DE60312833T2 - Paintgun with air-controlled supply and ejection - Google Patents

Abstract

A stopper (23) controls the opening or closing of an air flow channel. A small amount of air flow into a minor air channel (616) causes a pressure difference between the front and rear air pressure chambers (613a,613b) of a flow guiding piston (62), shifts a delivery tube (64) forward and pushes a paintball (B) a little forward. The paintball (B) is discharged by a thrust of air flow into a major air channel (612).

Description

BACKGROUND OF THE INVENTION

1. Field of the invention

The The invention relates to a paintgun with air-controlled Feed and discharge process and in particular to a paintgun which opens and Shut down of the air flow channel in such a way that controls the pressure in the flow field for the purpose of implementation a two-stage supply and ejection process changed.

2. State of the art

Numerous conventional paint ballguns (eg, TW 447697, 443486, 406894, 4371941, etc.) have such 1 and 2 show a trigger 11 , above a running device 12 is set up. This running device 12 is composed of a discharge pipe 121 and an air chamber tube 122 that run parallel to each other. Enema 13 is at the front end of the ejection tube 121 attached while a supply pipe 14 attached to the top thereof. The feed pipe 14 is connected to a charging device that supplies paintballs K. The air chamber tube 122 is at its front end with an air valve 161 and an air valve spring 162 equipped and at its rear end with a feeding mechanism 17 , Near the front end is at the bottom of a hollow connector 18 for connection to a tank 15 arranged. A drawbar 19 is in the running device 12 set up, and its rear end sticks out of the running gear 12 out.

Furthermore, the drawbar has 19 inside the air chamber pipe 122 over a firing pin 191 , and this firing pin 191 is with the drawbar 19 by means of a push-in pin 193 coupled. The front end of the firing pin 191 is closed and against the air valve 161 while its rear end is a spring 171 a feeding mechanism 17 accommodates against the firing pin 191 suppressed. At its bottom is the firing pin 191 with the positioning groove 192 provided (s. 3 ). The movement of the firing pin 191 can be controlled by that a latching part 111 the extraction device 11 with the positioning groove 192 cooperates, whereby the firing effect is achieved. However, rub the contact surface of the latching part 111 and the positioning groove 192 each time after firing the paintgun together. Accordingly, the locking action of the latching part decreases 111 Gradually, so that easily a shot can be triggered unintentionally. This poses a serious safety hazard. In addition, the conventional paintgun has many components which are intricately connected with each other, causing problems in assembly and defects.

In addition, before the firing the drawbar 19 to be pulled back into position, like out 1 evident. During the discharge, the drawbar moves back and forth so that the rear part protruding from the barrel 194 can easily injure the human body. This is very dangerous.

Further, the bolt breaks 193 due to the lateral shearing force slightly off when different axial forces on the firing pin 191 and the drawbar 19 act during the float.

If the trigger device 11 is pressed to the firing pin 191 together with the drawbar 19 moving forward, the air valve 161 , as 2 shows, by the firing pin 191 pressed, which results in the release of air pressure, partly in the air chamber tube 122 flows to the firing pin 191 back to its place, partly a channel 123 happened and for the purpose of firing the color ball K in the ejection tube 121 penetrates. Accordingly, the air pressure used to eject the paintball K has a curved and uneven flow direction, resulting in air turbulence. Thus, the reduced air pressure, the color ball K does not lead to the front to fire, which is why the tank 15 must be kept under a higher pressure. For example, most paint guns require a pressure of 50 kg / cm ² for smooth ejection of the paintball K over a given distance. However, the higher the air pressure of the tank, the greater the cost. In addition, the available amount of air decreases, whereas the risk increases greatly.

consequently offers the conventional Paintball gun a lot of room for Improvements.

SUMMARY OF THE INVENTION

A The main object of the invention is to provide a paintball gun to provide a pneumatic feed and ejection process, wherein the Color ball exhaust air-controlled done to the conventional mechanical way of firing pin latching to replace. To this This ensures high levels of safe use and malfunction are significantly reduced.

