A surface coating repair gun and assembly kit

Description

[0001] This invention relates to a surface coating repair gun and to an assembly kit to adapt an existing paint/fluid spray gun.

[0002] The current practice to repair coated surfaces, e.g. car body panels damaged by stone chippings, is to use a fine pointed brush to retouch the holes formed, usually on the front of used cars. Although this is effective for a single car owner with a paint matching the car colour, it has the disadvantage that it is time consuming when used in car body repair shops and the paint of the car has to be matched for a wide range of colours.

[0003] An aim of the present invention is to provide a repair gun or an assembly kit to adapt an existing paint spray gun to reduce or overcome the above mentioned disadvantage.

[0004] According to the present invention there is provided a gun kit assembly for converting a standard paint/fluid spray gun suitable for spraying a large area into a repair gun suitable for releasing small amounts of fluid, the kit comprising a nozzle for attachment to the gun body in place of the existing nozzle, a needle for replacement of the existing needle and movable axially in cooperation with the nozzle to open and close the nozzle opening of the standard gun, a collar on the replacement needle in a position spaced from the tip thereof and a trigger assembly for replacement of the existing trigger assembly of the standard gun and including a resilient catch member for co-operating with a radially projecting rim of the collar for moving the collar in a direction to open the nozzle opening and being slidable past the projecting rim after opening of the nozzle opening to allow the needle to move back in a direction to close the nozzle, the nozzle, needle, collar and trigger assembly being configured, when assembled to cause the gun to fire small jets of paint.

[0005] Conveniently, the trigger assembly has an aperture at its upper end to pivot the trigger spray gun body.

[0006] In a preferred construction the needle collar is adapted for cooperation with an adjustable spring-loaded pin provided in the existing gun body for biasing the needle in a direction to close the opening of the nozzle.

[0007] An embodiment of the invention will now be described, by way of example only, with reference to the accompanying drawings, in which:

Figure 1 is an axial cross-section of a repair gun fitted with an assembly kit, according to the present invention;

Figure 2 is a similar view to Figure 1, showing the trigger assembly and firing needle in a first cocking position;

Figure 3 is a similar view to Figure 2, showing the trigger assembly and firing needle in a second cocking position, and

Figure 4 is a similar view to Figure 3, showing the trigger assembly and firing needle in the fully cocked position.

[0008] The repair gun illustrated in Figure 1 is a standard paint spray gun adapted with an assembly kit to convert it to a repair gun to fire (apply) small jets of paint to holes in a surface coating

[0009] The gun comprises a body 1, a handle 2, a trigger 3 and an inlet 4 for receiving a gravity fed paint cup (not shown) which feeds paint to a chamber 5 The nozzle end 6 of the gun has a central jet aperture 7 surrounded by a cap 8, which jet is metered by a needle 9. The needle passes through a conventional packing seal 10 to seal the chamber 5 from the outside while allowing axial movement of the needle 9.

[0010] The rear end of the needle has a collar 11 which engages a spring-loaded plunger 12, the tension of which is adjustable by a knob 13. The axial movement of the needle 9 is made by the trigger 3 which is tensioned by an adjustable spring-loaded rod 14 The trigger has riveted thereto a resilient catch 15 the free end of which engages a radially projecting rim 17 of the collar 11.

[0011] With reference now to Figures 2 to 4, where like parts have the same reference numerals as in Figure 1, Figure 2 shows the repair gun with the trigger 3 and firing needle 9 in a first position with the catch 15 engaging the front of collar 11. The pressure on the trigger is against an adjustable spring-loaded rod 14. When further pressure is applied to the trigger, the catch 15 is located behind a rim 17 of the collar 11 retracting the tip of the needle 9 from a seating in the nozzle 18 as shown in Figure 3, allowing paint from the gravity cup to fill the chamber 5 and pass the needle tip into nozzle 18. Further pressure on the trigger releases the collar and fires the needle forward, ejecting a measured amount of paint in front of the needle tip to be deposited in the chipped hole in the surface coating.

[0012] The axial speed of movement of the needle can be adjusted to retract the needle tip from its seating, metering the amount of paint which seeps past the needle on operation of the trigger to be ejected from the gun nozzle.

