JP5892484B2 - Liquid spreader - Google Patents

Description

  The present invention relates to a liquid spreader for spraying liquid on fruits or the like.

Patent Documents 1 to 5 disclose a speed sprayer that is a chemical sprayer.
Patent Document 6 describes a spraying device having a two-way nozzle.

JP 2007-313383 A JP 2006-205126 A JP 2005-021775 A JP-A-8-141457 JP-A-8-0666645 JP 2008-238021 A

  In the methods described in Patent Documents 1 to 6, there is a disadvantage that the sprayed liquid is scattered far away.

  This invention is made | formed in view of the said subject, and an example of the objective is to provide the liquid spreader which a liquid does not scatter to a distance, making liquid adhere to the fruit etc. which are objects.

The liquid spreader of the present invention includes a vehicle main body, a liquid tank that is mounted on the vehicle main body and stores liquid, and a liquid spray unit that is mounted on the vehicle main body, and the liquid spray unit is The air taken in has a component perpendicular to the central axis extending in the front direction of the vehicle body, and is provided in a path blown by the blower, and from the liquid tank. A plurality of nozzles capable of discharging the liquid, and a nozzle holding part for holding the nozzle , wherein the nozzle holding part positions the nozzles on the object side for spraying the liquid and the vehicle main body side. position is changeable formed, before Symbol nozzle is a two-way nozzle, a front-side nozzle formed at the position of the front side of the vehicle body, is formed at the position of the direction after the vehicle body, The discharge state of the discharged liquid is different from the front nozzle. A rear-side nozzle, and is disposed at a position protruding from the outer periphery of the vehicle body toward the object side to which the liquid is dispersed.

  Preferably, the nozzle holding part is connected to the first arm part, a base part movable in a direction perpendicular to an axis extending forward of the vehicle body, a first arm part connected to the base part, and the first arm part. A second arm portion.

  Preferably, the connection between the first arm portion and the base portion is formed to be swingable around the base portion.

  Preferably, the connection between the first arm portion and the second arm portion is formed to be bendable also on the rear side of the central axis extending in the front direction of the vehicle body.

Preferably, the front nozzle is formed so that a reach distance of the discharged liquid is longer than the rear nozzle, and the rear nozzle is a range of liquid discharged from the front nozzle. Ru is formed to become wider.

  With the liquid spreader according to the present invention, it is possible to provide a liquid spreader in which liquid does not scatter in the distance while liquid is attached to a target fruit or the like.

It is explanatory drawing of the outline | summary of a liquid spreader. It is expansion explanatory drawing of a liquid spreading | diffusion part. It is a perspective view of a liquid spreading part. It is explanatory drawing of more suitable embodiment (2nd Embodiment) of a nozzle. It is explanatory drawing of the effect by 2nd Embodiment. It is a figure explaining the effect in 1st Embodiment and 2nd Embodiment compared with the conventional liquid spreader. It is explanatory drawing of the outline | summary of 2nd Embodiment. It is the front view, top view, and side view of a base part with a damper of a 2nd embodiment. It is sectional drawing of the base part with a damper of 2nd Embodiment.

<First Embodiment>
FIG. 1 is an explanatory diagram of the outline of the liquid spreader 1.

Hereinafter, the first embodiment of the present invention will be described in detail with reference to FIG.
As shown in FIG. 1, the liquid spreader 1 includes a liquid spreader 3 and a vehicle body 5.
Here, the direction in which the vehicle body 5 advances without turning the handle 51 is defined as the forward direction, and the opposite is defined as the rear direction.
An axis passing through the center of the vehicle main body 5 and extending in the forward direction of the vehicle main body 5 is defined as a central axis O, and a direction perpendicular to the central axis is defined as a normal direction.
The right hand direction is defined as the right direction with respect to the front direction of the vehicle body 5, and the opposite is defined as the left hand direction.
Furthermore, the upper direction of the vehicle body 5 is defined as the upward direction, and the ground side direction is defined as the downward direction.

The vehicle main body 5 includes a steering wheel 51 for steering, a seat 53 for a user to sit on, a front 55, a rear wheel 57, and a liquid tank 59.
The liquid tank 59 can store water, water in which medicine is dissolved (chemical liquid), and the like. When chemical liquid is stored in the liquid tank 59 and this chemical liquid is sprayed, the liquid sprayer 1 functions as a chemical liquid sprayer.