A further object of the invention is to provide a paintgun with an air-controlled feed and discharge operation which has the advantages of simple construction, of effortless assembly and low cost.

A Another object of the invention is a paintball gun to provide with an air-controlled feed and ejection process, with a limited amount of airflow is going to be a pusher ear first so onward to push the paint ball forward to reduce the pressure of the change front and rear end of the flow control valve. Accordingly, will a big Air flow through a main air duct for expelling the Headed color ball. The invention thus has the advantages of trouble-free Air power. additionally The color ball can be controlled by the thrust of a stream of air even at lower Air pressure expelled become.

BRIEF DESCRIPTION OF THE DRAWINGS

That These and other objects of the invention are met, will be apparent from the following Description and accompanying drawings, in which:

1 Figure 5 is a sectional view of a conventional paintgun prior to pressing the trigger;

2 a sectional view of the conventional paintball gun after pressing the trigger is;

3 a schematic drawing of the trigger and the firing pin of the conventional paintgun after pressing the trigger is;

4 is a schematic drawing of the trigger and the firing pin of the conventional paint bullet gun before pressing the trigger;

5 a sectional view of an applicable embodiment of the paintball gun of the invention;

5 (a) an exploded perspective view of the running device of the invention;

5 (b) an exploded perspective view of the running device and the air-controlled feed mechanism of the invention;

6 Fig. 12 is a sectional view of an initial pneumatic feeding mechanism;

7 Fig. 10 is a sectional view of the pneumatic feeding mechanism in a state of being opened by a stopper;

8th is a sectional view of the air-controlled mechanism, and shows that the paint ball is moved forward by means of a limited air flow through the secondary air duct;

9 is a sectional view of the air-controlled mechanism, and shows that the paint ball is ejected by a large amount of air flow through the main air passage;

10 a sectional view of the air-controlled mechanism in a state in which it is closed by a stopper;

11 is a sectional view of the air-controlled mechanism and shows the movement of the flow control valve;

11 (a) a sectional view of the invention with a further applicable embodiment of the stopper is;

11 (b) an enlarged view of the in 11 (a) a circular area marked by a dashed line, wherein the remaining gas is discharged from the communication passage via the return passage hole to a drain hole at the bottom of the stopper;

11 (c) an enlarged view of the in 11 (a) a circular area marked by a dashed line, the stopper being moved down to open the lower outlet;

12 Fig. 10 is a sectional view of another applicable embodiment of the air controlled delivery mechanism; and

13 a sectional view of another applicable embodiment of the air-controlled feed mechanism is.

DETAILED DESCRIPTION ILLUSTRATIVE EMBODIMENTS

First, it is based 5 set forth an improvement which the paintball gun of the invention has. Mainly the paintball gun according to the invention comprises a trigger device 20 , a running device 30 and an air-controlled delivery mechanism 60 ,

The extraction device 20 is used to actuate the firing element for the paintballs K.

The running device 30 is above the trigger 20 customized. In addition, the running device 30 shaped in one piece or how 5 (a) shows, from an upper and a lower run 30a . 30b exist, which by means of fastening supply elements 32 how to assemble screws or the like, what made 5 (b) evident. Furthermore, the length of the lower run 30b according to different applications adjustable and does not have that of the upper run 30a correspond. At the front end of the running device 30 is a run 40 intended. It's also over the run 40 a paint ball feed tube 50 arranged for the purpose of supplying paint balls K with a tank 51 communicates.