[0013] In operation a gravity feed paint cup is filled with the required quantity of paint to match the coated surface to be repaired. The nozzle end of the gun is pointed with the nozzle spaced e.g. 0.118 inches (3mm) to 2 inches (50mm) from the chipped surface and the paint fills the chamber behind the nozzle. By pulling on the trigger in the direction of arrow X, the trigger pivots about pin 19 bringing the catch 15 into contact with the collar 11 retracting the needle tip from its seating in the nozzle.

[0014] When the tension on the needle spring reaches a level greater than the threshold of the catch, the catch deflects over the rim 16 of collar 11 allowing the needle to return on its spring. This causes paint which has passed from the chamber into the nozzle in front of the retracted needle tip to be ejected from the nozzle forming a metered spot of paint to repair the chipped surface.

[0015] The amount of ejected paint can be controlled by means of the needle adjustment knob 13 which is standard on all spray guns. This adjustment has the effect of increasing or decreasing the tension in the needle spring, changing the point in the firing cycle at which the threshold of the catch will release the amount of paint flowing into the chamber. The lower the spring tension, the later in the firing cycle the catch is released allowing more paint to enter the chamber.

[0016] On release of the trigger it returns to its starting position by the spring-loaded plunger 12 which replaces the standard air valve used in existing spray guns. The repair gun uses a mechanical action and paint is "fired" into the chipped blemish on the surface, requiring only limited finishing once dry. As the gun does not need any air supply, application can be carried out anywhere in the body workshop prior to the final finishing of the surface. The repair gun is suitable for use with both waterborne and solvent based materials. To adapt a standard FLG (Finishline Gun) spray gun to a repair gun of the present invention, the invention extends to an assembly kit comprising:

(i) a stainless steel nozzle

(ii) a needle

(iii) a trigger assembly

(iv) a catch

(v) a trigger return stem

(vi) a needle collar.

(vii) a strong needle spring

[0017] The trigger assembly and catch replace the conventional trigger assembly and are permanently assembled as part of the gun, while the needle collar is fitted to the needle during assembly of the gun.

[0018] The stainless steel nozzle is fitted to suit the needle while the trigger return stem and spring are part of the conventional gun.

[0019] The repair gun is prepared for use as follows:

[0020] The paint is mixed to the required shade using a combination of base colours, clear coats, thinners and/or activators.

[0021] The trigger is adjusted by pulling on the trigger and adjusting the needle screw knob until the catch is released every time the trigger is pulled, so that a "click" is heard. As soon as the "click" is heard the trigger is released automatically returning to its stationary position.

[0022] The actuation of the trigger needs to be performed quickly to deposit the metered quantity of paint on the chipped blemish to be repaired This trigger action does not require the trigger to be pulled fully back and held in the retracted position.

[0023] The mixed paint is poured into the paint cup and the lid is fitted. The trigger is pulled to prime the gun releasing paint into the chamber behind the needle point. The gun is held approximately 0.118 inches (3mm) to 2 inches (50mm) from a test piece and the trigger is actuated observing the amount of paint fired from the nozzle. If the metered amount of paint is too large, the needle adjustment knob is screwed clockwise and the test repeated. To increase the amount of paint deposited, the needle adjustment knob is rotated counter-clockwise.

Claims

1. A gun kit assembly for converting a standard paint/fluid spray gun suitable for spraying a large area into a repair gun suitable for releasing small amounts of fluid, the kit comprising a nozzle (18) for attachment to the gun body (1) in place of the existing nozzle, a needle (9) for replacement of the existing needle and movable axially in co-operation with the nozzle (18) to open and close the nozzle opening of the standard gun, a collar (11) on the replacement needle in a position spaced from the tip thereof and a trigger assembly (3) for replacement of the existing trigger assembly of the standard gun and including a resilient catch member (15) for co-operating with a radially projecting rim (17) of the collar (11) for moving the collar (11) in a direction to open the nozzle opening and being slidable past the projecting rim (17) after opening of the nozzle opening to allow the needle (9) to move back in a direction to close the nozzle (18), the nozzle, needle, collar and trigger assembly being configured, when assembled to cause the gun to fire small jets of paint.

2. An assembly as claimed in claim 1, characterised in that the trigger assembly (3) has an aperture (19) at its upper end for pivotal attachment to the existing gun body (1).

