member 24 moved to the lower end is shown. It is a longitudinal cross-sectional view of the liquid agent dilution apparatus 10 shown in FIG. It is a longitudinal cross-sectional view of the liquid agent dilution apparatus 10 shown in FIG. (A) is an enlarged view of the dilution rate adjusting mechanism 40 and the dilution mechanism 50 shown in FIG. 7, and (b) is an enlarged view of the dilution mechanism 50 shown in (a). It is explanatory drawing which shows the principle which adjusts a dilution rate. It is explanatory drawing which shows the relationship between the rotation angle of the dial 41, and dilution magnification. It is a side view of the water supply apparatus. It is a longitudinal cross-sectional view of the conventional liquid agent dilution apparatus.

[Main configuration]
First, the main configuration of the liquid agent dilution apparatus according to an embodiment of the present invention will be described with reference to the drawings.
FIG. 1 is a perspective view showing the overall configuration of the liquid agent dilution apparatus 10 of this embodiment. FIG. 2 is a perspective view showing a state in which the liquid agent dilution apparatus 10 shown in FIG. 1 is turned upside down and the opening 21a is exposed. FIG. 3 is a perspective view showing a state in which the cap 64 provided in the liquid agent dilution apparatus 10 shown in FIG. 2 is removed. FIG. 4 is a longitudinal sectional view of the liquid agent diluting device 10 shown in FIG. 1 and shows a state where the moving member 24 has moved to the upper end. FIG. 5 is a YZ sectional view of the liquid agent diluting device 10 shown in FIG. 1 and shows a state in which the moving member 24 has moved to the upper end. FIG. 14 is an explanatory diagram showing the relationship between the rotation angle of the dial 41 and the dilution factor. FIG. 15 is a side view of the water supply device 70.

In addition to the function of diluting a liquid herbicide to a desired magnification with tap water, the liquid agent dilution apparatus 10 of this embodiment has a function of spraying the diluted herbicide.
The liquid agent diluting device 10 contains a herbicide and a container 20 to which tap water is supplied, a solvent supply port 11 for connection to a water supply device 70 (FIG. 15), and a herbicide contained in the container 20. Diluted by the tap water supplied to the container 20, a dilution ratio adjusting mechanism 40 for adjusting the dilution ratio of the herbicide diluted by the dilution mechanism 50, and the dilution mechanism 50. A spray mechanism 30 for spraying the herbicide and a cover mechanism 60 for covering the container 20. The lid mechanism 60 also has a function of returning the moving member 24 in the container 20 to the original position from the moved position, as will be described later.

  In this embodiment, the container 20 has a vertically long cylindrical shape, and a cylindrical space having a vertically long and circular cross section is formed therein. A moving member (piston body) 24 is disposed in the space of the container 20. The moving member 24 is disposed so as to intersect the central axis of the space of the container 20, and partitions the space into a first space 21 and a second space 22. A liquid agent is accommodated in the first space, and tap water is filled in the second space.

  Further, the moving member 24 is movable along the central axis of the space of the container 20, and the volumes of the first space 21 and the second space 22 change as the moving member 24 moves. . The container 20 is formed of a synthetic resin having translucency, and the position of the moving member 24, that is, the remaining amount of the herbicide can be visually recognized from the outside of the container 20.

  Inside the container 20, a liquid agent outflow pipe 23 for allowing the herbicide contained in the first space 21 to flow out to the dilution mechanism 50 is disposed. The liquid agent outflow pipe 23 is formed in a vertically long tubular shape having a circular cross section. The liquid agent outlet pipe 23 is disposed along the central axis of the space of the container 20 and from the first space 21 to the second space 22. The lower end of the liquid agent outflow pipe 23 reaches the lower portion of the first space 21, and the upper end thereof communicates with the dilution mechanism 50. In this embodiment, the liquid agent outflow pipe 23 is formed of a synthetic resin.

  An inflow port through which the liquid agent flows is formed at the lower end of the liquid agent outflow pipe 23, and a mesh 23d is attached to the inflow port as shown in FIG. The mesh 23d is fixed to the lower end of the liquid agent outflow pipe 23 by a cap 23c. The mesh 23d is for filtering the dust and the like so that the orifice 56 and the gap 54 (FIG. 12B) of the dilution rate adjusting valve 45a are not clogged by dust or the like mixed in the herbicide. In this embodiment, the mesh 23d is a 200th mesh according to JIS standard and is made of stainless steel.

  As shown in FIG. 1, a dial 41 for adjusting the dilution rate of the herbicide is rotatably provided at the upper end of the liquid agent dilution apparatus 10. In this embodiment, the dial 41 has a substantially cylindrical shape, and is formed in a size that can be picked up by a finger of an operator who uses the liquid agent dilution device 10. In addition, a plurality of grooves are formed on the peripheral surface of the dial 41 in a direction orthogonal to the rotation direction to prevent slippage during rotation. Depending on the rotation angle of the dial 41, the dilution rate of the herbicide is adjusted. On the side surface of the dilution mechanism 50, a scale 50b for displaying the dilution rate is displayed. In addition, a disc-shaped flange 41a is formed on the lower peripheral edge of the dial 41, and a mark for setting a dilution rate in accordance with the scale 50b is formed on the outer edge and peripheral surface of the plane of the flange 41a. 41b is displayed.

