JP7025736B2 - Coating gun - Google Patents

Description

The present invention relates to a coating gun.

Patent Document 1 discloses a manual coating gun (hot melt gun) that discharges hot melt from a nozzle of a gun body by operating a trigger. In this type of coating gun, it is preferable to provide a lock member in order to prevent the trigger from inadvertently moving without coating. As an example of the lock member, it is conceivable to restrict the movement of the trigger by bringing the lock member into contact with the trigger inside the gun body.

Japanese Unexamined Patent Publication No. 61-38656

In order to displace the lock member to the lock position and the unlock position, a structure is conceivable in which a part of the lock member is exposed as an operation portion on the outer surface of the gun body and the operation portion is slid along the outer surface of the gun body. However, with a sliding operation unit, it is difficult to visually confirm whether the operation unit is in the locked position or the unlocked position.

Further, in the gun body, a heater for maintaining the molten state of the hot melt or for adjusting the viscosity of the hot melt is provided, and a cable for supplying power to the heater is arranged. Therefore, when the locking member is displaced between the locked position and the unlocked position, there is a concern that the cable may be rubbed and damaged.

The present invention has been completed based on the above circumstances, and an object of the present invention is to make it possible to easily visually identify whether or not the trigger is locked in an inoperable state.

The coating gun of the first invention is
A gun body equipped with a nozzle that discharges the coating agent,
A trigger provided on the gun body that can be manually displaced from the standby position to the discharge position where the coating agent is discharged.
An identification means capable of visually confirming whether or not the trigger is locked to the standby position outside the gun body , and
A lock member that can be displaced between a lock form that regulates a coating operation that displaces the trigger toward the discharge position side and a lock release form that allows a coating operation with respect to the trigger is provided.
The identification means is configured by the lock member, and the identification means is configured.
The lock member is made of a magnetic material and is made of a magnetic material.
The gun body is characterized by being provided with a magnet that holds the lock member in the unlocked form by a magnetic force .
The paint gun of the second invention is
A gun body equipped with a nozzle that discharges the coating agent,
A trigger provided on the gun body that can be manually displaced from the standby position to the discharge position where the coating agent is discharged.
An identification means capable of visually confirming whether or not the trigger is locked to the standby position outside the gun body, and
A lock member that can be displaced between a lock form that regulates a coating operation that displaces the trigger toward the discharge position side and a lock release form that allows a coating operation with respect to the trigger is provided.
The identification means is configured by the lock member, and the identification means is configured.
In the unlocked mode, the lock member is held along the outer surface of the gun body.
The gun body is characterized by having a notch portion that allows the lock member to be pushed toward the lock form side.
The paint gun of the third invention is
A gun body equipped with a nozzle that discharges the coating agent,
A trigger provided on the gun body that can be manually displaced from the standby position to the discharge position where the coating agent is discharged.
An identification means capable of visually confirming whether or not the trigger is locked to the standby position outside the gun body, and
A lock member that can be displaced between a lock form that regulates a coating operation that displaces the trigger toward the discharge position side and a lock release form that allows a coating operation with respect to the trigger is provided.
The identification means is configured by the lock member, and the identification means is configured.
The trigger is formed with a locking groove for locking the locking member in a locked form.
A retaining protrusion is formed at the entrance of the locking groove, and a retaining protrusion is formed.
The lock member is characterized in that it is restricted from being disengaged from the locking groove by abutting on the retaining protrusion.
The paint gun of the fourth invention is
A gun body equipped with a nozzle that discharges the coating agent,
A trigger provided on the gun body that can be manually displaced from the standby position to the discharge position where the coating agent is discharged.
An identification means capable of visually confirming whether or not the trigger is locked to the standby position outside the gun body, and
A lock member that can be displaced between a lock form that regulates a coating operation that displaces the trigger toward the discharge position side and a lock release form that allows a coating operation with respect to the trigger is provided.
The identification means is configured by the lock member, and the identification means is configured.
The lock member is made of a magnetic material and is made of a magnetic material.
The lock member in the unlocked form is arranged along the outer surface of the gun body.
The gun body is characterized by being provided with a detection member that magnetically detects that the lock member is in the unlocked form.

