KR101763211B1 - Lever type liquid injector - Google Patents

Abstract

The present invention provides a lever-type liquid ejection apparatus capable of automatically performing locking in a spraying or spraying form of a lever, and capable of changing the spraying or spraying shape without interrupting the spraying operation.
The lever type liquid injection device of the present invention is provided with the opening and closing valve 7 and the rectification valve 8 in the middle of the liquid supply passage 5 provided in the main body 3 and the opening and closing valve 7 is opened by the lever 6, The lever 6 is operated by the on-off valve 7 so as to change the opening degree of the rectifying valve 8 so as to change the shape of the spray water from the nozzle unit 4, And a lock releasing means for releasing the engagement of the ratchet claw with respect to the locking claw at a position where the lever 6 is held at the maximum by the lock releasing means 41, And guiding means for guiding the lever at the maximum gripped position while releasing the grip and returning the gripped ratchet claw to the locked position so as not to engage with the locking claw.

Description

[0001] LEVER TYPE LIQUID INJECTOR [0002]

The present invention relates to a lever type liquid ejecting apparatus capable of starting and stopping liquid dispensing only by lever operation and capable of changing a plurality of liquid spraying and ejection forms according to the grip amount of the lever, A gun-type lever-type liquid which can be held at each position of the operation and can maintain the respective spraying or spraying form even when the hand is released from the lever and can return to the stop state of injection only by lever operation Jet device.

In this type of lever-type liquid-ejecting apparatus, a lever is pivotally fixed to a main body having a grip portion, and a liquid supply path is formed in the main body, the tip portion of which is a nozzle portion. And a valve body for opening and closing the injection hole of the nozzle portion is provided at the tip end of the valve shaft, and a force in a direction of elastically urging the valve stem to normally close the valve stem . Further, a hook is rotatably connected to the middle of the lever, and a locking portion for engaging / disengaging the hook is provided on the grip portion so as to be movable in the tangential direction of the lever. By rotating the grip portion, (For example, refer to Patent Document 1).

In the lever type liquid ejection apparatus as described above, when the lever is not gripped normally, the valve body closes the injection hole and no liquid is sprayed. When the lever is gripped when spraying the liquid, the valve body opens the injection hole to cause injection . At this time, by selecting the grip amount of the lever, the valve opening position of the valve body with respect to the injection hole changes in accordance with the grip amount, and the shape of the injection water flow can be changed in accordance with the valve opening amount, for example, Straight rod) injection.

In order to fix the shape of spraying or jetting water at the time of jetting the liquid, the position of the locking portion is selected by rotating the worm gear, the hook of the lever held is hooked on this locking portion, and the lever is returned in the valve closing direction . In this way, the lever can be maintained in the required spray or spray position, and the spray or spray configuration can be maintained even if the lever is released.

Fixation of the form of spraying or jetting water is also carried out by the method disclosed in Patent Document 2. The lever type liquid injection device disclosed in Patent Document 2 has a structure in which a ratchet claw displaced by a locking claw lever operation having a plurality of reverse claws is engaged to hold the lever at each position of operation.

Japanese Patent Application Laid-Open No. 2010-110717 Japanese Utility Model Publication No. 04-40750

The conventional lever type liquid ejection apparatus requires a work for selecting the position of the locking portion by rotating the worm gear and an operation for coupling the hook to the locking portion in order to maintain the lever at a desired spraying or spraying position . This operation is required to suspend and perform the spraying operation. Therefore, it takes a long time to change the spraying or spraying form and it is very troublesome. In addition, when the spraying or spraying mode is changed, There is a problem to be said.

The lever type liquid ejecting apparatus of the type in which the lever is stepwise held at the position where the manipulated variable is different by the multi-stage locking mechanism combining the locking claws having the plurality of non-return claws and the ratchet claws, releases the engagement of the ratchet claws with respect to the locking claws And the problem that the lever is reversed and the disengagement can not be performed smoothly is apt to occur.

Therefore, it is an object of the present invention to provide a method and apparatus for automatically locking a lever in a spraying or spraying mode, omitting other troublesome operations and changing the spraying or spraying shape without interrupting the spraying operation, To return to the stopped state of the lever-type liquid-ejecting apparatus.

In order to solve the above problems, the present invention is characterized in that a grip portion and a lever are provided in a main body having a nozzle portion on the tip end side, and the amount of grip of the lever pressed in the returning direction by a spring is varied to operate the spray amount adjusting body Wherein a multi-stage locking mechanism capable of changing the shape of jet flow from the nozzle portion and locking the lever at a plurality of positions at which the spray amount adjusting body is operated is provided between the grip portion and the lever, A lever-type liquid ejection apparatus in which the posture of the lever that actuates the spray amount adjusting member is maintained stepwise,

Wherein the multi-stage locking mechanism comprises: a locking claw which is a plurality of ridges provided on the grip portion; a ratchet claw attached to the lever in such a manner that the ratchet is engaged with and releasable from the locking claw; And an elastic body for locking the locking claw in the direction of anti-reverse rotation when the spray amount adjusting body is operated by the lever is combined with the lock claw, and the grip of the maximum gripped lever is released to the multi- A ratchet claw which is disengaged when the grip is released and returned to its initial position while keeping the ratchet claw not engaged with the locking claw Thereby providing a guide means.