In this embodiment, as shown in FIG. 14, the dilution rate of the herbicide can be adjusted in three stages of 100, 150, and 200 times. In FIG. 14, the scale 50b is displayed on the same plane as the mark 41b so that the positional relationship between the mark 41b and the scale 50b can be easily understood. When the mark 41b of the dial 41 is set to a position of 100 times, the dilution rate is set to 100 times. When the dial 41 is rotated 90 degrees to the right from that position and the mark 41b is set to a position of 150 times, the dilution rate is set to 150 times. When the dial 41 is rotated 90 degrees to the right from that position and the mark 41b is set to the 200-fold position, the dilution factor is set to 200 times.
Moreover, the spreading agent is added to the herbicide of this embodiment, and a viscosity is higher than the herbicide which is not added.
The dilution factor is not limited to this embodiment, and it is of course possible to employ dilution factors such as 50 times, 250 times, and 300 times.

  As shown in FIG. 1, a lid mechanism 60 is provided at the lower end of the container 20. As shown in FIGS. 2 and 3, an opening 21 a for accommodating the herbicide in the first space 21 is formed at the lower end of the container 20 (upper end in FIGS. 2 and 3). The lid mechanism 60 has a function for opening and closing the opening 21a, and supplies packing 61 for sealing the opening 21a and tap water as a cleaning liquid to the first space 21 and the liquid agent outflow pipe 23. The plug 62 with check valve (FIG. 3) and a cap 64 for covering the plug 62 with check valve are provided.

  The peripheral surface of the lower end of the container 20 is covered with a cylindrical protective member 12. The lid mechanism 60 is pivotally supported by a part of the lower end of the protection member 12 via a hinge 65 so as to be rotatable. An opening / closing button 13 for opening and closing the lid mechanism 60 is provided on the peripheral surface of the protection member 12 so as to be pressed. The lid mechanism 60 is provided with a locking member 63 for locking the open / close button 13. In addition, on the circumferential surface of the protective member 12 and on both sides of the opening / closing button 13, a lock lever 14 for holding the closed state of the lid mechanism 60 is pivotally supported.

As shown in FIG. 1, a spray mechanism 30 is attached to the front end of the dilution mechanism 50. The spraying mechanism 30 includes a joint 31, a pipe 32 connected to the joint 31, a head 33 connected to the pipe 32, and a nozzle board 34 provided at the front end of the head 33. As shown in FIGS. 4 and 5, the joint 31 is detachably attached to a flange 50 c formed at the front end of the body 50 a of the dilution mechanism 50. Inside the flange 50c, a liquid agent discharge space 50d (FIG. 12A) for discharging a diluted herbicide is formed. A plurality of holes 34 a for spraying the herbicide are formed in the front surface of the nozzle board 34. In this embodiment, the nozzle board 34 is fixed with respect to the head 33. However, as another form, the nozzle board 34 is configured to be rotatable with respect to the head 33, and each hole is formed in accordance with the amount of rotation. The opening area of 34a may be changed to adjust the water shape (shower, diffusion, fog, straight, etc.).
In this embodiment, the pipe 32 is made of aluminum and configured to be detachable from the joint 31. The head 33 and the nozzle board 34 are made of synthetic resin, and the head 33 is configured to be detachable from the pipe 32.

  As shown in FIG. 1, a solvent supply port 11 is formed at the rear end of the dilution mechanism 50. In this embodiment, the solvent supply port 11 is connected to a water supply device 70 shown in FIG. The water supply device 70 includes a body 71, a flange 72 that is open at the front end of the body 71, a grip 73 that is formed at the bottom of the body 71, a plug 74 that is formed at the lower end of the grip 73, and a grip 73. And a lever 75 provided at the front of the head. The flange 72 is connected to the solvent supply port 11 of the liquid agent diluting device 10, and the plug 74 is connected to a water tap through a hose 76.

  Inside the body 71 and the grip 73, a flow path for the tap water supplied from the plug 74 to flow to the flange 72 is formed. In addition, a water supply mechanism that opens and closes the water supply port to the flange 72 according to the operation of the lever 75 is provided inside the grip 73, and when the lever 75 is pulled, water supply is started. In addition, it is also possible to add to the water supply mechanism a water supply amount adjustment function that increases the water supply amount according to the amount by which the lever 75 is pulled.

[Detailed configuration]
Next, the detailed structure of the liquid agent dilution apparatus 10 will be described with reference to the drawings.
6 is a longitudinal sectional view showing a state in which the moving member 24 shown in FIG. 4 has moved to a substantially intermediate position, and FIG. 7 shows a state in which the moving member 24 shown in FIG. 5 has moved to a substantially intermediate position. It is Z sectional drawing. FIG. 8 is a longitudinal sectional view of the liquid agent dilution apparatus 10 shown in FIG. 1, showing a state in which the moving member 24 has moved to the lower end, and FIG. 9 is a YZ sectional view of the liquid agent dilution apparatus 10 shown in FIG. There is a state in which the moving member 24 has moved to the lower end. 10 is a longitudinal sectional view of the liquid agent dilution apparatus 10 shown in FIG. 2, and FIG. 11 is a longitudinal sectional view of the liquid agent dilution apparatus 10 shown in FIG. 12A is an enlarged view of the dilution rate adjusting mechanism 40 and the dilution mechanism 50 shown in FIG. 7, and FIG. 12B is an enlarged view of the dilution mechanism 50 shown in FIG. FIG. 13 is an explanatory diagram showing the principle of adjusting the dilution factor.