The air-controlled feed mechanism 60 is in the running device 30 is installed and used to drive and eject the paintballs. The emphasis in the design of the invention lies in the principle and the technique of the air-controlled feed mechanism 60 , Referring to 6 includes the air-controlled feed mechanism 60 a flow guide body 61 , a movable flow guide body 62 and a feed pipe 64 ,

The flow guide body 61 is in the upper run 30a positioned. The front part of the flow guide body 61 is as a pipe 611 with a through hole 616 constructed, which extends obliquely on the upper wall. In addition, the flow guide body has 61 an axially extending hole with a smaller diameter at the front part and a larger diameter at the rear part, while an end stopper 67 in the rear part of the flow guide body 61 is plugged, creating a main air duct 612 at the front part and a flow guiding chamber 613 be formed at the rear part thereof. The flow guide chamber 613 contains an inlet opening 614 with the upper and lower inlets 35a . 35b of the upper and lower run 30a . 30b communicates. The end stopper 67 has an outlet opening 671 which extends from the axial direction in the radial direction at the inner end thereof. The outlet opening 671 communicates with an exhaust duct 615 in the larger part of the flow guide body 61 while the exhaust duct 615 furthermore with an upper and a lower outlet 33a . 33b of the upper and lower run 30a . 30b connected is. A stopper 23 is provided to control the opening and closing of the air flow channel. Bin connection channel 33c is next to the lower outlet 33b furnished and with a secondary air duct 34 on the outer side of the bottom of the tube 611 connected. The movement of the stopper 23 is through the trigger 20 controlled.

The flow guide piston 62 is inside the flow guide chamber 613 furnished with a narrower front part and a wider rear part. Am air piston 621 at the front end of the flow guide piston 62 is against the main air channel 612 urged while a divider 622 at the rear end of the flow control piston 62 into the inner wall of the flow guide chamber 613 is inserted so that the flow conduction chamber 613 through the separator 622 in a front and a rear air pressure chamber 613a . 613b divided with different pressure ranges. A small hole 623 is between the front and rear air pressure chamber 613a . 613b created. The separating body 622 can be designed as a valve unit, like 6 to 11 show, or as a membrane unit, as in 12 and 13 shown. Both separators 622 Types are within the flow guide chamber 613 movable for the purpose of changing the air pressure.

The feed pipe 64 is around the pipe 611 at the front end of the flow guide body 61 placed. A return spring 65 is around the front part of the feed pipe 64 created.

Accordingly, the stopper 23 used to control the opening or closing of the air flow channel and thereby a pressure difference between the front and the rear air pressure chamber 613a . 613b of the flow guide piston 62 bring about. As a result, the feed tube becomes 64 thereby shifted forward, that the secondary air duct 34 a small amount of air flow is supplied to push a color ball K a little forward. Then, the paintball K by means of the air flow thrust in the main air duct 612 pushed out.

The feed pipe 64 has a flange at its rear end 641 on, at which one end of the return spring 65 is attached. In addition, the upper run 30a with a corresponding flange 31 provided, against the other end of the return spring 65 is pressed. An O-ring 642 is around the outer circumference of the rear end of the feed tube 64 created.

Referring again to 5 and 5 (b) can the air-controlled feed mechanism 60 the invention axially in the upper run 30a be used so that it is easy to remove for maintenance purposes. Furthermore, the flow guide body comprises 61 an arcuate groove 68 at an end adjacent to the end part of the paintgun, while the upper run 30a a transverse through hole 36 at a corresponding location. Becomes a positioning pin 37 in the transverse through hole 36 introduced, this engages in the arcuate groove 68 so that the air-controlled feed mechanism 60 is fastened in place, as in 6 illustrated. In addition, the running device 30 the invention be constructed in one piece while the steering the air flow with the above-mentioned inlet and outlet channels takes place. Better for the production, however, is the in 5 (a) and 5 (b) illustrated two-piece running device 30 ,

Obig are the basic structure and main features of the air-controlled feed mechanism 60 explained. The following is based on 6 to 8th a description of how it works:
Referring to 6 becomes the air-controlled feed mechanism 60 initially presented in the initial stage. This closes the stopper 23 the passage of the secondary air duct 34 while the high pressure gas pressure source 70 through the upper and lower inlets 35a . 35b and through the entrance opening 614 in the flow guide chamber 613 occurs. Then the gas flows through the small through hole 623 in the rear air pressure chamber 613b , The pressure range of the rear air pressure chamber 613b on the valve body 622 is much larger than the closing range 63 of the air valve 621 , Therefore, the flow guide piston 62 moved forward. Meanwhile, the air valve 621 against the passage of the main air duct 612 pressed, causing the out of the main air duct 612 released air pressure is blocked.