The disengagement means is provided at a lower edge of a pivot-fixing side end portion of the ratchet claw with respect to the lever. When the lever is held at its maximum, the ratchet claw is brought into contact with the locking claw at the distal end to rotate the ratchet claw upward, Shaped cam edge,

The guiding means includes a guide provided on the grip portion side in parallel with the locking claw at a position on the upper side with respect to the locking claw and a support shaft pivoted on the side surface of the side of the tip side of the ratchet claw, A stopper pin protruding from a side surface of the tip end side of the ratchet claw and restricting a pivotal range of the movable member and a coupling surface on which one end of the movable member is brought into contact immediately before gripping the lever at a maximum, The lever is displaced to the grip portion side by the maximum gripping of the lever in a state in which one end of the movable member is locked to the engagement surface so that the movable member is rotated and the backward movement is prevented by the guide So that the movable member and the stopper pin can pass through the upper portion of the guide and return A is preferred.

The guide means includes a guide provided on the side of the grip portion in parallel with the locking claw at an upper position relative to the locking claw, a pin provided so as to protrude from the tip side of the ratchet claw, And the guide and the pin may be in such a positional relation that the pin faces the upper surface from the rear end side of the guide when the ratchet claw is in the releasing posture by grasping the lever at the maximum .

Wherein the valve body is provided with a valve shaft that is movable in the axial direction by interlocking with the lever in the liquid supply path and that a valve hole is formed in the middle of the valve shaft passing through the valve hole formed in the liquid supply path A valve body provided in the liquid supply passage and having a conical shape for opening and closing a valve hole of a valve plate of the rectification valve sheet provided at the tip of a shaft mounted in the liquid supply passage so as to be movable in the axial direction, And a valve body,

Closing valve and the rear end of the shaft of the rectifying valve are integrally moved in the axial direction and a moving force in the direction of normally closing the opening and closing valve and the rectifying valve is provided to the valve shaft by an elastic body And a concave portion which is not closed even when the horn-shaped valve body reaches a maximum position in the valve hole around the valve hole of the rectifying valve seat plate can be formed.

The main body has a main passage provided with a grip portion protruding obliquely rearward at the lower portion of the rear end side and a cylindrical holder connected to the leading end side of the main pipe so as to be extended. A nozzle is provided at the tip of the holder of the main body. The upper end of the lever is pivotally fixed to the tip end side of the main pipe, and the lever extends downward from the main barrel.

The lever is located on the front side of the grip portion, and is pivotable about the pivot point on the upper side. When the valve shaft of the on-off valve, which is one of the spray amount adjusting bodies, is interlocked with the movement of the lever, and the lever is gripped by the hand holding the grip portion and pulled toward the grip portion, And moves to the open position.

By this operation, the flow path provided in the grip portion communicates with the liquid supply path of the main body. And the open / close valve is provided at a downstream side position of a portion where the liquid supply path communicates with the flow path. The opening / closing valve is normally urged by a spring in the valve closing direction, and the opening degree changes in proportion to the rotation angle of the grip amount of the lever.

Wherein the valve shaft and the rectifying valve of the spray amount adjusting body are coupled so as to be relatively movable in the axial direction so that the rectifying valve is resiliently urged forward and when the opening and closing valve is closed, do.

When the lever is retracted to the position where the ratchet claw engages with the first end of the locking claw and the hand is released, the opening / closing valve is opened by movement of the valve shaft. At this time, since the rectifying valve is in a state of being closed without any movement, the recessed portion formed on the inner side of the valve hole is opened even when the valve is closed, so that liquid passing through the valve is discharged from the concave portion of the rectifying valve And flows out toward the nozzle portion, thereby performing wide angle spraying.

Further, when the lever is gripped to a position where the ratchet claw is engaged with the locking claw of the second end and the hand is released, the valve opening amount of the opening / closing valve is increased and the valve hole is slightly opened, The flow rate is increased and coarse injection is performed.

When the lever is gripped to a position where the ratchet claw is engaged with the locking claw of the third stage and the hand is released, the opening and closing valve and the rectifying valve are completely opened to maximize the flow rate of the fluid flowing toward the nozzle portion.

When the spraying or spraying is stopped, the engagement of the ratchet claws with respect to the locking claw is released, and the opening / closing valve is returned to the valve closing state by the force of the spring, and the lever also returns to the initial position. At the same time, To return to the valve closing state.

According to the present invention, the lever is automatically locked in the spraying or spraying mode, so that even when the hand is released from the lever, the spraying or spraying shape at that time can be maintained. In addition, even when changing the spraying or spraying shape, it is only necessary to change the grip amount of the lever, so that it is possible to change the spraying or spraying shape without interrupting the spraying operation by omitting troublesome other operations, There is no problem that the spraying is carried out to other places.

In addition, since the stop of spraying or injection can be performed only by releasing the engagement between the locking claw and the ratchet claw by pulling the lever fully, and changing the spraying form from the start of spraying and stopping spraying or spraying can all be performed by one- It becomes simple.

In addition, in the multi-stage locking mechanism composed of the locking claw and the ratchet claw, there are provided a coupling releasing means for releasing the engagement of the ratchet claw with the locking claw at a position where the lever is grasped to the maximum, Since the guide means is provided for guiding the ratchet claw in the disengaged position while keeping the ratchet claw in engagement with the locking claw so as to return to the initial position for the locking claw when the lever is released to the valve closing position, It is possible to return the lever type liquid injection device to the injection stop state by releasing the locking of the ratchet claw with respect to the locking claw so that the operation can be performed with one hand from the start of spraying to the stop of spraying.

