JP2586406Y2 - Spray gun for cleaning - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a cleaning spray gun in which a cleaning liquid is sprayed by a piston of a piston pump, and a textile or equipment is cleaned by the cleaning liquid.

FIG. 6 shows a conventional spray gun. This spray gun is for cleaning textiles or equipment, and has a piston pump (1) and a spray nozzle (2).
The piston pump (1) comprises a piston (3) and a cylinder (4), is provided in a casing (5), and the injection nozzle (2) is connected to the cylinder (4) of the piston pump (1). . Further, a cleaning liquid supply hose (6) is connected to the casing (5), and a drain hose (7) communicating with the cylinder (4) and discharging the leaked cleaning liquid is connected to the casing (5).

The spray gun is of a magnet type and has a magnet (8) and a movable iron core (9). The tip of the movable iron core (9) is engaged with the rod (10), and the rod (10)
Is connected to the piston (3) of the piston pump (1). Further, the piston (3) and the rod (10) are elastically urged by the spring (11), and the magnet (8) is connected to the switch (12) and the AC power supply.

Therefore, when the switch (12) is manually operated and closed, AC power having a frequency of 50 Hz or 60 Hz is supplied to the magnet (8), and the waveform of the AC power is changed to one.
In each cycle, the magnet (8) is excited twice,
The iron core (9) is sucked. Therefore, at the time of the AC power of the frequency of 50 Hz, the iron core (9) is sucked at a cycle number of 100 / sec, and at the time of the AC power of the frequency of 60 Hz, 12
The iron core (9) is sucked at a cycle number of 0 / sec.
When the AC power is rectified by the rectifier and supplied to the magnet (8), the magnet (8) is excited once per cycle of the waveform of the AC power, and the iron core (9) is attracted. Therefore, when the AC power has a frequency of 50 HZ, the iron core (9) is sucked with a cycle number of 50 / sec, and when the AC power has a frequency of 60 HZ, the iron core (9) is sucked with a cycle number of 60 / sec. .

Each time the movable iron core (9) is sucked, its tip draws an arc and swings, and the rod (10) and the piston (3) are pushed and propelled by the movable iron core (9). Thereafter, the piston (3), the rod (10) and the movable iron core (9) are pushed back by the spring (11). This is repeated at high speed, and the piston (3) becomes the cylinder (4)
Reciprocating linear movement within. Then, the cleaning liquid is sucked and discharged by the piston (3) for each reciprocating linear movement. The cleaning liquid is sucked into the cylinder (4) through the supply hose (6), and discharged from the injection nozzle (2).
It is injected. Therefore, pulsation can be generated in the cleaning liquid, and the pulsation can be intermittently ejected. The number of pulsations corresponds to the number of suction cycles of the iron core (9). Therefore, 50
The cleaning liquid can be jetted with a pulse rate of 100 / sec or 50 / sec when the AC power has a frequency of HZ, and the cleaning liquid can be jetted with a pulse rate of 100 / sec or 50 / sec when the AC power has a frequency of 60 Hz. It can be ejected. Therefore, textiles or equipment can be washed with the washing liquid.

By the way, in the case of this spray gun, the movable iron core (9)
Is attracted to the magnet (8), and the movable iron core (9) is pushed back by the spring (11), and this is repeated at a high speed. For this reason, it is unavoidable that a large noise and vibration are generated due to the impact of the movable iron core (9) and the magnet, the spray gun having a considerable weight must be held by hand, and the noise and vibration must be endured. There was a problem that is. Working for a long time is practically difficult.

Furthermore, it engages with the rod (10) of this spray gun,
It is the tip of the movable core (9) that draws an arc that pushes and propels it. Therefore, the rod (10) is not only pushed and propelled by the movable core (9), but also rubbed by the movable core (9), so-called between the movable core (9) and the rod (10). There is also a problem that stiffness occurs and the movable iron core (9) and the rod (10) are worn and damaged early. Along with this, a radial load acts on the rod (10) and the piston (3), causing a crush between the piston (3) and the cylinder (4), and the piston (3) and the cylinder (4) are worn out early. And is often damaged.