(Internal structure of container 20)
As shown in FIGS. 4 and 5, a liquid agent outflow pipe 23 is inserted through the center of the moving member 24, and the liquid agent outflow pipe 23 serves as a moving axis of the moving member 24. The moving member 24 is formed in a disk shape having a hole formed through the center. A groove is formed on the outer peripheral surface of the moving member 24 facing the inner wall surface of the container 20 along the outer peripheral surface, and an X ring 24a is fitted in the groove. Further, a groove is formed along the inner peripheral surface of the moving member 24 facing the outer peripheral surface of the liquid agent outflow pipe 23, and an X ring 24b is fitted into the groove. ing. That is, the moving member 24 is guided along two tracks having the inner wall surface of the container 20 as an outer track and the liquid agent outflow pipe 23 as an inner track.

The outer X-ring 24a is made of an elastic material such as rubber and presses the inner wall surface of the container 20 by its elastic force. The inner X-ring 24b is also formed of an elastic material such as rubber, and presses the outer peripheral surface of the liquid agent outflow pipe 23 by its elastic force.
The X-ring has the characteristic that the radial interference can be made smaller than that of the O-ring, and the characteristic that the contact pressure is distributed over the entire cross section of the X-ring.
Therefore, the moving member 24 can simultaneously achieve the purpose of reducing the friction with the inner wall surface of the container 20 and the purpose of improving the shielding performance between the first and second spaces 21 and 22.

That is, there is no possibility that the moving speed of the moving member 24 may change during the movement, and the liquid agent accommodated in the first space 21 leaks into the second space or is filled in the second space. The possibility that water leaks into the first space 21 can be reduced.
In this embodiment, the moving member 24 is made of synthetic resin.

  Further, as shown in FIGS. 4 and 5, when the moving member 24 is moved to the uppermost end, the volume of the first space 21 is maximized, and the amount of the liquid agent accommodated in the first space 21 is maximized. Become. Further, as shown in FIGS. 8 and 9, when the moving member 24 is moved to the lowest end, the volume of the first space 21 is minimized, and the amount of the liquid agent accommodated in the first space 21 is reduced. Minimal. In this embodiment, the maximum capacity of the liquid agent when the moving member 24 moves to the uppermost end is 100 mL. However, as another form, the maximum capacity may be less than 100 mL (for example, 50 mL). The maximum capacity (for example, 300 mL) exceeding 100 mL may be used.

(Dilution mechanism 50)
As shown in FIG. 1, the dilution mechanism 50 includes a cylindrical body 50a. As shown in FIG. 12, a solvent supply port 11 is formed at the rear end of the body 50 a, and a flange 50 c is formed on the opposite side of the solvent supply port 11. A solvent supply space 11a to which tap water from a water supply device 70 (FIG. 15) is supplied is formed inside the solvent supply port 11, and a liquid agent that discharges diluted herbicide inside the flange 50c. A discharge space 50d is formed.
Inside the liquid agent outflow pipe 23, a first liquid agent flow path 23 a for allowing the herbicide contained in the first space 21 to flow out to the dilution mechanism 50 is formed. As shown in FIG. 5, the first liquid agent flow path 23 a is formed in a tapered shape having a tapered shape with a smaller inner diameter as it approaches the upper end from the lower end.

  The body 50 a includes a first solvent channel 51 that communicates with the solvent supply space 11 a and a second solvent channel 52 that branches from the first solvent channel 51. The second solvent channel 52 is a channel for supplying the tap water flowing from the first solvent channel 51 to the second space 22. Further, as shown in FIG. 12B, the dilution mechanism 50 includes a second liquid agent channel 53 communicating with the upper end of the first liquid agent channel 23a, and a lower end protruding into the second liquid agent channel 53. A gap 54 that can be formed between the dilution rate adjusting valve 45 a and the second liquid agent flow path 53, a liquid agent filling space 55 that is filled with a herbicide flowing upward from the gap 54, and a communication with the liquid agent filling space 55. An orifice 56, a third liquid agent flow path 57 communicating with the orifice 56, a third solvent flow path 58 communicating with the first space 21, a dilution chamber 59, and O-rings 49 and 49.

  The dilution chamber 59 communicates with the third liquid agent channel 57 and the third solvent channel 58 (FIG. 12B). The third solvent channel 58 introduces tap water supplied to the second space 22 into the dilution chamber 59, and the third liquid agent channel 57 introduces the liquid agent discharged from the orifice 56 into the dilution chamber 59. The dilution chamber 59 is a space for diluting the liquid agent introduced from the third liquid agent flow path 57 with the tap water introduced from the third solvent flow path 58.

  In this embodiment, the solvent supply space 11a and the first solvent flow path 51 are each formed in a circular shape in the longitudinal section, and the second solvent flow path 52 is formed in a circular shape in the cross section. . Further, the orifice 56, the third liquid agent flow channel 57, the dilution chamber 59, and the liquid agent discharge space 50d are each formed in a circular shape in the vertical cross section, and the third solvent flow channel 58 is formed in a circular shape in the horizontal cross section. ing.