Fig. 1 (a) is a front view of an outer shape showing a first embodiment of a lever-type liquid injection device according to the present invention, and Fig. 1 (b) is a plan view thereof.
Fig. 2 (a) is an enlarged vertical cross-sectional view of a lever-type liquid ejection apparatus according to a first embodiment of the present invention in a stop state, Fig. 2 (b) (c) is a vertical sectional view enlarging a portion of the rectification valve, and (d) is a front view showing a rectification valve seat plate in the rectification valve.
Fig. 3 (a) is an enlarged vertical cross-sectional view of the lever-type liquid-spraying apparatus according to the first embodiment of the present invention in a wide-angle spray state in the liquid spraying, (C) is a longitudinal sectional view enlarging a portion of the rectifying valve.
Fig. 4 (a) is an enlarged vertical cross-sectional view of the lever-type liquid-spraying apparatus according to the first embodiment of the present invention, (C) is a longitudinal sectional view enlarging a portion of the rectifying valve.
Fig. 5 (a) is an enlarged vertical cross-sectional view of a lever spraying apparatus according to the first embodiment of the present invention in a liquid dispensing state, and Fig. 5 (b) (C) is a longitudinal sectional view enlarging a portion of the rectifying valve.
6 is an exploded perspective view showing a multi-stage locking mechanism of the lever-type liquid ejection apparatus according to the first embodiment.
Fig. 7A is a side view of the locking claw case of the multi-stage locking mechanism, and Fig. 7B is an enlarged longitudinal top view of the position along the line XX in Fig. 7A.
(A) is an enlarged longitudinal elevation view showing a state in which the ratchet claw is separated from the locking claw by gripping the lever at the maximum, and (b) Is an enlarged longitudinal front view showing a state in which the ratchet claw is separated from the locking claw while the lever releasing the grip is returned to the initial position.
Fig. 9 is an enlarged longitudinal sectional view of a lever type liquid ejection apparatus according to a second embodiment of the present invention in a stop state. Fig.
10 is an enlarged longitudinal sectional view of a lever type liquid ejection apparatus according to a third embodiment of the present invention in a stop state.
11 is an exploded perspective view showing a multi-stage locking mechanism in the third embodiment.
12 is an enlarged cross-sectional view showing the components of the coupling release means and the guide means of the multi-stage locking mechanism according to the third embodiment.
13 (a) is an enlarged longitudinal sectional view showing a state in which the movable member provided on the ratchet claw is held in contact with the engaging surface on the grip portion side by gripping the lever at its maximum, and Fig. 13 (b) (C) is an enlarged vertical sectional view showing a state in which the movable member and the pin of the guide means ride over the guide. Fig.

DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

The lever type liquid injection device 1 of the first embodiment shown in Figs. 1 to 8 has a simple structure by reducing the number of constituent parts of the main body 3, and grips the lever 6 to its final position, The multi-stage locking mechanism 41 is released, and the lever 6 is returned to the initial position so that spraying or injection can be automatically stopped.

In the lever type liquid ejecting apparatus 1 of the first embodiment, the nozzle unit 4 is provided at the tip end portion of the main body 3 having the grip portion 2. A liquid supply path 5 extending in the axial direction is provided in the main body 3 and the liquid supply path 5 is opened and closed by the operation of the lever 6 pivotally fixed to the main body 3 And the amount of the spray amount adjustment is set.

This spray quantity adjustment body is formed by an on-off valve 7 and a rectification valve 8 which is located on the downstream side of the on-off valve 7 and whose opening and closing movement is linked to the on- 6, the opening degree of the rectifying valve 8 can be changed by opening the opening / closing valve 7, and the shape of the injection water from the nozzle portion 4 can be changed in accordance with the variation of the opening degree .

As shown in Figs. 1 and 2, the main body 3 has a tubular main body 9 provided with a grip portion 2 projecting obliquely rearward at the lower portion of the rear end side, And a cylindrical holder 12 connected to be extended. The rear end cylindrical portion of the holder 12 is externally fitted to the small diameter portion provided at the tip end of the main cylinder 9 and the main cylinder 9 and the holder 12 are fitted And are connected concentrically. The outer side of the nozzle unit 4 provided at the tip of the holder 12 is screwed into the holder 12 and the liquid supply path 5 is communicated with the inside of the holder 9 and the holder 12 in the axial direction. Shaped hood 13 as shown in Fig.

The flow path 14 provided in the grip portion 2 communicates with the liquid supply path 5 of the main cylinder 9 and a part of the portion where the flow path 14 communicates with the liquid supply path 5 in the main cylinder 9 And an on-off valve 7 which is one of the spray amount adjusting bodies is provided at the downstream side. A rectification valve 8, which is the other side of the spray amount adjusting body, is provided at a position midway in the liquid supply path 5 in the holder 12.

The opening / closing valve 7 is formed by combining a cylindrical valve seat 15 and a valve body 17. The valve seat 15 is provided in the liquid supply passage 5 of the main cylinder 9 and the valve shaft 16 is pushed into the valve hole of the valve seat 15 with sufficient clearance so that the valve shaft 16 can be moved in the axial direction A valve body 17 for opening and closing the valve hole of the valve seat 15 is provided at a portion of the valve shaft 16 on the upstream side of the valve seat 15, The spring retainer 18 is screwed to the main cylinder 9 and the rear end of the liquid supply passage 5 of the main cylinder 9 is sealed by using the O- And has a sealed structure.

The valve element 17 of the on-off valve 7 is urged in the direction of closing the valve hole of the valve seat 15 at all times by the spring 21 provided by being compressed between the spring element 18 and the spring element 18 .