In addition, when the cleaning liquid is sprayed by the spray gun, the higher the pulsation number of the cleaning liquid, the smaller the particles of the cleaning liquid are, and the more the cleaning liquid can be sprayed. Therefore, even if it is a thin fiber product which is easily damaged, small particles can be applied softly, and the fiber product is not hurt and is preferable. However, in the case of a thick fiber product, if the particles of the cleaning liquid are too small, the cleaning liquid does not penetrate into the fiber product, and it cannot be cleaned properly. For this reason, on the contrary, it is preferable to reduce the pulsation number of the cleaning liquid and eject the cleaning liquid having large particles. Therefore, it is necessary to change and select the pulsation rate of the cleaning liquid depending on the type of the fiber product. However, in this spray gun,
100 / sec or 50 / sec for AC power of 50HZ frequency
Although the cleaning liquid can be ejected at the pulsation number, the cleaning liquid cannot be ejected at other pulsation numbers, and the pulsation number of the cleaning liquid is limited to two types of pulsation numbers. Even with AC power at a frequency of 60 Hz, the pulsation rate obtained is 120 / sec or 6
The pulse rate is 0 / sec, and the pulse rate is limited to the two pulse rates in the same manner. For this reason, not only two types of pulsations,
There is a demand for injecting a cleaning liquid with various pulsation rates.

Object of the Invention Therefore, the invention is to prevent a loud noise and vibration from being generated in a spray gun in which a cleaning liquid is injected by a piston of a piston pump.
The purpose is to prevent the parts from being damaged by the strain and to spray the cleaning liquid at various pulsation rates.

According to the present invention, the spray gun is provided with a DC or AC motor, and a DC or AC motor is provided by a conversion mechanism such as a cam mechanism.
The motor shaft of the AC motor and the piston of the piston pump are transmission-coupled, and the rotation of the motor shaft is converted into a reciprocating linear movement of the piston.

Further, according to the present invention, the rotational speed of the DC motor is controlled, changed, and selected by the variable resistor. The number of rotations of the AC motor may be changed by a frequency converter and selected.

Description of Embodiments Hereinafter, embodiments of the present invention will be described. FIG. 1 shows an embodiment of the present invention. This spray gun is a modification of the spray gun of FIG. 6, and has a piston pump (1) and a spray nozzle (2). The piston pump (1) is similar to that of FIG. 6, and comprises a piston (3) and a cylinder (4). The injection nozzle (2) is also similar to that of FIG. 6, and is connected to the check valve (13) and the cylinder (4). Further, a cleaning liquid supply hose (6) is connected to the casing (5) and communicates with the cylinder (4).

The spray gun has a DC motor (15) for driving a piston (3) of a piston pump (1). The DC motor (15) is a servomotor, commonly used, has a variable resistor (16), is mounted on the casing (5), and is connected to a switch (17) and a DC power supply. I have. The variable resistor (16) is for changing and selecting the rotation speed of the DC motor (15), has an operation knob (18), is mounted on the casing (5), and is connected to the DC motor (15). Have been. Therefore, the current is controlled by the operation knob (18) of the variable resistor (16),
The number of rotations of the DC motor (15) can be arbitrarily changed and selected. As is well known, the servomotor has a high control performance and is preferable.

This spray gun has a cam mechanism (19) for transmitting the output of the DC motor (15). The cam mechanism (19) consists of a cam ring (20) and a cam follower (21), and the cam follower (21) has a round shape. Which is arranged on the same axis as the piston (3) of the piston pump (1), is housed in the casing (5), is guided so as to be able to move linearly, and is connected to the piston (3). I have. The piston (3) and the cam follower (21) are elastically urged by the spring (11). The cam ring (20) is cylindrical and is located below the cam follower (21).
Attached to the motor shaft (22) of the servo motor (15),
Fixed. The motor shaft (22) extends in a direction perpendicular to the piston (3) and the cam follower (21).

Further, as shown in FIGS. 3, 4 and 5,
A concave portion (23) is provided on the lower surface of the cam follower (21), a width direction groove (24) is formed on the bottom surface thereof, and the cam ring (20) is formed.
An eccentric pin (25) is provided on the end surface of the cam ring (20), and the tip of the cam ring (20) is housed in the recess (23).
5) is inserted into the width direction groove (24). Thus, the motor shaft (22) of the DC motor (15) and the piston (3) of the piston pump (1) are connected by transmission. Then, as described later, the rotation of the motor shaft (22) is converted into a reciprocating linear movement of the piston (3).