  The lower O-ring 49 is for preventing the herbicide discharged from the orifice 56 to the third liquid passage 57 from leaching into the second space 22 from the boundary between the liquid outlet pipe 23 and the body 50a. is there. The upper O-ring 49 prevents the herbicide discharged from the orifice 56 to the third liquid agent flow path 57 from leaching into the dial 41 from the boundary between the liquid agent outlet pipe 23 and the body 50a. It is.

(Dilution ratio adjustment mechanism 40)
The dilution rate adjusting mechanism 40 includes a protrusion 40a that is formed to protrude from the upper surface of the body 50a, a dial 41 that is pivotally supported by the protrusion 40a and covers the protrusion 40a, and the inside of the protrusion 40a. A bearing member 43 that is rotatably provided, a screw 42 for fixing the dial 41 to the upper end of the bearing member 43, a triple screw 45 attached to the lower part of the bearing member 43, and a lower end of the triple screw 45. A projecting dilution rate adjusting valve 45a and a female screw portion 44 into which a triple thread screw 45 is rotatably fitted are provided. The reason why the triple screw is used is that the moving amount of the dilution rate adjusting valve 45a can be increased even with a small rotation amount of the dial 41. The female thread portion 44 is formed on the inner peripheral surface of the upper end of the liquid agent outflow pipe 23. Further, the dilution rate adjusting mechanism 40 is fitted with a flange 41a formed on the peripheral surface of the lower end of the dial 41, a recess 41c (FIG. 12 (a)) formed on the back surface of the flange 41a, and the recess 41c. A knock pin 46 that can be engaged, and a spring 47 that biases the knock pin 46 upward.

  The recess 41c and the knock pin 46 are arranged so that the dial 41 is rotated and the knock pin 46 is fitted into the recess 41c when the mark 41b displayed on the collar 41a coincides with the scale 50b displaying the dilution rate. Has been.

  As shown in FIG. 13, the second liquid agent channel 53 is formed in a tubular shape having a constant inner diameter and a circular cross section. On the other hand, the dilution rate adjusting valve 45a has a tapered shape with an outer diameter that decreases as it approaches the lower end from the upper end, and has a circular cross section. For this reason, as shown in the figure, when the dilution rate adjusting valve 45a is lowered, the gap 54 formed between the dilution rate adjusting valve 45a and the second liquid agent flow channel 53 is reduced, and the liquid agent is discharged from the second liquid agent flow channel 53. The inflow amount of the herbicide flowing into the filling space 55 decreases, and the internal pressure of the liquid agent filling space 55 decreases. Thereby, since the outflow amount of the herbicide flowing out from the orifice 56 to the third liquid agent channel 57 is reduced, the dilution rate of the herbicide is increased.

Conversely, when the dilution rate adjustment valve 45a is raised, the gap 54 is increased, the amount of the herbicide flowing from the second liquid agent flow path 53 into the liquid agent filling space 55 is increased, and the internal pressure of the liquid agent filling space 55 is increased. To rise. Thereby, the flow output of the herbicide flowing out from the orifice 56 to the third liquid agent flow path 57 is increased, and the dilution rate of the herbicide is decreased.
That is, the dilution rate adjusting valve 45 a and the second liquid agent flow path 53 serve as a needle valve for adjusting the amount of herbicide flowing into the third liquid flow path 57.

  In this embodiment, when the dilution rate adjusting valve 45a is in the lowest position, the gap 54 is eliminated, that is, the outlet of the second liquid agent flow path 53 is closed, and the herbicide does not flow into the liquid agent filling space 55 at all. In the state where the dilution rate adjusting valve 45a is raised by about 2 mm from the lowest position, the dilution rate of the herbicide is adjusted to 100 times. When the dilution rate adjusting valve 45a is raised about 3 mm from the lowest position, the dilution rate of the herbicide is adjusted to 150 times. Further, in a state where the dilution rate adjusting valve 45a is raised by about 4 mm from the lowest position, the dilution rate of the herbicide is adjusted to 200 times.

(Cover mechanism 60)
As shown in FIG. 2, the packing 61 constituting the lid mechanism 60 has a substantially truncated cone shape when viewed from the side, and is formed in a shape that is in close contact with the periphery of the opening 21 a of the container 20. As shown in FIG. 7, a liquid agent introduction chamber 61 a (FIG. 4) for introducing the liquid agent accommodated in the first space 21 into the liquid agent outlet pipe 23 through the mesh 23 d is formed at the center of the packing 61. Yes. In this embodiment, the liquid agent introduction chamber 61 a is formed in a shape recessed downward from the surface of the packing 61. An inflow opening formed at the lower end of the liquid agent outflow pipe 23 protrudes into the liquid agent introduction chamber 61a.
The diameter of the opening 21 a in the container 20 is set to a dimension that is sufficiently larger than the outer diameter of the liquid agent outlet pipe 23 and slightly smaller than the inner diameter of the cylinder of the container 20. Thereby, when the lid mechanism 60 is in an open state (FIG. 7), a wide filling port for the liquid agent can be secured.