The lever 6 has a vertically long U-shaped cross section. As shown in Fig. 1, the bifurcated portion 6a provided at the upper end is inserted into the outer side of the main cylinder 9 from the lower side and disposed on the front side of the grip portion 2, The upper end of the bifurcated portion 6a is pivotally fixed by the pin 23 to the attachment portion 22 on the upper side of the grip portion 2 so that the pin 23 in the direction approaching or separating from the grip portion 2, So that it is possible to rotate around the center.

As shown in Fig. 1, both ends of the U-shaped connecting rod 24, which is planarly externally viewed from the rear end to the both sides in relation to the outside of the main cylinder 9, 25). 2, the through hole 26 formed in the rear end wall of the U-shaped connecting rod 24 passes through the protruding portion of the valve shaft 16 from the spring pressing portion 18, The valve-opening-amount adjusting nut 27 is screwed to the rear end of the through-hole 26. [

The U-shaped connecting rod 24 moves in the axial direction of the valve shaft 16 by pivoting the lever 6 by the connection with the lever 6, and as shown in Fig. 2 (a) Shaped connecting rod 24 is in contact with the adjustment nut 27 when the valve 6 is in the closed state and the U-shaped connecting rod 24 contacts the lever 6 in the engaged state, (2).

When the lever 6 in this posture is turned and turned toward the grip portion 2, the U-shaped connecting rod 24 and the adjustment nut 27 move the valve shaft 16 rearward while compressing the spring 21 , So that the valve body 17 is separated from the valve seat 15 and the valve 7 is opened. When the lever 6 is opened, the valve shaft 16 moves forward due to the elastic force of the spring 21 and the valve element 17 is brought into contact with the valve seat 15 as shown in Fig. 2 (b) Thereby closing the valve.

The rectifying valve 8 is provided with a rectifying valve seat plate 28 in the middle of the liquid supplying path 5 in the holder 12 and is provided upstream of the liquid supplying path 5 with respect to the rectifying valve seat plate 28 And a conical valve element 31 for opening and closing the valve hole 30 of the rectifying valve seat plate 28 is provided at the tip of the shaft 29 Respectively.

2 (d), even if the horn-shaped valve element 31 advances and reaches the maximum in the valve hole 30, the valve of the conical valve element 31 is closed The recessed portion 32 to be avoided is formed on the inner periphery of the valve hole 30 so that even when the horn-shaped valve element 31 is in the valve-closed position as shown in Fig. 2 (c) So that a flow of liquid is generated.

This conical valve 8 is connected to the horn-shaped valve body 31 with a margin in the axial direction with respect to the tip end of the shaft 29 so as to open and close in synchronism with the on-off valve 7. Specifically, the horn-shaped valve body 31 is allowed to move in the axial direction in the range of the elongated hole 53 by the pin 52 and the long hole 53, And a forward movement force is given to the horn-shaped valve body 31 by the spring 54 mounted inside.

As shown in Figs. 2 (a) and 2 (b), the relationship between the opening / closing valve 7 and the rectifying valve 8 is such that when the opening / closing valve 7 is in the valve closing state, , The horn-shaped valve body 31 is pushed to the advanced position by the spring 54 and is advanced to the maximum position in the valve hole 30 of the rectifying valve seat plate 28 as shown in FIG. 2 (c) do.

The nozzle portion 4 provided at the tip end of the holder 12 inserts the cylindrical rectifying core 37 into the liquid supply path 5 on the downstream side of the rectifying valve 8 in the holder 12, The injection plate 38 is superimposed on the flange at the tip of the rectifying core 37 and fixed. The injection plate 38 is fixed by fastening a cap 39 screwed to the tip of the holder 12. The spray plate 38 has a horn shape protruding forward and is configured to spray or spray liquid through a spray hole 40 formed at the center of the spray plate.

The lever 6 which is rotated in the valve opening direction of the on-off valve 7 is provided between the grip portion 2 and the lever 6 so as to be capable of locking at a plurality of positions with different opening degrees of the on- The multi-stage locking mechanism 41 is used to hold the posture of the lever 6 at which the valve 6 is opened and the valve-opening position of the valve 6 is opened.

The multi-stage locking mechanism 41 is formed by combining a plurality of acid-containing locking claws 42, a ratchet claw 44 capable of engaging and disengaging operations with respect to the locking claws 42, and a locking claw case 55 have.

The locking claws 42 illustrate that three front and rear mountains are arranged in front and rear, with the front surface of the front surface facing downward and the rear surface having a right angle surface (surface with no inclination).

The ratchet claw 44 has an upper end extended to the grip portion 2 and a downward claw 45 is provided at the tip of the extended portion and the claw 45 grips the lever 6, (Backward) in the valve opening direction of the lock claw 7 in the anti-reverse direction. The ratchet claw 44 is resiliently biased in the direction in which the claw 45 always engages with the locking claw 42 by the spring 46 that is provided by compression between the lever 6 and the lever 46, The locking of the claws 45 with respect to the locking claws 42 can be released by the operation of the claws 6.