In this embodiment, a drain port (26) is formed in the casing (5) between the piston pump (1) and the cam follower (21), and a check valve (27) is provided in the drain port (26).
Is provided. Then, a drain hose (7) for discharging the leaked cleaning liquid is attached to the casing (5),
It is connected to the drain port (26), and as described later, a pump action is generated by the piston-shaped cam follower (21), and the cleaning liquid leaked from the piston pump (1) is discharged to the drain port (26) and the check valve (27). ) And is discharged to a drain hose (7).

In this spray gun, when the switch (17) is manually operated and closed, the motor shaft (22) of the DC motor (15) rotates around its axis and the concave portion (23) of the cam follower (21). Inside the cam ring (20)
Rotates integrally with the motor shaft (22). Along with this, the eccentric pin (25) of the cam ring (20) slides along the groove (24) in the width direction of the cam follower (21), the cam follower (21) is pushed by the eccentric pin (25), propelled, and reciprocated straight. Moving. Its amplitude is twice the eccentric distance of the eccentric pin (25).

Therefore, the cylinder (4) of the piston pump (1)
Inside, the piston (3) reciprocates linearly and integrally with the cam follower (21). Therefore, the motor shaft (22)
Is converted into a reciprocating linear movement of the piston (1). The piston (3) advances toward the position of FIG. 1, retracts toward the position of FIG. 2, and so on. Therefore, for each reciprocating linear movement of the piston (3),
The cleaning liquid is sucked and discharged by the piston (3). The cleaning liquid passes through the supply hose (6) and passes through the cylinder (4).
It is sucked into the inside, passes through the check valve (13), is discharged from the injection nozzle (2), and is injected. Therefore, pulsation can be generated in the cleaning liquid, and the pulsation can be intermittently ejected. The pulsation number corresponds to the rotation speed of the DC motor (15). Therefore, textiles or equipment can be washed with the washing liquid.

Therefore, in the case of this spray gun, there is no problem of the impact between the movable iron core of the magnet type spray gun and the magnet. The motor shaft (22) of the DC motor (15) and the piston (3) of the piston pump (1) are operatively connected by the cam mechanism (19), and the rotation of the motor shaft (22) causes the reciprocating linear movement of the piston (3). It is only converted and no loud noises and vibrations occur. In addition, the cam follower (21) is pushed by the eccentric pin (25) of the cam ring (20) and propelled,
The cam follower (21) and the piston (3) can be smoothly reciprocated and linearly moved, and there is no problem that parts are damaged due to the bulge.

Further, the DC motor (15) of this spray gun can be selected by changing the rotation speed of the DC motor (15) by operating the knob (18) of the variable resistor (16). Therefore, the pulsation number of the cleaning liquid can be changed and selected depending on the type of the fiber product or the device, and the cleaning liquid can be jetted at various pulsation numbers. As in the case of the magnet type spray gun described above, the cleaning liquid can be jetted at a pulse rate of 100 / sec or 120 / sec. The cleaning liquid can be ejected at a higher pulsation rate. The cleaning liquid can be jetted at a pulsation rate of 50 / sec or 60 / sec, or the cleaning liquid can be jetted at a pulsation rate higher or lower. Therefore, any kind of fiber product or equipment can be washed properly.

Further, in this embodiment, a pump action is generated by the piston-like cam follower (21), and as apparent from FIG. 2, during the suction stroke of the piston pump (1), the cam follower (21) in the casing (5). The cleaning liquid is sucked by (1) and the cleaning liquid leaks from the cylinder (4) of the piston pump (1). As is apparent from FIG. 1, during the discharge stroke of the piston pump (1), the cleaning liquid is pushed out by the cam follower (21) in the casing (5), and the cleaning liquid is discharged to the drain port (26) and the check valve. After passing through (27), it is discharged to the drain hose (7). Therefore, the cleaning liquid can be forcibly discharged, and there is no possibility that the cleaning liquid reaches the position of the DC motor (15).