  As shown in FIG. 3, a plug 62 with a check valve is attached to the lower portion of the packing 61. The check valve plug 62 includes a check valve 62d (FIG. 4) capable of communicating with the opening 21a of the first space 21, and a solvent used for cleaning the first space 21 and the liquid agent via the check valve 62d. And a plug 62a for connecting a connector 76a (FIG. 15) for spraying to the outflow pipe 23. A solvent introduction path 62f (FIG. 4) for introducing a solvent used for cleaning is formed inside the plug 62a, and a check valve 62d is inserted into the solvent introduction path 62f. The check valve 62d is formed in a T-shape whose vertical cross section is elongated vertically, and its head closes the space between the solvent introduction path 62f and the liquid agent introduction chamber 61a. An O-ring 62e for preventing leakage of the herbicide from the solution introduction chamber 61a is attached to the base of the head of the check valve 62d.

A cylindrical movable body 62b that is movable in the vertical direction is inserted into the plug 62a, and the movable body 62b is interlocked with the check valve 62d. In addition, a coil spring 62c that biases the movable body 62b downward is mounted inside the plug 62a, and the check valve 62d holds the liquid agent introduction chamber 61a closed by the biasing force of the coil spring 62c. . On the peripheral surface of the plug 62a, an O-ring 62g for shielding the connector 76a connected to the plug 62a is mounted.
When the connector 76a is connected to the plug 62a, the movable body 62b moves upward against the biasing force of the coil spring 62c, and the check valve 62d moves upward in conjunction with this, so that the liquid agent introduction chamber 61a opens. .

  Further, as shown in FIG. 7, the lid mechanism 60 includes an open / close button 13 that constitutes the lid mechanism 60, a shaft member 13 b that pivotally supports the open / close button 13, a claw 13 a that locks the locking member 63, And a spring 13c for urging the open / close button 13 from the back surface. When the lock lever 14 is pulled upward and the open / close button 13 is pressed against the urging force of the spring 13 c, the open / close button 13 rotates around the shaft member 13 b as a rotation axis and disengages from the claw 13 a and the locking member 63. The lid mechanism 60 rotates about the hinge 65 as a rotation axis, and the opening 21a (FIG. 2) is exposed. According to such a lid mechanism 60, the opening / closing operation can be quickly performed with one touch as compared with a screw-type lid. As a result, it is difficult for foreign matters such as dust to enter the container 20 when the liquid agent is replenished, and the herbicide can be quickly introduced without soiling the hands.

[how to use]
Next, an example of how to use the liquid agent dilution apparatus 10 will be described with reference to the drawings.
First, as a preparation, a hose 76 (FIG. 15) connected to a tap is prepared. The hose 76 includes a hose body 76c and a connector 76a connected to the tip of the hose body 76c. The connector 76a is provided with an opening / closing knob 76b for starting and stopping water supply. Then, the connector 76 a is connected to the plug 74 of the water supply device 70. The connector 76a is also a connector that can be connected to the plug 62a (FIG. 3) of the liquid agent dilution device 10.

  Then, the lock lever 14 (FIG. 1) of the liquid agent diluting device 10 is pulled upward to unlock the lid mechanism 60, and the lid mechanism 60 is opened by pressing the open / close button 13 (FIG. 2). Subsequently, the herbicide is accommodated in the first space 21 through the opening 21a, the lid mechanism 60 is closed, and the lock lever 14 is lowered to bring the lid mechanism 60 into a locked state. Subsequently, the dial 41 is rotated to the position of the desired dilution factor (FIG. 14). In addition, the water supply apparatus 70 may connect the flange 72 to the solvent supply port 11 (FIG. 1) of the liquid agent dilution apparatus 10 in advance in the preparation stage, but after the herbicide is accommodated in the first space 21. The flange 72 may be connected to the solvent supply port 11. Then, the faucet of the water supply is opened, the open / close knob 76b of the hose 76 is rotated to the open position, the nozzle board 34 of the liquid agent diluting device 10 is directed toward an object such as weeds, and the lever 75 of the water supply device 70 is pulled.

  Thereby, the tap water supplied from the water supply device 70 is filled in the second space 22 of the container 20, the water pressure generated in the second space 22 is applied to the moving member 24, and the moving member 24 moves downward. To do. Thereby, the herbicide accommodated in the first space 21 is pushed out to the liquid agent outflow pipe 23, mixed with the tap water flowing out from the second space in the dilution mechanism 50, and the dilution rate adjusted by the dial 41 is adjusted. A herbicide is sprayed from the nozzle board 34.

  As described above, the structure for moving the moving member 24 has two structures, the liquid agent outflow pipe 23 inserted through itself and the inner wall surface of the container 20, and the moving speed of the moving member 24 varies during the movement. Therefore, it is possible to spray a herbicide with a stable dilution rate from the start of spraying to the end of spraying. Further, since the container 20 is formed of a light-transmitting synthetic resin and the position of the moving member 24 can be seen from the outside of the container 20, the remaining amount of the herbicide can be known at a glance.

  When the herbicide injection amount increases, the moving member 24 moves downward, the herbicide stored in the first space 21 decreases, and when the moving member 24 reaches the lower end of the first space 21, the herbicide The remaining amount of the agent becomes substantially zero, and the herbicide spraying is finished. Here, when further spraying of the herbicide is necessary, the herbicide is sprayed by the above-described procedure. However, since the moving member 24 has reached the lower end of the first space 21, the moving member 24 is used. Work to return to the position before moving.

  First, the open / close knob 76b of the hose 76 is rotated to the closed position, and the hose 76 is removed from the plug 74. Subsequently, the cap 64 is removed, and the hose 76 is connected to the plug 62a of the liquid agent dilution apparatus 10. Subsequently, when the open / close knob 76b of the hose 76 is rotated to the open position, tap water is filled into the first space 21 via the check valve 62d of the plug 62a.