Referring to 7 becomes the stopper 23 through the extraction device 20 controlled, which is so downward to move, that the passage of the secondary air channel 34 opens. Here, the high-pressure gas in the rear air pressure chamber 613b through the outlet opening 671 , the outlet channel 615 , the upper and lower outlets 33a . 33b , the connecting channel 33c and the secondary air duct 34 in the rear side (the area marked A) of the feed pipe 64 of the upper run 30a enter. As a result, this air pressure may be the feed tube 64 push forward and thereby move forward the color ball K, which out of the paint ball feed tube 50 falls. The volume A of the sliding surface of the feed tube 64 is smaller than the rear air pressure chamber 613b , Meanwhile, the air flow is continuously in slight amount through the small through hole 623 in the rear air pressure chamber 613b directed. Because the pushing force acting on the valve body 622 is exercised, is still greater than those on the closing area 63 of the air valve 621 acts, is the flow guide piston 62 not moved. If the feed pipe 64 is moved forward ( 8th ) to gradually into the secondary air duct 34 of the pipe 611 to get to, the airflow is how 9 shows, through the hole 616 in the pipe 611 directed. Because the diameter of the small hole 623 not big enough to the air pressure chamber 613b supplying enough air, the gas pressure of the flow field changes. This wild the pressure in the rear air pressure chamber 613b lowered. Meanwhile, the pressure in the front air pressure chamber changes 613a so that it is bigger than that of the rear air pressure chamber 613b , whereby the flow guide piston 62 so shifted backwards is that the air valve 621 backwards and from the inlet opening of the main air duct 612 moved away ( 9 ). Therefore, a large amount of gas is forced over the main air channel 612 out into the feed tube 64 , whereby the paintball K is ejected.

After that, the stopper shifts 23 up ( 10 ) to the passage for the air flow of the secondary air duct 34 close again. This changes the flow field pressure, and the rear air pressure chamber 613b gains pressure again. When the airflow into the main air duct 612 urges, creates the upper end C opposite the through hole 616 In addition, a known in fluid mechanics deduction effect. Therefore, the gas in the area D of the upper run 30a subtracted, and it creates a semi-vacuum to the resistance of the return spring 65 back to the feed tube 64 to reduce. Referring to 11 returns the feed tube 64 inward, and the pressure range of the rear air pressure chamber 613b on the valve body 622 is much larger than the closing area 63 of the air valve 621 in the front air pressure chamber 613a , Accordingly, the in 6 achieved initial state shown.

In testing the invention, it has been found that there is little gas in region D and the secondary air channel 34 remains when the feed tube 64 is returned inwards, whereby a slight resistance arises (s. 11 (a) ). How out 11 (b) As can be seen, the stopper comprises 23 an air return hole 231 , via which the remaining gas from the connecting channel 33c to a drain hole 251 at the bottom of the stopper 23 can be derived. Accordingly, its recovery is faster and easier. Will the stopper 23 for the purpose of opening the lower outlet 33b moved down, the drain hole becomes 251 through the bottom surface of the stopper 23 closed (s. 11 (c) ). This will ensure that the bottom outlet 33b fed gas not through the air return hole 231 drained, but through the connection channel 33c in the secondary air duct 34 to be led.