The liquid spraying unit 3 includes a blower unit 31, a nozzle 35, and a nozzle holding unit 33 for holding the nozzle.
A plurality of nozzles 35 are arranged, and have a function of spraying water and chemicals in the liquid tank 59 onto the pair of objects to be sprayed (fruits and leaves).
The nozzle holding unit 33 has a function of holding the nozzle 35 at a predetermined (desired) position.

  FIG. 2 is an enlarged explanatory view of the liquid spraying unit 3. 2A is a rear view from the II-A side in FIG. 1, and FIG. 2B is an enlarged explanatory view of the liquid spraying unit 3 from the same position as FIG. 1.

As shown in FIG. 2A, the axial-flow blower 31 having a plurality of blades 311 rotates around the central axis O of the vehicle.
The nozzle holding portion 33 is connected to the air blowing portion 31 at an upper position of the central axis O of the air blowing portion 31.
The nozzle holding part 33 includes a base 335, a first arm part 331 connected to the base part 335, and a second arm part 333 connected to the first arm part 331.
The first arm portion 331 includes a right first arm portion 331R provided on the right side of the base portion 335 (vehicle main body 5), and a left first arm portion 331L provided on the left side of the base portion 335 (vehicle main body 5).
The second arm part 333 includes a right second arm part 333R provided on the right side of the base part 335 (vehicle body 5) and a left second arm part 333L provided on the left side of the base part 335 (vehicle body 5).
The first arm portion 331 and the second arm portion 333 have a bar-like shape with a square cross section. The lengths of the first arm part 331 and the second arm part 333 in the longitudinal direction are substantially the same.
In addition, a cylinder 37 having one side connected to the blower 31 and the other side connected to the first arm 331 is disposed. The cylinder 37 includes a right cylinder 37R provided on the right side of the base portion 335 and a left cylinder 37L provided on the left side of the base portion 335.
Hereinafter, the right first arm portion 331R and the left first arm portion are only bilaterally symmetric, and therefore only the right first arm portion 331R will be described, and the left first arm portion 331L will not be described. The same applies to the right second arm portion 333R and the left second arm portion 333L.

The base 335 can be moved upward and downward, and then connected to the blower 31 with a bolt or the like. By this movement and the connection after the movement, the base 335 can be moved closer to or away from the central axis O as desired by the user.
On the right side of the base portion 335, the right first arm portion 331R is slidably connected.
At the end of the right first arm 331R opposite to the end connected to the base 335, the right first arm 331R and the right second arm 333R are slidably connected within a certain range. Yes.
The right cylinder 37R and the right first arm 331R are rotatably connected in the vicinity of the end where the right first arm 331R is connected to the right second arm 333R.
As the right cylinder 37R extends or contracts, the right first arm portion 331R swings around the connection portion between the base 335 and the right first arm portion 331R. More specifically, when the right cylinder 37R extends, the right first arm portion 331R moves upward (in FIG. 2A) with the connection portion between the base 335 and the right first arm portion 331R as the center. Rotate counterclockwise. On the contrary, when the right cylinder 37R is contracted, it rotates in the downward direction (clockwise in FIG. 2A) around the connection portion between the base 335 and the right first arm 331R.

As for the swingable connection between the right second arm portion 333R and the right first arm portion 331R, the connection angle can be freely changed by a user's force.
As described above, the rotation of the base 335 and the first arm 331 is performed by the cylinder 37, while the rotation of the first arm 331 and the second arm 333 can be performed by the user's force. The reason is as follows.
The connection between the base portion 335 and the first arm portion 331 is applied with a torque by the base portion 335 and the first arm portion 331, and a relatively large torque is applied. Therefore, there is a lot of force for the first arm portion 331 to maintain a constant angle with respect to the base portion 335.
As a result, the first arm portion 331 needs to be held by the cylinder 37 that can resist a large torque force.
Moreover, the fact that such a large torque is required requires a large force for rotating with the first arm portion 331, and the cylinder 37 capable of generating a large rotational torque is appropriate.
On the other hand, the connecting portion between the first arm portion 331 and the second arm portion 333 is only applied with the torque of the second arm portion 333 and can be held without the cylinder 37. It is appropriate that the angle can be changed by.

  By using the cylinder 37 to change the angle between the base portion 335 and the first arm portion 331, the angle between the base portion 335 and the first arm portion 331 can be changed even when the user is on the seat 53. It is also possible to change.