By visually observing the identification means from the outside of the gun body, it is possible to easily confirm whether or not the trigger is locked to the standby position. Further, since the lock member also has a function as an identification means, it is not necessary to provide a dedicated identification means separately from the lock member. According to the first invention, the lock member can be held in the unlocked form even when the dimensional tolerance of the lock member is large or when there is a concern about wear of the gun body or the trigger made of the resin material. According to the second invention, it is easy to perform the unlocking operation for displacing the lock member from the locked form to the unlocked form. According to the third invention, the lock member can be reliably held in the locked form. According to the fourth invention, it is possible to detect that the lock member is in the unlocked form and is in the unlocked state in which the trigger can be operated toward the discharge position side.

In the coating gun of the first embodiment, a perspective view showing a state in which the trigger is locked by the locking member so that the coating cannot be operated. Partial notch side view showing the state where the lock member is displaced to the unlocked form and the coating operation for the trigger is permitted. Partially enlarged perspective view showing the state where the lock member is displaced to the unlocked form and the coating operation for the trigger is permitted. Partially enlarged side sectional view showing the state where the lock member is held in the unlocked form. Partial notch side view showing the state where the trigger is applied and displaced to the discharge position and hot melt is discharged from the nozzle. Side sectional view showing the internal structure of the gun body Enlarged side view of a part of the notch showing the state where the lock member is locked in the locking groove. Enlarged side view of a part of the notch showing the state where the lock member is disengaged from the locking groove when the trigger operation is started.

The present invention comprises a lock member that can be displaced between a lock form that regulates a coating operation that displaces the trigger toward the discharge position side and a lock release form that allows a coating operation with respect to the trigger. The identification means may be configured by the above method. According to this configuration, since the lock member also has a function as an identification means, it is not necessary to provide a dedicated identification means separately from the lock member.

In the present invention, the lock member may connect the gun body and the trigger in the lock form, and may release the gun body and the trigger from the connected state in the unlock form. According to this configuration, since the shape of the lock member is simple, cost reduction can be achieved.

In the present invention, a cable for energizing with a device housed in the gun body may be housed in the gun body, and the entire lock member may be arranged outside the gun body. According to this configuration, when the lock member is displaced between the lock form and the unlock form, there is no possibility that the lock member and the cable come into contact with each other in the gun body.

<Example 1>
Hereinafter, Example 1 embodying the present invention will be described with reference to FIGS. 1 to 6. The coating gun 10 of the first embodiment is a hand gun for applying the hot melt 45 (coating agent according to claim) to the surface of an object to be coated (not shown). The coating gun 10 includes a gun main body 11, a nozzle 15 for discharging hot melt 45 (see FIG. 5), a trigger 25, and a lock member 40. In the following description, the front-back and up-down directions are based on the state in which the coating gun 10 is oriented to horizontally discharge the hot melt 45.

As shown in FIGS. It is equipped with a substantially L-shaped guard 14 that connects and. A nozzle 15 for discharging the hot melt 45 forward is attached to the front end surface of the body 12.

As shown in FIG. 6, a flow path 16 of the hot melt 45 is formed at the front end portion in the body 12 so as to communicate with the nozzle 15. The flow path 16 is provided with a normally closed needle valve 17 that is opened by a manual operation of the trigger 25. The needle valve 17 has a valve body 18 elongated in the front-rear direction, and the front end portion of the valve body 18 always comes into contact with the valve seat 19 by a valve closing spring (not shown) attached to the valve body 18. It is held in a state. When the trigger 25 is applied, the valve body 18 is displaced rearward, so that the needle valve 17 is opened and the hot melt 45 in the flow path 16 is supplied to the nozzle 15.

As shown in FIGS. 2, 5 and 6, a connecting portion 20 communicating with the flow path 16 is provided on the lower surface of the front end portion of the body 12. A hose 46 for supplying the material of the hot melt 45 to the gun body 11 can be connected to the connection portion 20. The hose 46 attached to the connecting portion 20 extends diagonally downward from the lower surface of the body 12.