With reference to 5 as well as the other drawings, the stopper 23 be configured as a central shaft or the like, which is a control element 25 belongs to an electromagnetic valve or an electromagnet. In this embodiment, the electromagnetic valve is used as a control element 25 used. In addition, the trigger device includes 20 a deduction 21 , a firing circuit 22 and batteries 24 , When you press the trigger 21 becomes the switch of the firing circuit 22 pressed, causing the stopper 23 of the control element 25 is shifted to thereby achieve the control effect. At the extraction device 20 and the electromagnetic valve are conventional elements which will not be further described below.

• 1. Anders als das herkömmliche Farbkugelgewehr verfugt die Erfindung nicht über den Abfeuerungshammer zur Öffnung des Luftventils, so dass sich der beim mechanischen Verrasten entstehende Verschleiß vermeiden lässt. Überdies kann die Gefahr, die von der Rückstoßverlagerung der Zugstange ausgeht, beseitigt werden. Infolgedessen ist eine Verbesserung der Sicherheit insgesamt möglich.
• 2. Die Erfindung ist unkompliziert in ihrer Gestaltung und lässt sich mühelos zusammenbauen, so dass sich die Anzahl der Fehlfunktionen verringert.
• 3. Der wichtigste Aspekt besteht darin, dass der Luftstrom bei seiner Aufnahme in den Hauptluftkanal 612 vollständig eingespeist wird. Auf diese Weise lässt sich die große Luftstrommenge ohne Zerstäubung konzentrieren, so dass sich die Farbkugel unter Beschleunigung problemlos in axialer Richtung ausstoßen lässt. Wenn die Farbkugel durch den Hauptluftkanal 612 ausgestoßen wird (8), ist die Zufuhröffnung an der Unterseite des Farbkugelzufuhrrohrs 50 durch das Zuführungsrohr 64 verschlossen, so dass der Luftstrom nicht zerstäubt wird und Luftturbulenzen erzeugt. Folglich ist die Erfindung in der Lage, die Farbkugel K unter einem Druck von nur 20 kg/cm² problemlos auf eine zuvor festgelegte Entfernung auszustoßen. Der Druck der Luftdruckquelle 70 kann daher verringert und die selbe Druckquelle länger benützt werden. Dies bedeutet eine Erhöhung der Sicherheit bei gleichzeitiger Senkung der Kosten.
• 4. Der luftgesteuerte Zuführungsmechanismus 60 der Erfindung kann axial aus der Laufvorrichtung 30 genommen werden. Durch Herausziehen des Positionierstifts 37 aus dem transversalen Durchloch 36 lässt sich der luftgesteuerte Zuführungsmechanismus 60 mühelos zur Wartung aus der Laufvorrichtung 30 nehmen.

As explained above, the air-driven delivery mechanism makes itself 60 the invention exploits the change in the flow field pressure. A lesser airflow is used to first feed the feed tube 64 to push and then bring the color ball K forward. This is followed by the thrust of the air flow of the ejection. The two-stage delivery system achieves the following results:

• 1. Unlike the conventional paint gun, the invention does not have the firing hammer to the opening of the air valve, so that it is possible to avoid the resulting wear during mechanical locking. Moreover, the danger posed by recoil displacement of the drawbar can be eliminated. As a result, overall safety improvement is possible.
• 2. The invention is straightforward in design and easy to assemble, reducing the number of malfunctions.
• 3. The most important aspect is that the airflow as it enters the main air duct 612 is completely fed. In this way, the large amount of air flow can be concentrated without atomization, so that the color ball can easily eject in the axial direction under acceleration. When the paintball through the main air duct 612 is ejected ( 8th ), is the feed opening at the bottom of the paintball feed tube 50 through the feed pipe 64 closed, so that the air flow is not atomized and generates air turbulence. Consequently, the invention is capable of easily ejecting the paintball K to a predetermined distance under a pressure of only 20 kg / cm ² . The pressure of the air pressure source 70 can therefore be reduced and the same pressure source used longer. This means an increase in security while reducing costs.
• 4. The air-controlled feed mechanism 60 The invention can be axially out of the running device 30 be taken. By pulling out the positioning pin 37 from the transverse through hole 36 can be the air-controlled feed mechanism 60 effortlessly for maintenance from the running device 30 to take.