The locking claw case 55 has a rear wall 55a and an upper wall 55b, a lower wall 55c and a side wall 55d as shown in Figs. 6 and 7, And is formed in a rectangular box-like shape. On the inner upper surface of the lower wall 55c protruding toward the lever 6 of the locking claw case, there is provided a locking claw 42 in which three mountains are arranged back and forth. Further, the ratchet claw 44 is rotatably attached by the pin 43 in the upper part of the lever 6. 2, the locking claw case 55 is fitted and fixed in the concave portion 56 formed at the upper surface of the grip portion 2 on the side of the surface facing the lever 6. The locking claw case 55 is attached to the lever 6 The claws 45 of the ratchet claws 44 can be engaged and released with respect to the locking claws 42. [

The multi-stage locking mechanism 41 includes a disengagement releasing means for disengaging the ratchet claw 44 from the locking claw 42 at a position where the lever 6 is held at the maximum, Guiding means for guiding the lever 6 to the initial position while guiding the ratchet claw 44 in the releasing position while not engaging with the locking claw 42 when the grip is released and returned to the valve closing position, .

The disengagement means is formed by an arcuate cam edge 57 which rotates the ratchet claw 44 upward by contacting the locking claw 42 at the tip when the lever 6 is grasped to the maximum . The arcuate cam edge 57 is formed at a lower end of the range from the immediate lower side of the pin 43 to the lower side at the pivot fixing side end of the ratchet claw 44 at the pin 43 with respect to the lever 6, As shown in FIG. The ratchet claw 44 pivoted upward by the action of the arcuate cam edge 57 allows the claw 45 to be released from the locking claw 42 while the lever 6 is gripped to its maximum, Posture.

A space is provided between the rear locking claw 42 and the rear wall 55a in the locking claw case 55 so as to prevent the tip of the ratchet claw 44, which rotates upward, from interfering with the rear wall 55a Respectively.

2, 6, and 7, the guiding means includes a guide 58 formed in a plate-like shape that is long in the front-rear direction and provided on the side of the grip portion 2, A pin 59 of the ratchet claw 44 and a backward movement preventing portion 61 for preventing the ratchet claw 44 from reversing.

The guide 58 is provided so as to protrude in parallel with the locking claw 42 in parallel with the locking claw 42 on the inner surface of the side wall 55d of the locking claw case 55, The pin 59 is provided so as to protrude along the longitudinal direction of the claw 45 at the tip side of one side surface of the ratchet claw 44. The guide 58 and the pin 59 are configured such that when the lever 6 is fully grasped, that is, when the ratchet claw 44 pivoted upward is in the release position, Side surface of the guide.

6, the ratchet claws 44 have a width accommodated in the inner lateral width of the locking claw case 55, but the pin attaching pieces 60 protruding from the top surface of the front end are provided in the locking claw case 55 The pin attaching piece 60 does not interfere with the guide 58 when the ratchet claw 44 rotated to the upper side is in the releasing posture .

The backward blocking portion 61 is a backlit claw having a guide surface 61a of an inclined surface and a stopper surface 61b perpendicular to the inner surface of the side wall 55d shown in Figure 7 (b) As shown in Fig. 7, protrudes in the same direction as the guide 58 at a position where the guide 58 of the side wall 55d of the locking claw case 55 extends. The pin 59 is guided to the guide surface 61a of the backward movement preventing portion 61 so that the pin 59 rides over the backward movement preventing portion 61 and the pin 59 is caught by the stopper surface 61b, .

Further, the locking claws 42 are arranged in front of and behind the mountain, the front surface of which is an inclined front surface downward and the rear surface is a right angle surface (a surface perpendicular to the axis in the array direction of the claws). Since the claws 45 of the ratchet claws 44 slide on the inclined surfaces and ride over the mountains, the forward downward inclined surfaces of the respective mountains are protected by the rigid resin plate 44 having excellent abrasion resistance, rigidity, Or a protective plate 42a formed of a metal plate are overlapped and fixed. This improves the mobility of the ratchet claws 44 when gripping the lever 6 and improves the wear resistance and durability of the claws 45 in the respective locking claws 42 and the ratchet claws 44, The life span of the liquid-type liquid-injection device 1 is also prolonged.

The lever-type liquid-injection device 1 of the first embodiment has the above-described structure. Fig. 2 shows a state at the time of injection stop without injecting liquid of this apparatus. 2 (b), when the ratchet claw 44 is not engaged with the locking claw 42, the valve body 17 is moved to the spring 21 The valve seat 15 is pressed against the valve seat 15, and thus the valve is closed.

The lever 6 is pushed forward by the adjustment nut 27 of the valve shaft 16 from the body 3 to the front side of the grip portion 2, And is held in a descending posture.

When the valve shaft 16 of the opening / closing valve 7 is in the advanced position, the rectifying valve 8 of the spray amount adjusting body has a shaft 29 coupled to the valve shaft 16, as shown in FIG. 2 (c) And the pin 52 is received in the elongated hole 53 to allow for movement in the axial direction. Therefore, the spring 54 is pushed to the advancing position, And is maximally advanced in the valve hole 30 of the valve body 28 to be closed.

Thus, even if the liquid is supplied from the liquid supply source connected to the flow path 14 of the grip portion 2, the supply path is blocked by the opening / closing valve 7, The outflow of the liquid to the portion 4 does not occur.

Fig. 3 shows the state of ignoring the wide angle portion in the liquid spraying. When the claw 45 of the ratchet claw is locked to the locking claw 42 of the first stage by holding the lever 6 and pivoting the lever 6 toward the grip portion 2, And the U-shaped connecting rod 24 moves backward by an angle. This operation causes the valve shaft 16 to move rearward through the adjustment nut 27 and the valve body 17 to be separated from the valve seat 15 and to open and close the valve 7 Becomes the valve-opened state of the first stage. Thus, the liquid from the flow path 14 passes through the opening / closing valve 7 and flows toward the nozzle part 4 side from the liquid supply path 5.