As shown in FIGS. 2 and 6, a heater 21 (equipment according to claim) is housed in a front end portion of the body 12 near the nozzle 15. The heater 21 is an electric device for maintaining a molten state of the hot melt 45 supplied in the flow path 16 or for adjusting the viscosity of the hot melt 45. As shown in FIG. 2, an internal cable 22 (cable according to claim) including a power supply circuit for supplying power to the heater 21 is derived from the heater 21, and the internal cable 22 is inside the body 12 and the grip 13. It has been distributed. In addition to the power supply circuit, the internal cable 22 includes a detection signal transmission circuit of a temperature sensor (not shown) that detects the temperature of the hot melt 45, a ground circuit, and a cutoff circuit that cuts off the power supply to the heater 21 when overheated. ..

As shown in FIG. 2, a receptacle 23 is attached to the lead-out end of the internal cable 22. The receptacle 23 is attached so as to open to the lower end surface of the grip 13. An external cable 47 is connected to the receptacle 23. The external cable 47 is connected to the internal cable 22 via the receptacle 23, and like the internal cable 22, includes a power supply circuit for the heater 21, a detection signal transmission circuit for the temperature sensor, a ground circuit, and a cutoff circuit. ..

As shown in FIGS. 2 and 5, the trigger 25 has a long shape in the vertical direction as a whole. The upper end side portion of the trigger 25 is housed in the rear end region in the body 12, and is supported to swing in the front-rear direction with respect to the body 12 via the swing shaft 26. The trigger 25 swings and displaces in the front-rear direction between the standby position (see FIGS. 1 to 3) and the discharge position behind the standby position (see FIG. 5) with the swing shaft 26 in the left-right direction as a fulcrum. It is supposed to get. The trailing end 18R of the valve body 18 of the needle valve 17 is locked to the trailing edge of the trigger 25 from the rear.

The trailing edge side portion of the trigger 25 is housed in the grip 13. As shown in FIGS. 2 and 5, a contact portion 27 in the form of projecting rearward is formed at the lower end portion of the trailing edge portion of the trigger 25. The contact portion 27 faces the stopper 28 provided in the grip 13 in the front-rear direction. When no external force acts on the trigger 25, the trigger 25 is held in the standby position (see FIG. 2) by the valve closing spring.

As shown in FIGS. 2 and 5, at the rear end portion in the body 12, the rear end portion 18R of the valve body 18 of the needle valve 17 is locked from the rear with respect to the rear surface of the upper end portion of the trigger 25. When the trigger 25 is in the standby position, the needle valve 17 is held in the closed state. When a finger (not shown) is hooked on the front surface of the trigger 25 held in the standby position and the trigger 25 is pulled backward, the trigger 25 is displaced to the rear discharge position against the urging of the valve closing spring. be able to. When the trigger 25 is pulled, the valve body 18 is pushed backward, so that the needle valve 17 opens. When the trigger 25 is displaced to the discharge position, the contact portion 27 comes into contact with the stopper 28.

As shown in FIGS. 1 to 3 and 5, a locking groove 30 for locking the lock member 40, which will be described later, is formed at the lower end of the trigger 25. The locking groove 30 is open on the front surface of the trigger 25 and both the left and right side surfaces, and in the side view, the locking groove 30 is the swing direction (substantially front-back direction) of the trigger 25 between the standby position and the discharge position. Is tilted against. Specifically, the locking groove 30 has a form extending diagonally downward and rearward from the front surface of the trigger 25. As shown in FIGS. 7 and 8, a retaining protrusion 31 is formed at the entrance of the locking groove 30 so as to project diagonally downward and forward.

As shown in FIGS. 2, 3 and 5, a bearing portion 32 having an axis directed in the left-right direction (parallel to the swing shaft 26) is formed at a position below the locking groove 30 on the rear surface of the guard 14. There is. As shown in FIGS. 2, 4 and 5, a magnet 33 is embedded in a region of the guard 14 above the bearing portion 32. A reed switch 34 (detection member according to claim) is embedded in a region of the guard 14 between the bearing portion 32 and the magnet 33 in the vertical direction.