Then, the moving member 24 moves upward by the water pressure of the tap water filled in the first space 21, and stops at the upper end (position before the movement). Further, the tap water supplied to the first space 21 via the check valve 62 d is also supplied to the inside of the liquid agent outflow pipe 23. When the tap water continues to flow into the first space 21 via the check valve 62d of the plug 62a, the tap water that has passed through the dilution mechanism 50 is discharged from the nozzle board 34 from the liquid agent outlet pipe 23. Thereby, the herbicide remaining in the container 20 and the liquid agent outflow pipe 23 can be washed.
Thereafter, the lock lever 14 is lifted upward, the open / close button 13 is pressed to open the lid mechanism 60, and the tap water remaining in the container 20 (first space 21) is taken out. Then, the hose 76 is removed from the liquid agent diluting device 10 and connected to the water supply device 70, and the above-described procedure is executed to carry out from the herbicide storage to the spraying.

[Effect of the embodiment]
(1) In the liquid agent diluting device 10 of the above-described embodiment, the liquid agent outflow pipe 23 for allowing the herbicide to flow out from the first space 21 is inserted into the moving member 24, and the liquid agent outflow pipe 23 moves. Since it is a moving axis for moving the member 24, the unevenness of the moving speed can be reduced as compared with a structure having no moving axis. That is, as the track for guiding the moving member 24, there are two tracks of the inner wall surface of the container 20 and the liquid agent outflow pipe 23, so that the moving member is compared with the conventional device that guides the moving member only by the inner wall surface of the container. Since the moving operation of 24 is stabilized, the unevenness of the moving speed can be reduced.
Therefore, if the liquid agent dilution apparatus 10 according to the above-described embodiment is implemented, the variation of the dilution ratio of the liquid agent can be reduced.
In addition, since the liquid agent diluting device 10 can store the solvent and the liquid agent in the same container, it is possible to reduce restrictions on downsizing the device.

(2) Moreover, the liquid agent dilution apparatus 10 of the above-described embodiment includes the check valve 62d that can communicate with the opening 21a of the first space 21, and the solvent used for cleaning through the check valve 62d. A plug 62a for connecting a connector 76a for supplying to the space 21 is provided in the lid mechanism 60 capable of opening and closing the opening 21a.
Therefore, if the liquid agent diluting device 10 of the above-described embodiment is carried out, even if the lid mechanism 60 is in the state of closing the opening 21a, it is only necessary to connect the connector 76a to the plug 62a. As compared with the structure in which the lid mechanism 60 is removed every time, the working efficiency at the time of cleaning can be increased.

(3) Furthermore, in the liquid agent dilution apparatus 10 of the above-described embodiment, the check valve 62d that can communicate with the opening 21a of the first space 21 and the pressure for returning the moving member 24 to the position before the movement are set. A plug 62a that connects a connector 76a for supplying the applied tap water to the first space 21 via the check valve 62d is provided in the lid mechanism 60 that can open and close the opening 21a.
Therefore, if the liquid agent diluting device 10 according to the above-described embodiment is implemented, even if the lid mechanism 60 is in a state of closing the opening 21a, it is only necessary to connect the connector 76a to the plug 62a. The working efficiency when returning the moving member 24 to the original position can be improved as compared with the structure in which the lid mechanism 60 is removed each time the position is returned to the original position.

(4) Furthermore, in the liquid agent dilution apparatus 10 of the above-described embodiment, the check valve 62d that can communicate with the opening 21a of the first space 21 and the pressure for returning the moving member 24 to the position before the movement are set. For connecting a connector 76a for supplying tap water to the first space 21 via the check valve 62d, which is the hanging tap water and for cleaning the inside of the container 20 and the liquid agent outflow pipe 23. The plug 62a is provided in the lid mechanism 60 that can open and close the opening 21a.
Therefore, if the liquid agent diluting device 10 of the above-described embodiment is implemented, the connector 76a is connected to the plug 62a and the tap water is first supplied from the connector 76a even when the lid mechanism 60 closes the opening 21a. Since the moving member 24 can be returned to the original position at the same time as cleaning only by supplying it to the space 21, the cleaning work and the structure for individually returning the moving member 24 to the original position can be performed. Work efficiency can be further increased.
In addition, even when the hose 76 is extended and sprayed away from the faucet, it is not necessary to return to the faucet by stopping the water with the opening / closing knob 76b. Can be performed on the spot.
Further, since the lid mechanism 60 can be kept closed when the moving member 24 is returned to the original position, an auxiliary tool such as a bar is not necessary, and the dilution mechanism 50 can be prevented from being clogged due to contamination of dust or the like. .

(5) Furthermore, the liquid agent dilution apparatus 10 of the above-described embodiment includes the adjusting mechanism 40 that adjusts the mixing ratio of the tap water flowing out from the third solvent flow path 58 and the herbicide flowing out from the liquid agent outflow pipe 23. Therefore, the dilution rate of the herbicide can be set to a desired dilution rate.

(6) Further, the liquid agent diluting device 10 of the above-described embodiment has a dilution rate adjusting valve 45a for adjusting the outflow amount of the herbicide flowing out from the liquid agent outflow pipe 23, and the movement amount of the dilution rate adjusting valve 45a. Since the rotary dial 41 exposed to the outside for adjustment is provided, the dilution rate of the herbicide can be adjusted by a simple operation by simply rotating the dial 41.