  Three nozzles 35 are disposed on the right first arm portion 331R. In addition, three nozzles 35 are disposed on the right second arm portion 333R.

As shown in FIG. 2B, the connection between the first arm portion 331 and the second arm portion 333 is such that when a force is applied from the front direction, the second arm portion 333 rotates backward. Is formed.
By enabling this rotation, even when the second arm portion 333 collides with any obstacle, the second arm portion 333 can escape, and damage to the second arm portion 333 or the like can be prevented. It becomes.
Further, this rotation has an effect that the fruit tree trunk is not damaged even when it collides with the fruit tree trunk.
In particular, since the second arm portion 333 has a large protrusion from the outer periphery of the vehicle body 5 to the normal direction side, it is a portion that easily collides with a fruit tree or the like (see also FIG. 5B). There is a high need for it to be effective.

As shown in FIG. 2B, the intake air a <b> 1 having the central axis O direction is sucked into the blower 31 and is sent out in the central axis O direction as it is. The sending air a2 is guided in the normal direction by colliding with the rear surface 39 on the rear side of the vehicle body 5.
Thus, since the sending wind a2 has a normal direction component, the chemical solution discharged from the nozzle 35 disposed in the middle of the sending wind a2 spreads the chemical solution along the sending wind a2. To reach the target object.
That is, a chemical | medical solution will be spread | dispersed on the target object which spread | disperses chemicals, such as fruit.

  FIG. 3 is a perspective view of the liquid spraying unit 3.

As shown in FIG. 3, a rear surface 39 is disposed at the rear portion of the vehicle body 5.
A guard 337 (left guard 337L) is disposed in front of the second arm 333 (left second arm 333L).
The guard 337 is provided in order to prevent the fruit 35 trunk from being caught by the nozzle 35 and broken.
More specifically, if the guard 337 is not provided, even if the second arm 333 can escape even if the second arm 333 collides with a fruit tree trunk or the like, This is because the trunk of the fruit tree or the like may be broken by being caught by the nozzle 35 portion.

<Second Embodiment>
FIG. 4 is an explanatory diagram of a more preferred embodiment (second embodiment) of the nozzle 35.
The difference between the second embodiment and the first embodiment is only that the shape of the nozzle 35 is different.

In the first embodiment, the nozzle 35 has only one discharge port as shown in FIG. However, as shown in FIG. 4, the two-way nozzle 350 of the second embodiment has a front nozzle 351 and a rear nozzle 353.
The two-way nozzle 350 in the second embodiment is such that the front nozzle 351 is at the front side of the vehicle body 5 and the rear nozzle 353 is at the rear side of the vehicle body 5. Mounted.
The front nozzle 351 and the rear nozzle 353 are connected to the trunk 355. The trunk portion 355 has the same shape in the connecting portion 357 as in the case of the nozzle 35 shown in FIG. Therefore, the nozzle 35 shown in FIG. 3 can be removed and the two-way nozzle 350 having the front nozzle 351 and the rear nozzle 353 shown in FIG.

And the front side nozzle 351 is formed so that a chemical | medical solution reaches | attains far rather than the back side nozzle 353 (attainment distance becomes far).
Further, the rear nozzle 353 is formed so that the chemical solution spreads over a wider area than the front nozzle 351.
As a specific example, the chemical liquid sprayed from the front nozzle 351 has an average particle diameter of 200 to 300 μm, the included angle is 30 to 45 °, and the chemical liquid sprayed from the rear nozzle 353 has an average particle diameter of 100. -200 μm, and included angle is 70-80 °. Note that the larger the average particle size, the longer the reach.

  FIG. 5 is an explanatory diagram of an effect according to the second embodiment.

As described with reference to FIG. 4, the front side nozzle 351 allows the chemical solution to reach farther than the rear side nozzle 353, and the rear side nozzle 353 spreads the chemical solution over a wider range than the front side nozzle 351. Formed as follows.
As a result, the spraying by the liquid spraying unit 3 is as shown in (a) of FIG. 5 and (b) of FIG.
By comprising in this way, a chemical | medical solution can be made to reach the front-end | tip of the shoot tree L1 with the front side nozzle 351, and a chemical | medical solution can be made to adhere to the shoot tree L1 in a favorable state.
Furthermore, it is possible to cause the chemical solution to adhere well to the leaves L2 and the like near the shelf surface P by injecting particles of the chemical solution with a small particle diameter at a wide angle by the rear nozzle 353 and spraying the particles close by a small air volume. It becomes.
In addition, since the average particle size of the chemical liquid sprayed from the front nozzle 351 is larger than that of the conventional chemical liquid of the nozzle 35, the wind generated by the air blowing unit 31 and the drift due to the natural wind are smaller than those of the conventional chemical liquid. It becomes possible to suppress.