The lock member 40 is made by bending a wire rod made of a magnetic material. As shown in FIG. 3, the lock member 40 is formed from a locking portion 41 elongated in the left-right direction, a pair of left and right elongated leg portions 42 extending downward from both left and right ends of the locking portion 41, and lower ends of both leg portions 42. It is a single member having a pair of shaft portions 43 protruding inward in parallel with the locking portion 41. The lock member 40 constitutes an identification means 39 that allows the outside of the gun body 11 to visually confirm whether or not the trigger 25 is locked to the standby position and is restricted from swinging to the discharge position.

By fitting the pair of shaft portions 43 to the bearing portion 32, the lock member 40 has a lock form (see FIG. 1) with the shaft portion 43 as a fulcrum and an unlock form (see FIG. 1) located in front of the lock form. It is possible to swing in a substantially front-back direction with (see 2 to 5). Regardless of the position between the locked form and the unlocked form, the entire lock member 40 is maintained in a state of being exposed to the outside of the gun body 11.

When the lock member 40 is in the locked form, the locking portion 41 is located behind the shaft portion 43 and is locked in the locking groove 30 of the trigger 25 in the standby position, and the locking member 40 is locked with the guard 14. It will be in a state of being bridged with the trigger 25. As a result, the trigger 25 is restricted from swinging toward the discharge position. In other words, the application operation is restricted to the trigger 25, and the trigger 25 is locked to the standby position. In this state, even if another member interferes with the lock member 40, there is no possibility that the needle valve 17 will open, and the hot melt 45 will not be inadvertently discharged from the nozzle 15.

When the lock member 40 is in the unlocked form, the locking portion 41 is disengaged from the locking groove 30, and the locking member 40 is arranged along the rear surface (outer surface of the gun body 11) of the guard 14. When the locking portion 41 is disengaged from the locking groove 30, the trigger 25 in the standby position can be moved to the discharge position side. That is, the lock of the trigger 25 is released, and the coating operation on the trigger 25 is allowed.

When the lock member 40 is displaced to the unlocked form, the locking portion 41 is located near the rear of the magnet 33 and is held in contact with the rear surface of the guard 14 by the magnetic attraction force (magnetic force) of the magnet 33. Will be done. That is, the lock member 40 is held in the unlocked form by the magnetic force. Further, since the leg portion 42 is located near the rear of the reed switch 34, the reed switch 34 magnetically detects the approach of the leg portion 42 (that is, the lock member 40 is in the unlocked form) and detects the detection signal. Output. By displaying a warning or the like based on the detection signal, it is possible to visually recognize that the lock of the trigger 25 has been released.

A notch 44 is formed on the right side surface of the guard 14. In the state where the lock member 40 is held in the unlocked form, the right leg portion 42 is positioned so as to correspond to the notch portion 44. As a result, when the grip 13 is gripped by the right hand, the index finger of the right hand can be hooked on the right leg portion 42 from the front. By hooking the index finger on the leg portion 42, the lock member 40 in the unlocked form can be swung toward the locked form side (rearward) only by the right hand holding the grip 13.

Further, as shown in FIG. 7, since the retaining protrusion 31 projecting diagonally forward and downward is formed at the entrance of the locking groove 30, the locking portion 41 locked in the locking groove 30 is formed. Even if an attempt is made to displace it diagonally upward and forward (on the unlocked form side), the locking portion 41 is caught by the retaining protrusion 31. As a result, the locking portion 41 is held in a state of being locked in the locking groove 30. When the locking portion 41 is removed from the locking groove 30, as shown in FIG. 8, when the trigger 25 is operated in the coating direction to slightly displace the locking groove 30 backward, the retaining protrusion 31 Is retracted diagonally upward and backward of the locking portion 41, so that the locking portion 41 can be removed from the locking groove 30 while being displaced diagonally upward and forward.