Of course, many can changes and modifications to the above-described embodiments be made of the invention, without being of their scope is deviated. To progress in science and useful arts to promote, The invention is disclosed and is intended only by the scope of the appended claims.

Claims (10)

A paintgun with air controlled feed and ejection operation comprising: a) a fume hood used to actuate the paintball firing element; b) a running device adapted over the take-off device, a run provided at the front end thereof, a paint ball feed pipe arranged above the run; and c) an air-controlled delivery mechanism mounted in the running device, comprising; i) a flow guide body disposed in the upper run, wherein the forward part of the flow guide body is constructed as a tube having a through hole extending obliquely on the top wall, the flow guide body having an axially expanding hole of smaller diameter at the front part and a larger diameter at the rear part, while an end stopper is stuck in the rear part of the flow guide body, thereby forming a main air passage at the front part and a flow guide chamber at the rear part thereof, the flow guide chamber having an inlet opening communicating with upper and lower inlets of the upper and lower run, wherein the end stopper has an outlet opening which expands from the axial direction to the radial direction at the inner end thereof, wherein the outlet opening with an outlet channel in the greater part of the Ström ungsführungskörpers communicates, while the outlet channel is further connected to an upper and a lower outlet of the upper and lower run, wherein a stopper is provided to control the opening and closing of the air flow passage, wherein a connecting channel adjacent to the lower outlet and is connected to a secondary air channel on the outer side of the lower part of the tube, wherein the movement of the stopper is controlled by the take-off device; ii) a movable flow guide body arranged in the flow guide chamber having a slimmer front part and a wider rear part, an air piston at the front end of the flow guide piston being urged against the main air passage while a separator body at the rear end of the flow guide piston is introduced into the inner wall of the flow guide chamber so that the flow guide chamber is divided by the separator body in a front and a rear air pressure chamber with different pressure range, with a small through hole between the front and the rear air pressure pressure chamber is applied; and iii) a supply pipe placed around the pipe at the front end of the flow guide body, a return spring disposed around the front part of the supply pipe; wherein the stopper is used to control the opening or closing of the air flow passage, thereby causing a pressure difference between the front and rear air pressure chambers of the flow guide piston, and the feed tube is displaced forward by introducing a small amount of the air flow into the sub air passage, to push a color ball a bit forward; Thereafter, the paintball is ejected by means of a pushing force of an airflow into the main air passage. Paintball gun with air-controlled feed and ejection process according to claim 1, wherein the running device is composed of an upper and a lower run and both by means of fasteners together are. Paintball gun with air-controlled feed and ejection process according to claim 2, wherein the upper and the lower run each one upper and lower inlet and upper and lower Have outlet. Paintball gun with air-controlled feed and ejection process according to claim 1, wherein the running device is molded in one piece is. Paintball gun with air-controlled feed and ejection process according to claim 1, wherein the feed tube a flange at its rear end, at which one end the return spring is fixed, and wherein the running device with a corresponding Flange is fitted, against which the other end of the return spring is pressed, and wherein an O-ring around the outer periphery of the rear end the feed tube is created. Paintball gun with air-controlled feed and ejection process according to claim 1, wherein the separating body is a piston. Paintball gun with air-controlled feed and ejection process according to claim 1, wherein the separating body is a membrane. Paintball gun with air-controlled feed and ejection process according to claim 1, wherein the extraction device comprises a trigger, a firing circuit, Contains batteries and controls. Paintball gun with air-controlled feed and ejection process according to claim 8, wherein the control element includes a stopper. Color bullet gun with air-controlled feed and discharge operation according to claim 8, wherein the air pressure source from an air pressure tank is fed.