(7) Furthermore, since the liquid agent diluting device 10 of the above-described embodiment includes the mark 41b and the scale 50b that display the rotation amount of the dial 41 and the dilution rate of the herbicide in correspondence with each other, weeding without trouble of magnification calculation and the like. The dilution ratio of the agent can be set accurately.

(8) Furthermore, since the container 20 is formed of a translucent material, the liquid agent dilution apparatus 10 of the above-described embodiment can know the remaining amount of the herbicide by looking at the position of the moving member 24.

(9) By the way, since the herbicide to which the spreading agent is added has a higher viscosity than the herbicide to which no spreading agent is added, the herbicide is sucked up by generating a venturi negative pressure in the flow path of a solvent such as tap water. Since the apparatus using the principle lacks the suction amount of the herbicide, there is a possibility that the dilution rate varies.
However, the liquid agent diluting device 10 according to the embodiment described above is accommodated in the first space 21 by applying pressure to the moving member 24 by filling the second space 22 with tap water to which a predetermined pressure is applied. Since the principle of extruding the herbicide by the moving member 24 is used, a desired amount can be mixed with the solvent even with the herbicide to which the spreading agent is added, so that a desired dilution ratio can be obtained.

<Other embodiments>
(1) It is also possible to employ a configuration in which a plug 74 is provided in the solvent supply port 11 and a hose 76 is connected to the plug 74 via a connector 76a. In this case, the opening / closing knob 76b provided on the hose 76 is operated to start and stop watering. The liquid agent dilution apparatus that employs this configuration can also achieve the same effects as those of the above-described embodiments.

(2) It is also possible to employ a configuration in which a shutter that opens and closes the orifice 56 and a mechanism that adjusts the amount of lowering of the shutter are provided, and the opening area of the orifice 56 is adjusted by adjusting the amount of lowering of the shutter. . The liquid agent dilution apparatus that employs this configuration can also achieve the same effects as those of the above-described embodiments.

(3) The liquid agent dilution apparatus 10 of each embodiment mentioned above can also dilute liquid agents, such as liquid fertilizer, besides a herbicide. When diluting liquid fertilizer, since the fluctuation of the dilution ratio of liquid fertilizer during spraying is small, unevenness of liquid fertilizer concentration due to the sprayed portion can be reduced. Since the liquid fertilizer not containing the spreading agent has a lower viscosity than the herbicide containing the spreading agent, when this liquid fertilizer is used for the liquid agent diluting device 10, the fluctuation of the dilution ratio can be further reduced, and Since the liquid fertilizer hardly remains in the container 20 and the liquid agent outflow pipe 23, the cleaning operation is further facilitated. In addition, when making the dilution ratio of liquid fertilizer high, such as 500-1000 times, after diluting liquid fertilizer stock liquid in the container 20 to a predetermined magnification beforehand, it is good to dilute this diluted liquid with the liquid agent dilution apparatus 10. FIG. Thereby, it becomes possible to use the liquid agent dilution apparatus 10 of a herbicide specification for the dispersion | spreading operation | work of liquid fertilizer with the same structure.

10 .... Liquid dilution device, 11 .... Solvent supply port (pressure application mechanism),
11a ... Solvent supply space (pressure application mechanism), 21 ... first space,
21a ··· opening (liquid agent storage mechanism), 22 ··· second space,
23..Liquid agent outflow pipe (liquid agent outflow mechanism), 24..Moving member,
40 ··· Dilution ratio adjustment mechanism (adjustment mechanism), 41 · · Dial (adjustment member),
41b ... (dilution rate display mechanism), 45a ... dilution rate control valve (outflow rate control valve),
50 ・ ・ Dilution mechanism (mixing mechanism), 50b ・ ・ Scale (dilution ratio display mechanism),
52 .. Second solvent flow path (pressure application mechanism), 56 .. Orifice (mixing mechanism),
57 .. Third liquid agent channel (mixing mechanism), 58 .. Third solvent channel (solvent outflow mechanism),
59 .. Dilution chamber (mixing mechanism), 60 .. Lid mechanism (solution storage mechanism),
62a..Plug (connection member), 62d..Check valve, 70..Water supply device,
76 .. Hose, 76a .. Connector (member).

Claims (9)