At this time, the shaft 29 of the rectifying valve 8 is set to the range of the clearance between the long hole 53 and the pin 52 because the amount of movement of the first end of the valve shaft 16 is set to the range of the spring 54, The horn-shaped valve body 31 is maintained in a state in which the valve hole 30 of the rectifying valve seat plate 28 is closed, as shown in Fig. 3 (c).

However, since the concave portion 32, which is not closed by the conical valve element 31, is formed around the valve hole 30 of the rectifying valve seat plate 28, The liquid flows out from the portion of the recess 32 shown in Fig. 3 (c) through the rectification valve 8 and toward the nozzle portion 4. Fig. At this time, the liquid flowing out between the horn-shaped valve body 31 and the concave portion 32 becomes a swirling flow and is conical shaped and ejected through the injection hole 40 of the spray plate 38 to become a wide angle spray.

The state at the time of narrow-angle injection in the liquid spraying is shown in Fig. When the lever 6 is rotated toward the grip portion 2 to lock the claw 45 of the ratchet claw 44 into the locking claw 42 of the second stage, as shown in Fig. 4 (b) The opening degree of the second stage is larger than that of the first stage and the flow rate of the fluid flowing from the liquid supply path 5 toward the nozzle section 4 through the opening / closing valve 7 is increased .

When the valve shaft 16 of the opening / closing valve 7 is retracted to the opening position of the second end, the elongated hole 53 and the pin 52 are engaged and the conical valve element 31 of the rectifying valve 8 is engaged, Is pulled by the shaft 29 to move integrally and retreat. 4 (c), the horn-shaped valve body 31 is separated from the valve hole 30 of the rectifying valve seat plate 28 to open the valve of the rectifying valve 8, and the opening / closing valve 7 Is flowed out from the valve hole 30 of the rectification valve 8 toward the nozzle portion 4. [ At this time, since the opening / closing valve 7 has an opening degree of the second end and the flow rate of the liquid is slightly suppressed, the liquid is injected through the injection hole 40 of the injection plate 38 as a coarse injection.

Fig. 5 shows the state at the time of spinning with the liquid spray. When the lever 6 is rotated toward the grip portion 2 to lock the claw 45 of the ratchet claw to the locking claw 42 of the third stage, the opening / closing valve 7 The flow rate of the liquid flowing from the liquid supply path 5 toward the nozzle unit 4 side becomes the maximum.

When the valve shaft 16 of the opening / closing valve 7 is retracted to the fully opened position, the conical valve element 31 of the rectifying valve 8 is also in the fully opened position And is largely separated from the valve hole 30 of the rectification valve seat plate 28 as shown in Fig. 5 (c), so that the rectification valve 8 is fully opened. Therefore, the liquid that has passed through the opening / closing valve 7 flows out from the valve hole 30 of the rectifying valve 8 toward the nozzle portion 4. At this time, the opening / closing valve 7 and the rectifying valve 8 are completely The water quantity and the water pressure are maximized, and the spraying shape is sprayed through the spray hole 40 of the spray plate 38. [

In the spraying or spraying state in the liquid spraying, the lever 6 automatically engages the ratchet claw 44 with the locking claw 42 to automatically maintain the posture in each spraying or spraying state, It does not return. Therefore, even if the lever 6 is not always grasped, only the grasping portion 2 is held, and each spraying or spraying state can be maintained with one hand. In addition, in the case of switching from spraying to each injection state, it is only necessary to increase the grip amount of the lever 6, so that no extra switching work is required, and the change from spraying to each injection state is performed with one hand .

The valve opening amount of the opening / closing valve 7 can be adjusted by rotating the adjustment nut 27 and changing the position before and after the adjustment, thereby enabling fine adjustment of each spraying or spraying state .

When the grip amount of the lever 6 is further increased from the position where the opening and closing valve 7 and the rectification valve 8 are fully opened, the claw 45 of the ratchet claw 44 is acted upon by the action of the arcuate cam edge 57, The pin 59 provided on the ratchet claw 44 is guided to the guide surface 61a and rides over the backward blocking portion 61 of the guiding means. When the grip of the lever 6 is released in this state, the pin 59 is placed on the upper surface of the guide 58 as shown in FIG. 8 (b) by the rotation immediately after the lever 6 is released The ratchet claw 44 is prevented from being reversed and the claw 45 of the ratchet claw is not engaged with the locking claw 42 so that the lever 6 is urged by the force of the spring 21 to the initial position Return without hindrance. Further, the pin 59 is released from the guide 58, and the ratchet claw 44 also rotates by the force of the spring 46 and returns to the initial position.

9, a spring 33 for urging the conical valve element 31 in the valve closing direction is provided between the stepped portion provided on the rear end side of the shaft 29 and the tip end of the valve shaft 16 The rear portion of the shaft 29 is inserted into the hole 34 in the axial direction provided at the tip of the valve shaft 16 and is inserted into the axial long hole 35 provided in the rear portion of the shaft 29 The opening and closing valve 7 and the commutation valve 8 can be interlocked even in the structure in which the pin 36 held in the valve shaft 16 is passed through.

The connection of the holder 12 to the main body 3 can also be performed through the cap nut 11 as shown in Fig.