In this embodiment, instead of the DC motor (15),
An AC motor may be used. And the variable resistor (16)
Instead, when the frequency converter is connected to the AC motor, the frequency converter can change the number of rotations of the AC motor and select the frequency. Therefore, the cleaning liquid can be ejected at various pulsation rates. Using an AC motor as a servomotor can provide high control performance, and is preferably the same as a DC motor.

It is also conceivable to use another type of conversion mechanism instead of the cam mechanism (19).

Effect of the Invention As described above, according to the invention, the DC or AC motor (15) is converted by the conversion mechanism such as the cam mechanism (19).
The motor shaft (22) of the piston pump (1) and the piston (3) of the piston pump (1) are operatively connected to each other, and the rotation of the motor shaft (22) is merely converted into a reciprocating linear movement of the piston (3). Does not occur. In addition, the piston (3) of the piston pump (1) can be smoothly reciprocated and linearly moved, and there is no problem that parts are damaged due to buckling. Further, the rotation speed of the DC or AC motor (15) can be changed and selected by the variable resistor (16) or the frequency converter. Therefore, the pulsation number of the cleaning liquid can be changed and selected according to the type of the fiber product or the device, and the cleaning liquid can be jetted at various pulsation numbers.
Therefore, any kind of textile products or equipment can be properly washed, and the intended purpose can be achieved.

[Brief description of the drawings]

FIG. 1 is a sectional view showing an embodiment of the present invention, and FIG.
FIG. 3 is a sectional view showing different positions of the piston shown in FIG.
4 is a bottom view of the cam follower of FIG. 1, FIG. 5 is an end view of the cam follower of FIG. 1,
FIG. 6 is a sectional view of a conventional spray gun. (1) Piston pump (3) Piston (4) Cylinder (15) DC motor (16) Variable resistor (19) Cam mechanism

 ──────────────────────────────────────────────────続 き Continuation of the front page (72) Inventor Toyoharu Kumada 69, Nishi-Shichijo Nishiishigatsubo-cho, Shimogyo-ku, Kyoto-shi, Kyoto No. 503, Chateau Kowa 503 (56) References JP-A-58-58164 (JP, A) Japanese Utility Model Showa 55-2447 (JP, U) Japanese Utility Model Showa 57-128353 (JP, U) Japanese Patent Publication 54-39601 (JP, B2)

Claims (3)

(57) [Scope of request for utility model registration] A cleaning spray gun in which a piston of a piston pump is reciprocated linearly in a cylinder to thereby spray a cleaning liquid. A DC or AC motor, a motor shaft of the DC or AC motor, and the piston A conversion mechanism for drivingly connecting a piston of a pump and converting the rotation of the motor shaft into a reciprocating linear movement of the piston, a drain port is provided in a casing between the piston pump and the cam follower, and a check valve is provided in the drain port. A cleaning spray gun, wherein a drain hose is attached through the drain and a cleaning fluid leaked from a piston pump is forcibly discharged from the drain port by using a pump action of a cam follower. 2. A cleaning spray gun in which a piston of a piston pump is linearly reciprocated in a cylinder to thereby spray a cleaning liquid, wherein a DC motor, a motor shaft of the DC motor and a piston of the piston pump are connected. A transmission mechanism, which includes a conversion mechanism that converts the rotation of the motor shaft into a reciprocating linear movement of the piston, and a variable resistor that changes and selects the number of rotations of the DC motor, and a casing between the piston pump and the cam follower. A drain port is provided, a drain hose is attached to the drain port via a check valve, and the cleaning liquid leaked from the piston pump is forcibly discharged from the drain port by using a pump action of a cam follower. Spray gun for cleaning. 3. A cleaning spray gun in which a piston of a piston pump is linearly reciprocated in a cylinder to thereby spray a cleaning liquid, wherein an AC motor, a motor shaft of the AC motor and a piston of the piston pump are connected. A transmission mechanism that is transmission-coupled and converts the rotation of the motor shaft into a reciprocating linear movement of the piston, and a frequency converter that changes and selects the number of rotations of the AC motor, and is provided in a casing between the piston pump and the cam follower. A drain port is provided, a drain hose is attached to the drain port via a check valve, and the cleaning liquid leaked from the piston pump is forcibly discharged from the drain port by using a pump action of a cam follower. Spray gun for cleaning.