3. An assembly as claimed in claim 1 or 2, characterised in that the collar (11) is adapted for co-operation with an adjustable spring loaded pin (12) provided in the existing gun body (1) for biasing the needle (9) in a direction to close the opening in the nozzle (18).

Ansprüche

1. Pistolenbauteilsatz zum Umbau einer zum Besprühen eines großen Bereiches geeigneten Standardfarb-/fluidsprühpistole in eine zum Freisetzen kleiner Fluidmengen geeignete Reparatursprühpistole, aufweisend eine Düse (18) zur Befestigung am Pistolenkörper (1) anstelle der vorhandenen Düse, eine Nadel (9) zum Austausch der vorhandenen Nadel, die in axialer Richtung in Zusammenwirkung mit der Düse (18) zum Öffnen und Schließen der Düsenöffnung der Standardpistole bewegbar ist, einen Bund (11) an der Austauschnadel in einer von deren Spitze beabstandeten Position und eine Auslöseanordnung (3) zum Austausch der vorhandenen Auslöseanordnung der Standardpistole einschließlich eines elastischen Eingriffselements (15) zur Zusammenwirkung mit einem radial vorspringenden Rand des Bundes (11) zum Bewegen des Bundes (11) in einer Richtung zum Öffnen der Düsenöffnung, die nach dem Öffnen der Düsenöffnung über den vorspringenden Rand hinaus gleitbar ist, um es der Nadel (9) zu ermöglichen, sich in einer Richtung zurückzubewegen, um die Düse (18) zu schließen, wobei die Düse, die Nadel, der Bund und die Triggeranordnung so ausgebildet sind, dass sie im zusammengebauten Zustand bewirken, dass die Pistole kleine Farbstrahlen ausstößt.

2. Bauteilsatz nach Anspruch 1, dadurch gekennzeichnet, dass die Auslöseanordnung (3) an ihrem oberen Ende eine Öffnung (19) zur schwenkbaren Befestigung an dem vorhandenen Pistolenkörper (1) aufweist.

3. Bauteilsatz nach Anspruch 1 oder 2, dadurch gekennzeichnet, dass der Bund (11) zur Zusammenwirkung mit einem mit einer einstellbaren Feder belasteten Stift (12) im vorhandenen Pistolenkörper (1) ausgebildet ist, um die Nadel (9) in eine Richtung unter Vorspannung zu setzen, um die Öffnung in der Düse (18) zu schließen.

Revendications

1. Assemblage d'un kit pistolet permettant de transformer un pistolet à peinture/à liquide standard approprié pour effectuer une pulvérisation sur une surface importante en un pistolet de réparation approprié pour libérer de petites quantités de liquide, le kit comprenant une buse (18) assurant la fixation au corps du pistolet (1) à la place de la buse existante, une aiguille (9) remplaçant l'aiguille existante et mobile au niveau axial en co-fonctionnement avec la buse (18) en vue d'ouvrir et de fermer l'orifice de la buse du pistolet standard, un manchon (11) sur l'aiguille de remplacement, dans une position espacée par rapport à l'embout de celle-ci et un élément gâchette (3) remplaçant l'ensemble gâchette existant sur le pistolet standard et comprenant une pièce d'entraînement souple (15) permettant un co-fonctionnement avec une couronne en saillie radiale (17) du manchon (11) pour déplacer le manchon (11) dans un sens visant à ouvrir l'orifice de la buse et pouvant coulisser en direction de la couronne en saillie (17) après l'ouverture de l'orifice de la buse pour permettre à l'aiguille (9) de se replacer dans un sens visant à fermer la buse (18), la buse, l'aiguille, le manchon et l'ensemble gâchette étant configurés, lorsqu'ils sont assemblés, de façon à permettre au pistolet de gicler de petits jets de peinture.

2. Assemblage selon la revendication 1, caractérisé en ce que l'ensemble gâchette (3) présente une ouverture (19) au niveau de son bord supérieur permettant une fixation centrale au corps de pistolet existant (1).

3. Assemblage selon la revendication 1 ou 2, caractérisé en ce que le manchon (11) est adapté pour co-fonctionner avec un linguet à ressort ajustable (12) placé dans le corps de pistolet existant (1) permettant d'incliner l'aiguille (9) dans un sens visant à fermer l'orifice de la buse (18).

Drawing