  FIG. 6 is a diagram for explaining the effects of the first embodiment and the second embodiment in comparison with the conventional liquid spreader 1.

(B) of FIG. 6 is a chemical | medical solution dispersion | distribution state in the conventional liquid spreaders, such as patent document 1 and patent document 2. FIG.
As shown in FIG. 6, when the nozzle 35 is provided on the inner side of the outer periphery of the vehicle body 5, the distance from the position of the nozzle 35 to the object to be sprayed is increased. If it does so, in order to make the chemical | medical solution injected from the nozzle 35 reach the object of dispersion | distribution, it will be necessary to raise the wind speed of the ventilation part 31. FIG.
If it does so, the particle | grains of a chemical | medical solution will move at high speed, and adhesion will not become favorable even if the target object of dispersion | spreading exists in the middle.
Furthermore, the chemical solution that has not adhered to the object to be sprayed scatters at high speed and scatters to nearby houses and the like.
Moreover, since the rotation speed of the ventilation part 31 is large, the noise and ventilation sound of the ventilation part 31 will become large, and a big trouble may be applied to a nearby house.

On the other hand, (a) of FIG. 6 is a figure showing the spraying state of the chemical | medical solution of 1st Embodiment and 2nd Embodiment. In the spraying of the chemical solution according to the first embodiment and the second embodiment, since the nozzle 35 is in the vicinity of the object to be sprayed, the flow rate of the blower 31 is sufficient to be low.
As a result, the rotation speed of the air blower 31 can be lowered, and noise generated by the air blower 31 and wind noise blown by the air blower 31 are reduced.
Furthermore, since it is not necessary to spray the chemical liquid with a delivery wind having a high flow rate, the chemical liquid is not blown away unnecessarily, and unnecessary scattering to the vicinity can be prevented.
In addition, the chemical solution can be more reliably attached to the object to be sprayed. This is because if it is sprayed by a high flow rate of the sending air, it will be difficult to adhere to the object to be sprayed, and if the flow rate of air flow is high, it will be blown away even if the chemical solution once adheres However, this can be suppressed.

<Second Embodiment>
FIG. 7 is an explanatory diagram of the outline of the second embodiment.

The difference from the first embodiment is that the structure of the base 335 is different.
As will be described later, the damper-equipped base portion 335a in which the gas damper is provided in the base portion 335 allows the position of the damper-equipped base portion 335a to be adjusted by the user's force with a small height.

FIG. 8 is a front view, a top view, and a side view of the damper-equipped base portion 335a according to the second embodiment.
FIG. 9 is a cross-sectional view of the damper-equipped base portion 335a according to the second embodiment.
More specifically, FIG. 8A is a top view, FIG. 8B is a front view, and FIG. 8C is a side view.
9A is a cross-sectional view taken along line IXa-IXa in FIG. 8B, and FIG. 9B is a cross-sectional view taken along line IXb-IXb in FIG. (C) of FIG. 8 is a cross-sectional view taken along the line IXc-IXc of (b) of FIG.

As shown in FIGS. 8 and 9 (particularly, FIG. 9A and FIG. 9B), the damper-equipped base portion 335a includes a U-shaped outer structure 103 and a U-shaped inner structure. 105, a gas damper 113 (damper cylinder 113b, rod 113a) disposed inside the inner structure 105 is disposed.
A plate 101 that is a square plate having the same shape as the outer shape of the U-shaped cross section of the outer structure 103 is disposed at the upper position of the outer structure 103 (particularly, FIG. 8A and FIG. 9). (B) and FIG. 9 (c)).
A holding portion 107 for holding the first arm 331 (left first arm 331L, right first arm 331R) is disposed at an upper position of the plate 101 (particularly, as shown in FIG. 8). (See (b) and (a) of FIG. 8).
The holding part 107 holds the left first arm 331 part L and the right first arm part 331R with a pin 109 (left pin 109L, right pin 109R) or the like so as to be swingable.
In addition, the nozzle 35 is arrange | positioned at the left side 1st arm part 331L and the right side 1st arm part 331R, respectively.
Moreover, the downward direction edge part of the inner side structure 105 is connected with the ventilation part.