The coating gun 10 of this embodiment includes a gun main body 11 provided with a nozzle 15 for discharging the hot melt 45, a trigger 25, and an identification means 39. The trigger 25 is provided on the gun body 11 and can be manually displaced from the standby position to the discharge position where the hot melt 45 is discharged. The identification means 39 is a means for visually confirming whether or not the trigger 25 is locked to the standby position outside the gun body 11. According to this configuration, it is possible to easily confirm whether or not the trigger 25 is locked to the standby position by visually observing the identification means 39 from the outside of the gun main body 11.

Further, the identification means 39 is composed of a lock member 40. The lock member 40 can be displaced between a lock form that regulates a coating operation that displaces the trigger 25 toward the discharge position and an unlocked form that allows a coating operation on the trigger 25. Since the lock member 40 for locking the trigger 25 so that the coating operation is inoperable also has a function as the identification means 39, it is not necessary to provide a dedicated identification means 39 separately from the lock member 40.

Further, the lock member 40 connects the gun body 11 and the trigger 25 in the locked form, and releases the gun body 11 and the trigger 25 from the connected state in the unlocked form. Since the shape of the lock member 40 is simple, cost reduction can be achieved.

Further, an internal cable 22 for energizing the heater 21 housed in the gun body 11 is housed in the gun body 11, and the entire lock member 40 is arranged outside the gun body 11. According to this configuration, when the lock member 40 is displaced between the lock form and the unlock form, there is no possibility that the lock member 40 and the internal cable 22 come into contact with each other in the gun body 11.

Further, the lock member 40 is made of a magnetic material, and the gun body 11 is provided with a magnet 33 that holds the lock member 40 in the unlocked form by a magnetic force. According to this configuration, the lock member 40 can be held in the unlocked form even when the dimensional tolerance of the lock member 40 is large or when there is concern about wear of the gun body 11 or the trigger 25 made of a resin material.

Further, in the unlocked form, the lock member 40 is held along the outer surface of the gun body 11 (guard 14), and the leg portion 42 of the lock member 40 is locked to the gun body 11 with a fingertip. A notch 44 is formed that allows the morphology to be pushed. According to this configuration, it is easy to perform an unlocking operation for displacing the lock member 40 from the locked form to the unlocked form.

Further, the trigger 25 is formed with a locking groove 30 for locking the lock member 40 in the lock form, a retaining protrusion 31 is formed at the entrance of the locking groove 30, and the locking member 40 is formed on the retaining protrusion 31. By abutting, the disconnection from the locking groove 30 is restricted. According to this configuration, the lock member 40 can be reliably held in the locked form.

Further, the lock member 40 is made of a magnetic material, the lock member 40 in the unlocked form is arranged along the outer surface of the gun body 11, and the gun body 11 magnetically indicates that the lock member 40 is in the unlocked form. A reed switch 34 for detecting by means of is provided. According to this configuration, it is possible to detect that the lock member 40 is in the unlocked form and the trigger 25 is in the unlocked state in which the trigger 25 can be operated toward the discharge position side.

<Other Examples>
The present invention is not limited to the examples described in the above description and drawings, and for example, the following examples are also included in the technical scope of the present invention.
(1) In the above embodiment, the lock member is supported by the gun body, but the lock member may be supported by the trigger.
(2) In the above embodiment, the entire lock member is arranged outside the gun body, but a part of the lock member may be housed inside the gun body.
(3) In the above embodiment, the lock member is always supported by the gun body, but the lock member may be attached to the gun body and the trigger only when the trigger is locked to the standby position.
(4) In the above embodiment, the detection member for detecting that the lock member is in the unlocked form is provided, but a form in which such a detection member is not provided may be provided.
(5) In the above embodiment, the lock member also has a function as an identification means, but the identification means may be different from the lock member (for example, a light emitting member such as an LED). In this case, the lock member may be housed inside the gun body.
(6) In the above embodiment, as a means for improving the operability when swinging the lock member in the unlocked form toward the locked form side, a notch is formed only in the right side edge portion of the guard, but the notch is formed. The portion may be formed only on the left side edge portion of the guard, or may be formed on the left and right side edge portions of the guard.
(7) In the above embodiment, the lower-out type coating gun in which the hose and the external cable are led out downward from the gun body has been described, but in the present invention, the hose and the external cable are led out upward from the gun body. It can also be applied to a pay-out type coating gun.
(8) In the above embodiment, the coating gun is for applying hot melt, but the present invention is not limited to the coating gun for hot melt, but is not limited to the coating gun for hot melt, but also for the coating gun for paint and the sealer for discharging the sealing material. Can also be applied.