9, the window hole 48 is formed on the way of the lever 6 so that the pressing portion 47 of the ratchet claw 44 protrudes from the window hole 48 on the side opposite to the grip portion 2 The ratchet claw 44 is attached to the lever 6 with the pin 43. [ The ratchet claw 44 is formed so that the stopper 49 protruded from the lower end of the ratchet claw 44 on the side opposite to the pushing portion 47 contacts the lower edge of the window hole 48 to move the lever 6 in the valve opening direction The lock claw 42 is held in a posture that can be automatically engaged with the locking claw 42. [ Reference numeral 19 denotes a packing in place of the O-ring.

The apparatus is configured such that when the pushing portion 47 of the ratchet claw 44 is pushed toward the grip portion 2 and the locking claw 42 is rotated to unlock the claw 45, In the injection state, spraying or injection can be stopped.

When the lever 6 is gripped further from the position where the opening / closing valve 7 and the rectifying valve 8 are fully opened, the pin 59 provided on the ratchet claw 44 rides over the backward blocking portion 61. Thus, the grip of the lever 6 is released. The lever 6 and the ratchet claw 44 are returned to the initial position and the injection of the liquid from the nozzle unit 4 is stopped by the guiding action of the pin 59 by the guide 58 .

The other configurations and actions of the lever type liquid ejecting apparatus 1 of Fig. 9 are the same as those of the first embodiment described with reference to Figs. 1 to 8. Therefore, the same elements as those of the first embodiment are denoted by the same reference numerals and the description thereof is omitted.

As described above, when the lever 6 is released by releasing the lever 6 after grasping the lever 6 at the maximum, stoppage of the spraying or spraying state is automatically performed, and spraying, spraying and stopping can be performed by one- have.

Figs. 10 to 13 show the lever type liquid ejecting apparatus 1 of the second embodiment. In this second embodiment, the induction means of the first embodiment is replaced by the following. Elements other than the inducing means are substantially the same as those of the first embodiment, and therefore, the same portions are denoted by the same reference numerals, and a description thereof will be omitted.

The guide means provided on the lever type liquid injection device 1 of the second embodiment is provided with the guide 58 provided on the grip portion 2 side and the side surface of the tip side of the ratchet claw 44, A movable member 63 that is rotatably attached to a support shaft 62 that is erected and a stopper pin 62 that protrudes from the side of the tip end side of the ratchet claw 44 and regulates the rotation range of the movable member 63, (65) for rotating the movable member (63) by contacting the movable member (63) and then gripping the lever (6) before gripping the lever (6) .

The movable member 63 becomes a posture of one end (upper side than the support shaft 62 in Fig. 12) toward the direction of the engagement surface 65 regardless of the posture of the injection device, As shown in FIG. That is, if the movable member 63 is in the state of being rotated by the stopper pin 64 at the other end (lower side than the support shaft 62 in Fig. 12), one end faces the direction of the engagement surface 65 , And passes through the guide 58 as it is without any obstacles.

12, the movable member 63 is rotated in the clockwise direction within a range from the state of FIG. 12 until the one end receives rotation regulation by the stopper pin 64, and the other end is moved to the guide 58 side from the support shaft 62 The other end is in contact with the guide 58 and the posture is corrected so that one end thereof faces the direction of the engagement surface 65 and passes through the lateral side of the guide 58. [ The positional relationship between the guide 58, the movable member 63, and the stopper pin 64 is set so that the guide means has such a function.

12, when the lever 6 is further gripped from the state in which the engagement between the ratchet claws 44 and the locking claws 42 is released, the guidance means is guided by the arcuate cam rims 57 The ratchet claw 44 rotates to raise the position of the movable member 63 provided on the ratchet claw so that one end (upper end) of the movable member 63 is engaged with the engaging surface 65 Contact.

Thereafter, the lever 6 is grasped to the maximum in a state where one end of the movable member 63 is locked to the engagement surface 65, so that the support shaft 62 is moved toward the grip portion 2 side as shown in FIG. The movable member 63 is pivoted to a position where the movable member 63 is restricted by the stopper pin 64 as shown in Figure 13 (b) The stopper pin 64 moving upward moves through the upper portion of the guide 58 to be able to return. The backward movement of the ratchet claw 44 is blocked by the movable member 63 that has been rotated.

The guiding means of the apparatus of the first embodiment rides over the backward blocking portion 61 described in FIG. 7 while the pin 59 resiliently deforms the ratchet claw 44 and is then urged by the backward blocking portion 61 . As a result, the pin 59 and the backward movement preventing portion 61 are worn away, and the pin 59, which rides over the backward movement preventing portion 61, is elastically restored by the elastic restoring force of the ratchet claw 44, There may be a case in which an abnormal sound occurs due to a shock to the inner surface.

On the other hand, in the induction means of the apparatus according to the second embodiment, the movable member 63 having one end on the engagement surface 65 rotates in the direction away from the guide 58 at the position where the lever 6 is held at the maximum do. As a result, the backward movement of the movable member 63 is interrupted by the guide 58, so that the backward movement of the ratchet claw 44 is prevented. Therefore, it is not necessary to provide the backward blocking portion 61 of the first embodiment, and there is no cause of causing wear or generation of a coupling.

The movable member 63 is not severely rubbed against the guide 58 due to the rotation of the movable member 63 at the beginning of the return of the lever 6 and the abrasion of the movable member 63 and the guide 58 is also suppressed. Therefore, in comparison with the first embodiment, although the number of components increases due to the provision of the movable member 63, it is superior in terms of performance.