The outer structure 103 and the inner structure 105 are locked by a fastener 111 (an upper fastener 111a and a lower fastener 111b).
Specifically, as shown in FIG. 9B, the outer structure 103 has four through holes (a first outer through hole 115a, a second outer through hole 115b, a third outer through hole 115c, A fourth outer through hole 115d) is formed.
Further, two through holes (a first inner through hole 117a and a second inner through hole 117b) are formed in the inner structure 105 in the vertical direction.
And the upper side fastener 111a is inserted so that the 2nd outer side through hole 115b and the 1st inner side through hole 117a may be penetrated.
Similarly, the lower fastener 111b is inserted so as to penetrate the third outer through hole 115c and the second inner through hole 117b.
As a result, the relative movement between the outer structure 103 and the inner structure 105 is limited, and the outer structure 103 and the inner structure 105 are held without moving in the vertical direction.

When the entire first arm portion 331 (second arm portion 333) is to be shifted upward, the upper fastener 111a and the lower fastener 111b are extracted and the outer structure 103 is moved upward. .
Thereafter, the upper fastener 111a is inserted so as to pass through the first outer through hole 115a and the first inner through hole 117a, and the lower side so as to pass through the second outer through hole 115b and the second inner through hole 117b. The fastener 111b is inserted.

Conversely, when the entire first arm portion 331 (second arm portion 333) is to be shifted downward, the upper fastener 111a and the lower fastener 111b are extracted and the outer structure 103 is moved downward. Let
Thereafter, the upper fastener 111a is inserted so as to pass through the third outer through hole 115c and the first inner through hole 117a, and the lower side so as to pass through the fourth outer through hole 115d and the second inner through hole 117b. The fastener 111b is inserted.

By the way, in order to move the outer structure 103 in the vertical direction, not only the outer structure 103 but also integrated members such as the first arm part 331 and the second arm part 333 must be moved. As it is, it requires a lot of power.
As described above, a work requiring a lot of power is not preferable because it increases a user's work load.
Therefore, the gas damper 113 is used to reduce the force required for the user.
Specifically, the rod 113 a of the gas damper 113 is connected to the plate 101 integrated with the outer structure 103, and the damper cylinder 113 b is connected to the blower unit 31.

Here, the fastener 111 may be a pin, a bolt, or the like.
The gas damper 113 may be an elastic body such as a simple spring.
Furthermore, it is preferable that the U-shaped inner peripheral surface of the outer structure 103 and the U-shaped outer peripheral surface of the inner structure 105 are in contact with each other so that the outer structure 103 slides and moves.

  In addition, this invention is not limited to the above embodiment, You may perform various changed structure, a structure, and control.

<Configuration and Effect of Embodiment>
The liquid spreader 1 of the first embodiment and the second embodiment is mounted on the vehicle main body 5, the liquid tank 59 that is mounted on the vehicle main body 5 and stores the liquid, and the liquid spray mounted on the vehicle main body 5. And the liquid spraying unit 3 has a component perpendicular to the central axis O extending in the front direction of the vehicle body 5 and can blow air, and the air blowing unit. And a plurality of nozzles 35 that are capable of discharging the liquid from the liquid tank 59, and the plurality of nozzles 35 scatters the liquid from the outer periphery of the vehicle body 5. It is arranged at a position protruding to the side.
Since it has such a configuration, it is possible to reduce the noise, unnecessarily scatter the chemical, and reliably attach the chemical to the fruit or the like to be sprayed.

The plurality of nozzles 35 are held by a nozzle holding unit 33, and the nozzle holding unit 33 is formed so that the position of the plurality of nozzles 35 can be changed between the object side for spraying the liquid and the vehicle body 5 side.
Since it has such a configuration, the nozzle 35 can be moved closer to or away from the object to be sprayed as necessary. In this way, the user can work in a state in which spraying is most easy and spraying is efficient.

The nozzle holding portion 33 is connected to a base portion 335 that can move in a direction perpendicular to an axis extending in the forward direction of the vehicle body 5, a first arm portion 331 connected to the base portion 335, and the first arm portion 331. A second arm portion 333.
Since it has such a structure, it becomes possible to arbitrarily change the position of the nozzle 35 to be sprayed according to the shape of a shelf of fruits and the like, the type of fruit, and the growth situation.