A container having a cylindrical space;
A movable member that is disposed in the space so as to intersect with the central axis of the space, partitions the space into a first space and a second space, and is movable along the central axis;
A liquid agent storage mechanism for storing the liquid agent in the first space;
A pressure application mechanism for applying pressure to the liquid agent accommodated in the first space via the moving member by filling the second space with a solvent under a predetermined pressure;
A solvent outflow mechanism for causing the solvent supplied to the second space to flow out of the second space;
A tubular liquid agent outflow mechanism for causing the liquid agent applied with pressure by the pressure application mechanism to flow out of the first space;
A solvent flowing out from the solvent outflow mechanism, and a mixing mechanism for mixing the liquid outflowing from the liquid agent outflow mechanism,
The liquid agent diluting device, wherein the liquid agent outflow mechanism is inserted through the moving member, and the liquid agent outflow mechanism is a moving shaft for moving the moving member.
A container having a cylindrical space;
A movable member that is disposed in the space so as to intersect with the central axis of the space, partitions the space into a first space and a second space, and is movable along the central axis;
A liquid agent storage mechanism for storing the liquid agent in the first space;
A pressure application mechanism for applying pressure to the liquid agent accommodated in the first space via the moving member by filling the second space with a solvent under a predetermined pressure;
A solvent outflow mechanism for causing the solvent supplied to the second space to flow out of the second space;
A liquid agent outflow mechanism for causing the liquid agent, to which pressure is applied by the pressure application mechanism, to flow out of the first space;
A solvent flowing out from the solvent outflow mechanism, and a mixing mechanism for mixing the liquid outflowing from the liquid agent outflow mechanism,
The liquid agent accommodation mechanism is provided with an opening for accommodating the liquid agent in the first space, and a lid mechanism capable of opening and closing the opening,
In the lid mechanism,
A check valve capable of communicating with the opening;
And a connecting member for connecting a member for supplying a solvent used for cleaning to the first space via the check valve.
A container having a cylindrical space;
A movable member that is disposed in the space so as to intersect with the central axis of the space, partitions the space into a first space and a second space, and is movable along the central axis;
A liquid agent storage mechanism for storing the liquid agent in the first space;
A pressure application mechanism for applying pressure to the liquid agent accommodated in the first space via the moving member by filling the second space with a solvent under a predetermined pressure;
A solvent outflow mechanism for causing the solvent supplied to the second space to flow out of the second space;
A liquid agent outflow mechanism for causing the liquid agent, to which pressure is applied by the pressure application mechanism, to flow out of the first space;
A solvent flowing out from the solvent outflow mechanism, and a mixing mechanism for mixing the liquid outflowing from the liquid agent outflow mechanism,
The liquid agent accommodation mechanism is provided with an opening for accommodating the liquid agent in the first space, and a lid mechanism capable of opening and closing the opening,
In the lid mechanism,
A check valve capable of communicating with the opening;
A connecting member that connects a member that supplies the first space with the solvent applied with pressure for returning the moving member that has moved in the space to the position before the movement by the pressure application mechanism via the check valve. And a liquid agent diluting device.
A container having a cylindrical space;
A movable member that is disposed in the space so as to intersect with the central axis of the space, partitions the space into a first space and a second space, and is movable along the central axis;
A liquid agent storage mechanism for storing the liquid agent in the first space;
A pressure application mechanism for applying pressure to the liquid agent accommodated in the first space via the moving member by filling the second space with a solvent under a predetermined pressure;
A solvent outflow mechanism for causing the solvent supplied to the second space to flow out of the second space;
A liquid agent outflow mechanism for causing the liquid agent, to which pressure is applied by the pressure application mechanism, to flow out from the first space, and having a tubular shape in which an inflow port into which the liquid agent flows is opened inside the first space. A liquid spill mechanism;
A solvent flowing out from the solvent outflow mechanism, and a mixing mechanism for mixing the liquid outflowing from the liquid agent outflow mechanism,
The liquid agent outflow mechanism is inserted through the moving member, and the liquid agent outflow mechanism is a moving shaft for moving the moving member;
The liquid agent accommodation mechanism is provided with an opening for accommodating the liquid agent in the first space, and a lid mechanism capable of opening and closing the opening,
In the lid mechanism,
A check valve capable of communicating with the opening;
The solvent applied with pressure for returning the moving member moved in the space by the pressure applying mechanism to the position before the movement, and the solvent for cleaning the inside of the container and the liquid agent outflow mechanism are And a connecting member for connecting a member to be supplied to the first space via a stop valve.
A container having a cylindrical space;
A movable member that is disposed in the space so as to intersect with the central axis of the space, partitions the space into a first space and a second space, and is movable along the central axis;
A liquid agent storage mechanism for storing the liquid agent in the first space;
A pressure application mechanism for applying pressure to the liquid agent accommodated in the first space via the moving member by filling the second space with a solvent under a predetermined pressure;
A solvent outflow mechanism for causing the solvent supplied to the second space to flow out of the second space;
A liquid agent outflow mechanism for causing the liquid agent, to which pressure is applied by the pressure application mechanism, to flow out of the first space;
A solvent flowing out from the solvent outflow mechanism, and a mixing mechanism for mixing the liquid outflowing from the liquid agent outflow mechanism,
An apparatus for diluting a liquid agent, wherein an adjustment mechanism is provided for adjusting a mixing ratio between a solvent flowing out from the solvent outflow mechanism and a liquid agent flowing out from the liquid agent outflow mechanism.
The adjusting mechanism is
An outflow amount adjustment valve for adjusting the outflow amount of the liquid agent flowing out from the liquid agent outflow mechanism;
The liquid agent dilution apparatus according to claim 5, further comprising a rotatable adjustment member exposed to the outside for adjusting a movement amount of the outflow amount adjustment valve.
The adjusting mechanism is
The liquid agent dilution apparatus according to claim 6, further comprising a dilution factor display mechanism that displays a rotation amount of the adjusting member and a dilution factor of the liquid agent in correspondence with each other.

The liquid agent dilution device according to any one of claims 1 to 7, wherein the container is formed of a translucent material.
  The liquid agent dilution apparatus according to any one of claims 1 to 8, wherein a spreading agent is added to the liquid agent.

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