1: Lever type liquid ejection apparatus 2:
3: Main body 4: Nozzle part
5: liquid supply path 6: lever
7: opening / closing valve 8: rectification valve
9: Main cylinder 10: Cap nut base
11: Cap nut 12: Holder
13: Hood 14: Euro
15: valve seat 16: valve shaft
17: valve body 18: spring pressing portion
19: Packing 20: O-ring
21: spring 22: normal attaching portion
23: pin 24: U-shaped connecting rod
25: pin 26: through hole
27: adjusting nut 28: rectifying valve seat plate
29: shaft 30: valve hole
31: Horn shaped valve body 32:
33: spring 34: hole
35: long hole 36: pin
37: rectification core 38: injection plate
39: cap 40: injection hole
41: multi-stage locking mechanism 42: locking claw
43: pin 44: ratchet claw
45: Claw 46: Spring
48: window hole 49: stopper
51: drop prevention ring 52: pin
53: long hole 54: spring
55: locking claw case 56: concave portion
57: arc-shaped cam edge 58: guide
59: pin 60: pin attachment piece
61: Retardation prevention portion 61a:
61b: stopper surface 62: support shaft
63: movable member 64: stopper pin
65: coupling surface

Claims (4)

The grip portion 2 and the lever 6 are provided on the main body 3 having the nozzle portion 4 at the tip end thereof and the grip amount of the lever 6 pressed by the spring 21 in the return direction is changed, A multi-stage locking mechanism 41 for actuating the adjusting member to change the shape of the jetting water from the nozzle unit 4 and locking the lever 6 at a plurality of positions in which the operating positions of the spray quantity adjusting body are different from each other A lever type liquid ejecting apparatus provided between the grip portion 2 and the lever 6 to stably maintain the posture of the lever 6 that operates the spray amount adjusting body by the multi-stage locking mechanism,
The multi-stage locking mechanism 41 is provided with a locking claw 42 which is a plurality of ridges provided on the grip section 2 and a locking claw 42 which is capable of engaging / disengaging the lever 6 with respect to the locking claw 42 And an elastic body which locks the ratchet claws 44 in the anti-rotation direction against the locking claws 42 when the ratchet claws are pressed in the locking direction to operate the spray amount adjusting body with the lever 6, The lock releasing means for releasing the engagement of the ratchet claws 44 with respect to the locking claw at a position where the lever 6 is held at the maximum by the multi-stage locking mechanism 41, And guiding the lever 6 of the ratchet claw 44 in such a manner that it does not engage with the locking claw 42 when the grip is released and returned to the initial position Lever type liquid ejection device. 2. The ratchet claw according to claim 1, wherein the engagement releasing means is provided at a lower edge of the end of the pawl fixing side of the ratchet claw (44) with respect to the lever (6), and when the lever (6) And an arc-shaped cam edge (57) that rotates the ratchet claw (44) upward to bring the ratchet claw (44) into an unlocked state by contacting the locking claw (42)
The guiding means includes a guide 58 provided on the side of the grip portion 2 in parallel with the locking claw at a position on the upper side of the locking claw 42 and a guide 58 provided on the side of the tip side of the ratchet claw 44 A movable member 63 which is rotatably attached to a supporting shaft 62 erected on the side of the ratchet claw 44 so as to be pivotally supported; A stopper pin 64 for restricting the lever 6 and an engaging surface 65 for contacting one end of the movable member 63 immediately before grasping the lever 6 at the maximum, The support shaft 62 is displaced toward the grip portion 2 by the maximum gripping of the lever 6 in a state of being locked to the engagement surface 65. Accordingly, the movable member 63 is rotated, The movable member 63 is in a posture in which the backward movement is prevented by the guide 58, Buffer pin 64, the lever-type liquid injector, characterized in that configured to enable the return through the upper portion of the guide 58. 2. The ratchet claw according to claim 1, wherein the engagement releasing means is provided at a lower edge of a ratchet claw at a pivot-fixing side end portion with respect to the lever (6), and when the lever (6) Is formed by an arc-shaped cam edge (57) that makes contact with the ratchet claw (42) to rotate the ratchet claw (44)
The guiding means includes a guide 58 provided at the upper side of the locking claw 42 on the side of the grip portion 2 so as to be parallel to the locking claw and a guide 58 provided on the side of the tip side of the ratchet claw 44 The guide 58 and the pin 59 are formed by a pin 59 protruding from the pinion 2 and a pinion backward prevention portion 61 provided on the grip 2 side, And the pin (59) is in a positional relationship in which the pin (59) faces the upper surface at the rear end side of the guide (58) when the ratchet claw (44) is in the releasing posture. 4. The spray amount adjusting mechanism according to any one of claims 1 to 3, wherein the valve body (16), which is movable in the axial direction by interlocking with the lever (6) An opening / closing valve 7 provided in the liquid supply path 5 and provided with a valve body 17 for opening and closing the valve hole 30 at the middle of the valve shaft 16 passing through the valve hole formed in the liquid supply path 5, The valve hole 30 of the rectifying valve seat plate 28 provided in the liquid supply path 5 is opened or closed at the tip end of the shaft 29 mounted so as to be movable in the axial direction in the liquid supply path 5 And a conical valve (8) provided with a horn-shaped valve body (31)
The valve shaft 16 is connected to the valve shaft 16 and the rear end of the shaft 29 of the rectifying valve 8 so as to integrally move in the axial direction. 7 and the rectifying valve 8 by an elastic body so that the conical valve element 31 is provided around the inside of the valve hole 30 of the rectifying valve seat plate 28, Is formed with a concave portion which is not blocked even when it reaches a maximum in the valve hole.

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