The connection between the first arm portion 331 and the base portion 335 is formed to be swingable around the base portion 335.
Since it has such a structure, it becomes possible to arbitrarily change the position of the nozzle 35 to be sprayed according to the shape of a shelf of fruits and the like, the type of fruit, and the growth situation.

The connection between the first arm portion 331 and the second arm portion 333 is formed so as to be able to bend also on the rear side of the central axis O extending in the forward direction of the vehicle body 5.
Since it has such a configuration, even when it collides with a trunk of a fruit tree, there is an effect that the trunk of the fruit tree is not damaged.
In addition, there is an effect of preventing the second arm portion 333 from being damaged.

The two-way nozzle 350 includes a front nozzle 351 formed at a front position of the vehicle main body 5 and a rear nozzle 353 formed at a rear position of the vehicle main body 5. The front nozzle 351 and the rear nozzle 353 is formed so that the discharge state of the discharged liquid is different.
Since it has such a structure, it becomes possible to spray a chemical | medical solution more reliably to the target object of dispersion | distribution.

The front nozzle 351 is formed so that the reach distance of the discharged chemical solution is longer than the rear nozzle 353.
Since it has such a configuration, the chemical solution can reach the tip of the shoot L1 by the front nozzle 351, and can adhere to the shoot L1 in a good state.
Furthermore, it is possible to cause the chemical solution to adhere well to the leaves L2 and the like near the shelf surface P by injecting particles of the chemical solution with a small particle diameter at a wide angle by the rear nozzle 353 and spraying the particles close by a small air volume. It becomes.
In addition, since the average particle size of the chemical liquid sprayed from the front nozzle 351 is larger than that of the conventional chemical liquid of the nozzle 35, the wind generated by the air blowing unit 31 and the drift due to the natural wind are smaller than those of the conventional chemical liquid. It becomes possible to suppress.

<Definition etc.>
An example of the liquid sprayer of the present invention is a chemical liquid sprayer (speed sprayer) for spraying a chemical liquid. The liquid sprayer of the present invention does not necessarily have to spray a chemical solution, and may be simply a water sprayer.

DESCRIPTION OF SYMBOLS 1 Liquid spraying machine 3 Liquid spraying part 5 Vehicle main body 31 Blower part 33 Nozzle holding part 35 Nozzle 39 Rear surface 59 Liquid tank 331 1st arm part 331L Left side 1st arm part 331R Right side 1st arm part 333 2nd arm part 333L Left side 1st 2 arm part 333R right second arm part 335 base 350 two-way nozzle 351 front nozzle 353 rear nozzle 355 core

Claims (5)

A vehicle body,
A liquid tank that is mounted on the vehicle body and stores liquid;
A liquid spreading part mounted on the vehicle body,
The liquid spraying part
A blower unit having a component perpendicular to the central axis extending in the front direction of the vehicle main body and capable of blowing the taken air;
A plurality of nozzles provided in a path blown by the blower, and capable of discharging liquid from the liquid tank;
A nozzle holding part for holding the nozzle ,
The nozzle holding portion is formed so that the position of the nozzle can be changed between an object side for spraying liquid and the vehicle main body side,
Before Symbol nozzle,
A two-way nozzle,
A front nozzle formed at a position on the front side of the vehicle body;
A rear nozzle formed at a position on the rear side of the vehicle main body and having a different discharge state of the liquid discharged from the front nozzle;
A liquid sprayer disposed at a position projecting toward an object for spraying liquid from the outer periphery of the vehicle body. The nozzle holder is
A base that is movable in a direction perpendicular to an axis extending forward of the vehicle body;
A first arm connected to the base;
Liquid sprayer of claim 1 having, a second arm portion connected to the first arm portion. The liquid spreader according to claim 2 , wherein the connection between the first arm portion and the base portion is formed to be swingable around the base portion. The connection between the second arm portion and the first arm portion, a liquid sprayer according to claim 2 or 3 is also bendable formed on the rear side of the central axis extending in a forward direction of the vehicle body. The front side nozzle is formed so that the reach distance of the discharged liquid is farther than the rear side nozzle ,
The rear-side nozzle, from the front-side nozzle, a liquid sprayer according to claim 1 that will be formed so that the range of the liquid to be discharged is widened.

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