10 ... Coating gun 11 ... Gun body 15 ... Nozzle 21 ... Heater (equipment)
22 ... Internal cable (cable)
25 ... Trigger 30 ... Locking groove 31 ... Retracting protrusion 33 ... Magnet 34 ... Reed switch (detection member)
39 ... Identification means 40 ... Lock member 44 ... Notch 45 ... Hot melt (coating agent)

Claims (6)

A gun body equipped with a nozzle that discharges the coating agent,
A trigger provided on the gun body that can be manually displaced from the standby position to the discharge position where the coating agent is discharged.
An identification means capable of visually confirming whether or not the trigger is locked to the standby position outside the gun body , and
A lock member that can be displaced between a lock form that regulates a coating operation that displaces the trigger toward the discharge position side and a lock release form that allows a coating operation with respect to the trigger is provided.
The identification means is configured by the lock member, and the identification means is configured.
The lock member is made of a magnetic material and is made of a magnetic material.
A coating gun characterized in that the gun body is provided with a magnet that holds the lock member in the unlocked form by a magnetic force . A gun body equipped with a nozzle that discharges the coating agent,
A trigger provided on the gun body that can be manually displaced from the standby position to the discharge position where the coating agent is discharged.
An identification means capable of visually confirming whether or not the trigger is locked to the standby position outside the gun body, and
A lock member that can be displaced between a lock form that regulates a coating operation that displaces the trigger toward the discharge position side and a lock release form that allows a coating operation with respect to the trigger is provided.
The identification means is configured by the lock member, and the identification means is configured.
In the unlocked form, the lock member is held along the outer surface of the gun body.
A coating gun characterized in that the gun body is formed with a notch portion that enables the lock member to be pushed toward the lock form side . A gun body equipped with a nozzle that discharges the coating agent,
A trigger provided on the gun body that can be manually displaced from the standby position to the discharge position where the coating agent is discharged.
An identification means capable of visually confirming whether or not the trigger is locked to the standby position outside the gun body, and
A lock member that can be displaced between a lock form that regulates a coating operation that displaces the trigger toward the discharge position side and a lock release form that allows a coating operation with respect to the trigger is provided.
The identification means is configured by the lock member, and the identification means is configured.
The trigger is formed with a locking groove for locking the locking member in a locked form.
A retaining protrusion is formed at the entrance of the locking groove, and a retaining protrusion is formed.
A coating gun characterized in that the lock member is restricted from being detached from the locking groove by abutting on the retaining protrusion . A gun body equipped with a nozzle that discharges the coating agent,
A trigger provided on the gun body that can be manually displaced from the standby position to the discharge position where the coating agent is discharged.
An identification means capable of visually confirming whether or not the trigger is locked to the standby position outside the gun body, and
A lock member that can be displaced between a lock form that regulates a coating operation that displaces the trigger toward the discharge position side and a lock release form that allows a coating operation with respect to the trigger is provided.
The identification means is configured by the lock member, and the identification means is configured.
The lock member is made of a magnetic material and is made of a magnetic material.
The lock member in the unlocked form is arranged along the outer surface of the gun body.
A coating gun characterized in that the gun body is provided with a detection member that magnetically detects that the lock member is in the unlocked form . The lock member is characterized in that, in the locked form, the gun body and the trigger are connected, and in the unlocked form, the gun body and the trigger are released from the connected state. The coating gun according to any one of claims 4. In the gun body, a cable for energizing with the device housed in the gun body is housed.
The coating gun according to any one of claims 1 to 5, wherein the entire lock member is arranged outside the gun body .

Images